한국해양과학기술원

2019년 연보

Korea Institute of Ocean Science & TechnologyAnnual Report 2019

KIOSTKOREA INSTITUTE OF OCEAN SCIENCE & TECHNOLOGY

한국

해양

과학

기술

원 2

019

년 연

보

The sea and the circle are infinite.It is connected endlessly and rotated.To study the sea and live with it.We’re all connected, too.

바다와 원은 무한하며

끝없이 연결되어 순환합니다.

바다를 연구하고

바다와 함께 살아가는 우리 또한

모두 연결되어 있습니다.

copyright © 2019 KIOST ALL RIGHTS RESERVED.

한국해양과학기술원

2019년 연보

Korea Institute of Ocean Science & TechnologyAnnual Report 2019

KIOSTKOREA INSTITUTE OF OCEAN SCIENCE & TECHNOLOGY

01 2019올해의KIOST인

KIOST Person of the Year20

02 미래를열어가는KIOST

KIOST’s Preparation for the Future22

인사말

Greetings from the President06

2019KIOST주요뉴스

2019 KIOST Main News08

조직도

Organization Chart10

비전및추진전략

Vision & Strategy12

지적자산

Knowledge Assets14

연구인프라

Research Infrastructure16

KIOST 2019 REMARKABLE KIOST

PART I.

연구활동RESEARCH ACTIVITIES

PART II.

01 해양환경·기후연구본부

Marine Environmental & Climate Research Division26

02 해양자원연구본부

Marine Resources Research Division32

03 해양공학연구본부

Coastal & Ocean Engineering Division 38

04 해양영토연구본부

Marine Domain Management Research Division44

05 해양연구기반부

Ocean Research, Operations & Support Department50

06 해양정책연구소

Ocean Policy Institute56

07 남해연구소

South Sea Research Institute62

08 동해연구소

East Sea Research Institute68

09 제주연구소

Jeju Research Institute76

10 2019논문목록

2019 Paper List(SCIE) 82

01 해양연구선운영

The KIOST Fleet94

02 해양인재양성

KIOST Academic Programs104

03 국제협력

International Cooperation106

04 홍보

Public Relations112

05 해양학술정보자원제공및출판

Providing and Publishing Oceanographic Information Resources

116

연구지원활동RESEARCH SUPPORT ACTIVITIES

PART III.

01 2019KIOST포상

2019 KIOST Award122

02 주소록

Contact128

03 KIOST본원건물배치도

KIOST Headquaters Government Office Building Layout130

PART IV.

부록APPENDIX

세계 최고 수준의 연구진들이 모여 국내외의 해양 문제를 해결하고 미래의 인력을 양성합니다.

한국해양과학기술원의 우수한 연구는 국민의 행복과 인류 발전을 향해 나아가고 있습니다.

바다에서 찾는 국민의 행복!인류에 공헌하는 해양과학기술!

The Korea Institute of Ocean Science and Technology (KIOST), which gathers together the finest researchers in the world, performs extraordinary research and nurtures talented individuals for the future, in order to solve ocean-related problems at both the national and international level. We are taking the lead in research that makes people happy and contributes to humanity.

People’s Happiness Found in the Ocean!Ocean Science and Technology Contributing to Humanity!

2019년에도KIOST는해양과학기술연구를통해국민삶의질향상,해양에서발생하는재해·재난으로부터의안전확보,국가의혁신성장과해양

현안해결을위해노력하였습니다.또한,기후변화,해양환경보전등인류가함께해결해야할문제에대해서도지속적으로연구를수행하여의미

있는성과를거두었습니다.

독자적으로개발한‘수중건설로봇3종’기술을민간기업에이전한성과는연구성과실용화의모범사례로꼽히고있으며,우리나라주변에서발생

한각종해양사고현장에서도KIOST는전문가와연구인프라를활용한지원활동을적극수행하였습니다.

또한기후변화에따라점점강해지고있는태풍과해양의역학에대한연구는국제적으로도주목을받고있고,해양환경분야에서는최근5년간

미세플라스틱연구역량평가에서전세계3위로평가되어세계적수준의연구역량을보유하고있습니다.

이렇게축적되는KIOST의연구성과들이대한민국의경쟁력이되고인류의미래를밝히는등불이될것입니다.인구증가와자원고갈등의문제

에직면하면서바다가21세기를이끌어갈성장동력으로주목받고있기때문입니다.

앞으로도KIOST에많은관심과격려를부탁드립니다.감사합니다

한국해양과학기술원장김웅서

인사말Greetings from the President

바다에서 찾는 국민의 행복,

인류에 공헌하는 해양과학기술

KIOST가추구하는비전입니다.

Woong-Seo Kim

In 2019, research on ocean science technology by KIOST focused on improving quality of life, safeguarding against maritime natural disasters, leading the country toward innovation, and resolving maritime issues. In addition, through continuous research, we were able to achieve meaningful results on global issues that need to be addressed by humanity as a whole, such as climate change and preservation of the marine environment.

The successful transfer of our technology (three types of underwater construction robots) to private companies is considered as an ideal example of the utility of research products. In addition, KIOST has continued to provide support at various marine accident sites near our country through its experts and research infrastructure.

Furthermore, our research on typhoons, which have become increasingly stronger with climate change, and the dynamics of the sea has gained traction internationally. In the field of marine environmental studies, our facility has been ranked third in research competency evaluation for microplastics for the past five years, demonstrating that we indeed possess world-class research capacity.

As a result, these research achievements of KIOST will stand as a milestone for Korea and serve as a shining beacon for the future of humanity. This is because the world has to turn its focus to oceans as valuable resource in the 21st century in light of problems related to population growth and the scarcity of resources.

We hope you will continue to show KIOST your support and interest. Thank you.

Deriving Happiness from the Sea and Developing Ocean Science Technology that Contributes to the Benefit and Safety of Humanity. This is the vision of the Korea Institute of Ocean Science and Technology (KIOST).

Korea Institute of Ocean Science and Technology President

2019 KIOST 주요 뉴스2019 KIOST Main News

연혁History

“해양과학기술을 통한 비전 제시

세계적 해양강국을 이끌어갈 미래 세대 양성

쉼 없는 전진과 눈부신 성과의 KIOST”

재단법인 한국해양연구소 설립

(KIST로부터 분리독립)

Separated from KIST

한국해양연구원으로 명칭 변경

Adopted new corporate identity

부설 극지연구소 설치

(인천 송도)

Korea Polar Research Institute(KOPRI) established in Incheon as independent subsidiary body

한국해양과학기술원 설립

Korea Institute of Ocean Science & Technology(KIOST) was officially launched

부설 선박해양플랜트연구소 설치

(대전 유성)

Korea Research Institute of Ships and Ocean Engineering(KRISO) established as an independent subsidiary body

한국해양과학기술원 본원 이전

(부산 동삼혁신지구)

Relocation of the head office of the KIOST to Busan Science & Technology(KIOST)

한국해양과학기술원

제10대 김웅서 원장 취임

Woong-Seo Kim was inaugurated as the 10th President of the Korea Institute of Ocean Science and Technology

KIST 부설 해양개발연구소 창립

Korea Ocean Research & Development Institute(KORDI) was established under KIST

199006. 01

200101. 01

200404. 16

201207. 01

201401. 01

201712. 22

201805. 17

197310. 30

수중건설로봇 R&D

성과보고회 개최

The R&D performance review of underwater construction robots

독자적으로 개발한 수중건설로봇

3종 기술을 민간기업에 이전했다.

Transferred the proprietary technology of three types of underwater construction robots to private enterprises.

국내 최초 장거리드론 개발·시험비행 성공

Successful development and test flight of the first long-distance drone in Korea

국내 최초로 2시간 이상 장거리 비행이 가능한

‘하이브리드 VTOL(Vertical Take-Off and Landing,

수직이착륙) 드론’을 개발하여 시험비행에 성공했다.

For the first time in Korea, we have developed and succeeded in the test flight of a hybrid vertical take-off

and landing (VTOL) drone that can fly long distances for two hours or longer.

2019년도 과학교사 해양관측

실습·연수

Training science teachers in oceanographic observation.

KIOST가 보유한 첨단 해양과학

연구 장비와 연구선을 활용하여 전국

초·중·고교의 과학교사들에게 해양과학 교육

역량강화의 기회를 제공했다.

Provided an opportunity to strengthen the education of ocean science by training elementary, middle, and high school science teachers across the nation using the cutting-edge ocean science research tools and vessels in the possession of KIOST.

‘제주 키오드림 홀(Jeju KIO-Dream Hall)

제주연구소 홍보전시공간 현판식 개최

Signboard hanging ceremony of the promotional exhibition space in the Jeju Research Institute, ‘KIO-Dream Hall’

KIOST 제주연구소의 연구성과를 홍보하고, 전국의 학생에게

해양과학자의 꿈을 키워주기 위해 ‘제주 키오드림 홀

(Jeju KIO-Dream Hall)’을 개관했다.

Promoted the research achievements of the Jeju Research Institute and opened the ‘Jeju KIO-Dream Hall’ to help students from Jeju as well as

the rest of the nation to become marine scientists.

㈜골든포우와 기술이전 협약 체결

Technology transfer agreement with Goldenpow Co.

양식장에서 사용하는 스티로폼 부표를 대체할 수 있는 새로운 소재의

부표를 개발하여 기술이전 협약을 체결했다.

Technology transfer agreement on the development of new buoys that can replace the current styrofoam buoys used in farming.

January

01

March

03

April

04

8 KIOST Annual Report 2019

August

08

September

09

October

10

December

12

November

11

제8회 대한민국 교육기부

박람회 참가

Participated in the 8th Education Donation Fairs.

2019년 대한민국 교육기부

박람회에 참여하여 약 140여

개의 기업·기관 중 연구성과 전시

및 KIOST 본원건물을 형상화한

전시부스를 운영하고, 해양과학

체험프로그램을 제공했다.

Participated in the 2019 Education Donation Fairs alongside

approximately 140 enterprises and organizations, wherein KIOST

operated an exhibition booth showing research achievements

and a model of the KIOST headquarters. A marine science

experiential program was also conducted.

2019 KIO-Dream 열대해양캠프

(구 장영실 주니어 연구단)운영

KIO-Dream Tropical Ocean Camp (Previously known as Jang Yeongsil Junior Research Group)

해양과학기술 분야 미래 인재 양성을 위해

‘KIO-Dream 열대해양캠프’를 운영했다.

2007년 이후 13년째 및 해양과학 문화

확산을 목표로 열대해양캠프를 개설하여,

올해 13회차를 맞이했다.

Operated the “KIO-Dream Tropical Ocean Camp” to train future talent in the field of marine science. It was the 13th camp (since 2007), which aims to expand the culture of marine science.

‘독도의 지속가능한 이용 연구’

성과를 담은 도서 발간

Publication of a book that records the achievements of the “research on the

sustainable use of Dokdo”

‘바닷속 숨겨진 독도를 만나다’ 시리즈

3종, ‘독도바다, 숨어있는 숫자’ 등 KIOST

독도전문연구센터에서 수행한 ‘독도의

지속가능한 이용연구’ 성과를 집약한

도서를 발간했다.

Operated the “KIO-Dream Tropical Ocean Camp” to train future talent in the field

of marine science. It was the 13th camp (since 2007), which aims to expand the

culture of marine science.

지역사회 공헌 ‘희망상자 만들기’ 참여

Participation in the regional contribution campaign, “Building Boxes of Hope”

사직실내체육관에서 열린 지역사회 저소득계층의

행복한 명절나기를 위한

‘희망상자 만들기’ 행사에 참여했다.

Participated in the “Building Boxes of Hope” campaign held in Sajik Arena as a part of holiday

celebrations for low income households in regional societies. 제주연구소 3개 연구실

‘안전관리 우수연구실’ 인증

Three laboratories in the Jeju Research Institute won

“Exemplary Laboratories for Safety”

KIOST 제주연구소 내 3개 연구실이

과학기술정보통신부가 인증하는

‘2019년 안전관리 우수연구실’에 선정됐다.

Three laboratories in the KIOST Jeju Research Institute were selected by the Ministry of Science and ICT as 2019’s “Exemplary Laboratories for Safety.”

해양쓰레기의 효율적인

관리를 위한 토론회

Debate on the effective management of marine waste

해양쓰레기 문제에 대한 사회적 관심 고취

및 해양 쓰레기 관리와 재활용을 위한

실질적 정책 대안을 논의하기 위한

토론회를 진행했다.

Organized a debate to discuss realistic policies to facilitate an increase in awareness of the marine waste problem and the management and recycling of marine waste.

9

조직도Organization Chart

혁신조정실

Innovative Coordination Section

홍보실

Public Relations Section

· 한중해양과학공동연구센터

Korea-China Joint Ocean Research Center

· 한페루해양과학기술공동연구센터

Korea-Peru Joint Ocean Research Center

· KIOST-NOAA Lab

· KIOST-PML Lab

· 태평양해양과학기지

Korea · South Pacific Ocean Research Center

· 한·인니 해양과학공동연구센터

Korea-Indonesia Marine Technology Cooperation Research Center(MTCRC)

국제협력부

International Cooperation Department

· 미래전략실

Strategy Section

· 해양법 제도연구실

Oceans Law & Legal Regime Research Section

· 해양신산업연구실

Ocean Innovative Market Research Section

해양정책연구소

Ocean Policy Institute

· 기획실

Planning Section

· 예산실

Budget Section

· 정보전산실

Computing Information Section

감사부

Division of Audit & Inspection

원장President

감사Auditor

이사회

The Board

부원장 Vice President

· 연구개발실

Research Project Development Affairs Section

· 연구관리실

Research Project Services Section

· 기술사업화실

Technology Transfer & Commercialization Section

연구개발부

Research Project Development

Division

부설 선박해양플랜트연구소

Korea Research Institute of Ships and Ocean engineering(KRISO)

부설 극지연구소

Korea Polar Research Institute(KOPRI)

· 인사실

Human Resources Management Section

· 총무실

General Affairs and Security Section

· 시설안전실

Facilities Safety Section

· 재무실

Account Section

· 구매실

Procurement Section

행정부

Operation and General Business

Support Division

경영본부

Management Division

기획부

Management and Planning

Division

10 KIOST Annual Report 2019

· 해양생명공학연구센터

Marine Biotechnology Research Center

· 심해저광물자원연구센터

Deep sea Mineral Resources Research Center

· 대양자원연구센터

Global Ocean Research Center

· 해양생물자원연구단

Marine Bio-Resources Research Unit

통영해양생물 자원기지Tongyoung Marine Living

해양자원연구본부

Marine Resources Research Division

해양공학연구본부

Coastal & Ocean Engineering Division

· 연안개발 에너지연구센터

Coastal Development and Ocean Energy Research Center

울돌목조류발전기지Uldolmok Tidal Power Station

· 해양 ICT 융합연구센터

Maritime ICT R&D Center

· 해양로봇실증단

Maritime Robotics Test and Evaluation Center

· 해양순환 기후연구센터

Ocean Circulation and Climate Research Center

· 해양생태연구센터

Marine Ecosystem Research Center

· 해양환경연구센터

Marine Environmental Research Center

· 해저활성단층연구단

Marine Active Fault Research Center

해양환경·기후연구본부

Marine Environmental & Climate Research Division

· 생태위해성 연구부

Ecological Risk Research Division

위해성분석연구센터Risk Assessment Research Center

선박평형수연구센터 Ballast Water Research Center

· 해양시료도서관

Library of Marine Samples

· 연구선운영실

Vessel Management Section

연구선관측팀Marine Observation Team

연구선운항팀 Vessel Operation Team

· 운영관리실

General Management Section

남해연구소

South Sea Research Institute

South Sea

· 동해환경연구센터

East Sea Environment Research Center

연안침식연구팀Coastal Morphodynamics Team

· 독도전문연구센터

Dokdo Research Center

· 운영관리실

General Management Section

· 울릉도·독도해양연구기지

Ulleungdo·Dokdo Ocean Research Station

동해연구소

East Sea Research Institute

East Sea

· 제주특성연구센터

Jeju Marine Research Section

· 운영관리실

General Management Section

제주연구소

Jeju Research Institute

Jeju Island

한국해양과학기술원은 전문적인 연구와 분야 간 융합이 가능한 조직을 통해

세계 최고 수준의 해양과학기술 연구 기관을 만들어가고 있습니다.

우리는 투명하고 책임감 있는 자세로 국민의 행복과 인류 발전에 공헌하고 있습니다.

The Korea Institute of Ocean Science & Technology (KIOST) is being shaped into the world’s best marine science and technology research institute through specialized research and is an organization in which the convergence of different fields is possible. We are contributing to the happiness of citizens and development of humanity with a sincere and responsible attitude.

KIOST스쿨

KIOST School and Academic Programs Division

· 해양위성센터

Korea Ocean Satellite Center

· 해양기기개발 운영센터

Instrumental Development & Management Center

· 해양빅데이터센터

Marine Bigdata Center

· 해양학술정보실

Ocean Science Library

· 종합연구선건조사업단

Research Vessel Building Unit

해양연구기반부

Ocean Research, Operations & Support Department

· 해양방위 안전연구센터

Marine Security and Safety Research Center

· 해양재난 재해연구센터

Marine Disaster Research Center

· 관할해역지질연구단

Korean Seas Geosystem Research Unit

해양영토연구본부

Marine Domain Management Research Division

11

비전 및 추진전략Vision and Strategy

바다에서 찾는 국민의 행복,

인류에 공헌하는 해양과학기술

Vision

공정성Fairness

책임성Responsibility

임무중심 조직

운영 및 과제

대형화

01

국민생활

공감형

협력연구 수행

03

공정·윤리기반

연구중심

경영체제 확립

04

4차산업혁명

대응 해양산업

허브 조성

02

추진전략Strategy

Superior세계5대연구기관으로

글로벌 리더 부상

Mutual상생발전하는

KIOST

Altruistic가족같은

연구원

RemarkableExcellence

in Ocean

Timely국민에게 신뢰받는

KIOST

기후·해양환경 변화 대응 해양 전략자원 개발 첨단해양공학기술 창출 해양영토관리

기후변화 예측 및

해양환경 변화 대응

연구분야별 우수인력

채용 및 양성해양바이오, 전략광물자원 개발 및

미개척 대양 신 자원 탐사

해양공학핵심기술 및

첨단장비 개발

해양방위, 재난 및

공간관리 기술 개발

전략 목표경영추진 방향

중소기업과 동반성장을 위한

협력플랫폼 구축

기관운영 투명성

행정업무 경감을 통한

연구몰입환경 구축

대외적 경쟁력 향상

수월성E�ectiveness

핵심가치Core value

개방성Openness

국가해양과학기술 발전과

국제적 경쟁력 확보

경영목표Managerial objective

● 융복합 연구로 선도적 해양과학기술 역량 강화

● 국가, 사회 현안 해결

● 해양신산업 발굴, 육성, 산업화

MISSION

12 KIOST Annual Report 2019

비전 및 추진전략Vision and Strategy

바다에서 찾는 국민의 행복,

인류에 공헌하는 해양과학기술

Vision

공정성Fairness

책임성Responsibility

임무중심 조직

운영 및 과제

대형화

01

국민생활

공감형

협력연구 수행

03

공정·윤리기반

연구중심

경영체제 확립

04

4차산업혁명

대응 해양산업

허브 조성

02

추진전략Strategy

Superior세계5대연구기관으로

글로벌 리더 부상

Mutual상생발전하는

KIOST

Altruistic가족같은

연구원

RemarkableExcellence

in Ocean

Timely국민에게 신뢰받는

KIOST

기후·해양환경 변화 대응 해양 전략자원 개발 첨단해양공학기술 창출 해양영토관리

기후변화 예측 및

해양환경 변화 대응

연구분야별 우수인력

채용 및 양성해양바이오, 전략광물자원 개발 및

미개척 대양 신 자원 탐사

해양공학핵심기술 및

첨단장비 개발

해양방위, 재난 및

공간관리 기술 개발

전략 목표경영추진 방향

중소기업과 동반성장을 위한

협력플랫폼 구축

기관운영 투명성

행정업무 경감을 통한

연구몰입환경 구축

대외적 경쟁력 향상

수월성E�ectiveness

핵심가치Core value

개방성Openness

국가해양과학기술 발전과

국제적 경쟁력 확보

경영목표Managerial objective

● 융복합 연구로 선도적 해양과학기술 역량 강화

● 국가, 사회 현안 해결

● 해양신산업 발굴, 육성, 산업화

MISSION

13

해양전문인력

보유 현황 Human resource

연구분야 Research Field

지식재산권 현황 Intellectual Property Rights

기후·해양환경 변화 대응

● 해양기후변화 감시와 예측

● 해양환경변화 대응 생태계 변동 추적

● 해양환경 감시 및 관리기술 개발

지적 자산Knowledge Assets

해양영토관리

● 해양방위 및 안전기술 개발

● 해양공간통합관리연구

● 해양재난·재해 피해저감 예측기술 개발

해양전략자원 개발

● 해양생물·유전자원 활용기술 개발

● 전략광물자원 개발역량확보

● 대양·극한지 탐사와 신자원 발굴

첨단해양공학기술 창출

● 해양에너지 및 항만·해양 구조물 기술 개발

● IoT 기반 해양로봇 및 장비 기술 개발

● 해양위성 시스템 및 핵심활용기술 개발 고도화

166명

전문학사 이하

Associate degree

석사Master’s degree

187명

학사First degree

178명

12%

26.3%

14.1%

20.8%

16.3%

명

1.9%

3.0%

5.6%

764

해상안전

기타

해양연구 인프라

해양생명공학

해양관측 및 예보

해안 및 해양 공학

해양자원

연구

분야

별

해양환경

Doctor of Philosophy

박사

233명

학위

별

특허출원

국내

75 건 국외

7 건

특허등록

국내

56 건 국외

5 건

특허Patent

스타트업Start-up 10 곳

창업지원

작년 대비 +42

논문 SCIEResearch Paper(SCIE)

270 건

2019

10 곳

14 KIOST Annual Report 2019

해양전문인력

보유 현황 Human resource

연구분야 Research Field

지식재산권 현황 Intellectual Property Rights

기후·해양환경 변화 대응

● 해양기후변화 감시와 예측

● 해양환경변화 대응 생태계 변동 추적

● 해양환경 감시 및 관리기술 개발

지적 자산Knowledge Assets

해양영토관리

● 해양방위 및 안전기술 개발

● 해양공간통합관리연구

● 해양재난·재해 피해저감 예측기술 개발

해양전략자원 개발

● 해양생물·유전자원 활용기술 개발

● 전략광물자원 개발역량확보

● 대양·극한지 탐사와 신자원 발굴

첨단해양공학기술 창출

● 해양에너지 및 항만·해양 구조물 기술 개발

● IoT 기반 해양로봇 및 장비 기술 개발

● 해양위성 시스템 및 핵심활용기술 개발 고도화

166명

전문학사 이하

Associate degree

석사Master’s degree

187명

학사First degree

178명

12%

26.3%

14.1%

20.8%

16.3%

명

1.9%

3.0%

5.6%

764

해상안전

기타

해양연구 인프라

해양생명공학

해양관측 및 예보

해안 및 해양 공학

해양자원

연구

분야

별

해양환경

Doctor of Philosophy

박사

233명

학위

별

특허출원

국내

75 건 국외

7 건

특허등록

국내

56 건 국외

5 건

특허Patent

스타트업Start-up 10 곳

창업지원

작년 대비 +42

논문 SCIEResearch Paper(SCIE)

270 건

2019

10 곳

15

인건비

41,221

재정현황Financial Activities

이사부호전 지구해양 / 5,897톤

황해의 환경보호와

자원개발에 대한 협력

한국-인도네시아 간 해양과학기술

공동연구사업 발굴 및 추진

해양자원 확보와 해양경제영역 확대 거점

국내 보유 생물자원의 확보

중남미 지역 해양 연구협력

이어도호국내연근해지역 / 357톤

장목1호국내연해지역 / 41톤

장목2호국내연해지역 / 35톤

온누리호동중국해 대한해협 / 1,370톤

동해지역 현안해결

● 남해지역 현안해결● 최첨단 종합해양연구선의 중심

● 제주지역 현안문제 해결● 해양 바이오 산업 연구

울릉도와 독도 연구

울릉도,독도

해양연구기지

한·중해양과학

공동연구센터

동해연구소(분원)

남해연구소(분원)

제주연구소(분원)

미국 해양연구기관과의 협력 강화

국내 최대

해양과학기술 연구 기관

본원(부산)

KIOST-PML Lab

한·인니해양과학

공동연구센터

태평양해양과학기지

KIOST-NOAA Lab

영국 및 EU권역

협력 강화

한·페루해양과학기술공동연구센터

기타

1,692

정부출연금

89,244

민간수탁: 4,100

기타연구: 500

기술료: 500

자체수입

78,682정부수탁: 68,490

총계 : 164,626백만 원

수입총계 : 164,626백만 원

지출

경상운영비

9,047

경상운영비

9,047

직접비

90,861정부수탁: 50,020

민간수탁: 2,794

기타연구: 500

주요사업: 37,547

기타

23,497

시설비: 20,689

기타: 2,808

연구 인프라Research Infrastructure

국내외 주요 연구거점Overseas & Domestics Research Activities of KIOST

(단위: 백만 원)(단위: 백만 원)

16 KIOST Annual Report 2019

인건비

41,221

재정현황Financial Activities

이사부호전 지구해양 / 5,897톤

황해의 환경보호와

자원개발에 대한 협력

한국-인도네시아 간 해양과학기술

공동연구사업 발굴 및 추진

해양자원 확보와 해양경제영역 확대 거점

국내 보유 생물자원의 확보

중남미 지역 해양 연구협력

이어도호국내연근해지역 / 357톤

장목1호국내연해지역 / 41톤

장목2호국내연해지역 / 35톤

온누리호동중국해 대한해협 / 1,370톤

동해지역 현안해결

● 남해지역 현안해결● 최첨단 종합해양연구선의 중심

● 제주지역 현안문제 해결● 해양 바이오 산업 연구

울릉도와 독도 연구

울릉도,독도

해양연구기지

한·중해양과학

공동연구센터

동해연구소(분원)

남해연구소(분원)

제주연구소(분원)

미국 해양연구기관과의 협력 강화

국내 최대

해양과학기술 연구 기관

본원(부산)

KIOST-PML Lab

한·인니해양과학

공동연구센터

태평양해양과학기지

KIOST-NOAA Lab

영국 및 EU권역

협력 강화

한·페루해양과학기술공동연구센터

기타

1,692

정부출연금

89,244

민간수탁: 4,100

기타연구: 500

기술료: 500

자체수입

78,682정부수탁: 68,490

총계 : 164,626백만 원

수입총계 : 164,626백만 원

지출

경상운영비

9,047

경상운영비

9,047

직접비

90,861정부수탁: 50,020

민간수탁: 2,794

기타연구: 500

주요사업: 37,547

기타

23,497

시설비: 20,689

기타: 2,808

연구 인프라Research Infrastructure

국내외 주요 연구거점Overseas & Domestics Research Activities of KIOST

(단위: 백만 원)(단위: 백만 원)

17

PART. I

KIOST 2019

REMARKABLE KIOST

01 2019 올해의 KIOST인

KIOST Person of the Year

02 미래를 열어가는 KIOSTKIOST’s Preparation for the Future

장인성Insung Jang

해양로봇실증단 / 단장

Underwater Construction Robotics R&D Center / Director

2019 올해의 KIOST인KIOST Person of the Year

융합연구는필수입니다.

그리고융합의

진정한시작은

상대방에대한관심과

이해입니다Fusion research is a must, and fusion begins only with an interest in and understanding of the other party.

담당업무 해양구조물 및 수중로봇 개발

Operation Development of Underwater Robotics and Maritime Structures

수상 2019년 대통령상(바다의 날)

Award Won the 2019 Presidential Award for the Day of the Sea

특허 수중건설장비의 속도가변장치

Patent Apparatus to change velocity of underwater- construction equipment

논문 •The Study on Trafficability Assessment of Tracked Vehicle on Soft Seabed

•Turbidity Characteristics of Korean Port Area

•Evaluation of Coefficient of Consolidation for Dilatory Dissipation in Piezocone Test in Overconsolidated Cohesive Soils

Research Paper

20 KIOST Annual Report 2019

해양플랜트,해양에너지,항만,해상풍력

등의산업이성장함에따라바다는해양

구조물시공과유지관리를위해로봇의

필요성이점점더커지고있다.장인성

박사는해양수산부연구개발사업인

수중건설로봇사업단의단장을역임하면서

책임자로참여한10개의연구포함

해양구조물및로봇과관련된약85개

프로젝트에참여하여사업을성공적으로

완수하는데기여하였다.특히,3가지종류의

수중건설로봇(ROV,RemotelyOperated

Vehicle)을성공적으로개발하여이기술을

기업들에이전하여상용화의기반을

구축하였다.

With the development of offshore plants, marine energy, harbors, and offshore wind power industries, the ocean is becoming an environment in need of robots more so than any other owing to an increasing need for the construction and management of marine structures. Dr. Insung Jang, while serving as the leader of the Underwater Construction Robot Project Group, a research and development project of the Ministry of Maritime Affairs and Fisheries, contributed to the successful completion of approximately 85 projects related to marine structures and robots, including 10 in which he participated as project manager. In particular, he has successfully developed three types of remotely operated vehicles (ROVs) and transferred all of them to companies, laying the foundation for the commercialization of these technologies.

수중건설로봇 상용화 성공의 의미는?

성공한연구가실생활에쓰이는기술로이어지기얼마나어려운지를표현하기위한

용어로‘데스밸리’라는말이있다.해양분야도마찬가지다.미래의해양개발을위해

수중건설로봇사업은예비타당성조사를거쳤다.

1단계사업(2013~2019)을통해3가지종류의로봇을국내기술로개발하고성능을성공

적으로검증함으로써상용화기반을구축하였으며,실증및확산사업(2019~2022)을

통해현장실적(TrackRecord)을확보하였다.연구개발결과물의명실상부한상용화를

추진하고있다는점에서수중건설로봇상용화사업의가치는높다고할수있다.

다음 계획은?

2단계사업으로3가지수중건설로봇의실증및확산을통해다양한실험데이터를추가

적으로확보하고,실제현장에투입하여실적을최대한확보할계획이다.또한수중건설

로봇사업단에서의경험을바탕으로다양한형태와목적의수중로봇및장비를개발하고

수중로봇에대한저변을확대하며,관련인력양성에도기여하고자한다.

올해의 KIOST인으로 선정된 소감

처음건설과로봇의융합이라는측면에서많은우려와걱정이있었던것이사실이다.

하지만현재토목,기계,전기,전자,로봇,해양공학등다양한분야의전문가들이한마

음으로연구개발하여수중건설로봇기술의국산화와함께상용화를성공적으로추진

하고있다.정말많은분들이바로옆에서,그리고뒤에서도와주고지원해주고있다.

감사하다고말씀드리고싶다.

Value of this study?

“Death valley” is a term used to depict how difficult it is for a successful study to culminate in the development of a practical technology. However, this project aims at the com-mercialization of underwater construction robots, which are crucial for future maritime development and which have passed the preliminary feasibility study.By developing three types of robots with domestic technology in the first phase (2013–2019) and successfully testing their performance, the groundwork for commercialization has already been laid. Moreover, this project has a high value, as it strives for the true commercialization of research and development results by securing strong track records during the verification and diffusion project (2019–2022).

Next step?

Through the verification and diffusion project, which constitutes Phase 2 of the under-water construction robot project, we hope to obtain a variety of additional experimental data on the three types of underwater construction robots, and to put them on the field and accumulate as much data as possible. We want to develop various types of multi-purpose underwater robots and devices based on the experience of the Underwater Construction Robot Project Group, and to contribute to expanding the underwater robot sector as well as training-related human resources.

Thoughts

In the initial phase of our research on underwater construction robots, we had several doubts and concerns about the possibility of success in combining construction and robots. However, with concerted efforts by experts from various fields, including civil engineering, machinery, electricity, electronics, robotics, and ocean engineering, we are now promoting the localization and commercialization of underwater construction ro-bot technology. We are getting help and support from so many people and are grateful to everyone who has been helping us.

21

해양미생물유래항암·항치매기능성소재

발굴및활용기술개발

Discovery of anti-cancer and anti-dementia compounds from marine microorganisms and technology development for their application

미래를 열어가는 KIOSTKIOST’s Preparation for the Future

의,식,주.인류는생존하기위한모든것을생물로부터얻어왔다.육상의거의모든생물을이용

하고있는인류는고령화에따라발생하는질병치료제를육상에서얻기힘들어졌다.이에인류

는해양생물에시선을돌리기시작했다.이연구는해양생물량의90%를차지하고있지만1%

도연구되지않은대표적인미개척분야인해양미생물을주목한다.뛰어난생리활성을가진

해양미생물을찾고,이들이생성하는새로운물질을발견하고자한다.

Human beings have obtained all the necessities of life such as food, clothing, and shelter from living organisms. Currently, people utilize almost all living organisms on land. However, owing to an aging society, the number of incurable diseases is increasing for which therapeutic agents cannot be obtained from living organisms on land. Hence, research has shifted focus to marine organisms. This study sheds light on marine microorganisms, which account for 90% of the marine biomass with less than 1% having been investigated, and hence, represent a major field that has remained unexplored. Our study aims to identify marine microorganisms with potent biological activity and discover novel compounds produced by these microorganisms.

연구내용

국내외의다양한해양환경에서이미분리하여보존된해양미생물들을배양하고유기용매로

추출한후,농축하여추출물을조제한다.이추출물을대상으로항염,항암등의다양한생리활

성을검색하고,NMR분석결과및해양미생물의동정결과등을종합하여유용균주를선정

한후,활성물질분리를위하여유용한균주를100L발효기를사용하여대량배양한다.이렇게

배양한추출물을HPLC등을사용하여활성물질을분리하고정제한다.활성물질의구조,효능,

물성개선및생리활성의발현기작등을규명한후,산업적활용에적합하도록대량확보법을

개발한다.기능성소재별로동물실험모델을통해활성을검증한다.

Study description

The marine microorganisms that have already been isolated and preserved from various domestic and foreign marine environments will be cultivated and extracted using organic solvents. They will then be concentrated for the preparation of extracts. These extracts will be tested for various biological activities such as anti-inflammatory and anti-cancer activities. Combining the results from bioactivity tests, NMR analysis and marine microorganism identification, useful strains will be selected and cultured large-scale in a 100 L fermenter to separate the bioactive compounds. From the extract prepared from the culture, the bioactive compounds will be isolated and purified using HPLC. The structures, efficacies, optimization of properties, and mechanism of biological activities of the bioactive compounds will be elucidated and mass production of these compounds will be developed for industrial application. The activity of each functional compound will be tested in animal models.

신희재

Hee Jae Shin

해양생명공학연구센터 / 책임연구원

Marine Biotechnology Research Center / Principal Research Scientist

22 KIOST Annual Report 2019

향후 활용

이연구의일차목표는암과치매에효과적인치료제개발에도움이될수있는선도물질을발

굴하는것이다.해양미생물에서추출한물질이많은사람을질병의고통에서구할수있다면,

해양미생물에서의약소재를발굴하는연구에대한관심이더욱커질것이다.이연구는앞으로

창출될해양신산업을위한실질적인기술적경험과방법론을축적하게될것이며,기능성소재

개발에필요한인력양성에도도움이될것이다.

Future application

The primary goal of this study is to discover lead compounds with therapeutic potential for cancer and dementia. If the compounds extracted from marine microorganisms can benefit many people suffering from these diseases, the research field of discovering medicinal materials from marine microorganisms will draw substantial attention. Our study will not only contribute to the accumulation of practical and technological experience and methodology for application in ma-rine industries that are to be created in the future, but also help train experts for the development of functional materials.

해양미생물은미개척분야다.이프로젝트를통해항암과

항치매에뛰어난활성을가지는새로운구조의선도물질을

도출하고,나아가세계수준의해양신소재를개발하는

기술을확보할수있을것이다.

The Key objective of this project is to obtain lead compounds with novel structures that have potent anti-cancer and anti-dementia activities from marine organisms and acquire cutting-edge technology for developing new marine materials.

해양미생물 확보

해양과기원

기 분리/보존 미이용/심해/공생

미생물의 활용

유도체화/구조 최적화

해양과기원

· 활성물질의 유도체화

· 구조-활성상관관계 규명

활성물질 발굴

해양과기원

· 활성물질 분리, 정제

· 활성물질의 구조규명

체계적인 활성검색

생공연/건국대/부경대/NCI

질환별/소재별 활성검색

효능/독성검증 작용기전 규명

건국대/서울대/부경대

· 동물모델에서 효능/독성 검증

· 작용기전 규명

선도물질 도출

23

PART. II

연구활동

RESEARCH ACTIVITIES

01 해양환경·기후연구본부

Marine Environmental & Climate Research Division

02 해양자원연구본부

Marine Resources Research Division

03 해양공학연구본부

Coastal & Ocean Engineering Division

04 해양영토연구본부

Marine Domain Management Research Division

05 해양연구기반부

Ocean Research, Operations & Support Department

06 해양정책연구소

Ocean Policy Institute

07 남해연구소

South Sea Research Institute

08 동해연구소

East Sea Research Institute

09 제주연구소

Jeju Research Institute

10 2019 논문 목록

2019 Paper List(SCIE)

해양환경·기후연구본부에서는 해양환경과 기후변화를 진단·예측하고

해양생태계에 미치는 영향을 연구하고 있다. 기후변화의 감시를 위해

해양관측망을 구축하고 수치모형 기술개발에 주력하고 있으며, 부영양화와

방사능과 같은 인위적 오염의 영향과 한반도 주변해와 대양에서 물질순환의

변화를 연구하고 있다. 궁극적으로 기후와 환경 압력에 따른 해양생태계의

구조와 기능의 변화를 이해하기 위해 물리, 화학, 지질, 생물의 전문성을

융합하여 우리원의 해양과학기술 개발의 초석을 다지고 있다.

The Marine Environmental and Climate Research Division conducts research to understand and predict marine environment and climate changes and how these pressures affect marine ecosystems. Establishing ocean observation systems and developing numerical modeling techniques are essential for climate research. Environmental studies target biogeochemical processes in the marginal seas and open ocean as well as pollution issues resulting from eutrophication and radionuclides. Through these studies fused by physical, chemical, geological and biological experts and focusing on understanding ecosystem structure and response to climate and environmental change, the Division plays a fundamental role in KIOST’s ocean science and technical development.

해양환경·기후연구본부

Marine Environmental & Climate Research Division

01

01 KIOST 지구시스템 모델 개발과 미래 기후변화 시나리오 생산

Development of the KIOST Earth System Model and production of future climate change scenarios

02 해양 방사능 사고 대응 관측 및 모델 정보제공 기술지원 체계 구축

Establishing a technical support system for providing in situ observations and model prediction information in response to marine nuclear accidents

03 한국 주변 해양 생태계 변동 이해 및 대응 기반 연구

A baseline study on understanding and responding to marine ecosystem changes in Korean waters

04 인공지능을 이용한 탄성파 해석 연구

A study on seismic data interpretation using artificial intelligence

연구책임자

이재학/책임연구원

Jaehak Lee / Principal Research Scientistjhlee@kiost.ac.kr

해양순환·기후연구센터에서는KIOST지구시스템모델(KIOST-ESM)을개발하고이를이용하

여미래기후변화시나리오를생산하였다.지구시스템모델은해양과대기를포함한자연환경

과그안에서살아가는식물,플랑크톤그리고인간활동과같은지구내의생태계를구성하는

모든요소들을수치적으로표현하여기후환경의변화를보다정확하게예측할수있는도구이

다.유엔산하기후변화에관한정부간협의체(IPCC)의기후변화5차평가보고서(2003)에서

지구시스템모델이사용되기시작했으나아직까지국내에서개발된지구시스템모델이사용된

예는없었다.KIOST-ESM은그동안대부분의지구시스템모델들이남극해의해표면수온을높

게모의했던문제점을해결하고엘니뇨변동성의모의성능이크게개선된것으로평가되어보

다정확한미래기후변화를전망하는데기여도가높을것으로기대된다.또한,KIOST-ESM을

이용하여기후변화시나리오를생산하게되어한국해양과학기술원도IPCC제6차기후변화평

가보고서에기여할수있게되었다.KIOST-ESM개발과기후변화시나리오생산은그동안선

진국에의존해왔던관련기술이국내기술로확보되었다는데의의가있다.향후우리나라기후

예측에보다적합한지구시스템모델로고도화하고미래기후변화전망과기후예측의정확도

를향상시키는데지속적으로활용할계획이다.KIOST-ESM은한국해양과학기술원이2009년

부터2019년까지한국연구재단의지원으로수행한‘통합기후예측시스템을위한기후예측시

뮬레이터개발및대양관측’사업의일환으로국내대학팀의참여하에개발되었으며,기후변

화시나리오생산은일부한국해양과학기술원의추가지원(KIOST해양순환모형서비스시스템

구축,한반도해역수온및해수면변화전망연구)으로수행되었다.

The Ocean Circulation and Climate Research Center developed the KIOST Earth System Model (KIOST-ESM), which was used to produce future climate change scenarios. The ESM is a powerful tool that can predict changes in the climatic environment more accurately by expressing numerically all the elements that make up Earth’s systems, including the oceans and atmosphere, plants, plankton, and human activities. The ESM was first used in the 5th Assessment Report (2003) of the UN Intergovernmental Panel on Climate Change (IPCC). The KIOST-ESM, which has greatly reduced the problem of warm bias in the sea surface temperature of the Southern Ocean and improved the simulation performance of El Niño variability, is expected to contribute to predicting more accurate future climate change. In addition, the KIOST-ESM will be used to produce future climate change scenarios that will allow KIOST to contribute to the IPCC 6th Assessment Report. The development of the KIOST-ESM and the production of climate change scenarios are meaningful in that the relevant technologies, which have so far been dependent on devel-oped countries, have been secured through domestic technologies. These advances will be used to upgrade the ESM to be more suitable for Korea’s climate prediction and to improve the accuracy of future climate change forecasts and climate predictions. The KIOST-ESM was developed with the participation of researchers from universities under the project ‘Development of climate prediction simulator and ocean observation for the integrated climate prediction system’ supported by the National Research Foundation of Korea from 2009 to 2019. The production of climate change scenarios was carried out with additional support from the KIOST in-house projects ‘Establishment of ocean circulation modelling service system’ and ‘A study for forecasting temperature and sea level change in the seas adjacent to the Korean Peninsula’.

KIOST지구시스템모델개발과미래기후변화

시나리오생산

Development of the KIOST earth system model and production of future climate change scenarios

01.

KIOST 지구시스템 모델로부터 계산된 표고 2m의

대기 온도 비교, 과거기후(1850-2014년)로부터

미래기후(2015-2100년) 시나리오

Area averaged annual mean air temperature at 2 m above surface in (Top) the global domain and (Bottom) the Korean Peninsula (125–130°E, 35–42°N) obtained from the ‘Historical run’ (1850–2014) and ‘ScenarioMIPs’ simulations (2015–2100) using the KIOST-ESM.

■ 비교적 높은 온실기체 배출 시 시나리오 SSP5-8.5

■ 중간 정도의 온실기체 배출 시 시나리오 SSP2-4.5

■ 낮은 온실기체 배출 시 시나리오 SSP1-2.6

■ 과거 기후 모의 결과

Blue, green, red, and black lines indicate projections obtained from SSP1-2.6, SSP2-4.5, SSP5-8.5 and the Historical run, respectively.

SSP585+3.75℃

SSP245+0.79℃

SSP126+0.20℃

한반도(125°–130°E, 35°–42°N)평균 기온

10.0

5.0

1850 1900 1950 2000 2050 2100

20.0

17.5

15.0

12.5

10.0

1850 1900 1950 2000 2050 2100

SSP585+2.63℃

SSP245+1.13℃

SSP126+0.03℃

전지구 평균 기온(℃)

연구활동

해양환경·기후연구본부

28 KIOST Annual Report 2019

연구책임자

김경옥/책임연구원

Gyeongok Kim / Principal Research Scientistkokim@kiost.ac.kr

이연구는우리나라주변해역에서발생하는해양인공방사능사고에효율적으로대응하기위

하여해양방사능관측및모델정보를제공하는기술지원체계를구축하는것을목표로한다.

2011년후쿠시마원전의방사능유출사고이후,인공방사능물질의한반도근해해수및퇴적물

내오염현황,농축계수DB구축과해양방사능물질확산및생물영향예측모델개발이지속적

으로이루어졌다.2019년부터진행되는후속연구에서는상기DB정보의확장및모델고도화

를추진하면서한반도주변에서일어날수있는원전사고에효율적으로대비할수있도록이들

을통합및체계화하고있다.2019년의대표적성과로는흡착및탈착과관련하여단일퇴적물입

경을고려한입자추적모델을다수의퇴적물입경을고려한입자추적모델로확장한것과중국부

유식해상원전에서발생할수도있는방사능물질의유출시나리오를가정한적용을들수있다.

This study aims to establish a technical support system that provides in situ radionuclide observations and model prediction information to efficiently respond to marine radioac-tivity accidents in sea regions adjacent to Korea. Since the 2011 Fukushima radioactivity accident, marine radionuclide contamination levels in waters and bottom sediments around the Korean Peninsula have been continuously monitored. A database of concentra-tion factors and numerical models to predict the dispersion and biological fate of marine radioactive materials have been developed. In a follow-up study from 2019, the database has been expanded and the models upgraded, integrating them as a system to effectively prepare for potential nuclear accidents around the Korean Peninsula. A representative achievement in 2019 was the expansion of the particle-tracking model, which considers single sediment particles to model multiple sediment particles in relation to adsorption and desorption. As such, the model applies the release of radioactive material from Chinese floating nuclear power plants according to hypothetical scenarios.

해양방사능사고대응관측및모델정보제공

기술지원체계구축

Establishing a technical support system for providing in situ observations and model prediction information in response to marine nuclear accidents

02.

후쿠시마 사고에 의한 세슘의 해수 표층 확산 시뮬레이션 결과 (600일 후)

Simulated sea-surface dispersion of cesium released from the Fukushima Accident

Cesium Dissolved (Atm+Direct) 600 Days

120̊ E 140̊ E 160̊ E 180̊ E 160̊ W

50̊ N

30̊ N

[Bq/㎡]

103

102

101

100

10-1

중국 해상원전 사고 발생시 세슘 해저면 분포 시뮬레이션

결과 (300일 후)

Simulated cesium distribution on the sea bed following hypothetical release from a Chinese floating nuclear accident

40̊ N

38̊ N

36̊ N

34̊ N

32̊ N

Cesium Adsorbed 300 Days

8̊ E 120̊ E 122̊ E 124̊ E 126̊ E

[Bq/㎡]

106

105

104

103

102

101

100

10-1

후쿠시마 사고 후 600일 간

해수 표층에서의 세슘 확산

변화 시뮬레이션 영상

29

Research ActivitiesMarine Environmental & Climate Research Division

03.

연구책임자

최동한/책임연구원

Dong Han Choi / Principal Research Scientistdhchoi@kiost.ac.kr

기후변화등으로해양환경은빠르게변화하고있으며이로인해해양생태계도예측하기어려

운빠른변화의위협에직면해있다.따라서,한반도주변해의해양환경과생태계의구조및기

능적특성파악을통한변동성추적기반구축은생태계변동을이해하고해양의지속가능한이

해를위해매우중요하다.우리나라주변해의생태계연구의일환으로2019년4월에온누리호

를활용하여황해의중동부해역에서광역적인조사를수행하여,물리,화학및생물해양학적

연구를수행하였다.본연구에서는세균,식물·동물플랑크톤및원생생물의생물량및군집조성

의특성,미생물먹이망을통한에너지흐름과안정동위원소를이용한먹이망구조연구를수행

하여춘계생태계구조및기능적특성을파악할수있었다.추후3년동안황해해양환경과생

태계에대한사계절특성을파악할예정이며,이를통해황해생태계의계절적특성에중요한

중규모해양학적과정을이해하고,환경변화에따른생태계변동을이해하고예측하는데기여

할것이다.

Climate change affects the marine environment and, thus, marine ecosystems can undergo

rapid changes, which are difficult to predict. Therefore, it is important to obtain fundamen-

tal baseline knowledge on the environment and its ecosystem characteristics to understand

such changes and contribute to guide the sustainable utilization of marine ecosystems. In

this study, we conducted a multidisciplinary oceanographic study in the central-eastern Yel-

low Sea and obtained fundamental data on the structure and function of the lower trophic

ecosystem. This included biomass and composition of diverse biological groups including

prokaryotes, phytoplankton, protozoa, and zooplankton; and energy flow data via prokar-

yotes and foodweb structures using stable isotope analyses. Additional investigations are

planned to elucidate seasonal changes in environmental and ecological characteristics over

the next three years. Results of this study will contribute to our understanding of mesoscale

oceanographic processes influencing seasonal characteristics of the Yellow Sea ecosystem

and to better predict future ecosystem change.

한국주변해양생태계변동이해및

대응기반연구

A base study to understand and counteract marine ecosystem changes in Korean waters

연구해역 유광대 수심에 대해 적분한 엽록소 a 값

Contour plot showing euphotic depth-integrated chlorophyll-a concentrations in the study area

연구해역의 중형저서생물의 서식밀도

Contour plot showing the abundance of benthic meiofauna in the study area(inds./10cm²)

(a) 표층 해수 수온과 표층뜰개의 궤적

(a) Surface seawater temperature and tracks of surface drifters

(b) 연구해역의 표층해수 수온의 등수온선

(b) contour plot showing surface seawatertemperature in the study area

150

100

50

0

38̊ N

37̊ N

36̊ N

35̊ N

34̊ N121̊ E 122̊ E 123̊ E 124̊ E 125̊ E 126̊ E 127̊ E 128̊ E

Longitude (̊ )

Lat

itude (̊

)

Euphotic depth-IntegratedChl-a (mg m-2)

38

37.5

37

36.5

36

35.5

35

34.5

34

33.5

360

320

280

240

200

160

120

80

40

0

340

300

260

220

180

140

100

60

20

121.5 122 122.5 123 123.5 124 124.5 125 125.5 126 126.5 127

122̊ E 124̊ E 126̊ E

34̊ N

36̊ N

38̊ N

Lat

itud

e (̊

)

34̊ N

36̊ N

38̊ N

37̊ N

35̊ N

121̊ E 122̊ E 123̊ E 124̊ E 125̊ E 126̊ E 127̊ E 128̊ E

Longitude (̊ )

8

9

10

11

12

13

연구활동

해양환경·기후연구본부

30 KIOST Annual Report 2019

04.

연구책임자

주형태/책임연구원

Hyeongtae Joo / Principal Research Scientisthtjou@kiost.ac.kr

해저지층구조를파악하기위한탄성파자료처리와해석에는많은시간과노력이필요하므

로취득한모든자료를면밀히해석하는것은현실적으로어려운일이다.최근인공지능에대한

연구가활발해지면서해저활성단층연구단은인공지능을탄성파자료해석에적용하고자하였

다.인공지능을이용하여탄성파단면의잡음억제,층서분석,단층해석등을수행하기위해학

습자료를구축하고인공지능구조를개발하는연구를수행하였다.인공지능은이미취득되었

거나앞으로취득될탄성파자료를빠르고정확하게해석할수있으므로한반도주변해저지층

구조및단층분포파악에큰기여를할것이다.

The processing and interpretation of seismic data require significant time and effort, which

precludes the fast and precise interpretation of the data in practice. Recognizing that artifi-

cial intelligence (AI) has become widely used in science and technology, the Marine Active

Fault Research Unit (MAFRU) seeks applications of AI to seismic data interpretation. The

current research of MAFRU includes constructing the training dataset and developing the

AI architecture to attenuate noise in seismic data as well as to classify layer boundaries and

identify faults. The AI technology of MAFRU is expected to contribute to the identification

of subsurface structures and fault distributions offshore of the Korean Peninsula by inter-

preting seismic data fast and accurately.

인공지능을이용한탄성파해석연구

A study on seismic data interpretation using artificial intelligence

(b) 인공지능을 통해 해석된 탄성파 층서

(b) Seismic strata interpreted using AI

(a) 탄성파 단면

(a) Seismic section

0.0

0.1

0.2

0.3

0.4

0.5

0.6

0 100 200 300 400 500 600

Tim

e (

s)

CDP0 100 200 300 400 500 600

CDP0 100 200 300 400 500 600

CDP

0.0

0.1

0.2

0.3

0.4

0.5

0.6

0 100 200 300 400 500 600

Tim

e (

s)

CDP0 100 200 300 400 500 600

CDP0 100 200 300 400 500 600

CDP

31

Research ActivitiesMarine Environmental & Climate Research Division

해양자원연구본부

Marine Resources Research Division

02

해양자원연구본부는 해양 생물자원 및 광물자원의 확보와 활용기술을 개발하고

신자원 발굴을 위한 대양 및 극한지 탐사를 추진하는 데 주도적 역할을 수행하고

있다. 전략금속자원을 장기적으로 확보하고 해양경제영토를 확장하기 위해 심해저에

분포하는 광물자원 탐사를 수행하고, 대양의 잠재 금속자원 및 신생물자원을 발굴,

그 생성 과정과 활용가능성을 확인하는 연구를 추진한다. 해양환경의 급격한 변화에

적합한 해양생물자원을 발굴하고 이용성을 극대화하는 기술을 개발하고 있으며

나아가 해양·극한생물의 생명현상 이해를 통한 생명공학 원천기술 및 해양생물 유래

신소재를 개발하는 데 힘쓰고 있다.

The Marine Resources Research Division carries out research activities to secure biological and mineral resources and explores extreme ocean environments for new potential resources. The exploration of deep seabed minerals and new metal and biological resources is carried out to secure a long-term supply of metallic and biological resources and to expand the economic territory. The research on marine biology and bio-technologies will lead to the discovery and utilization of these marine biological resources and new materials through understanding the life-histories of marine organisms.

01 해양미생물유래 항암·항치매 기능성 소재 발굴 및 활용 기술 개발

Discovery and development of application technology for anti-cancer and anti-dementia compounds from marine microorganisms

02 국제해저기구 의무이행 및 심해저 개발역량 확충연구

Fulfillment of obligations accruing from the contract with the ISA and capacity building for the commercial mining of polymetallic nodules

03 남서태평양 및 인도양 해양광물자원(해저열수광상, 망간각) 개발

Exploration of seafloor hydrothermal deposits and Fe-Mn crusts in the southwestern Pacific and Indian oceans

04 바리과 어류의 수출형 고부가 육종품종 개발

Development of golden seed lines of grouper fish

01.

연구책임자

이연주/책임연구원

Yeon-Ju Lee / Principal Research Scientistyjlee@kiost.ac.kr

해양생물에서유래한생리활성저분자화합물은유용성을지닌화합물(천연물)과독성을지닌

화합물(생물독)로분류할수있다.유용화합물의경우생물로부터분리한후분광분석과질량

분석등을통해구조를규명하고,효소나세포등에대한활성을검증하여활용가능한천연물을

발굴하는연구를한다.활용성이있는천연물은대량생산방법을구축할필요가있는데,이와관

련해서는생물메타게놈분석에기반한천연물생합성경로규명과이형발현에대한연구를진

행한다.생물독의경우에는적절한관리방안을구축하기위하여신속한정량,정성분석법을확

립할필요가있으며,이것이가능하도록표준시료생산이필요하다.이사업에서는해양생물독

중주로마비성패독에초점을맞추어연구를진행하며,표준시료생산법을확립하기위해자연

에서마비성패독의실제생산자로밝혀진와편모조류배양에대한연구를수행하고있다.이러

한연구를통해서천연물의활용,생물독의관리에대한기술적기반을구축할수있다.

Natural products from marine environments are a group of small molecular compounds de-rived from a variety of marine organisms, which exhibit useful biological activities. Biotoxins constitute a type of natural products but are distinct from the rest in that they exert toxic effects on living organisms. Research on natural products generally aims to discover sub-stances that can be used for medical applications, whereas research on biotoxins provides technical insights into their application in environmental management. In this project, for the discovery and utilization of biologically-active natural products, metabolites from marine invertebrates are being studied for their separation, identification, and production. Our research was particularly concerned with developing methods that can be used in the continuous production of natural products by the heterologous expression of natural product biosynthetic gene clusters in the near future. Biosynthetic gene clusters are now being discovered from the metagenomes of several marine sponges known to contain nat-ural products with potential medical applications. Biotoxin research is focused on paralytic shellfish toxin (PST), and the quantitative and qualitative analysis method using HPLC has recently been established. Efforts are now being made to establish preparation protocol for analytical standards for PST by identifying the optimal culture conditions for dinoflagellates, the primary producers of PST in natural environments.

해양생물기반생리활성화합물의확보와

응용·평가기술개발

Development of technologies for the production, application, and evaluation of small molecules from marine organisms

생리활성 천연물Bioactive Natural Products

천연물 분리/규명 유용성 탐색 Isolation and Identification

천연물 생합성 경로 규명(해면 메타게놈 분석 기반) Identification of Biosynthesis Gene Cluster

기능성 형광 분자소재 개발 Application – Fluorescent Probes

해양생물독 (마비성 독소)Biotoxins (PST)

마비성 독소 표준시료 합성, 분석 방법론 확립 Quantitative/Qualitative Analysis Method

마비성 독소 생산 기술 개발(와편모조류 배양)Production of Analytical Standard

미소 동물플랑크톤 활용 화합물 독성 평가기술 개발Toxicity Evaluation Method

연구사업 체계도

Schematic diagram describing the project design

독성

Toxicity유용성

Usefulness

생리활성 천연물 함유 해면 추출물 ¹H NMR 분석 결과

¹H NMR spectra of sponge extracts containing biologically active compounds

PST 생산 와편모조류

Dinoflagellates producing PST

추출물의 생리활성, 저분자 화합물 조성 분석Analysis of the Small Molecules in the Extract

해양 생물Marine Invertebrates

NRP

194CH-01

194CH-02

194CH-03

194CH-04

194CH-05

194CH-06

194CH-07

194CH-08

agelasine

therpenoid

bromopyrrole

terpenoid

aatamine

f1(ppm)10.0 9.0 8.0 7.0 6.0 5.0 4.0 3.0 2.0 1.0 0

1

2

3

4

5

6

7

8

HPLC 활용 PST 분석 결과

HPLC analysis of PST

5 10 15 20 25 mir

3

2

1

0

2.61

03.

408 7.32

8 8.32

38.

662

12.0

5612

.594

12.9

8613

.476

16.4

57 19.2

6520

.249

24.3

36

25.6

8726

.081

G4,G6

G1

G3

G2

dcNeodcSTX

STX

STX, GTX toxins

Neo

dcG3

G5,dcG2

5 10 15 20 25 mir

1.5

2

1

0.5

0

C toxins

C1

C2

2.96

9

5.66

2

6.88

4

24.3

56

26.1

51

연구활동

해양자원연구본부

34 KIOST Annual Report 2019

02.

연구책임자

지상범/책임연구원

Sang Bum Chi / Principal Research Scientistsbchi@kiost.ac.kr

본과제에서는태평양공해상에있는대한민국단독개발광구의심해저에분포하는망간단괴

자원개발을목표로,망간단괴독점광구유지·관리와개발권획득을위한정밀환경자료를확보

하고자원량을평가하는지침을개발하며,심해저광물자원을상업적으로개발할수있는단계

에진입하기위한상업개발전략수립및협력네트워크구축을추진하고있다.2019년과제에

서는태평양망간단괴KR5광구에서정밀실해역탐사를통해망간단괴가채량평가및환경영

향평가기반구축을위한자료를획득하였다.

The main purposes of this project are the acquisition of environmental data for environ-

mental impact assessment, establishment of guidelines for resource assessment and man-

agement of exclusive exploration rights, application for exploitation rights for polymetallic

nodules, and shaping of development strategies and establishing a cooperative network

to advance towards the commercial mining stage. This year, data were obtained to assess

the abundance of minable manganese nodules and establish the basis of environmental

impact assessment through exploration of the Korean contracted area (KR5 block).

국제해저기구의무이행및심해저개발역량

확충연구

Fulfillment of obligations accruing from the contract with the ISA and capacity building for the commercial mining of polymetallic nodules

KR5 탐사 해역

Location of the KR5 block in the Northeast Pacific

10̊ N

20̊ N

30̊ N

150̊ W 140̊ W 130̊ W 120̊ W 110̊ W160̊ W

KR5와 APEI 9에서 출현한 고착성 생물군의 개체수 및 사진

Morphotype abundance and sessile fauna in the KR5 block and APEI 9

XenophyophorePorifera

Anthozoa

HydrozoaCrinoidea

BryozoaPolychaeta_sTunicata

Mor

phot

ypes

abu

ndan

ce (i

nds.1

000m

-2)

100

80

60

40

20

0BIS KOMO PILOT-18 PILOT-19 Area A Area B APEI9

Area

A

G

K L N O

M

H I J

B C D E R

광구 내 심해저 영상시스템 사진 및 후방산란강도 자료와

망간단괴 양 비교

Images from a deep-sea camera system and comparison of the backscatter intensity and polymetallic nodule abundance in the KR5 block

Nod

ule

Abun

danc

e (k

g/m

2 )La

titud

e (9

°N)

35

Research ActivitiesMarine Resources Research Division

03.

2019년,인도양공해상에확보한해저열수광상탐사광구를대상으로열수광체의형성을확

인하기위한탐사를수행하였다.탐사광구남쪽의4-6구역내열수활동이예상되는지역을대

상으로정밀해저면조사를통해열수광체를탐색하였다.심해견인측면주사측심장비를운영

하여광체부존후보지역의정밀해저음향자료를획득하였고,동시에열수활동추적을위한

MAPR자료를함께취득하였다.심해카메라를예인하여해저면을관측한결과,탐사광구4구

역과6구역에서새로운열수분출지역2곳을확인하였다.확인된열수분출지역은높은탁도이

상치와용존금속농도,그리고산화환원전위변화를수반하고있어,고온의열수활동이일어나

고있음을알수있었다.또한,기반암종류에따른열수조성의변화특성을잘보여준다.후속연

구를통해수행될열수광체시료채취를통해새로확인된열수광체의생성기원및자원특성을

파악할예정이다.

In 2019, a research cruise was conducted to discover new massive sulfide deposits within

southern part of the Korean exploration area. During the survey, Deep-towed Side-Scan

Sonar (DTSSS) equipped with Miniature Autonomous Plume Recorder (MAPR) was operated

to collect both high-resolution acoustic data and hydrothermal plume signals of the target

area. Two sites of hydrothermal deposits were identified in Cluster 4 and 6 during the cam-

era tow surveys. Both of these sites are characterized by high particle and dissolved metal

concentrations accompanied by changes in redox potential, indicating active, high-temper-

ature venting. The composition of plume water further suggests variations in hydrothermal

activity related to basement rocks. Geological sampling of hydrothermal precipitates is now

required to understand the origin and resource properties of these deposits.

남서태평양및인도양

해양광물자원(해저열수광상,망간각)개발

Exploration of seafloor hydrothermal deposits and Fe-Mn crusts in the southwestern Pacific and Indian oceans

연구책임자

손승규/책임연구원

Seung Kyu Son / Principal Research Scientistskson@kiost.ac.kr

DTSSS/MAPR 탐사를 통해 탐사구역 4에서 확인된 열수 플룸 신호(왼쪽)와 열수플룸 분포지역의 수층 수직분포(오른쪽)

Hydrothermal plume signals observed during the DTSSS/MAPR survey in Cluster 4 (left) and the water column profile at the site of the plume signal (right)

탐사구역 4의 OCC 구조에서 확인된 해저열수광체 해저면 사진

Photographs showing the formation of SMS deposits on the OCC structure in Cluster 4

2019년도 인도양 해저열수광상 탐사 수행 지역 탐사

Map of the exploration area for SMS deposits in the Indian Ocean in 2019

8°S

9°S

10°S

11°S

12°S

13°S

14°S

15°S

16°S

66°E 67°E 68°E 69°E 70°E 71°E

12°25’S

12°30’S

12°35’S

12°40’S

12°45’S

12°50’S

66°00’E 66°10’E 66°20’E

-4000 -3000 -2000Depth (m)

14°15’S

14°20’S

14°25’S

66°05’E 66°10’E 66°15’E

DTIR190101(a) DTIR190102 DTIR190103

Depth(km)

Eh(mV)

DTIR190104 DTIR190105

12°3

0’S

12°3

5’S

12°4

0’S

12°4

5’S

12°3

0’S

12°3

5’S

12°4

0’S

12°4

5’S

12°3

0’S

12°3

5’S

12°4

0’S

12°4

5’S

2 3 4 2 3 4 2 3 4 2 3 4 2 3 4

157 153 157 153 153 149 145 130 100 70153 147 141 135

(b)Ammoniun(um)(f)

0.0 0.1 0.20

1000

2000

3000

4000

94 9594.5 95.5Beam Transmission(%)(a)

0

1000

2000

3000

4000

Dep

th(m

)

0 50 150100Methane(umol/L)(b)

0 5000 1500010000Fe(ppt)(c)

0 1000 2000Mn(ppt)(d)

0 42 6Co(ppt)(e)

ATP(ng/L)(g)0 42 6

POC(uM)(h)0 5 10

12°00’

12°30’

13°00’

13°30’

65°30’ 66°00’ 66°30’ 67°00’E

연구활동

해양자원연구본부

36 KIOST Annual Report 2019

04.

세계적인고부가품종인바리과어류는주로동아시아에서양식되고있다.이프로젝트의목적

은수산생물공학기법을적용하여수출이가능한바리과어류의육종품종을개발하는것이다.

최근에국내외바리과어류7종(자바리,붉바리,능성어,대왕바리,갈색점바리등)을어미로사

용하여120개종간잡종구를생산하였으며,이로부터형질이가장뛰어난대왕자바리(자바리♀

×대왕바리♂)와대왕붉바리(붉바리♀×대왕바리♂)를신품종으로개발하였다.이두품종은열

대와아열대환경(수온27~31℃)에서성장이매우빠르며저수온에서내성(8~10℃)이강한특

징이있다.부가적인특징으로는이어류의가장큰소비시장인중국,대만,그리고그외동남아

국가에서선호하는체형과체색을보인다는점이다.현재이두교잡품종은수출대상국인대만,

말레이시아,베트남그리고우리나라에서시험사육을하여품종의우수성이검증되었으며,향

후수출이가능한유망품종이될것으로기대한다.

Groupers have high economical value, and grouper aquaculture is especially active in East

Asia. The aim of this project is to use aquaculture biotechnology to develop new grouper

lines for export. Recently, two promising hybrid grouper lines named the “giant red-spotted

grouper” (red-spotted grouper ♀ × giant grouper ♂) and the “giant kelp grouper” (kelp

grouper ♀ × giant grouper ♂) have been developed through 120 hybridization trials using

seven grouper species (namely the red-spotted grouper, kelp grouper, seven-band grouper,

giant grouper, and tiger grouper). Unlike other groupers, these hybrid fish have high

resistance to low water temperatures (8–10 °C) as well as faster growth in subtropical and

tropical offshore temperatures (27–31 °C). Moreover, they also have the body shape and

color preferred in China, Taiwan, and other East Asian countries. The two newly developed

hybrid lines are being evaluated for aquacultural feasibility in Taiwan, Malaysia, Vietnam,

and Korea, and we expect these fish to be a promising export in the next few years.

바리과어류의수출형고부가육종품종개발

Development of golden seed lines of grouper fish

연구책임자

노충환/책임연구원

Choong Hwan Noh / Principal Research Scientistchnoh@kiost.ac.kr

바리 어류 종간 잡종 수정란의 난 발생

Embryonic development of inter-specific hybrid grouper

우리나라 개발 바리 어류 품종의 상표

Brand of grouper fish lines developed in Korea

개발한 바리 어류 신품종(위; 대왕붉바리, 아래; 대왕자바리)

Newly developed inter-specific hybrid lines of grouper(top: giant red-spotted grouper, bottom: giant kelp grouper)

대왕붉바리

Epinephelus akaara♀ × E. lanceolatus♂

紅龍石班魚, 龍紅班red spotted-giant hybrid grouper

대왕자바리

Epinephelus bruneus♀ × E. lanceolatus♂

云龍石班魚, 龍紅班longtooth-giant hybrid grouper

37

Research ActivitiesMarine Resources Research Division

해양공학연구본부

Coastal & Ocean Engineering Division

03

창조적 연안 공간 개발, 청정한 미래 에너지 확보, 안전한 바다를 향한

지속가능한 도전을 실현하기 위해 연안, 항만, 해양에너지, 수중로봇, ICT 융합

기술에 대한 연구를 수행합니다.

Coastal and Ocean Engineering division conduct the researches on the coastal, harbor, ocean energy, underwater robotics and ICT fusion technologies to realize the development of a creative coastal spaces and clean energy, and safe sea life.

01 해양데이터 실시간 확보를 위한 IoT 핵심 원천기술 개발

Research on key IoT technologies for real-time ocean data sensing

02 해양에너지 및 항만·해양구조물 실용화 기술개발

Development of application technologies for ocean energy and harbor and offshore structures

03 수중건설로봇 현장 실증 및 사업화

Supporting the field application and commercialization of underwater construction robots (Managing task)

04 1MW급 조류발전 상용화 시스템 개발

Development of 1-MW-class commercially available tidal energy conversion system

수중,수상,해상등해양다차원공간에분포한해양어플리케이션의초연결성을보장하고데

이터를실시간으로확보하기위한해양IoT(InternetofMaritimeThings;IoMT)핵심원천기

술을개발한다.첫째,해양센서-통신모듈을연결하는범용적인터페이스와이를지원하는다중

프로토콜게이트웨이및UAV기지국을포함하는해상무선네트워크의최적운용기술을개발

한다.둘째,해수를이용한중형(1KWh)해수배터리시스템개발및해수에안정한Solar/Wind

기반중형에너지시스템을개발한다.셋째,수중위치인식기반해양구조물시공모니터링기술

확보를위한기초자료조사및개념설계를수행한다.

The main goal of the project is to develop key Internet of Things (IoT) technologies for pro-

viding real-time ocean data sensing and hyper-connectability for maritime applications in

multidimensional ocean environments. First, we have developed a universal interface that

connects a maritime sensor with a communication modem and its supported multi-proto-

col gateway. Optimal operations strategies for maritime wireless networks (including UAV

base stations) have also been developed. We have also developed a 1-KWh seawater bat-

tery and solar/wind-based energy system. Finally, technical research and conceptual design

have been carried out for an underwater-localization-based offshore structure monitoring

system for underwater construction.

해양데이터실시간확보를위한

IoT핵심원천기술개발

Research on key IoT technologies for real-time ocean data sensing

연구책임자

백승재/책임연구원

Seungjae Baek / Principal Research Scientistbaeksj@kiost.ac.kr

01.

UAV 기지국을 포함하는 해상 무선 네트워크

Maritime wireless networks including UAV base stationsv

d1

d2

b2

t1

g1

g2

g3

d3

a1

h3

h2

h1

m1 b1

제안한 최적 운용 알고리즘의 결과 비교

Performance comparison of the proposed algorithm against existing algorithms

25×106 30×106 35×106 40×106

Target rate [rT]

∑ [

rT-r K

]

.108

1

2

3

0

No UBS

Conventional DF

Random Placement

2D-optimized Placement

Proposed

위치인식 알고리즘 개발용 센서복합체 시작품

Sensor complex prototype for localization algorithm development

1KWh 급 해수배터리 시스템

A 1-KWh class seawater battery system

연구활동

해양공학연구본부

40 KIOST Annual Report 2019

본과제의연구목표는해상풍력,조류발전등다양한해양에너지시설물및항만·해양구조물에

대한안전성과경제성을향상시킬수있는설계,시공및유지관리실용화기술을개발하는것

이다.세부연구내용으로(1)해상풍력발전LCOE(LevelizedCostofEnergy)분석및저감방안

개발,(2)조류발전시스템및발전단지LCOE분석,(3)월파저감형가동식호안구조물기술

개발,(4)해안선보호를위한연안구조물배치최적화기술개발,(5)항만·해양구조물의수명

연장을위한수중코팅기술개발등으로구분할수있다.이가운데세부연구내용(1),(3),(5)번

의경우,지난2018년개별과제로착수되어진행중이던과제가연구원의통합추진방침에따

라하나의과제로통합되어추진되고있으며,(2),(4)번의경우,부서의연구역량강화및국가

연구개발사업으로의확대추진을목표로신규편성된연구내용이라할수있다.2019년연구사

업추진을통하여국제학술지에5편,국내학술지에3편의논문을게재하고총12건의국내외

특허를출원하는등의정량적성과를거두었다.또한(1)국내환경을고려한해상풍력LCOE분

석및저감방안확보(2)월파에대응할수있는가동식호안기본설계,(3)단기해안침식현상

관측및원인분석(4)수중코팅장비개선등의주요연구성과를거두었다.2020년에는좀더

심층적인연구를수행하여,단기적으로는우리연구원의연구성과목표를달성하는데기여하고,

장기적으로는우리나라의에너지정책목표달성및안전한항만/연안시설물구축에도움을줄

수있을것으로기대된다.

This project, which is being carried out as an institutional R&D project of the Coastal

Development and Ocean Energy Research Center, aims to develop application technologies

for the design, construction, and maintenance of safe and economical ocean energy and

harbor and offshore structures. This project consists of several subjects including: (1) the

analysis and reduction of Levelized Cost of Energy (LCOE) of offshore windfarms; (2) LCOE

analysis of tidal energy farms; (3) development of movable seawalls for reducing wave

overtopping; (4) optimal layout design of coastal structures for protecting shorelines; and (5)

underwater coating technology for lifetime extension of coastal and offshore structures. Of

these themes, (1), (3), and (5), which have been carried out since 2018, were integrated into

this project in 2019 following the institutional R&D policy. Themes (2) and (4) were newly

initiated to enhance our research performance and to promote new national R&D projects

in these areas.

In 2019, eight journal papers were published in five international journals and three do-

mestic journals, and 12 patents were secured. Major R&D progress to date includes: (1) the

establishment of an LCOE analysis methodology for offshore wind farms that account for

domestic environments and the parametric studies for two local offshore windfarms; (2) the

conceptual design for movable seawalls for reducing wave overtopping; (3) observation of

rapid seabed erosion during a storm period and root cause analysis; and (4) the enhance-

ment of underwater coating equipment. In 2020, more in-depth studies will be carried out,

and it is expected that this research will contribute to the institutional R&D accomplishment

targets and establishing safe coastal and offshore facilities.

해양에너지및항만·해양구조물실용화

기술개발

Development of application technologies for ocean energy and harbor and offshore structures

연구책임자

이진학/책임연구원

Jin-Hak Yi / Principal Research Scientistyijh@kiost.ac.kr

02.

가동식 호안 수리모형실험

Hydraulic model testing for movable seawalls

후정해변의 단기 해안 침식 현상

Rapid seabed erosion during a storm period at Hujeong Beach, Korea

41

Research ActivitiesCoastal & Ocean Engineering Division

최근화석연료고갈에따라다양한대체자원개발이중요한화두로떠오르고있다.이를위해

우리는지구면적대비70%이상을차지하는해양환경에서자원을찾고있다.해양자원의수요

가증가됨에따라해양플랜트나구조물이반드시필요한실정이다.본사업의주목적은우리기

술을이용하여수중건설로봇3종(URI-L,URI-T,URI-R)을독자개발하는데있다.이를위해(1)1

단계사업을통해3개의로봇을모두민간기업에이전하였으며,(2)2단계사업(2019~2022)

에서는3개로봇의기술을이전받은민간기업의주도하에수중건설로봇의트랙레코드를바

탕으로상용화하고자한다.올해는현장실증및사업화과제를통해수중건설로봇3종의현장실

험데이터를확보하고자하였으며,특히URI-T와URI-R을욕지도지구식수원개발사업에투입

하여실제현장적용성을확인하였다.수중건설로봇을활용한본공사로인하여도서지역의식

수난을근본적으로해결할수있을것으로보인다.더나아가해외장비수입대체로연간100억

원이상의해외장비임대비용을절감하는효과창출에기여하는것으로평가한다.

The exploitation of various substitute resources has received increasing attention due to the depleting supply of fossil fuels. Therefore, we are examining opportunities to obtain these resources from the marine environment, which accounts for more than 70% of the Earth’

s surface. Specifically, offshore plants and structures are necessary as demand for marine resources increases. Accordingly, the main purpose of this project is to develop three kinds of underwater construction robots (URI-L, URI-T, and URI-R). As a result, these robots will be transferred to a private enterprise company that will aim to establish a track record in using underwater construction robots at actual sites. In 2020, the 2nd stage of the Underwater Construction Robotics R&D Center started to acquire more test data from water tank and field tests. In particular, URI-T and R were ap-plied (and operated) in the Yokji Drinking Water Supply Development Project. Through this construction, we will solve the drinking water shortage on Yokji Island in the Republic of Korea. Furthermore, it is expected that our underwater robotics will reduce the rental cost of using overseas equipment by more than 10 billion won per year.

수중건설로봇현장실증및사업화

Supporting the field application and commercialization of underwater construction robots (Managing task)

연구책임자

장인성/책임연구원

In Sung Jang / Principal Research Scientistisjang@kiost.ac.kr

03.

URI-T, URI-R의 모습

URI-T and URI-R

바다의 날 전시

Exhibition of three types of underwater construction robots

수중건설로봇 URI-L, URI-T,

URI-R의 실해역 실험 평가 영상

연구활동

해양공학연구본부

42 KIOST Annual Report 2019

해양수산부는정부의“재생에너지3020이행계획”을지원하기위해“2030해양에너지개발

계획”을수립한바있다.그동안조류/조력등해양에너지를연구해온우리원은2019년9월,

해양수산부2030해양에너지개발계획의중점사업으로,향후4년동안수행될예정인“1MW

급조류발전상용화시스템개발”연구에착수하였다.기존200kW급“능동제어형조류발전

기술개발”과제의후속과제로,200kW급조류발전시스템개발시확보된기술을적용하고,현

재구축중인조류발전실해역시험장에서의장기운영을목표로착수된이과제는,우리연구

원이주관연구기관으로,한국전기연구원이협동연구기관으로참여하고있다.시스템제작과관

련하여참여한공동연구기관은㈜KTE,㈜인터맥,STC㈜이다.2019년에는1MW급조류발전시

스템설계근거수립,1MW급조류발전터빈블레이드최적설계및통합하중해석수행,1MW

급조류발전기,허브/나셀등에대한개념설계,제어시스템로직개념설계,1MW급조류발전지

지구조물최적형식및개념설계등을수행하였으며,10MW급조류발전단지구축타당성조사

를위하여후류영향분석모델을수립하고,장죽수도해역에대한정밀수심측량을실시하였다.

2020년주요계획으로는1MW급조류발전시스템기본설계및상세설계를수행하고,시스템

제작에착수할예정이다.2021년조류발전시스템제작완료및요소단위별성능시험,시스템

에대한성능평가를수행,2022년조류발전실해역시험장에개발된시스템을설치하여시운

전을통하여시스템을안정화한후,장기간실해역에서성능평가를실시할계획이다.이과제에

서개발되는시스템은향후10MW급조류발전단지건설에적용될예정이며,이를통하여국내

조류발전관련산업을육성하고,지원할수있을것으로기대된다.

A new R&D project to develop a 1MW-class commercially available tidal energy conversion system was initiated in 2019 as a follow up to the “2030 Ocean Energy Development” action plan, which is established by Ministry of Oceans and Fisheries aimed at supporting the 3020 National Renewable Energy Policy. This project succeeds a previous R&D project aimed at developing a 200-kW-class active-controlled horizontal-axis tidal energy converter (TEC). The major accomplishments of the former R&D project will be utilized as reference data, and the developed 1MW TEC system will be installed in the open-sea test site for TECs. KIOST has a role as a leading institute, and the Korea Electrotechnology Research Institute is a partner institute. Private companies including KTE, InterMac, and STC also participate as system manufacturers. In 2019, major accomplishments included: (1) the establishment of a design basis for the 1MW TEC; (2) the optimal design and integrated load analysis for the 1MW TEC; (3) the conceptual design of the 1MW generator, hub/nacelle, and control system; (4) the conceptual design of an optimal supporting structure for the 1MW TEC; and (5) the establishment of wake analysis models and a detailed bathymetry survey for the feasibility study of a 10MW tidal energy farm in the JankJuk Strait. Basic designs will be completed in early 2020, and detailed designs will follow in the middle of 2020, with main components such as blades planned to be manufactured between late 2020 and early 2021. The verification tests, at component and system levels, are scheduled for 2021. After the system is fully assembled and tested in 2021, it will be installed in an open-sea test site in 2022 for full-scale performance tests. The developed system will be utilized as a reference system for establishing a 10MW tidal energy farm, and it is expected that the 1MW TEC and 10MW tidal energy farm will promote the commercialization of tidal energy systems and industrialization in the near future.

1MW급조류발전상용화시스템개발

Development of 1-MW-class commercially available tidal energy conversion system

연구책임자

이진학/책임연구원

Jin-Hak Yi / Principal Research Scientistyijh@kiost.ac.kr

04.

요에러가 없을 경우 유동 특성

Flow characteristics without yaw error

15도의 요에러가 있을 경우 유동 특성

Flow characteristics with a 15° yaw error

(b) 하류식 발전 Downstream type

(a) 상류식 발전 Upstream type

타워구조물의 영향

Effect of the tower structure

43

Research ActivitiesCoastal & Ocean Engineering Division

해양영토연구본부

Marine Domain Management Research Division

04

해양영토연구본부는 국민의 생명과 재산을 보호하고 국익을 증진하기 위한

해양방위·안전분야, 해양재난재해 예측분야, 해저지층과 관련된 과학적 연구 및

개발 업무를 수행하고 있다. 특히, 해양방위안전기술개발을 위한 무인체계 개발과

수중음향기술 연구개발에 매진하여 해군작전에 필요한 해양전장 환경정보를

적시에 생산하고 있으며, 우리나라 관할해역에서 발생하는 각종 해양재난·재해에

신속히 대응하여 해양사고현장의 해양환경과 피해평가를 지원하기 위한

시스템구축연구를 수행하고 있다. 또한, 관할해역의 체계적 관리와 개발을

지원하고 해양과학기술적 지식정보를 축적하여 해양공간, 자원, 환경개발, 보전을

위한 정책수립 및 과학적 지식정보서비스 제공에 기여하고 있다.

The Marine Domain Management Research Division was established in order to protect the lives and property of the people and to promote national interests, the company conducts scientific research and development related to marine defense and safety field, marine disaster prediction field and seabed research field. In particular, We are devoted to developing unmanned systems for developing marine defense safety technology and researching underwater acoustic technology to produce marine battlefield environmental information in a timely manner. We are carried out the system construction research to support the marine environment and damage assessment of marine accident sites. In addition, it supports systematic management and development of jurisdictions, accumulates marine scientific and technological knowledge information, and contributes to policy establishment and scientific knowledge information service for marine space, resources, environment development and conservation.

01 해양방위 및 안전기술 개발

Development of maritime defense and security technology

02 해양수치모델링과 지능정보기술을 활용한 해양예측 정확도 향상 연구

Improvements in ocean prediction accuracy using numerical modeling and artificial intelligence technology

03 종합해양과학기지 구축 및 활용연구

Construction of ocean research stations and their application studies

04 관할해역 영토관리를 위한 해양지질 과학조사 자료 확보 및 관련 정책 수립 연안-대륙붕-대륙사면-대양분지연결퇴적층서확립및지구조운동의특성규명

Study of marine geology and geotectonics in Korean jurisdictional seas Sedimentary sequence and geotectonic characterizations in the coast-continental shelf-continental slope-basin floor regions

해양방위지원을위한무인체계개발/활용과수중음향을통한해양정보가시화체계구축을위한

연구를수행하였다.유인탐사플랫폼을대체할수있는저비용·고효율의무인탐사기술을확보하

기위한노력의일환으로수중글라이더와무인수상선을개발하여해양방위및해상안전분야에

활용가능한연구를진행하고있다.무인수상선을이용한극천해지역해양탐사시,RF통신망에

서RF와LTE통신이동시사용가능하도록통신모듈연동체계를구축하여통신불안을해소하

였으며,탐사가가능한지역을대폭확장시켰다.부산및동해안에대한실해역탐사를통해해저

지형자료를완벽하게수집함으로써무인선을이용한극천해지역현장조사성공적수행하였다.

최근해양생태계보호와관련하여전세계적으로수중소음에대한관심이증가하는가운데,국제

해사기구(IMO)에서는선박소음규제를강화하고있다.이러한규제에대응하기위하여연안및

항만과같이선박의교통량이집중되는해역에대한수중소음의시·공간적인분포특성을파악하

는기술을개발하는것이필요하다.이를위하여선박식별자동장치(AIS)자료를기반으로한선박

항행및음원준위,수중소음등의시·공간적분포정보를가시화할수있는체계를개발하였다.

This research was carried out to develop and utilize unmanned systems for supporting maritime defense and to establish a system for visualizing marine information through underwater acoustic technology. As part of efforts to develop low-cost and high-efficiency unmanned exploration technology that can replace manned exploration platforms, under-water gliders and unmanned surface vehicles are being used to conduct research that can be applied to maritime defense and safety. For marine exploration in the shallow coastal zone using unmanned surface vehicles, a communication module was developed to enable the simultaneous use of RF and LTE communications; this module greatly expanded the remote control range. A field survey was successfully carried out to collect seafloor bathymetric data throughout the south and east coast of Korea. Recently, as interest in underwater noise has increased worldwide, the International Maritime Organization (IMO) is enforcing stricter regulations regarding ship noise to protect marine ecosystems. In order to address these regulations, it is necessary to develop the technology to understanding the temporal and spatial distribution characteristics of underwater noise where ship traffic is concentrated, such as in coastal waters and harbors. For this, the Automatic Identification System (AIS) was developed to visualize the temporal and spatial distribution of ship traffic and noise sources.

해양방위및안전기술개발

Development of maritime defense and security technology

연구책임자

정섬규/책임연구원

Seom-kyu Jung / Principal Research Scientistskjung@kiost.ac.kr

01.

무인수상선의 RF 및 LTE 통신망을 동시에 활용하여

3차원 정밀해저지형 조사를 수행한 결과(왼쪽), 선박 항행

및 음원준위 정보, 수중소음 정보, 선박 밀도분포 정보를

포함한 가시화 체계(오른쪽).

Results of a 3D high-resolution bathymetric survey using the RF and LTE communication of an unmanned surface vehicle (left) and a visualization system including ship navigation and sound source levels, underwater noise information, and ship density information (right).

무인수상선을 이용한

탐사기술 영상

수중글라이더를 이용한

해저지형 탐사기술 영상

무인수상정

Unmanned surface vehicle

수중글라이더

Underwater glider

연구활동

해양영토연구본부

46 KIOST Annual Report 2019

자료정보시스템

우리나라해역에서보다정확한예측정보를생산하기위해서는해양예측시스템을구축하

고그정확도를향상시키는요소기술을개발하여적용하는한편,예측시스템을상호연계하고

통합해야한다.본연구의목표는이를통해활용도가높은자료를다양한사용자의필요에맞

게제공하는것이다.이를위해전지구해양기상/해양순환예측시스템,북서태평양해양순환예

측시스템,연안정밀예측시스템,비정형격자해양예측시스템,대기-해양-파랑결합예측시스템,

인공지능기반해양예측시스템,자료정보시스템,사용자활용시스템,예측정확도평가시스템을

구축하고향상하기위한연구를수행하고있다.이러한연구를바탕으로우리나라해역에최적

화된해양예측시스템을안정적으로구축,운영하며신뢰도높은해양예측정보를적시에생산·

제공하는한편,독자적인해양예측기술확보를통해국가경쟁력제고와기술독립성을확보하

여,최종적으로는우리나라의해양예측시스템을선진국수준으로향상시키고자한다.

The objective of this project is to produce and provide reliable marine prediction information for Korean waters for various users by developing an integrated operational oceanographic system that consists of a global atmospheric and ocean circulation predic-tion system, a Northwestern Pacific ocean circulation prediction system, a high-resolution coastal circulation system, an unstructured grid ocean prediction system, an atmospheric- ocean-wave coupled prediction system, an AI based ocean prediction system, a data management system, an application system, and a skill assessment system. We expect to develop the most accurate and efficient operational forecasting system for Korean waters providing timely, continuous, and accurate marine prediction information to various users. The Korea operational oceanographic system (KOOS) will accelerate technology inde-pendency of the ocean science and technology and will secure national competitiveness in ocean forecasting. Finally, we seek to realize world-leading technology through the development of an operational ocean forecasting system.

해양수치모델링과지능정보기술을활용한

해양예측정확도향상연구

Improvements in ocean prediction accuracy using numerical modeling and artificial intelligence technology

연구책임자

권재일/책임연구원

Jae-Il KWON / Principal Research Scientistjikwon@kiost.ac.kr

02.

해양예측시스템 수치모델 구성

Components of the Korea Operational Oceanographic System (KOOS)

해양예측시스템(KOOS)

전지구 해양기상예측시스템 (MPAS)

전지구 해양순환예측시스템 (MOM6)

지역해 해양기상예측시스템 (HWRF)

북서태평양 해양순환예측시스템 (MOM5)

연안정밀예측시스템 (MOHID)

비정형격자 해양예측시스템 (TELEMAC, FVCOM)

대기-해양-파랑 결합예측시스템 (COAWST)

사용자 활용 시스템

예측 정확도 평가 시스템

앙상블 예측인공지능(AI) 기반 해양 예측시스템

47

Research ActivitiesMarine Domain Management Research Division

한국해양과학기술원은황해와동중국해의관측과연구를위해이어도(2003년),가거초(2009

년),그리고소청초(2014년)종합해양과학기지를구축하였다.종합해양과학기지는해양의장

기고품질의시계열관측자료를획득하고,실시간해양및기상정보를제공하며,해양에서의

안정적인현장연구기반을제공하는역할을수행하고있다.또한전지구적인환경변화와우리

해역에미치는영향을이해하고예측하는데필요한핵심관측자료들을정부기관및연구자등

다양한수요자에게제공하고있다.한반도해역의장기적인해양물리및생태환경변화,해양-

대기상호작용,태풍,해무,대기환경,해양구조물안정성등의다학제연구가종합해양과학기지

를기반으로수행중에있다.해양과학기지는그동안의관측및연구성과와해양과학기지관측

정점의중요성을바탕으로세계최고수준의해양관측기관들로구성된심해장기해양관측네

트워크인OceanSITES에등록되어활동중이며,국내뿐만아니라,국제적으로도전지구규모

의대륙붕해양관측정점으로서위상을공고히하고있다.

The Korea Ocean Research Stations (KORS) consist of Ieodo (2003), Gageocho (2009), and Socheongcho (2014). These were established by KIOST to observe and research the Yellow Sea and the East China Sea. The KORS collect long-term core scientific time-series data, providing real-time ocean/atmospheric information. Researchers can also use their in-situ laboratories for processing biogeochemical samples. These stations provide the essential information necessary for a variety of users, including government administration officials and researchers, helping to understand global environmental change and enhance the accuracy of ocean/weather prediction. The interdisciplinary research undertaken at the sta-tions include studies of changes in the marine physical and biogeochemical environment, air-sea interactions, typhoon dynamics, sea fogs, marine aerosols, and the stability of off-shore structures. The KORS have been integrated into the OceanSITES network, as a result of their oceanographic importance and their capabilities for ocean observation over the last few years. As such, the KORS are developing as both Korean and global oceanographic observation and research sites.

종합해양과학기지구축및활용연구

Construction of ocean research stations and their application studies

연구책임자

심재설/책임연구원

JaeSeol Shim / Principal Research Scientistjsshim@kiost.ac.kr

03.

해양과학기지 전경

Overview of the Korea Ocean Research Stations

이어도해양과학기지 Ieodo ORS(I-ORS)

가거초해양과학기지 Gageocho ORS(G-IRS)

소청초기지해양과학기지 Socheongcho ORS(S-ORS)

해양과학기지의 위치

Locations of the KORS (Ieodo, Gageocho, and Socheongcho ocean research stations)

Socheongcho ORS(S-ORS)

- 37km south of Socheong-Island- Depth : 50m- Completed in 2014

Ieodo ORS(I-ORS)

- 149km south-west of Mara-Island- Depth : 41m- Completed in 2003

- 47km south-west of Gageo-Island- Depth : 15m- Completed in 2009

Gageocho ORS(G-IRS)

연구활동

해양영토연구본부

48 KIOST Annual Report 2019

한반도주변관할해역에서1cm빈틈도없는인공지능형지구물리·지질DB시스템을구축하여

퇴적상,퇴적환경및지구조를해석하였다(그림1).제4차산업요소기술인빅데이터,인공지능및

IoT를활용하여탄성파자료해석,지도제작,지구모델링을통해지구내부구조를규명하였다.경

제적이고효율적이며수심50m이내의연안에서도탐사가가능한고해상도3D탄성파탐사시

스템(P-cable)을제작하여,100m깊이의시추지점에서3D자료를취득하였다(그림2).국내최

초로북동중국해의제주분지에서100m깊이의퇴적층시료를채취하여분석중이며,3D탄성파

자료와층서를대비하여황해와북동중국해내의후기플라이스토세퇴적층의형성/발달과정을

해석하고있다(그림3).이를활용하여한반도주변해양분지에서시대별고수로,단층,화산체분

포등의도면작성과지층단위별시간구조도및등층후도등의지도를제작하여,해수면변동에

따른퇴적층발달양상을재구성(고해양환경및고기후,고지리복원)하고있다.특히,한일공동개

발구역(JDZ)에서석유·가스매장가능지역을발견하여부존형태를파악중이다(그림4).

This project has defined the sedimentary facies, depositional environment, and geotectonics in the seas that fall within Korean jurisdiction (around the Korea Peninsula) with a horizontal resolution of less than 1 cm. This has been achieved by establishing the Artificial Intelligence (AI)-type geophysical and geological DB system (Fig. 1). The Earth's internal structures in this region have been identified through the interpretation of seismic profiles, geological map-ping, and earth modeling based on fourth industrial element technologies such as big data, AI, and internet of things (IoT). A high-resolution 3D seismic acquisition system (P-cable) that is economical and efficient and can explore coastal areas with < 50 m water depths has been used to obtain 3D data at a 100-m drilling site (Fig. 2). A 100-m sediment sample was ac-quired for the first time in the Jeju Basin of the northeastern China Sea, the analysis of which is in progress. Sedimentary formation and development of in Yellow Sea and northeastern China Sea during the Late Pleistocene have been interpreted by comparing 3D seismic data with stratigraphy (Fig. 3). Using these interpretations, paleo-channels, faults, and volcanic bodies have been mapped, and time structure and isopach maps have been reconstructed focusing on the paleooceanography, paleoclimatology, and paleogeography according to sea level changes. In particular, we have discovered and characterized potential oil and gas reservoirs in the Korea-Japan Joint Development Zone (JDZ) (Fig. 4).

관할해역영토관리를위한해양지질과학조사

자료확보및관련정책수립연안-대륙붕-대륙사면-대양분지연결퇴적층서확립및지구조운동의특성규명

Study of marine geology and geotectonics in Korean jurisdictional seasSedimentary sequence and geotectonic characterizations in the coast-continental shelf-continental slope-basin floor regions

연구책임자

허식/책임연구원

Sik Huh / Principal Research Scientistsikhuh0@gmail.com

04.

그림 1. 한반도 주변 관할해역에서 퇴적층 및 지구조

특성을 파악하기 위해 구축된 인공지능형 지구물리·지질

DB 및 해석 시스템

Fig. 1. An established AI-type geophysical and geological DB, and analytical system to understand the sedimentary and geotectonic characteristics of seas within Korean jurisdiction

그림 2. 연구선 온누리호에 4개의 스트리머 라인을 갖춘

3D 탄성파 탐사 시스템 구축과 인공지능 기법을 활용한

3D 탄성파 층서면 해석

Fig. 2. 3D seismic acquisition system with four streamer lines in R/V Onnuri and stratigraphic interpretation of 3D seismic data using AI techniques

그림 3. 100m 깊이의 시추공 위치에서 취득한 다중 탄성파

탐사 자료 (펜스 다이어그램)와 채취한 시추 코어 샘플(1m 길이)

Fig. 3. Multi-channel seismic data obtained near the 100-m drilling site (fence diagram) and acquired core samples (1 m length)

그림 4. 시대별 정밀 3D 분지 구조 해석에 의해

밝혀진 한일공동개발구역 내 석유 부존 가능 지역

Fig. 4. A potential oil and gas reservoirs in the JDZ as revealed through the analysis of 3D basin structures for different geological ages

GIS Map Earthquake Map Seismic Section Well Data

3D Structure Map 2D Basemap Seismic Section Seismic Section

해저면

플라이스토세

플라이오세

말기 마이오세

중기 마이오세

초기 마이오세

에오세

올리고세

음향기반암

Tow cable

Streamer cable

Spur line : 20m

PP grip to PP grip : Sm rope

Air Gun

Paravane buoy rope

NaviPac point

49

Research ActivitiesMarine Domain Management Research Division

해양정책연구소

Ocean Policy Institute

05

해양정책연구소는 국가 해양정책의 싱크탱크로써, 국내외 해양현안 동향을

조사 및 분석하여 국가의 해양정책 수립을 위한 기초정보를 제공한다.

또한 해양관할권 수호, 해양환경보전, 해양공간계획, 대형 융·복합 연구

프로그램 개발과 연구기획, 해양과학연구개발 성과의 산업화 전략 수립에 관한

연구를 수행한다. 마지막으로, 한중해양경계획정 협상과 BBNJ 정부간회의

등의 해양관련 양자 및 다자 협상에 참여하고, 국제해사기구 및 해양공간계획

전문기관으로써 주요 역할을 수행한다.

The Ocean Policy Institute serves as a think-tank for the national ocean policy. It provides fundamental information for establishing national ocean policy by analysing internal and external current ocean issues. Also, it conducts a number of researches to respond to these issues. These contain maritime jurisdiction protection, marine environment conservation, marine spatial planning, large-scaled convergence research programs development, and commercialization strategy of R&D achievements. Finally, the institute participates several bilateral and multilateral meetings such as Korea-China maritime delimitation negotiation and BBNJ Intergovernmental Conference. As a specialized agency, we plays a crucial role regarding the International Maritime Organization and marine spatial planning.

01 해양법적 갈등현안 해결 및 해양경제영역 확장을 위한 국제 네트워크 인프라 구축

Challenging ocean regime conflicts and international networking to promote securing

expanded maritime development domain

02 핵심해역갈등관리 및 남북해양협력 연구

A Study on vital maritime area management and two Korea’s ocean cooperation

03 해양공간통합관리 연구

A Study on integrated marine spatial management

04 지역특화 바이오 클러스터 구축 및 연구 활성화 방안 연구

Plan for facilitating research in the localized marine bio-cluster

이사업은국내외해양정책/안보/거버넌스와해양법에관한학술적회의를통한관련전문가의

국제네트워크구축과대외적협력강화를목적으로하고있다.2019년에KIOST는미해군대

학과국제해양안보회의,버클리대학교해양법연구소와제14회국제해양법연차대회,하와이대

존반다이크연구소및동서센터와아시아태평양국제해양정책지역대회를개최하였고,미국콜

럼비아대법대와매년수행하고있는주요해양이슈에대한공동연구를수행하였다.

This project aims to enhance external cooperation and establish of international exper-

tise(people, organization, country) network through scholastic conferences on the domes-

tic and international law of the sea and ocean policy/security/governance issues. In 2019,

KIOST co-hosted the Korean Security and International Law Conference with the Naval

War College(USA), the 14th KIOST-LOSI International Annual Conference on the Law of the

Sea with the Law of the Sea Institute of UC Berkeley, and the KIOST-JVDI Annual Regional

Conference on Ocean Policy for East Asia and the Pacific Islands with the Jon Van Dyke

Institute(Hawaii University) and the East West Center. Lastly, a collaborative research project

with the Law School of Columbia University on critical issues continues on an annual basis.

해양법적갈등현안해결및해양경제영역

확장을위한국제네트워크인프라구축

Challenging ocean regime conflicts and international networking to promote securing expanded maritime development domain

연구책임자

양희철/책임연구원

Hee Cheol Yang / Principle Research Scientistceaser@kiost.ac.kr

01.

제14회 국제해양법연차대회

14th KIOST-LOSI International Annual Conference on the Law of the Sea국제해양안보회의 프로시딩

Korean Security and International Law Proceeding

52 KIOST Annual Report 2019

연구활동

해양정책연구소

이연구는남북한해양자원의합리적관리및지역해협력기반구축을목적으로하고있다.북한

의수산자원분포,주요어항,수산정책등을포함하는북한해양수산정보DB를구축하여대국

민북한해양수산정보서비스를제공하고있다.올해는중국과제4차및제5차환황해해양발전

포럼을공동개최하였으며,남북학자들의직접교류를위한남북해양수산협력포럼개최를추진

할계획이다.

This project is designed to reasonably manage South and North Koreas ocean resources,

and establish a basis for cooperation in the regional sea. The North Korea maritime and

fisheries information database is providing a maritime and fisheries information service to

the public, including the geographic distribution of fisheries resources, main fishing ports,

and fisheries policy. KIOST co-hosted the Fourth and the Fifth Ocean Development Forum

on cooperation in the Pan Yellow sea with China this year, and is planning to hold a South

and North Korea Maritime and Fisheries Cooperation Forum for direct exchange between

South and North Korean scholars.

핵심해역갈등관리및남북해양협력연구

A Study on vital maritime area management and two Korea’s ocean cooperation

연구책임자

양희철/책임연구원

Hee Cheol Yang / Principle Research Scientistceaser@kiost.ac.kr

02.

북한 연안의 인프라

The North Korean Coastal Infrastructure

환황해해양발전포럼

Ocean Development Forum of Pan The Yellow Sea

수력발전

화력발전

무역항

53

Research ActivitiesOcean Policy Institute

이연구의목적은해양공간관리제도및기술개발방향을제시함으로써국가의신(新)해양공간

계획체계를지원하는것이다.이를위하여적합성협의제도와공간평가제도의중장기방향을

검토하였으며,관련기술개발의RFP를도출하였다.해양수산부로부터해양공간계획평가전

문기관으로지정됨에따라앞으로도해양공간적합성협의업무를적극지원하고,관련제도의

안정적운영및효율적활용을위한정책연구를지속할계획이다.

The purpose of this study is to support the country’s new marine spatial planning system

by presenting the direction of marine space management legislation and technology de-

velopment. To this end, our team reviewed the mid- to long-term direction of the suitability

assessment system and spatial evaluation system, and derived the RFP for the development

of related technologies. Designated by the Ministry of Ocean and Fisheries as a specialized

agency for the evaluation of marine spatial planning, this year it will actively support the

work of maritime space compatibility consultation and continue policy research for stable

operations and the efficient use of related systems.

해양공간통합관리연구

A Study on integrated marine spatial management

연구책임자

양희철/책임연구원

Hee Cheol Yang / Principle Research Scientistceaser@kiost.ac.kr

03.

Technology Tree for marine spatial planning system (Draft))

해양공간적합성협의 절차

Process of marine space suitability assessment

Demand for use or development of marine space

Marine spatial plan suitability request

Marine spatial plan suitability review

Consistent with the characteristics and conditions of the marine space

AgreementConditional Agreement Disagreement

Overall modification → New suitability

review process

Incompatible with the characteristics and conditions of the marine space

Proceed with original use or

development plan

Notification of action plan and

result

Review/Supplement of Action plan

and Result

Proceed with Modified/

Supplemented use or development

plan

Stop proceeding of requested use or

development plan

Find core space based on big data Resource assessment and forecast

① Future value assessment and mapping according to fishery resource demand and environmental changes② Assessment of fishery stock and habitat③ Distribution / existence and spatial evaluation of aggregate resources④ Development of marine energy resource evaluation map⑤ Spatial Evaluation of marine tourism resource distribution⑥ Development of marine science research map⑦ Assessment and mapping of fragility of marine facilities and coastal topography⑧ Marine Ecosystem Health Assessment and Mapping

⑨ Environmental and ecological sensitivity assessment and mapping⑩ Sensitivity assessment and mapping of fishery resource⑪ Calculation of the Impact Range of Aggregate Collection by Sea⑫ Maritime traffic flow, density and maritime traffic satety map⑬ Marine Spatial Sustainability Assessment Model⑭ Spatial value change model according to usage scenario⑮ Marine Spatial Cumulative Effect Assessment

• Spatial Big Data Prodution System Design• Data Processing, Conversion, Integrated Processing, Quality Control• Data storage and security systematization• Optimization and visualization of data analysis and prediction techniques

Active Core Spatial Evaluation Technology

Adjusting core space based on big dataEnvironment, Ecology,

Activity Assessment and Forecast

Active informationMarine big data analysis and application

technology

연구활동

해양정책연구소

54 KIOST Annual Report 2019

지역특화바이오클러스터구축및연구

활성화방안연구

Plan for facilitating research in the localized marine bio-cluster

연구책임자

장덕희/책임연구원

Duckhee Jang / Principal Research Scientistjdh73@kiost.ac.kr

전세계적으로바이오및해양바이오산업은지속적으로성장하고있으며,특히해양바이오분

야는태동기신성장동력산업으로높은성장잠재력을보유하고있다.그러나해양바이오산업

은관련기업의영세성,전문인력부족(연구및생산분야),취약한산업네트워크등다양한한

계를보유하고있다.이연구에서는해양바이오산업을중심으로지역의바이오산업육성을위

한지역클러스터구축및연구활성화전략을수립하였다.지역해양바이오산업육성을위해

서는지역의모든역량을결집할수있는개방형지식생태계구축이반드시필요하다.부산권에

는KIOST를비롯해,대학및연구소,병원등R&D역량을보유한기관들이다수분포하고있다

는장점이있으며,이는지역산업생태계구축을위한핵심역량에해당한다.지역의기술역량

을중심으로기술력과생산능력을보유한바이오기업의해양바이오분야로의유입,신규기업

의육성등을통해지역산업육성이필요하며,이를위해서는지역연계거점을활용한Research

Park를활용한협력네트워크구축이반드시필요하다.이연구에서는실증분석을통해부산권

바이오클러스터구축을위한다양한방안을논의하였으며,중점투자분야도출및분야별실행

방안등을제시하였다.

The marine-bio industry is regarded as an area with high growth potential, similar to the bio-industry, which has been growing continuously across the world. However, there are limitations in the development of the marine-bio industry, such as the small size of relevant companies, lack of professional manpower (in research and production), and weak industrial network. To address these limitations, this study attempts to develop a regional cluster construction and research activation strategy to foster local bio-industries by focusing on the marine-bio industry. In order to foster local marine-bio industries, it is essential to build an open knowledge ecosystem for mobilizing regional capabilities. In Busan, there are a number of institutions with R&D capabilities such as KIOST, universities, research institutes, and hospitals. Having the required competence, these organizations are key to establishing a local industrial ecosystem. Other recommendations include attracting bio companies, which are likely to have technological and production capacities to the marine-bio industry, and fostering local companies by supporting new businesses. A regional collaborative network using Research Park, which is a regional base, is expected to play a crucial role in achieving these goals. This study also discusses several policy options for developing bio clusters in Busan based on empirical analyses, and suggests investment priorities and action plans.

04.

부산 바이오 클러스터 협력네트워크 개념도

지역대학

기타자원

중앙정부

지역기업

연구소

지역대학/연구소/기업

부산 MBT 산업 네트워크

지역

연계

거점

생산환경, 기존 인프라 활용

기업육성

산업선도

지역산업 육성

소득증대

기술개발/지원

인력양성/지원

소재개발/지원

정책개발/지원

55

Research ActivitiesOcean Policy Institute

해양연구기반부

Ocean Research, Operations & Support Department

06

해양연구기반부에서는 해양연구에 기반이 되는 기기개발 및 운영,

과학데이터와 학술정보의 제공, 연구선 건조는 물론 위성자료의 확보 및 보급

등을 담당하고 있다.

The Ocean Research, Operations & Support Department is responsible for the development and operation of equipment, the provision of scientific data and academic information, research vessel building, and management and disseminating satellite data based on ocean research.

01 해양빅데이터센터

Marine bigdata center

02 천리안 해양위성 2호 및 지상국 시스템 개발

Development of the Geostationary Ocean Color Imager II (GOCI-II) and the ground segment system

03 다중 플랫폼/센서를 활용한 형광염료 탐지 및 이동 확산 연구

Development of a multi-platform/sensor integrated analysis system

04 해양기기개발·운영센터

Instrument development and management center

01.

해양빅데이터센터(2019년 7월)는 데이터 중심 연구 활성화를 위해 해양데이터 관리체계와 빅

데이터 플랫폼을 구축하고, 데이터과학기술의 공유 활동을 수행하여 왔다. 우리 센터는 연구사

업을 통해 관측된 해양데이터를 포함하여 연구선과 KIOST 지역 거점에서 실시간 모니터링되는

해양데이터로 구성되는 KIOST 해양데이터생태계 프레임워크를 설계하였다. 현재는 KUMOS

(KIOST R/V Underway Meteorological & Oceanographic System)를 통해 연구선 운항 중에

관측되는 자료의 관리와 서비스를 수행하고 있다. 총 9대의 서버로 클러스터링한 빅데이터 플

랫폼은 대용량 해양데이터를 분산 저장하는 HDFS과 인메모리 분산컴퓨팅 기술로 초고속 병

렬처리가 가능한 Apache Spark로 컴퓨팅 인프라를 구축하였다. 분산 저장된 빅데이터 자원의

처리, 분석, 시각화를 위해 구축한 분석 플랫폼은 사용자가 온라인 환경에서 R, Python, SQL,

Scala 등 오픈소스 분석도구를 이용할 수 있도록 하였다. 아울러 해양연구분야에서 데이터과학

기술의 축적과 공유로 빅데이터 활용 역량을 강화하기 위해 KIDS (KIOST Data Science) 리포

트를 연 4회 발간하고 있다.

Marine Bigdata Center built a marine data management system and big-data platform and has carried out data science technology sharing activities to promote data-driven ocean research. Our center also designed KIOST ocean data ecosystem framework consisting of ocean data monitored at the research vessels and KIOST regional sites at all times including ocean data observed through research projects. Currently, KUMOS is used to manage and service data monitored during research vessel operation. The Big Data platform clustered with nine servers has been built as computing infrastructure consisted with HDFS (Hadoop Distributed File System) that stores large volume of ocean data in a distributed storage and Apache Spark that enables ultra-fast parallel processing with in-memory distributed computing technology. This platform makes it possible for users to use open source analysis tools such as R, Python, SQL, Scala, etc. in an online environment. In addition, KIDS (KIOST Data Science) report is seasonally published to strengthen its ability to utilize big data by accumulating and sharing data science technologies in the marine research field.

해양빅데이터센터

Marine bigdata center

연구책임자

최현우 / 책임기술원

Hyun-Woo Choi / Principal Research Specialisthwchoi@kiost.ac.kr

KUMOS 실시간 서비스 및 검색 화면

Realtime service and data retrieval screen of KUMOSKIOST 빅데이터 플랫폼 구성도

Configuration of KIOST Bigdata Platform

Big Data Computing Infra

NameNode Secondary NameNode

Spark Worker

DataNode1

Spark Worker

DataNode2

Spark Worker

DataNode6

Spark Worker

DataNode3

Spark Worker

DataNode4

Spark Worker

DataNode5

Spark Worker

ApplicationNode

Spark Master/Worker

Analytic Platform

FTP Server

Spark(Scala)Pyspark/pythonSparkR/ RSparkSQL / JDBCSpark.ml

SparkR()Sparklyr() Packages()

Python/R

· Bigdata E/T/L· Bigdata Data Analysis· Bigdata ML/DL· Bigdata Visualization

KIOST 해양데이터생태계 프레임워크

Framework of KIOST ocean data ecosystem

공간정보 분석 지원 체계 GFOR2012

빅데이터 플랫폼 BIG DATA Platform2019

오픈 데이터 플랫폼 KODP2022

연구선 상시관측자료 체계 KUMOS2017

연구사업관측자료 체계 POOD2020

지역거점 모니터링자료 체계 ROMD2021

KIOST 연구 데이터 이용 활성화

GFOR GIS For Ocean Research KUMOS KIOST R/V Underway Meteorological & Oceanographic System

POOD Project based Ocean Observed DataKODP KIOST Open Data PlatformROMD Regional sites Ocean Monitoring Data

대외공유

연구활동

해양연구기반부

58 KIOST Annual Report 2019

02.

이연구는천리안위성의해양관측임무(GOCI)승계를위하여후속위성(GOCI-II)및지상

국시스템개발을최종목표로하고있다.GOCI-II는GOCI에비해시공간해상도와관측밴드

가향상되었고,특히FD(Fulldisk)관찰모드가추가되었다.GOCI-II는천리안해양위성2호

(GeoKompsat-2B)에탑재되어발사환경시뮬레이션을위해진동테스트,음향테스트를수행

하고,우주환경시뮬레이션을위한열진공테스트등의최종지상시험을성공적으로수행하였

으며,현재는2020년2월발사를위해프랑스기아나우주센터로이동되었다.GOCI-II운영을

위한지상국시스템은60분이내‘수신-보정-처리-배포’수행을목표로26종의산출물을제공

할수있도록개발되었다.이시스템은‘GOCI-II안테나운영동’에설치되어,위성발사후안정적

인위성자료수신과시스템운영을담당할것으로기대된다.

This project aims to develop the GOCI-II and the ground segment system to be launched in 2020 as the successor to the GOCI project. Compared with GOCI, the spatio-temporal resolution and bands of GOCI-II are improved, and the full disk area observation mode is added once a day. After GOCI-II was integrated with GeoKompsat-2B functional tests were performed (e.g., acoustic and vibration simulations for launch, and thermal-vacuum tests for the space environment) and it was moved to the spaceport in French Guiana for launch in February 2020. The development of the ground segment system, which needs to com-plete the ‘reception-correction-processing-distribution’ of GOCI-II data within 60 minutes, was completed and its integration testing was carried out to support 26 products. This system will support the in-orbit testing of GOCI-II and carry out its normal operation for 10 years via the GOCI-II Ground Operation Building established at KIOST.

천리안해양위성2호및지상국시스템개발

Development of the Geostationary Ocean Color Imager II (GOCI-II) and the ground segment system

연구책임자

박영제/책임연구원

Young-Je Park / Principal Research Scientistyoungjepark@kiost.ac.kr

천리안 해양위성 2B호(한국한공우주연구원 제공)

GEO-KOMSAT-2B (image credit: KARI)

GOCI-II 지상시스템 구성도

Configuration diagram of the GOCI-II ground system

Raw Signal

Raw, Level 0, 1A, 1B

자료보정 서브시스템 (DCS)

“Data correction and Generation of Raw to Level 1B”

GOCI-II 성능 향상

Improved performance of GOCI-II

GOCI-II 성능 향상 (GOCI 대비)Specification Comparison : GOCI and GOCI-II

2회 더 많이More frequent

4배 더 자세하게More sharply

공간해상도 250m 향상

Spatial resolution: 500m→250m한반도 관측횟수 10회로 증가

Local observation(1 day): 8→10 times

+1 새롭게New one

전구 관측(Full Disk) 모드 추가

Add Full Disk observation mode

1.6배 더 다양하게More Accurate

관측밴드 13개로 확장

Observation band : 8(VIS/NIR) →13(VIS/NIR, Wideband)

380mm 620mm 865mm

GOCI GOCI-II

정밀보정 서브시스템 (PCS)

“Data correction and Radiometric Quality Estimation”

운영 및 품질관리 서브시스템 (OQMS)

“Monitoring and control of GOCI-II ground system”

“Management of sub-systems and Monitoring of GOCI-II product quality”

사용자(USER)

국립해양조사원, 국립환경과학원, 국가기상위성센터 등 정부기관

현업기관일반사용자

자료처리 서브시스템 (DPS)

“Level 2 product processing and analysis, algorithm management using GPU based parallel processing”

GOCI

GOCI-II

SPEED“30 times up!

자료관리 서브시스템(DMS)

“GOCI-II Data Storage & Backup”

Daily Data backup volume

GOCI- II

GOCI

58GB

4GB

10배

Raw, L0 일일 용량

GOCI- II

GOCI

117GB

10배

L1A, 1B 일일 용량

4GB

30배

L2 일일 용량

GOCI- II

GOCI- II

GOCI- II

3033GB

100GBGOCI

Level 1B, 2A

Level 2A, L2

Level 0~2Level 0, 1A, 1B품질요소 & 검증정보

(Quality/Validation info.)

자료수신 서브시스템 (DAS)

“Data Acquisition”

L0Raw L1A L1B

59

Research ActivitiesOcean Research, Operations & Support Department

국가 해양 영토에 대한 해양 불법행위, 영해 침범 등 안보 위협사항과 해양사고, 해양오염에 따

른 피해 저감 대책을 마련하고, 안전하고 깨끗한 해양 이용 및 효율적인 해양자원 개발을 위해

서는 통합적인 해양 감시체계를 필요로 한다. 이 연구는 불법 선박 및 적조 등에 대응하기 위한

다중 플랫폼(위성, 무인항공기, HF 해양레이더) 통합감시시스템 기반 구축을 최종 목표로 한다.

2019년에는 형광염료를 활용한 다중 플랫폼/센서 통합현장조사를 기획하였다. 형광염료를살

포 후 위성(광학센서), 무인기(광학, 다분광 센서), 소형 유인기(초다분광 센서)를 이용하여 지속

적으로 탐지, 추적하는 연구를 수행하였다. 또한 HF 해양레이더를 활용하여 해수 유동을 관측

하였고, 이를 수치모델과 연계하여 형광염료의 이동 확산을 추정하였다.

An integrated surveillance system is required to prepare for security threats (e.g., illegal

maritime activities and intrusion into territorial waters) to reduce the damage caused by

marine accidents and marine pollution, as well as for the development of the safe, clean,

and efficient use of marine resources. The main aim of this study is to establish an integrat-

ed surveillance system for the identification of illegal ships and red tides using multiple

platforms including satellites, Unmanned Aerial Vehicles (UAVs), and High Frequency ocean

Radar (HFR). In 2019, we planned a multi-platform/sensor integrated field survey using

fluorescent dye, which was continuously tracked using satellites (with optical sensors), UAVs

(with optical and multi-spectral sensors), and a small airplane (with a hyper-spectral sensor).

In addition, sea surface currents were observed using HFF , and the movement and spread

of the dye was estimated in conjunction with a numerical model.

다중 플랫폼/센서를 활용한 형광염료 탐지 및

이동 확산 연구

Development of a multi-platform/sensor integrated analysis system

연구책임자

유주형 / 책임연구원

Joo-Hyung Ryu / Principal Research Scientistjhryu@kiost.ac.kr

03.

시간에 따른 염료 이동 확산

Movement and spread of fluorescent dye

09:28

09:41

10:10

10:34

10:43

11:06

11:44

형광염료를 활용한 다중 플랫폼

및 센서 통합 현장 조사 영상

다중 플랫폼/센서 통합현장조사 모식도

Concept map of a Multi-Platform/Sensor Integrated Field Survey

위성

소형항공기(초다분광센서)

초분광 카메라

10AU형광측정기

HF해양레이더

무인기 (광학센서)

표층부이

종이 접시

Rhodamine WT

연구활동

해양연구기반부

60 KIOST Annual Report 2019

해양기기개발·운영센터는첨단해양연구장비별로전담운영인력에의한유지보수와운영지원

을수행하여첨단해양연구장비공동활용활성화와다학제적해양연구역량강화를목적으로

2018년에설치되었다.해양기기개발·운영센터에서는연안과대양에서해양환경특성연구에

필수적인해수시료분석지원,계류관측지원및무인관측원,관측된자료의품질보증과상호비

교성확보를위한표준물질제조및검교정,해양관측수행에필수적인연구장비개발지원업무

를주요업무로추진하고있다.해양기기개발운영센터는해양연구를수행하는연구자,박사후

연수연구원,대학원생(UST/OST/산학연협동)들의연구및분석을지원하며,해양클러스터기관

및산업체,연구소,대학에첨단해양연구장비공동활용서비스를제공하고있다.추가적으로자

율사용자들이첨단해양연구장비를효율적이고효과적으로사용할수있도록연구장비사용방

법및분석방법에대한교육과세미나를수행하고있다.

The Instrument Development and Management Center was established in 2018 with the

aim of activating joint utilization of cutting-edge marine research equipment and strength-

ening interdisciplinary marine research capabilities by performing maintenance and

operation support by dedicated operation personnel for each advanced marine research

equipment. The main tasks of Instrument Development and Management Center are

providing support on analysis of seawater samples, mooring and unmanned observation,

and the manufacture and calibration of reference materials to ensure the quality of the

observed data and inter-comparability. The Instrument Development and Management

Center supports the research and analysis of researchers, postdoctoral research institutes,

and graduate students (UST / OST / Academic-Industrial Cooperation) who conduct marine

research, and share advanced marine research equipment with marine cluster institutions,

industries, research institutes and universities. In addition, we provide training and seminars

on how to use and analyze research equipment so that autonomous users can effectively

and efficiently use advanced marine research equipment.

해양기기개발·운영센터

Instrument development and management center

연구책임자

노태근/책임기술원

TaeKeun Rho / Principal Research Specialist tkrho@kiost.ac.kr

04.

2020년부터 원내외 분석서비스(영양염, 총알칼리도/

용존무기탄소, 용존유기탄소)를 진행하기 위해 분석기기의

성능 정비와 관련 규정 마련, 분석단가 산정 등을

수행하였다.

Since 2020, the company has undertaken performance and related regulation analyses and cost analysis for analyzers used to carry out internal and external services (e.g., nutrient salts, total alkalinity/dissolved inorganic carbon, and dissolved organic carbon monitoring).

태풍관측을 위한 무인선단 운영지원

Wave Glider Fleet for Typhoon Observation

해양관측장비 온도(수온)센서 검교정

Calibration of the ocean observation equipment temperature (water temperature) sensor

해양관측장비 압력(수심)센서 검교정

Inspection and calibration of the pressure (water depth) sensor

무인선에서 바라 본 태풍기상

CCTV on a Wave Glider무인선 회수

Wave Glider Recovery파도를 타고 관측

Wave Glider Voyage

61

Research ActivitiesOcean Research, Operations & Support Department

남해연구소

South Sea Research Institute

07

남해연구소는 대형 연구선단을 운영하며 생태계위해성분석 및 평가를 위한

기반연구를 수행하고 있다. 국내외 해양 환경현안을 선도적으로 해결하기

위해 위해성분석연구센터 및 선박평형수 연구센터를 중심으로

해양 미세플라스틱 오염, 유류 및 유해물질 오염, 해양병원체, 선박평형수,

해역 건강성평가 등의 연구를 수행하고 있다. 연구지원 분야에서는

기반시설인 해양시료도서관 및 선박평형수 처리설비 육상시험설비를

운영하고 있다.

The South Sea Research Institute operates a major fleet of research vessels and conducts researches on ecological risk analysis and assessment to preserve the maritime environment. The South Sea Research Institute uses its Ecological Risk Analysis Research Center and Ballast Water Research Center to proactively solve international as well as domestic marine environment. Its research topics include microplastic pollution, oil and hazardous chemical pollution, marine pathogens, ballast water, and the evaluation of the ecosystem health. It also operates research infrastructure including the Library of Marine Samples and a land-based test facility for ballast water treatment system.

01 해양 미세플라스틱에 의한 환경 위해성 연구

Assessment of environmental risk of microplastic pollution

in the marine environment of Korea

02 미국해안경비대(USCG) 독립시험기관 지정

Designation of USCG Independent Laboratory (USCG IL)

03 해양시료도서관 운영 및 해양시료 큐레이션

Operation and curation of the library of marine samples

01.

미세플라스틱이란크기5㎜이하의플라스틱입자를지칭한다.해양으로유입된플라스틱은자

연적풍화를거치면서점차잘게쪼개져크기가마이크로미터수준으로작아지게된다.연안은

물론대양,심해,극지를포함한전세계해양에서광범위하게발견되고,미세플라스틱을섭식하

는생물의범위가작은해양생물(예:동물플랑크톤)까지확대되면서미세플라스틱의환경위해

성에대한우려가커지고있다.본연구는“우리나라해양환경에서미세플라스틱에의한환경위

해성규명”을목표로추진되고있다.미세플라스틱의오염평가,유입·이동,풍화·미세화,생물

영향의4대분야에대한기반기술을확립하며,우리나라해양환경에서미세플라스틱의오염실

태와환경거동,해양생태계에미치는영향을밝히고최종적으로위해성여부를규명하고자한

다.연안해역과외해역,해변과부유,해양생물을아우르는우리나라해양환경전반에서미세플

라스틱의오염현황과특성을종합적으로평가하고있다.육상유입원(하천과하수종말처리장)

으로부터배출되는미세플라스틱의해양유입,미세플라스틱오염을통한유해물질(예:플라스

틱첨가제등)의환경확산과생물전이,해양환경에서플라스틱의미세화과정,미세플라스틱이

해양생물에미치는독성영향을연구하고있다.연구결과들을최종적으로종합하여미세플라스

틱의환경위해성여부를규명하고위해성저감을위한방안을도출할예정이다.

Plastic particles that are less than 5 mm in size are referred to as ‘microplastics’. Once plastic debris enters the ocean, it is gradually fragmented into smaller pieces through various environmental weathering processes. Contamination by microplastics has become a global environmental concern as they are distributed ubiquitously throughout the ocean, from pole to pole, from the surface to the seafloor, and within marine species at every level of the food web. This study aims to identify the environmental risk of microplastics in the Korean marine environment by assessing the current contamination status and characteristics of microplastics in the inshore and offshore environments, and abiotic and biotic matrices), and their environmental and biological effects. The environmental fate such as weathering, fragmentation, land-based input, and oceanic transportation are also investigated. Based on the results, we plan to recommend measures of reducing ecological risk of microplastics in the marine environment, ultimately contributing to improved environmental quality.

해양미세플라스틱에의한환경위해성연구

Assessment of environmental risk of microplastic pollution in the marine environment of Korea

연구책임자

홍상희/책임연구원

Sanghee Hong / Principal Research Scientistshhong@kiost.ac.kr

해양환경 중 미세플라스틱의 거동

Fate of microplastics in the marine environment

우리나라 외해역 해수에 분포하는 플라스틱

Photograph of plastic fragments collected from the offshore waters of Korea

해양환경 중 플라스틱의 풍화와 미세화

Weathering and fragmentation of plastic debris in the marine environment

Microplastics

Photo-oxidation

Mechanical abrasion

연구활동

남해연구소

64 KIOST Annual Report 2019

02.

2004년국제해사기구에서선박평형수관리협약이채택되고2017년에발효되었음에도미국은

자국항만을운항하는선박에대해미국형식승인을받은선박평형수처리장치(BWMS)를장착

하도록법안을시행하고있다.미국형식승인을획득하기위해서는미국해안경비대(USCG)가

지정한독립시험기관(IL,IndependentLaboratory)이미국형식승인기준(ETVprotocol)에따

라품질관리를수행하고,최종시험결과보고서를USCG에제출하여승인을받아야한다.독립시

험기관은형식승인을받고자하는BWMS가형식승인시험을수행할수있는지를평가하여시

험수행여부를결정해야한다.독립시험기관은형식승인시험(육상및선상시험,환경시험,적합

성시험)을수행할수있는시험기관(sub-IL)을지정할수있으며,sub-IL이수행하지못하는시

험은다른시험기관(contractlaboratory)을지정하여수행할수있다.우리연구원(선박평형

수연구센터)은2019년2월에USCG로부터세계에서6번째로USCGIL인증을받았으며,또한

USCGIL로서는세계최초로육상및선상시험의생물유효성시험을수행할수있는시험기관

(sub-IL)으로도인증을받았다.선박평형수연구센터는2019년6월에현대중공업과“선박평형

수처리설비HiBallastTM의USCG형식승인시험과구조변경시험”의품질관리및육·선상시험의

생물유효성시험을포함하는대형연구사업을계약하여현재진행중에있다.우리센터는현대

중공업이개발한BWMS에대한USCG형식승인연구사업을성공적으로마무리하고,USCG형

식승인에대한경험을축적하여,USCG형식승인시험및성능개선을위한구조변경시험에대

한연구사업개발에더매진할것이다.

Although the Ballast Water Management Convention of the International Maritime Organiza-tion had been adopted and entered into force. The United States is enforcing a law to install a ballast water treatment equipment (BWMS), which has been approved by the United States, for vessels operating in its ports. In order for the BWMS to be eligible for US type approval, an independent laboratory (IL) approved by the US Coast Guard (USCG) must perform quality assurance and quality control (QA/QC) for approval tests, according to the US Type Approval Standard (ETV protocol), and submit the final test report the USCG for approval. The IL shall evaluate whether the BWMS will pass the type approval test and decide whether to perform it. The IL should designate sub-ILs for the biological efficacy test, conformance test, and component test, and some tests that are not performed by the sub-ILs may be performed by a designated contract laboratory. In February 2019, the Ballast Water Research Center (BWRC) was approved as the sixth USCG IL in the world, and is also the first USCG IL to be certified as sub-IL to perform both land-based and shipboard testing. In June 2019, the BWRC launched a big research project, the USCG type approval and structure change test of HiBallastTM BWMS, which included the QA/QC and biological efficacy test of land-based and shipboard testing. The BWRC will successfully complete the USCG type approval test for the HiBallastTM BWMS developed by Hyundai Heavy Industries and will focus on developing USCG type approval research projects and structural change tests for performance improvement, based on the experience of USCG type approval of HiBallast BWMS.

미국해안경비대(USCG)독립시험기관지정

Designation of USCG Independent Laboratory (USCG IL)

연구책임자

신경순/책임연구원

Kyoungsoon Shin / Principal Research Scientistksshin@kiost.ac.kr

USCG 독립시험 기관 목록

List of USCG Independent Laboratories

선박평형수처리설비 형식승인을 위한 시험기관 구성도

Diagram of the organization for type approval test of Ballast Water Management System

미국해안경비대(집행 및 기술 관리)USCG(Administrative & Technical Management)

독립시험기관(한국해양과학기술원 /

총괄 및 행정 운영)

Independent Laboratory(KIOST / Technical and

Administrative Operation)

자문위원회

Advisory Committee

육상 및 선상시험 품질관리

Quality Assurance / Quality Control

육상 시험설비 운영 및 선박평형수처리장치 검증시험

(한국해양과학기술원 / 시험설비운전 및 육·선상 시험*)

Test Facility Operation & Verification Testing (TFO/VT)

(KIOST/TFO & Land-based and Shipboard testing)

환경 시험(한국산업기술시험원 : 품질보증관리)

Component Test(KTL / Quality Assurance Management)

적합성 시험(미국선급 : 품질보증관리)

Conformance Test(ABS / Quality Assurance Management)

* 유효성 검증하는 동안 독성시험 및 소독부산물 시험이 수행될 것이며,

독성시험은 네오엔비즈, 소독부산물 시험은 유로피언스가 수행한다.

* During the verification testing, WET testing and relevant chemical

analysis are performed in contract laboratories. Wet testing is

performed by NeoEnBiz and relevant Chemical analysis is performed

by Eurofins.

Approval Series

USCG Accepted Laboratory

Sub Laboratory Country City State

162.060 Control UnionCertifications BV

IMARES,ControlUnionWaterB.V.GoConsult, Dr.MatejDavidConsult, TNO, ABS, GSI,Retlif, PHOENIXTESTLAB, TUD BV

The Netherlands

Zwolle N/A

162.060 Lloyd's Register EMEA

DHI-Denmark, DELTA, DHISingapore, TUV SUD PSB Pte Ltd, PHOENIX TestLab GmbH, SGS Korea CO., NIVA, MEAnl B.V., KOMERI, Retlif Testing Labs, Curtis-Straus LLC, Gollasch Consulting, Dr. Matej David Consulting, Applica Test & Certification AS

United Kingdom

London N/A

162.060 Korean Register of Shipping (KR)

KOMERI, KTL, SGS GiheungLab, Dt&C Co.Ltd., BTP, DHIDenmark

Rep. of Korea

Busan N/A

162.060 NSF International

MERC, GSI, Retlif, AmericanBureau of Shipping; CurtisStrauss LLC(BWMS)

USA Ann Arbor

MI

162.060 DNV GL AS DHI Denmark, GoldenBear, NIVA, Applica Test &Certification, FORCE Technology, PHOENIX TestlabGmbH, Retlif Testing Laboratories, TUVSUDPSB Pte Ltd, SGS Korea Co.,Ltd., LABTEST Certification, Shanghai Marine Auxiliary Test Centre

Norway Hovik N/A

162.060 Korea Institute of Ocean Science and Technology (KIOST)

KIOST, Korea Testing Laboratory (KTL),American Bureau of Shipping (ABS), NeoEnBiz, Eurofins Korea Analytic Service

Republic of Korea

Geoje N/A

65

Research ActivitiesSouth Sea Research Institute

해양시료도서관은해양연구시료의공급허브및재활용연구를통해국내해양과학연구의국제

적위상을강화하는한편,선진연구로도약하고자하는비전을품고있다.해양시료도서관은전

세계해양연구시료를안정적으로확보하고관리하며국가적인공동활용을극대화함으로써창

의적연구가치를재창출하기위해노력하고있다.해양시료도서관에는지질,생물,환경,식물

플랑크톤배양체등목적에따른4가지특수저장고를운영하고있으며,통합정보관리시스템을

통해시료및정보를체계적으로관리하고있다.현재해양시료도서관에서는7만1천여점의(2

만천여조사정점)해양연구시료를확보및관리중에있다.해양시료도서관홈페이지에서는해

양연구시료뿐만아니라분석장비(ScanningXRF코어스캐너,대자율측정기,주사전자현미경,

광학현미경등)를대여및예약하여활용할수있다.향후,해양시료도서관은해양시료를체계적

으로공급하고재활용연구를하여국가연구개발사업의효율적수행과세계적연구성과창출

을위한해양과학기술연구개발의핵심인프라로자리매김할것이다.

The Library of Marine Samples plays an important role as a hub for supply of recycle of

marine research samples, and encourages researchers to improve oceanic studies. The

mission of the Library of Marine Samples is to store and manage marine samples collected

from various sites around the world, and to promote the secondary usage of these samples

in cooperation with global scientific communities. The research samples are managed in

four specialized repositories (geological, biological, environmental, and phytoplankton

culture) and are catalogued in an Information Management System. Currently, the Library

has obtained and is managing approximately 71,000 samples from 21,000 sampling sites.

Information about the research samples, as well as the analytical equipment (Scanning XRF

Core Scanner, MS Scanner, Scanning electron microscope, optical microscopes etc.) that can

be accessed through the library, is available on the website. The Library of Marine Samples

will support the operation of research projects through the supply and secondary usage of

marine research samples and will serve as the national marine sample repository.

해양시료도서관운영및해양시료큐레이션

Operation and Curation of the Library of Marine Samples

연구책임자

정승원/책임연구원

Seung Won Jung / Principal Research Scientistdiatoms@kiost.ac.kr

03.

해양시료도서관 운영개념도 해양시료도서관

지질시료저장고

생물시료저장고

식물플랑크톤배양주저장고

환경시료저장고

•시료 공유

•국제 공동연구

•시료 대여

•시료 검색·신청

•분석 의뢰

•자료 제공

시료입고

해양시료도서관시료정보통합관리시스템

첨단 비파괴 분석실

Global Marine Sample Network

ACORS (Asian Consortium for Ocean Research Samples)

연구자

연구활동

남해연구소

66 KIOST Annual Report 2019

1. 시료 검색

해양 환경 시료 해양 생물 시료 배양주시료

코어퇴적물 해저광물/암석 표층퇴적물 표층(분말)퇴적물

보유시료

1. Scanning Electron Microscope (SEM)

일반 광학현미경으로는 관찰이 어려운 물질의 미세영역을 고분해, 고배율로 확대하여

표면구조 및 형태를 확인 할 수 있으며, EDS를 통한 시료의 원소 분석이 가능하다.

2. MS scanner와 XRF core scanner

MS scanner

자기장을 이용하여 퇴적물 내

자성 물질의 상대적 함량(Magmetic

Susceptilbility)를 측정하는 비파괴

분석장비

XRF core scanner

X-ray, camera, XRF (X-ray Fluorescence)

MS scanner (Magmetic Susceptilbility)를

이용하여 육상 및 해양시료의 지화학

원소들을 분석하는 장비

다양한 생물군의 관찰과 사진 촬영이 가능하고, 배양을 통해 나타나는 대상

생물군의 변화를 동영상으로 확보할 수 있다.

3. Light Microscope

도립형광현미경

실체현미경 정립형광현미경

해양시료도서관 분석장비

해양시료도서관은 국내·외 연구자들과 분석 장비의 공동활용을 통한 연구 활동 증진을 위하여, 각종 현미경과 MS scanner 등의 기초분석장비를 구축하였다.

해양시료대여및분양방법 대여/분양안내, 기증/기탁안내

2. 시료 조회

시료 검색 및 대여

1. 시료 검색 2. 시료 조회 3. 시료조회 결과 4. 시료 상세정보

67

Research ActivitiesSouth Sea Research Institute

동해연구소

East Sea Research Institute

08

동해의 해양환경 및 생태계 특성과 변동 모니터링, 독도의 지속가능한

이용·관리 및 가치 제고를 위한 해양과학조사 등 다양한 연구를

수행하고 있다.

KIOST East Sea Institute conducts various researches such as monitoring the characteristics of the marine environment and ecosystem of the East Sea, observing the changes, sustainable use, management and value enhancement of Dokdo.

01 해양선형동물자원 기탁등록보존기관

Bio-resources bank of marine nematodes

02 연안지형변화 종합관측체계 개발·운영

IIntegrated coastal morphodynamics monitoring

03 독도의 지속가능한 이용연구

The sustainable research and development of Dokdo

04 동해 위도 차이에 따른 연안생태계 포식자의 생태지위와 먹이망 구조 변화 연구

Latitudinal changes in trophic niche of marine predators and food web structure in East

Sea coastal marine ecosystem

05 울릉도·독도 주변 해양생태계 변동 이해 및 대응 기반 연구

Study on the response and adaptive process of marine ecosystem of Ulleungdo and Dokdo due to marine environmental changes

06 울릉도 해양수산자원 증양식 및 고부가가치산업 육성 연구 (지역현안대응)

Study on the development of marine fisheries resources and high value-added industries in Ulleungdo (Response to local issues)

01.

‘해양선형동물자원기탁등록보존기관’은국내의해양선형동물자원을발굴,확보하여표본및종

정보를체계적으로보존및관리하고있다.또한자원의활용성을높이기위하여분양및기탁

시스템을구축하여기관을안정적으로운영하고있다.현재까지해양선형동물254종2,548점

의영구보존슬라이드표본을수장·보관중이며,일반인또는관련연구자에게65건의해양선형

동물자원을분양하였다.또한지속적으로신종및미기록종을발굴하는연구를수행중이며,해

양교육체험프로그램을기획하고운영하여기관이보유한성과를확산시키는데기여하고있다.

이처럼국내해양선형동물자원의확보와안정적인보존관리는국내해양생물다양성연구에기

여하고있으며,나아가국가생명과학연구의원천소재로써활용될것으로기대된다.

The Korean Bio-resources Bank of Marine Nematodes preserves marine nematode re-

sources in a stable manner by systematically securing and preserving samples and species

information through the discovery and recovery of marine nematode specimens in Korean

waters. Bio-resources Bank of Marine nematodes has 2,548 permanent preservation slides

of 254 marine nematode species in its collection and 65 marine nematode samples distrib-

uted to the public or related researchers. In addition, it is continuously conducting research

on new and unknown species, and contributing to scientific endeavors such as planning

and operating marine education experience programs. As such, it is expected that securing

marine nematode resources and stable conservation management in Korea will contribute

to the study of marine biodiversity in Korea and be further utilized as a source of national

life science research.

해양선형동물자원기탁등록보존기관

Bio-resources bank of marine nematodes

연구책임자

노현수/책임연구원

Hyun Soo Rho / Principal Research Scientisthsrho@kiost.ac.kr

해양선형동물의 고배율 현미경 사진 및 세밀화

High magnification microscope photograph and illustration of marine nematodes

해양선형동물자원 기탁등록보존기관 수장고

The storage room of bio-resources bank of marine nematodes

독도긴털용선충Prochaetosoma dokdoense

Rho et. al., 2010

고산자루용선충Dracograllus gosanensis

Rho & Kim, 2011

한국머리마디선충Desmoscolex (Desmolorenzenia) coreensis

Rho et. al, 2007

연구활동

동해연구소

70 KIOST Annual Report 2019

02.

동해연구소는실시간관측시스템운영,주기적인수심측량,폭풍기간수리·퇴적현상정밀관측

을통하여2016년부터전면후정백사장의지형역학관련빅데이터를축적하고있다.실시간

연속관측은높이30m타워에CCTV8대가장착된해안선관측시스템,백사장지하수위관측,

백사장표고변화관측을위한지중압력관측시스템,그리고전면수심30m정점에서의파랑관

측으로구성된다.그동안동해연구소연안침식연구팀은주목할만한연구성과를얻었다.일반

적으로침식이거의발생하지않는다고여겨지는소위마감수심(closuredepth)에서폭풍파에

의해0.7m정도가침식됨을관측하고,이는해저면유향의급격한변동과파랑첨도때문이라

는것을밝혔다.또한후정해안침식이심각하므로동해연구소와경북환동해산업연구원및국

립해양과학관방호를위하여심도있는관리가필요하다는것을과학적증거로써제시하였다.

2019년국정감사에서강석호의원은동해연구소관측성과를토대로과학적인국가해안선관

리를위해비디오모니터링을확대할것을제안하였으며,해양수산부는이에동의하였다.

ESRI has been accumulating, since 2016, a large database of processes related to the mor-

phodynamics of Hujeong beaches using real-time monitoring systems, periodic bathymet-

ric surveys, and detailed measurements of hydrodynamic and sedimentary processes with

KIOST BBL systems during storm periods. Continuous and real-time monitoring consists of

a video system (a 30 m high tower with 8 CCTVs) for shoreline monitoring, beach ground-

water level monitoring, a beach pressure measuring system for monitoring the elevation

changes at 15 sites, and wave monitoring at a depth of 30 m. The ESRI Coastal Morphody-

namics Team has made some significant and noteworthy findings. SPHINX, KIOST BBL sys-

tem, observed extraordinary bed erosion of about 0.7 m at a depth of about 8.3 m near the

closure depth, likely caused by rapid and frequent changes in bottom current direction and

wave skewness. Hujeong beach, where ESRI is located, is undergoing substantial erosion,

and as such should be more scientifically managed to protect three seaside ocean-related

national and local government institutes. During a 2019 parliamentary inspection of the

administration, Mr. Seok Ho Kang, who is a member of the National Assembly, suggested,

based on ESRI’s data, that video monitoring should be increased for the scientific manage-

ment of the national shoreline. The Ministry of Oceans and Fisheries agreed his suggestion

and accepted it.

연안지형변화종합관측체계개발·운영

Integrated coastal morphodynamics monitoring

연구책임자

진재율/책임연구원

Jae-Youll JIN / Principal Research Scientistjyjin@kiost.ac.kr

비디오 모니터링 자료를 활용한 국가해안선 관리개선을

제안하는 강석호 의원(2019.11.25)

Mr. S.H. Kang, a member of National Assembly, suggested the improvement of National Shoreline Management by increasing video monitoring.

SPHINX : KIOST BBL (Bottom Boundary Layer) system 호안붕괴 영상 비디오 모니터링 결과

71

Research ActivitiesEast Sea Research Institute

본연구는독도의종합해양과학조사를통하여해양환경,해양생태계특성파악과모니터링,독

도연안해저생물서식지의특성및변화파악과독도생물의활용연구등독도해양영토의조

사,신자료구축및국가적이용,관리에기여하고있다.한편독도의영토주권강화를위한독

도-울릉도형성기원및변동연구도수행하고있다.올해는이사부호와ROV를이용하여화산

체해저암석채취,심해영상조사및자이언트피스톤코어등의조사를수행하였다.독도연구

연구성과는서적(‘독도바다,숨어있는숫자’,‘수중생태지도’,‘세밀화로본독도의해양생물’및

‘숨겨진독도를만나다’등)과웹툰,인포그래픽등을통해서대중들에게이해하기쉽게전하고

있다.뿐만아니라,독도주변해역의해양자료들을데이터베이스로만들어독도종합정보시스템

을통해국민들에게제공함으로써독도에대한국민의인식을높이는데기여하고있다.향후독

도종합해양과학조사결과는독도의지속가능한보전ㆍ관리에필요한기반마련및해양영토

분쟁발생시영유권주장근거자료로활용되는등독도관련국가정책수립에크게기여할것

으로기대된다.

We are contributing to the investigation of Dokdo’s marine territories, construction of

new data, and national use and management of Dokdo through comprehensive marine

science researches such as monitoring the characteristics of the marine environment

and ecosystem of Dokdo, understanding seabed creatures’habitats, and the utilization

of marine organisms of Dokdo. To strengthen the sovereignty of Dokdo, we have carried

out a study on the origin of Dokdo-Ulleungdo, conducting surveys such as the collection

of rocks of submerged volcanic bodies, deep sea images and giant piston core surveys.

Dokdo’s research results provide the public with easy understanding of Dokdo through

books(‘Numbers hidden in the sea of Dokdo’, ‘Underwater eco map’, ‘Miniature of marine

life in Dokdo’, ‘Meet hidden Dokdo’), webtoons, and infographics. Furthermore, we are

trying to contribute raising concern about Dokdo by building a database containing infor-

mation from our comprehensive marine science research and share it with people using the

Dokdo Information System. In the future, we expect that these comprehensive results will

be utilized as fundamental resources for the sustainable use and management of Dokdo as

well as for national policy.

독도의지속가능한이용연구

The sustainable research and development of Dokdo

연구책임자

박찬홍/책임연구원

CHAN HONG PARK / Principal Research Scientistchpark@kiost.ac.kr

03.

독도 관련서적 6종

Books of Dokdo’s research results

독도 수중생태지도(가지초)

Underwater Eco-map of Dokdo(Gajicho)

ROV를 활용한 독도 사업 현장조사 수행

ROV on the field survey of Dokdo

독도 관련 웹툰 3편

Webtoons of Dokdo’s research results

해랑이와 독도박사님의 독도 탐사이야기

1편 2편 3편

박사님, 저희가

독도 탐사를 간다니!

너무 설레요~

이제 본격적인

독도 연구를 위해

‘바다 위 연구선’ 이사부호를

타고 탐사를 떠나봅시다~

시료 채취가

마무리

되었습니다..

해랑이

연구활동

동해연구소

72 KIOST Annual Report 2019

해양생태계에서생태지위의복잡성은공존하는생물종간경쟁을감소시키고생태계환경수

용력을증가시킬수있다.그러나해양생태계생물군집내에서자연적으로존재하는생태지위

의크기또는개수에관해서는잘알려져있지않다.이러한해양생태계에서생태지위의복잡성

은먹이망구조의변동성에의해잘설명될수있다.본연구는동해연안위도별3개정점의저

서생태계에서공존하는어류의소화관내용물과안정동위원소(δ13C,δ15N)를분석하여생태지

위의크기와위도에따른먹이망구조의변동성을연구하였다.각정점의수심별수온분포는뚜

렷한차이를보였으나,염분은큰차이가없었다.포식자소화관내용물분석결과주요먹이생

물은종간차이를보였고,정점별차이도뚜렷하였다.포식자와먹이생물의탄소및질소안정

동위원소분석결과동해연안생태계는위도에따라다른영양구조를가지고있었다.특히,북

쪽으로갈수록군집의영양단계가증가하고부유성먹이원의기여도가증가하였다.본연구는

소화관내용물과안정동위원소분석의통합해석방법을통하여먹이망구조를해석하는데새

로운방향을제시하였고,해양환경변화가먹이망구조에미치는영향을찾는데좋은도구가될

수있음을시사하였다.해양생태계에서생태지위의범위와포식-피식관계의정보는기후변화,

어업등인간활동기원의영향에대한생태계복원력을파악하는데중요한연구자료가된다.

Having more trophic niches in an ecosystem can support a greater diversity of sympatric

species in marine systems by reducing inter-species competition, which can increase the

carrying capacity of ecosystems, the productivity of fisheries, and trophic stability. However,

the scale and number of interactions of trophic niches that occur naturally within whole

marine communities are less well understood. Such trophic niches in marine ecosystems

well explain the variabilities of marine food webs. This study examined the dietary contents

and stable isotope signatures (δ13C and δ15N) of co-occurring fish species from three

benthic coastal environments of East Sea, to determine the number and width of trophic

niches and latitudinal changes in food web structures. The vertical structures of water tem-

perature were significantly different between habitats, but salinity tended to consistency.

Dietary contents of predator species suggest that preferences of specific prey items were

different among co-occurring fish species, as well as between habitats. In addition, carbon

and nitrogen stable isotope values showed that trophic structure clearly differed among

the study sites, having higher trophic position and predominant pelagic food sources at the

northern site, while lower trophic position at the southern site and a predominant benthic

food source at the middle site. This study suggests new insight into translating food web

structure through dietary content and stable isotope coupling analyses, and suggests novel

methods for investigating the influences of oceanographic features on marine food web

structures. The number of trophic positions and prey-predator relationships in each habitat

suggests that these trophic structures would be resilient to anthropogenic pressures such

as climate change or fisheries.

동해위도차이에따른연안생태계포식자의

생태지위와먹이망구조변화연구

Latitudinal changes in trophic niche of marine predators and food web structure in East Sea coastal marine ecosystem

연구책임자

박주면/선임연구원

Joo Myun Park / Senior Research Scientistjoomyun_park@kiost.ac.kr

04.

동해 연안 위도별 포식자 생태지위와 포식-피식 관계 Trophic niches of predators and prey-predator relationships in three different coastal habitats of East Sea

동해 연안역 저어류의 주요 먹이생물 사진

Photographs of prey items in the stomachs of main fish species inhabiting the coastal waters of East Sea

갑각류Amphipods

어류 Fishes

거미불가사리Brittle star

보리새우Mysids

새우류Carid shrimps

환형동물Polychaetes

대게Snow crabs

두족류의 부리Cephalopod beaks

North

Middle

South

가시횟대

기름가자미

노랑볼락

대구

대구횟대

도다리

빨간횟대

삼세기

성대

쏨뱅이

용가자미

임연수어

줄가자미

조피볼락

쥐노래미

참가자미

동갈횟대

말쥐치

망상어

물가자미

물메기

전갱이

73

Research ActivitiesEast Sea Research Institute

울릉도·독도주변해양생태계변동이해및

대응기반연구

Study on the response and adaptive process of marine ecosystem of Ulleungdo and Dokdo due to marine environmental changes

동해외해에위치한섬이라는지리적특성상한반도해역기후변화감시의최적지인울릉도·독도

해역은한반도주변해역중가장높은비율로표층수온이상승하고있으며,연안의바다사막화

현상또한확산되고있다.울릉도·독도해양연구기지에서는해양환경변화대응및기후변화감시

를위해장기해양환경모니터링정점운영,기후변화지시생물정밀모니터링,울릉도해양보호

구역(MPA)의생물다양성및대마난류역해양생물지리분포특성연구등을수행하고있다.또한

울릉도에위치한지리적특징을기반으로독도정밀모니터링연구를수행하고있다.

Due to the remote geographical characteristics of the islands of Ulleungdo and Dokdo

located in the East Sea gives advantage of these islands to be the most appropriate location

for pertinent monitoring of climate change impacting the Korean Peninsula. For example,

the surface water temperature Ulleungdo and Dokdo waters is rising at the highest rate

around the Korean peninsula. Moreover, ocean desertification is spreading along the coast.

In order to deal with the challenges given by the changes in the marine environment and

monitoring the climate change, a long-term monitoring buoy to track the changes in ma-

rine environment is in full operation. In addition, several other studies are also being carried

out simultaneously including studying characteristics of marine biodiversity of MPA(Marine

Protected Area) as well as marine biogeography on the site of Tsushima warm-current as

part of detail investigation of marine domain of Ulleungdo and Dokdo.

연구책임자

김윤배/책임기술원

Yun-Bae Kim / Principal Research Specialistdokdo512@kiost.ac.kr

05.

울릉도와 주변 대마난류권 해역의 표층수온 비교

Comparison of seawater temperature among the sites of Tsushima warm-current

울릉도 수중 암반 생태계 조사 장면

Underwater survey on the rocky ecosystem by SCUBA

울릉도 정기 해양환경 라인 CTD 조사 장면

CTD survey on the regular marine environmental survey line in Ulleungdo

1 2 3 4 5 6 7 8 9 10 11 125

10

15

20

25

30

Tem

pera

ture

난류역 비교 조사해역의 월평균 표층수온(2017년 해양조사원 해수유동장 자료 활용)

Month

YakushimaJejudoTsushimaOkiWangdolUllengdoDokdo

연구활동

동해연구소

74 KIOST Annual Report 2019

울릉도해양수산자원증양식및

고부가가치산업육성연구(지역현안대응)

Study on the development of marine fisheries resources and high value-added industries in Ulleungdo (Response to local issues)

최근울릉도는수산물판매액의약96%를차지하는대표어종인오징어어획량이10년전에

비해1/10수준으로급감함에따라대체수산자원육성및고부가가치해양산업육성이매우시

급한실정이다.이러한지역현안대응을위해정치성구획어업시험어장운영등새로운어법의

개발,표층가두리양식장운영등을통한수산자원증·양식연구,기존취수중인해양심층수를

활용한수산자원육성연구(무지개송어해수순치),울릉도·독도유용수산물의브랜드화연구등

을수행하고있다.

In recent years, Ulleungdo’s catches of squid, which used to be the well-known represent-

ative fisheries and accounted for about 96% of its sales of fisheries products, have dropped

sharply to one-tenth compared to 10 years ago. Such disappearing trend of island’s the most

important commodity demand urgent investigation to find alternative or substitute fisheries

resources to sustain island economy. Also, such alternate commodity should be fostered for

high value-added marine economy. In order to cope with these regional issues, the devel-

opment of new fishing methods is being carried out such as the operation of the testbed

for stationary fisheries. The study also include fishery resources and mariculture through the

operation of surface cage-farm aquaculture, the study of fisheries resources (seawater do-

mestication for rainbow trout) using deep seawater. and re-branding of Ulleungdo fisheries

commodity.

연구책임자

임장근/책임행정원

Jang-Geun Lim / Principal Administrative Associatejglim@kiost.ac.kr

06.

무지개송어의 해수 순치 실험의 성장률

Growth rate of rainbow trout for seawater domestication

울릉도 표층 가두리 양식장 운영 장면

Management of cage fish farm in Ulleungdo정치성 구획어업 시험어장 운영

Pilot study on the introduction of stationary fishery

Date(yyyy.mm.dd)

112018 2019

12 01 05 03 04 050

5

10

15

25

35

45

20

30

40

50

0

200

400

600

1000

800

1200

1400

Mea

n To

tal L

engt

h(cm

)

Mea

n To

tal W

et W

eigh

t(ww

g)

23.0cm

117.0g

1,258.9g

46.1cmTotal Length(mm)

Total Weight(g)

75

Research ActivitiesEast Sea Research Institute

제주연구소

Jeju Research Institute

09

제주연안의 청정한 해양생물을 활용한 해양바이오 산업화 연구와

제주도 연안 해양환경 변화에 따른 해양생태계의 변화 연구를 수행하고 있다.

KIOST Jeju Institute conduct research on marine bio-industry using an endemic marine organisms and relevant research areas using marine organisms observed around Jeju as well as research on marine environmental change to understand the effects of climate change on the marine environment near Jeju Island.

01 고염분수를 이용한 해양생물원료 생산 및 활용 연구

Marine biomass production and utilization using high salinity water

02 생지화학 순환 및 해양환경변동 연구 : 제주 지역 현안 문제 해결 연구

Biogeochemical cycling and marine environmental change studies : A Study on the settlement of regional issues in Jeju

03 제주 소라의 산업적 활용기술 개발

Development of applied industrial technology using Turbo cornutus from Jeju Island

용암해수(염지하수)는제주동부지역의화산암반층밑에갇혀있는해수로유해성분이없고연

중물성이일정하다.제주에서는이물을해수담수화과정을거쳐먹는물산업으로활용하고

있다.이때염분을제거하는과정에서70psu정도되는고염분수가부산물로생산되며이를바

다로배출할경우,해양생태계에영향을줄수있다.한국해양과학기술원제주연구소에서는이

러한고염분수를산업적으로재활용하기위해고염에서성장가능한해양생물자원을탐색하고

배양및기능성물질생산연구를진행하고있다.

Magma seawater (underground seawater) is a water resource trapped in volcanic rock

formations in the eastern part of Jeju. It has no harmful components and has stable physical

properties throughout the year. This water is suitable as drinking water after desalination.

At this time, high salinity water (70 psu) is produced as a by-product of the salt-removing

process, which may affect marine ecosystems when discharged to the sea. In order to in-

dustrially recycle these high salinity waters, the Jeju Research Institute of KIOST is searching

for marine biological resources that can be cultured in highly saline water and is conducting

research on opportunities to develop valuable substances from these organisms.

고염분수를이용한해양생물원료

생산및활용연구

Marine biomass production and utilization using high salinity water

연구책임자

오철홍/책임연구원

Chulhong Oh / Principal Research Scientist och0101@kiost.ac.kr

01.

Dunaliella salina의 배양 시스템 개발

A: 순환배양시스템

B: 미세조류-미생물 하이브리드 배양 시스템

Development of a culture system for Dunaliella salina A: circulating culture system B: microalgae-microbial hybrid culture system

A

Magma seawater (33 psu)

High salinity water (70 psu)

B

고염분수 배양 미생물 대사체의 항산화 활성

Antioxidant activity of microbial metabolites cultured in high salinity water

MB MW CW

Marine broth Magma Seawater (33psu)+ 0.5% peptone + 0.1% yeast extract

High Salinity Magma Seawater (70psu) + 0.5% peptone + 0.1% yeast extract

Cell growthDPPH assay P.xiamenensis S1131

Time(hr)

Sca

vengin

g a

ctiv

ity(

%)

0

0

0

0

20

20

40

40

60

60

80

80

100

100

Ascorbic acid

Ascorbic acid

12

12

24

24

48

48

72

72

Sca

vengin

g a

ctiv

ity(

%)

Time(hr)

H2O2 assay P.xiamenensis S1131

CFU

/ml

2.50E+08

2.00E+08

1.50E+08

1.00E+08

S.00E+07

0.00E+000d 1d 2d 3d

day

MBMWCW

MBMWCW

연구활동

제주연구소

78 KIOST Annual Report 2019

제주도는온난화,자체인간활동증가및관광인구증가등에의해국지적인해양환경오염이

증가되고있다.이러한연안오염의원인과해결방안을마련하기위하여과학적자료를종합하

여분석하는연구를수행하였다.여러현안문제중하나로1995년이후신양방두만에서지속

적으로발생하는해조류대번성문제가있다.제주신양리방두만에서는매년4월부터10월까

지해조류가대번성을하여조간대에퇴적후부패되면서심각한환경적,경제적문제를야기하

고있다.신양방두만의해양환경현황을이해하기위하여기초생산성,영양염,해조류,해류,수

온및염분을조사하였고,고해상도순환모델을이용하여해조류발생원인과영향을분석하였

다.이현상의원인중하나는만의서쪽에서발생하는육상양식장배출수와용천수유입에따

른지속적인고농도영양염유입이다.이런유입수는특히질산성질소의농도가높았고,갈파

래체내에서도질소함량이높게나타났다.다른원인으로만의서쪽이동쪽보다상대적으로해

류의흐름이약했는데,이것은만의서쪽에건설된항만으로인한해류순환변화가원인으로

조사되었다.모델시뮬레이션결과에서도항만건설후만외부로유출되는입자는건설전보다

3~8%감소하였고,체류시간은0.25~0.65일증가된것으로분석되었다.제주신양방두만갈

파래대번성을저감시키기위해서는인위적인영양염의공급을최소화하고,해류순환을개선시

켜부영양화된해수순환의개선이필요할것으로분석되었다.

Jeju Island is leading a rapid increase of the local marine pollution caused by warming,

increasing human activities and demand tourism population. To manage coastal pollution

causes and solutions, we carried out the research with analyzing comprehensive scientific

data. In one of the regional issues, Bangdu Bay, located in Sinyang-ri, Jeju, seaweed bloom

from April to October every year, and it is causing serious environmental and economic

problems as it decomposes after being deposited in the intertidal zone.

To understand the status of the marine pollution in Bangdu Bay, we collected primary

production, nutrients, seaweed, current, temperature and salinity data, and we analyzed

the cause and effect of seaweed bloom using a high-resolution circulation model. Seaweed

blooms in Bangdu Bay has been continuously occurred since 1995. Among these reasons is

the steady inflow of high-concentration nutrients by aquaculture farm effluent and ground

water from the western part of the bay. These inflow waters have a higher NOx concentra-

tion, especially nitrogen content in Ulva tissues was higher. For this reason, current speed

was observed from the western part of the bay relatively slower than the eastern part of the

bay, which was mainly due to the construction of the port on the western part of the bay.

From a result of model simulation, the outflow of the particles reduced by 3~8% and the

residence time increased by 0.25~0.65 days after the construction of the port.

In order to reduce the outbreak of Ulva in the Bangdu Bay, it will be necessary to minimaze

the supply of artificial nutrients and improve the circulation to reduce the residence time of

eutrophicated seawater.

생지화학순환및해양환경변동연구:

제주지역현안문제해결연구

Biogeochemical cycling and marine environmental change studies : A study on the settlement of regional issues in Jeju

연구책임자

손영백/책임연구원

Young Baek Son / Principal Research Scientistsonyb@kiost.ac.kr

02.

드론을 이용한 제주 신양 방두만 해조류 촬영 영상

The image of seaweed in Bangdu Bay, Sinyang Jeju using drone

제주 신양 방두만에

번성한 해조류 제거

영상

79

Research ActivitiesJeju Research Institute

03.

제주도특산물중하나인제주소라는거친파도와현무암사이에서버텨내기위해뿔을키웠기

에다른지역에서볼수없는뿔모양을갖고있다.소라의전체어업생산량은제주도가83%로

가장많으며,유네스코인류무형문화유산으로등재된해녀의주된소득원이기도하다.하지만

국내의낮은인지도와최대수출국인일본의엔저현상으로소비가원활하지않아제주소라의

부가가치를높이기위한연구의필요성이제기되었다.이에본과제에서는제주소라의영양학

적,생리기능학적(항노화,대사기능개선,향장(香粧)효능등)연구를통해그우수성을과학적

으로증명하고제주특화고기능성바이오산업소재를발굴하고자한다.연구결과,소라에서이

용되지않는내장부분에서우수한생리활성을확인하였으며.이를활용하여소비자의시장성을

고려한기능성이함유된향장시제품을개발하였다.현재확인된생리활성을바탕으로명확한

작용기전연구를지속적으로진행할예정이며,추후연구를통해소라의인지도상승,고기능성

산업소재로활용가능성제시및식품,화장품개발을통하여해양수산업활성화및해녀들의

소득향상에기여할것으로판단된다.

Turbo cornutus specially has the spiny top shell naturally formed by adapting to the rough

waves and basalt in sea of Jeju Island. Total national fishery production of T. cornutus is the

largest in Jeju, at 83%, and it is a major source of income for Haenyeo (female divers whose

practices are listed as a heritage cultural practice by UNESCO). However, it is characterized

by low commercial value, largely due to limited awareness of its potential value. In this

study, we evaluated the biological activities of effective components derived from T.

cornutus (anti-aging, metabolic diseases improvement, and cosmetic applications), its

nutritional value, and its potential as a bio-industrial material. We identified some excellent

cosmetic applications using unused viscus based on biological activities. In the future, we

believe that this work will help improve the economic value of T. cornutus, raise awareness

of its potential applications, and contribute to local development and the well-being of

Haenyeo.

제주소라의산업적활용기술개발

Development of applied industrial technology using Turbo cornutus from Jeju Island

연구책임자

허수진/책임연구원

Soo-Jin Heo / Principal Research Scientistsjheo@kiost.ac.kr

과제의 추진전략

Strategy of the project제주소라를 활용한 향장 시제품

T. cornutus cosmetic prototype

제주 소라의 고부가가치화를 위한 유용성분 탐색 및 이를 활용한 고기능성 바이오 산업소재 발굴

제주 소라의 가치 상승 유도 및 해녀 소득 보전

유용성분 확보 및

고효율 복합 공정

기술 개발

소라 유래

고기능성 바이오

산업소재 발굴

학술적 우수성

증명을 통한

소라 인지도 상승 유도

기술이전을 통한

고기능성 바이오

산업제품 개발

연구활동

제주연구소

80 KIOST Annual Report 2019

제주 소라의 대표적인 효능

Bioactivities of T. cornutus

50CIN

HAS2

HYAL2

GAPDH

100 200 400

소라 Alcalase 추출물 (µg/ml)

유효성분의 향장 효능 (Cosmetic effects of Turbo cornutus)

HA

S2 b

and

inte

nsity

/GA

PDH

소라 Alcalase 추출물 (µg/ml)

1.6

1.2

1.4

1.0

0.8

0.6

0.2

0.4

00 50 200 400Con

Hya

l2 b

and

inte

nsity

/GA

PDH

소라 Alcalase 추출물 (µg/ml)

1.2

1.0

0.8

0.6

0.2

0.4

00 50 200 400Con

제주 소라 추출물의 항염증 효능 및 소라 유래 기능성 펩타이드의 in silico docking study 통한 ACE 저해 효능

Anti-inflammatory activity of T. cornutus extracts in RAW264.7 cells and ACE inhibition effect of bioactive peptides isolated from T. cornutus in silico docking study

제주 소라 추출물의 산화적 스트레스 억제 및 보습 효능

Moisturizing and anti-aging effects of T. cornutus in HaCaT cells

NO

pro

duct

ion

(%)

LPS 1 μg/ml + TVE (µg/ml)

120

100

80

60

40

20

00 50 100 200Control

Cell

viab

ility

(%)

LPS 1 μg/ml + TVE (µg/ml)

140

120

100

80

60

40

20

00 50 100 200Control

PGE2

pro

duct

ion

(%)

LPS 1 μg/ml + TVE (µg/ml)

120

100

80

60

40

20

00 50 100 200Control

50

LPS 1 µg/ml

TVE (µg/ml)

INOS

COX-2

β-actin

100 200

유효성분의 대사기능 개선 효능 (Improvement effects of Turbo cornutus on metabolic function)

ELR

ALPAH

Control

AAPH(10mM)+100µg/ml

AAPH(10mM)

AAPH(10mM)+200µg/ml

AAPH(10mM)+50µg/ml

AAPH(10mM)+400µg/ml

81

Research ActivitiesJeju Research Institute

82 KIOST Annual Report 2019

3-Bromo-5-(ethoxymethyl)-1,2-benzenediol inhibits LPS-induced pro-inflammatory responses by preventing ROS production and downregulating NF-kappa B in vitro and in a zebrafish modelKo, EY; Heo, SJ; Cho, SH; Lee, W; Kim, SY; Yang, HW; Ahn, G; Cha, SH; Kwon, SH; Jeong, MS; Lee, KP; Jeon, YJ; Kim, KNINT IMMUNOPHARMACOL, 67:98–105, https://doi.org/10.1016/j.intimp.2018.11.021

A biological tool for indicating hypoxia in coastal waters: calcareous walled-type to naked-type cysts of Scrippsiella trochoidea (Dinophyceae)Ishikawa, A; Wakabayashi, H; Kim, YOPLANKTON BENTHOS RES, 14:161–169, https://doi.org/10.3800/pbr.14.161

A critical re-assessment of the primary productivity of the Yellow Sea, East China Sea and Sea of Japan/East Sea Large Marine EcosystemsYoo, S; Kong, CE; Son, YB; Ishizaka, JDEEP-SEA RES PT II, 163:6–15, https://doi.org/10.1016/j.dsr2.2018.05.021

A large artificial dyke greatly alters partitioning of sulfate and iron reduction and resultant phosphorus dynamics in sediments of the Yeongsan River estuary, Yellow SeaAn, SU; Mok, JS; Kim, SH; Choi, JH; Hyun, JHSCI TOTAL ENVIRON, 665:752–761, https://doi.org/10.1016/j.scitotenv.2019.02.058

A New Method for Quality Control of Geological Cores by X-Ray Computed Tomography: Application in IODP Expedition 370Tonai, S; Kubo, Y; Tsang, MY; Bowden, S; Ide, K; Hirose, T; Kamiya, N; Yamamoto, Y; Yang, KH; Yamada, Y; Morono, Y; Heuer, VB; Inagaki, F; Maeda, L et al. FRONT EARTH SC-SWITZ, 7, https://doi.org/10.3389/feart.2019.00117

A new species of hydrothermal vent stalked barnacle Vulcanolepas (Scalpelliforms: Eolepadidae) from the North Fiji Basin, Southwestern Pacific OceanChan, BKK; Ju, SJ; Kim, SJZOOTAXA, 4563:135–148, https://doi.org/10.11646/zootaxa.4563.1.7

A Novel Meander Split Power/Ground Plane Reducing Crosstalk of Traces Crossing OverLee, JHELECTRONICS-SWITZ, 8, https://doi.org/10.3390/electronics8091041

A rapid and sensitive enzymatic assay for 2,3-butanediolLee, GB; Kim, YJ; Lim, JK; Kim, TW; Kang, SG; Lee, JH; Lee, HS3 BIOTECH, 9, https://doi.org/10.1007/s13205-019-1705-9

A simple biosynthetic pathway for 2,3-butanediol production in Thermococcus onnurineus NA1Lee, GB; Kim, YJ; Lim, JK; Kim, TW; Kang, SG; Lee, HS; Lee, JHAPPL MICROBIOL BIOT, 103:3477–3485, https://doi.org/10.1007/s00253-019-09724-z

A systematic study of the effects of solvents on phenanthrene photooxidationShankar, R; An, JG; Loh, A; Yim, UHCHEMOSPHERE, 220:900–909, https://doi.org/10.1016/j.chemosphere.2018.12.206

A Theory of Multiaperture Along-Track Interferometric Synthetic Aperture RadarOuchi, K; Yoshida, T; Yang, CSIEEE GEOSCI REMOTE S, 16:1565–1569, https://doi.org/10.1109/LGRS.2019.2906104

A Yellow Sea Monitoring Platform and Its Scientific ApplicationsKim, YS; Jang, CJ; Noh, JH; Kim, KT; Kwon, JI; Min, Y; Jeong, J; Lee, J; Min, IK; Shim, JS; Byun, DS; Kim, J; Jeong, JYFRONT MAR SCI, 6, https://doi.org/10.3389/fmars.2019.00601

Abundance and characteristics of microplastics in market bivalves from South KoreaCho, Y; Shim, WJ; Jang, M; Han, GM; Hong, SHENVIRON POLLUT, 245:1107–1116, https://doi.org/10.1016/j.envpol.2018.11.091

Accuracy Improvement of Particle Tracking Model Using 2-D Current Measurement (HF-Radar) DataChoi, JW; Song, KM; Choi, JYJ COASTAL RES, 251–255, https://doi.org/10.2112/SI91-051.1

Activation of the nucleotide excision repair pathway by crude oil exposure: A translational study from model organisms to the Hebei Spirit Oil Spill CohortKim, Y; Jeong, J; Chatterjee, N; Yim, UH; Kwon, JH; Park, MS; Choi, JENVIRON POLLUT, 254, https://doi.org/10.1016/j.envpol.2019.112997

Adsorption properties of heavy metal ions in landfill leachate by Na-bentoniteXu, X; Liu, XF; Oh, M; Park, J; Chen, YFMATER TEST, 61:81–87, https://doi.org/10.3139/120.111284

An automated threshold selection method based on the characteristic of extrapolated significant wave heightsLiang, BC; Shao, ZX; Li, HJ; Shao, M; Lee, DCOAST ENG, 144:22–32, https://doi.org/10.1016/j.coastaleng.2018.12.001

An experimental study on vertical motion control of a high-speed planing vessel using a controllable interceptor in wavesPark, JY; Choi, H; Lee, J; Choi, H; Woo, J; Kim, S; Kim, DJ; Kim, SY; Kim, NOCEAN ENG, 173:841–850, https://doi.org/10.1016/j.oceaneng.2019.01.019

An interlaboratory comparison exercise for the determination of microplastics in standard sample bottlesIsobe, A; Buenaventura, NT; Chastain, S; Chavanich, S; Cozar, A; DeLorenzo, M; Hagmann, P; Hinata, H; Kozlovskii, N; Lusher, AL; Marti, E et al. MAR POLLUT BULL, 146:831–837, https://doi.org/10.1016/j.marpolbul.2019.07.033

Anaerosacchariphilus polymeriproducens gen. nov., sp. nov., an anaerobic bacterium isolated from a salt fieldKim, W; Yang, SH; Park, MJ; Oh, J; Lee, JH; Kwon, KKINT J SYST EVOL MICR, 69:1934–1940, https://doi.org/10.1099/ijsem.0.003404

Analysis of Measured Surface Nearshore Currents Using Multiple Drifters on Anmok Beach, South KoreaLim, HS; Kim, M; Kim, DH; Lee, HJJ COASTAL RES, 46–50, https://doi.org/10.2112/SI91-010.1

Anthropogenic influences on benthic food web dynamics by interrupted freshwater discharge in a closed Geum River estuary, KoreaNoh, J; Yoon, SJ; Kim, H; Lee, C; Kwon, BO; Lee, Y; Hong, S; Kim, J; Ryu, J; Khim, JSENVIRON INT, 131, https://doi.org/10.1016/j.envint.2019.104981

Antihypertensive effect of surimi prepared from olive flounder (Paralichthys olivaceus) by angiotensin-I converting enzyme (ACE) inhibitory activity and characterization of ACE inhibitory peptidesOh, JY; Kim, EA; Lee, H; Kim, HS; Lee, JS; Jeon, YJPROCESS BIOCHEM, 80:164–170, https://doi.org/10.1016/j.procbio.2019.01.016

2019 논문목록2019 Paper List(SCIE)

83

Anti-melanogenesis activity of Ecklonia cava extract cultured in tanks with magma seawater of Jeju IslandDing, Y; Kim, SH; Lee, JJ; Hong, JT; Kim, EA; Kang, DH; Heo, ST; Lee, SHALGAE-SEOUL, 34:177–185, https://doi.org/10.4490/algae.2019.34.4.30

Application of synthetic aperture radar imagery for forward and backward tracking of oil slicksKim, TH; Yang, CS; Ouchi, KTERR ATMOS OCEAN SCI, 30:509–519, https://doi.org/10.3319/TAO.2019.03.03.02

Assessment of Satellite-Based Chlorophyll-a Algorithms in Eutrophic Korean Coastal Waters: Jinhae Bay Case StudyYoon, JE; Lim, JH; Son, S; Youn, SH; Oh, HJ; Hwang, JD; Kwon, JI; Kim, SS; Kim, INFRONT MAR SCI, 6, https://doi.org/10.3389/fmars.2019.00359

Atmospheric deposition of anthropogenic inorganic nitrogen in airborne particles and precipitation in the East Sea in the northwestern Pacific OceanPark, GH; Lee, SE; Kim, YI; Kim, D; Lee, K; Kang, J; Kim, YH; Kim, H; Park, S; Kim, TWSCI TOTAL ENVIRON, 681:400–412, https://doi.org/10.1016/j.scitotenv.2019.05.135

Automatic Remote Sensing Detection of Floating Macroalgae in the Yellow and East China Seas Using Extreme Learning MachineLiang, XJ; Qin, P; Xiao, YF; Kim, KY; Liu, RJ; Chen, XY; Wang, QBJ COASTAL RES, 272–281, https://doi.org/10.2112/SI90-034.1

Autonomous seawater pCO(2) and pH time series from 40 surface buoys and the emergence of anthropogenic trendsSutton, AJ; Feely, RA; Maenner-Jones, S; Musielwicz, S; Osborne, J; Dietrich, C; Monacci, N; Cross, J; Bott, R; Kozyr, A; Andersson, AJ; Bates, NR; Cai, WJ et al. EARTH SYST SCI DATA, 11:421–439, https://doi.org/10.5194/essd-11-421-2019

Bacterial community analysis of sediment seep in Kagoshima Bay, JapanPatra, AK; Cho, HH; Kwon, YM; Kwon, KK; Kim, SJINDIAN J GEO-MAR SCI, 48:1902–1906

Bidirectional equalization based on error propagation detection in long-range underwater acoustic communicationKim, H; Kim, S; Choi, JW; Bae, HSJPN J APPL PHYS, 58, https://doi.org/10.7567/1347-4065/ab1130

Biohydrogen production of obligate anaerobic archaeon Thermococcus onnurineus NA1 under oxic conditions via overexpression of frhAGB-encoding hydrogenase genesLee, SH; Kim, MS; Kang, SG; Lee, HSBIOTECHNOL BIOFUELS, 12, https://doi.org/10.1186/s13068-019-1365-3

Bromophenol (5-bromo-3,4-dihydroxybenzaldehyde) isolated from red alga Polysiphonia morrowii inhibits adipogenesis by regulating expression of adipogenic transcription factors and AMP-activated protein kinase activation in 3T3-L1 adipocytesKo, SC; Ding, Y; Kim, J; Ye, BR; Kim, EA; Jung, WK; Heo, SJ; Lee, SHPHYTOTHER RES, 33:737–744, https://doi.org/10.1002/ptr.6266

Can algicide (the thiazolidinedione derivative TD49) truly contribute to the restoration of microbial communities?Baek, SH; Son, M; Kim, YO; Cho, H; Chung, IK; Park, BSENVIRON RES, 173:517–527, https://doi.org/10.1016/j.envres.2019.03.070

Carbon and nitrogen stable isotope signatures linked to anthropogenic toxic substances pollution in a highly industrialized area of South KoreaHong, S; Lee, Y; Yoon, SJ; Lee, J; Kang, S; Won, EJ; Hur, J; Khim, JS; Shin, KHMAR POLLUT BULL, 144:152–159, https://doi.org/10.1016/j.marpolbul.2019.05.006

Cellular-Assisted D2D Communications for Advanced Metering Infrastructure in Smart GirdSong, Y; Kong, PY; Kim, Y; Baek, S; Choi, YIEEE SYST J, 13:1347–1358, https://doi.org/10.1109/JSYST.2019.2891719

Central Equatorial Pacific benthic foraminifera during the mid-Brunhes dissolution interval: Ballasting of particulate organic matter by biogenic silica and carbonateTakata, H; Kim, HJ; Asahi, H; Thomas, E; Yoo, CM; Chi, SB; Khim, BKQUATERNARY SCI REV, 210:64–79, https://doi.org/10.1016/j.quascirev.2019.02.030

Characterization and validation of multimodal annihilation-γ/near-infrared/visible laparoscopic systemSong, SH; Kang, HG; Han, YB; Lee, HY; Jeong, DH; Kim, SM; Hong, SJJ BIOMED OPT, 24, https://doi.org/10.1117/1.JBO.24.9.096008

Characterization of an acetyl xylan esterase from the marine bacterium Ochrovirga pacifica and its synergism with xylanase on beechwood xylanHettiarachchi, SA; Kwon, YK; Lee, Y; Jo, E; Eom, TY; Kang, YH; Kang, DH; De Zoysa, M; Marasinghe, SD; Oh, CMICROB CELL FACT, 18, https://doi.org/10.1186/s12934-019-1169-y

Characterization of Submesoscale Turbulence in the East/Japan Sea Using Geostationary Ocean Color Satellite ImagesChoi, J; Park, YG; Kim, W; Kim, YHGEOPHYS RES LETT, 46:8214–8223, https://doi.org/10.1029/2019GL083892

Characterization of the copper-sensing transcriptional regulator CopR from the hyperthermophilic archeaon Thermococcus onnurineus NA1Kim, SY; Jeong, HJ; Kim, M; Choi, AR; Kim, MS; Kang, SG; Lee, SJBIOMETALS, 32:923–937, https://doi.org/10.1007/s10534-019-00223-2

Chelonodontops bengalensis (Tetraodontiformes: Tetraodontidae): A New Species of Puffer Fish from the Northern Bay of Bengal Based on Morphology and DNA BarcodeHabib, KA; Neogi, AK; Oh, J; Lee, YH; Kim, CGOCEAN SCI J, 54:79–86, https://doi.org/10.1007/s12601-018-0054-7

Chemical Characteristics of Size-Resolved Aerosols in Coastal Areas during KORUS-AQ Campaign; Comparison of Ion Neutralization ModelBae, MS; Lee, T; Schauer, JJ; Parke, G; Son, YB; Kim, KH; Cho, SS; Park, SS; Park, K; Shon, ZHASIA-PAC J ATMOS SCI, 55:387–399, https://doi.org/10.1007/s13143-018-00099-1

Clathrate hydrate formation in NaCl and MgCl2 brines at low pressure conditionsWoo, Y; Lee, C; Jeong, JH; Kim, D; Lee, JW; Yamamoto, Y; Park, J; Cha, M; Yoon, JHSEP PURIF TECHNOL, 209:56–64, https://doi.org/10.1016/j.seppur.2018.07.015

Climatological descriptions on regional circulation around the Korean PeninsulaLee, EA; Kim, SY; Min, HSTELLUS A, 71, https://doi.org/10.1080/16000870.2019.1604058

Coastal Ecosystem Health Assessment in Korea: Busan Case StudyKim, YO; Shim, WJ; Baek, SH; Choi, JW; Kim, D; Choi, HWOCEAN SCI J, 54:165–182, https://doi.org/10.1007/s12601-019-0003-0

Combined Effects of El Niño and the Pacific Decadal Oscillation on Summertime Circulation over East AsiaLee, SH; Seo, KH; Kwon, MASIA-PAC J ATMOS SCI, 55:91–99, https://doi.org/10.1007/s13143-018-00103-8

Communication Versus Computation: Duality for Multiple-Access Channels and Source CodingZhu, JG; Lim, SH; Gastpar, MIEEE T INFORM THEORY, 65:292–301, https://doi.org/10.1109/TIT.2018.2849971

Comparative evaluation of bioremediation techniques on oil contaminated sediments in long-term recovery of benthic community healthLee, C; Hong, S; Noh, J; Lee, J; Yoon, SJ; Kim, T; Kim, H; Kwon, BO; Lee, H; Ha, SY; Ryu, J; Kim, JJ; Kwon, KK; Yim, UH; Khim, JSENVIRON POLLUT, 252:137–145, https://doi.org/10.1016/j.envpol.2019.05.100

84 KIOST Annual Report 2019

Depositional History and Indian Summer Monsoon Controls on the Silicate Weathering of Sediment Transported to the Eastern Arabian Sea: Geochemical Records From IODP Site U1456 Since 3.8 MaCai, MJ; Xu, ZK; Clift, PD; Lim, D; Khim, BK; Yu, ZJ; Kulhanek, DK; Li, TG; Chen, HJ; Sun, RTGEOCHEM GEOPHY GEOSY, 20:4336–4353, https://doi.org/10.1029/2018GC008157

Description of Barathricola thermophilus, a new species from a deep-sea hydrothermal vent field in the Indian Ocean with redescription of the Barothricola type species (Crustacea, Copepoda, Cyclopoida)Ivanenko, VN; Lee, J; Chang, CY; Kim, IHZOOKEYS, 103–121, https://doi.org/10.3897/zookeys.865.35827

Description of two deep-water copepods of the genus Leptotachidia Becker from the northwestern Pacific (Harpacticoida, Pseudotachidiidae)Kim, JG; Yu, OH; Lee, JZOOKEYS, 133–153, https://doi.org/10.3897/zookeys.873.34630

Design and control of navigation system for hybrid underwater gliderJeong, SK; Choi, HS; Kang, JI; Oh, JY; Kim, SK; Nhat, TQMJ INTELL FUZZY SYST, 36:1057–1072, https://doi.org/10.3233/JIFS-169881

Detection of microearthquakes and identification of their causative structures in the eastern offshore region of South KoreaHan, M; Kim, HJ; Kang, SY; Kim, KH; Yoon, SH; Kyung, JBTECTONOPHYSICS, 750:36–44, https://doi.org/10.1016/j.tecto.2018.11.003

Development of a Marine Environmental Information System (MEIS) using data on Land-Sea Interactions in the Nakdong River Estuary, South KoreaLee, JH; Choi, JU; Jung, HS; Kwon, JI; Woo, HJJ COASTAL RES, 191–195, https://doi.org/10.2112/SI91-039.1

Development of a New Concrete Armor Unit for High WavesPark, YH; Oh, YM; Ahn, SM; Han, TH; Kim, YT; Suh, KD; Won, DJ COASTAL RES, 35:719–728, https://doi.org/10.2112/JCOASTRES-D-17-00224.1

Development of a Remote Supervisory Control and Data Acquisition System for Offshore Waste Final Disposal FacilityKoo, S; Song, Y; Lim, SH; Oh, MH; Seo, SN; Baek, SJ COASTAL RES, 205–213, https://doi.org/10.2112/SI90-025.1

Development of growth-promoting substances for diatoms (Navicula sp.)Kim, J; Kim, EA; Yang, HS; Kang, DH; Kim, HS; Kim, SY; Jeon, YJ; Heo, SJAQUACULT INT, 27:1343–1352, https://doi.org/10.1007/s10499-019-00391-5

Diet source of Euphausia pacifica revealed using carbon- and nitrogen-stable isotopes in the Yellow Sea Cold Water Mass in summerKim, H; Ju, SJ; Kang, JH; Shin, KHJ OCEANOGR, 75:51–59, https://doi.org/10.1007/s10872-018-0483-z

Discovery of a New Clade Nested Within the Genus Alexandrium (Dinophyceae): Morpho-molecular Characterization of Centrodinium punctatum (Cleve) FJR TaylorLi, Z; Mertens, KN; Nezan, E; Chomerat, N; Bilien, G; Iwataki, M; Shin, HHPROTIST, 170:168–186, https://doi.org/10.1016/j.protis.2019.02.003

Dispersal Characteristics and Pathways of Japanese Glass Eel in the East Asian Continental ShelfHan, YS; Hsiung, KM; Zhang, H; Chow, LY; Tzeng, WN; Shinoda, A; Yoshinaga, T; Hur, SP; Hwang, SD; Iizuka, Y; Kimura, SSUSTAINABILITY-BASEL, 11, https://doi.org/10.3390/su11092572

Distribution and accumulation of artificial radionuclides in marine products around Korean PeninsulaKim, SH; Lee, H; Lee, SH; Kim, IMAR POLLUT BULL, 146:521–531, https://doi.org/10.1016/j.marpolbul.2019.06.082

Distribution of Mesozooplankton during Spring and Autumn across the Frontal Zone of South Sea, KoreaKim, M; Kang, JH; Kim, G; Kang, HK; Noh, JHOCEAN SCI J, 54:229–243, https://doi.org/10.1007/s12601-019-0008-8

Comparison of nematode assemblages associated with Sargassum muticum in its native range in South Korea and as an invasive species in the English ChannelKim, HG; Hawkins, LE; Godbold, JA; Oh, CW; Rho, HS; Hawkins, SJMAR ECOL PROG SER, 611:95–110, https://doi.org/10.3354/meps12846

Comparison of Particulate Organic Carbon to Chlorophyll-a Ratio Based on the Ocean Color Satellite Data at the Ieodo and Socheongcho Ocean Research StationsLee, D; Jeong, JY; Jang, HK; Min, JO; Kim, MJ; Youn, SH; Lee, T; Lee, SHJ COASTAL RES, 267–271, https://doi.org/10.2112/SI90-033.1

Comparison of the Storm Surge Prediction Models Using Different Atmospheric Forcing for Typhoon CHABAKwon, YY; Choi, JW; Kim, H; Kim, S; Kwon, JIJ COASTAL RES, 31–35, https://doi.org/10.2112/SI91-007.1

Comparison of zooplankton communities in the East Sea, East China Sea and Philippine SeaLee, BR; Park, W; Kang, HK; Lee, HW; Ji, HS; Choi, JHJ ENVIRON BIOL, 40:861–870, https://doi.org/10.22438/jeb/40/5(SI)/SI-06

Complete mitochondrial genome of the deep-water epibiotic stalked barnacle, Glyptelasma annandalei (Cirripedia, Lepadiformes, Poecilasmatidae)Kim, RO; Chan, BKK; Hou, BK; Ju, SJ; Kim, SJMITOCHONDRIAL DNA B, 4:99–100, https://doi.org/10.1080/23802359.2018.1536487

Complete mitochondrial genome of the hydrothermal vent shrimp Rimicaris variabilis (Decapoda: Caridea: Alvinocarididae) from the North Fiji basinLee, WK; Kim, SJ; Ju, SJ; Hou, BKMITOCHONDRIAL DNA B, 4:3475–3476, https://doi.org/10.1080/23802359.2019.1674717

Complete mitochondrial genome of the hydrothermal vent stalked barnacle Vulcanolepas fijiensis (Cirripedia, Scalpelliforms, Eolepadidae)Lee, WK; Kang, HM; Chan, BKK; Ju, SJ; Kim, SJMITOCHONDRIAL DNA B, 4:2725–2726, https://doi.org/10.1080/23802359.2019.1644564

Compute-Forward Multiple Access (CFMA): Practical ImplementationsSula, E; Zhu, JG; Pastore, A; Lim, SH; Gastpar, MIEEE T COMMUN, 67:1133–1147, https://doi.org/10.1109/TCOMM.2018.2874240

Concurrent reductions in sinking particle flux and its ratios of opal and organic carbon to CaCO3 in the oligotrophic western North Pacific Ocean during 2007-2014Jeong, JH; Kim, D; Kim, HJ; Kim, E; An, S; Kim, TWDEEP-SEA RES PT I, 143:58–69, https://doi.org/10.1016/j.dsr.2018.11.009

Crustal structure of the Gunsan Basin in the SE Yellow Sea from ocean bottom seismometer (OBS) data and its linkage to the South China BlockKim, HJ; Kim, CH; Ha, TY; Liu, LH; Kim, KH; Jun, H; Jou, HT; Moon, S; Xue, Y; Wu, ZQ; Lu, CC; Lee, SHJ ASIAN EARTH SCI, 180, https://doi.org/10.1016/j.jseaes.2019.103881

Current Policy and Technology for Tidal Current Energy in KoreaKo, DH; Chung, J; Lee, KS; Park, JS; Yi, JHENERGIES, 12, https://doi.org/10.3390/en12091807

Cytotoxic Furan- and Pyrrole-Containing Scalarane Sesterterpenoids Isolated from the Sponge Scalarispongia sp.Lee, YJ; Kim, SH; Choi, H; Lee, HS; Lee, JS; Shin, HJ; Lee, JMOLECULES, 24, https://doi.org/10.3390/molecules24050840

Depositional environment classification based on environmental variables of South Korea’s Nakdong River Estuary barrier-lagoon systemChoi, JU; Kang, J; Lee, JH; Woo, HJMAR POLLUT BULL, 138:30–36, https://doi.org/10.1016/j.marpolbul.2018.11.025

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Diverse responses of sporophytic photochemical efficiency and gametophytic growth for two edible kelps, Saccharina japonica and Undaria pinnatifida, to ocean acidification and warmingGao, X; Kim, JH; Park, SK; Yu, OH; Kim, YS; Choi, HGMAR POLLUT BULL, 142:315–320, https://doi.org/10.1016/j.marpolbul.2019.03.063

Dokdolipids A-C, Hydroxylated Rhamnolipids from the Marine-Derived Actinomycete Actinoalloteichus hymeniacidonisChoi, BK; Lee, HS; Kang, JS; Shin, HJMAR DRUGS, 17, https://doi.org/10.3390/md17040237

Domestication of the novel alcohologenic acetogen Clostridium sp. AWRP: from isolation to characterization for syngas fermentationLee, J; Lee, JW; Chae, CG; Kwon, SJ; Kim, YJ; Lee, JH; Lee, HSBIOTECHNOL BIOFUELS, 12, https://doi.org/10.1186/s13068-019-1570-0

Dual activity of PNGM-1 pinpoints the evolutionary origin of subclass B3 metallo-β-lactamases: a molecular and evolutionary studyLee, JH; Takahashi, M; Jeon, JH; Kang, LW; Seki, M; Park, KS; Hong, MK; Park, YS; Kim, TY; Karim, AM; Lee, JH; Nashimoto, M; Lee, SHEMERG MICROBES INFEC, 8:1688–1700, https://doi.org/10.1080/22221751.2019.1692638

Dynamics of Amoebophrya parasites during recurrent blooms of the ichthyotoxic dinoflagellate Cochlodinium polykrikoides in Korean coastal watersPark, BS; Kim, S; Kim, JH; Kim, JH; Han, MSHARMFUL ALGAE, 84:119–126, https://doi.org/10.1016/j.hal.2019.02.001

Early Prediction of Margalefidinium polykrikoides Bloom Using a LSTM Neural Network Model in the South Sea of KoreaShin, J; Kim, SM; Son, YB; Kim, K; Ryu, JHJ COASTAL RES, 236–242, https://doi.org/10.2112/SI90-029.1

Early-Age Tensile Bond Characteristics of Epoxy Coatings for Underwater ApplicationsKim, S; Hong, H; Han, TH; Kim, MOCOATINGS, 9, https://doi.org/10.3390/coatings9110757

East China Sea ecosystem under multiple stressors: Heterogeneous responses in the sea surface chlorophyll-aKong, CE; Yoo, S; Jang, CJDEEP-SEA RES PT I, 151, https://doi.org/10.1016/j.dsr.2019.103078

Effect of feed deprivation on compensatory growth in juvenile rock bream Oplegnathus fasciatusOh, SY; Park, JFISHERIES SCI, 85:813–819, https://doi.org/10.1007/s12562-019-01333-z

Effect of oxytetracycline on the community structure of nematodes: results from microcosm experimentsKang, T; Kim, D; Oh, JH; Yoo, SPLANKTON BENTHOS RES, 14:105–113, https://doi.org/10.3800/pbr.14.105

Effects of an Exhaust Heat Recovery System on Performance Characteristics of a Forklift TruckHeo, MW; Bae, SJ; Jeong, JY; Yoo, HS; Park, SU; Heo, HSINT J AUTO TECH-KOR, 20:579–588, https://doi.org/10.1007/s12239-019-0055-2

Effects of surface vegetation on the intensity of East Asian summer monsoon as revealed by observation and model experimentsLee, S; Lee, MIINT J CLIMATOL, https://doi.org/10.1002/joc.6420

Effects of various photoperiods and specific wavelengths on circadian rhythm in ornamental cleaner shrimp Lysmata amboinensisChoi, JY; Choi, YU; Kho, J; Choi, CYBIOL RHYTHM RES, 50:897–907, https://doi.org/10.1080/09291016.2018.1502237

Effects of Water Exposure on the Interfacial Bond between an Epoxy Resin Coating and a Concrete SubstrateWon, B; Kim, MO; Park, S; Yi, JHMATERIALS, 12, https://doi.org/10.3390/ma12223715

Elastic full waveform inversion using plane-waveKwon, T; Byun, J; Kim, BY; Huh, SJ APPL GEOPHYS, 170, https://doi.org/10.1016/j.jappgeo.2019.103826

Electron microscopy study on the formation of ferromanganese crusts, western Pacific Magellan SeamountsYang, K; Park, H; Son, SK; Baik, H; Park, K; Kim, J; Yoon, J; Park, CH; Kim, JMAR GEOL, 410:32–41, https://doi.org/10.1016/j.margeo.2019.01.001

Embryonic development and hatchability of red-spotted grouper (Epinephelus akaara) female x giant grouper (E. lanceolatus) male hybrid at three incubation temperaturesNoh, CH; Kang, MJ; Yoon, SJAQUAC RES, 50:3477–3481, https://doi.org/10.1111/are.14306

Equation for ship wave crests in the entire range of water depthsLee, BW; Lee, CCOAST ENG, 153, https://doi.org/10.1016/j.coastaleng.2019.103542

Estimation of Loss Ratio of Fine Sediments for Dredging and Land ReclamationKim, DH; Ryu, HR; Lim, HS; Hwang, KNJ COASTAL RES, 246–250, https://doi.org/10.2112/SI91-050.1

Evaluation of the bioaccumulation potential of selected alternative brominated flame retardants in marine fish using in vitro metabolic transformation ratesLee, HJ; Jung, JH; Kwon, JHSCI TOTAL ENVIRON, 653:1333–1342, https://doi.org/10.1016/j.scitotenv.2018.10.432

Evolution of copper isotopes in arc systems: Insights from lavas and molten sulfur in Niuatahi volcano, Tonga rear arcWang, ZC; Park, JW; Wang, X; Zou, ZQ; Kim, J; Zhang, PY; Li, MGEOCHIM COSMOCHIM AC, 250:18–33, https://doi.org/10.1016/j.gca.2019.01.040

Experimental Study of Composite Hollow RC Column under Uniaxial Compressive LoadWon, D; Kim, S; Seo, J; Kang, YJAPPL SCI-BASEL, 9, https://doi.org/10.3390/app9030373

Explosive Cyclogenesis around the Korean Peninsula in May 2016 from a Potential Vorticity Perspective: Case Study and Numerical SimulationsHeo, KY; Ha, KJ; Ha, TATMOSPHERE-BASEL, 10, https://doi.org/10.3390/atmos10060322

Extreme significant wave height of tropical cyclone waves in the South China SeaShao, ZX; Liang, BC; Li, HJ; Li, P; Lee, DNAT HAZARD EARTH SYS, 19:2067–2077, https://doi.org/10.5194/nhess-19-2067-2019

Fate of residual oils during remediation activities after the Wu Yi San oil spillLoh, A; Yim, UH; Ha, SY; An, JG; Shankar, RMAR POLLUT BULL, 138:328–332, https://doi.org/10.1016/j.marpolbul.2018.11.059

Feeding behavior of the ocypodid crab Macrophthalmus japonicus and its effects on oxygen-penetration depth and organic-matter removal in intertidal sedimentsKoo, BJ; Kim, SH; Hyun, JHESTUAR COAST SHELF S, 228, https://doi.org/10.1016/j.ecss.2019.106366

Feeding Patterns of Brown Croaker, Miichthys miiuy (Basilewsky, 1855) from the South-Western Waters off Korea: Size-Related and Seasonal TrendsJeong, JM; Kim, Y; Song, SH; Park, JMTHALASSAS, 35:413–420, https://doi.org/10.1007/s41208-019-00156-0

FGF11 influences 3T3-L1 preadipocyte differentiation by modulating the expression of PPARγ regulatorsLee, KW; Jeong, JY; An, YJ; Lee, JH; Yim, HSFEBS OPEN BIO, 9:769–780, https://doi.org/10.1002/2211-5463.12619

First transcriptome assembly of the temperate azooxanthellate octocoral Eleutherobia rubraRyu, T; Cho, IY; Hwang, SJ; Yum, S; Kim, MS; Woo, SMAR GENOM, 48:52–55, https://doi.org/10.1016/j.margen.2019.04.007

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High-frequency acoustic backscattering characteristics for acoustic detection of the red tide species Akashiwo sanguinea and Alexandrium affineHansoo, K; Donhyug, K; Won, JS; Mira, KJ OCEANOL LIMNOL, 37:1268–1276, https://doi.org/10.1007/s00343-019-8113-1

Holobiont transcriptome of colonial scleractinian coral Alveopora japonicaRyu, T; Cho, W; Yum, S; Woo, SMAR GENOM, 43:68–71, https://doi.org/10.1016/j.margen.2018.07.003

Hydrodynamic characteristics of cambered NACA0012 for flexible-wing application of a flapping-type tidal stream energy harvesting systemSitorus, PE; Park, JS; Ko, JHINT J NAV ARCH OCEAN, 11:225–232, https://doi.org/10.1016/j.ijnaoe.2018.04.003

Impact of the Initial Conditions from an Atmospheric Model on a Wave Forecast SystemChoi, JY; Heo, KYJ COASTAL RES, 131–135, https://doi.org/10.2112/SI91-027.1

Impacts of Convergence on Structure Functions from Surface Drifters in the Gulf of MexicoPearson, J; Fox-Kemper, B; Barkan, R; Choi, J; Bracco, A; McWilliams, JCJ PHYS OCEANOGR, 49:675–690, https://doi.org/10.1175/JPO-D-18-0029.1

Impacts of typhoon-induced heavy rainfalls and resultant freshwater runoff on the partitioning of organic carbon oxidation and nutrient dynamics in the intertidal sediments of the Han River estuary, Yellow SeaMok, JS; Kim, SH; Kim, J; Cho, H; An, SU; Choi, A; Kim, B; Yoon, C; Thamdrup, B; Hyun, JHSCI TOTAL ENVIRON, 691:858–867, https://doi.org/10.1016/j.scitotenv.2019.07.031

In Situ Observations of Ripples on the Surf Zone of a BeachKim, M; Lee, SH; Baek, YS; Do, JD; Lim, HS; Lee, HJJ COASTAL RES, 36–40, https://doi.org/10.2112/SI91-008.1

Increased Anti-Inflammatory Effects on LPS-Induced Microglia Cells by Spirulina maxima Extract from Ultrasonic ProcessChoi, WY; Sim, JH; Lee, JY; Kang, DH; Lee, HYAPPL SCI-BASEL, 9, https://doi.org/10.3390/app9102144

Indole-4-carboxaldehyde Isolated from Seaweed, Sargassum thunbergii, Attenuates Methylglyoxal-Induced Hepatic InflammationCha, SH; Hwang, Y; Heo, SJ; Jun, HSMAR DRUGS, 17, https://doi.org/10.3390/md17090486

Indole-6-carboxaldehyde isolated from Sargassum thunbergii inhibits the expression and secretion of matrix metalloproteinase-9Kim, TH; Heo, SJ; Ko, SC; Park, WS; Choi, IW; Yi, M; Jung, WKINT J MOL MED, 44:1979–1987, https://doi.org/10.3892/ijmm.2019.4319

Inelastic compressive buckling behavior of a cylindrical shell at elevated temperature: Case studySeo, J; Won, D; Kim, S; Kang, YJJ BUILD ENG, 24, https://doi.org/10.1016/j.jobe.2019.100766

Influence of submarine topography and associated sedimentary processes on the distribution of live and dead rhodoliths near Udo Island, KoreaJeong, JB; Kim, SY; Seo, YK; Kim, JK; Shin, J; Woo, KSGEO-MAR LETT, https://doi.org/10.1007/s00367-019-00623-w

Initial environmental risk assessment of hazardous and noxious substances (HNS) spill accidents to mitigate its damagesKim, YR; Lee, M; Jung, JY; Kim, TW; Kim, DMAR POLLUT BULL, 139:205–213, https://doi.org/10.1016/j.marpolbul.2018.12.044

Interannual changes in summer phytoplankton community composition in relation to water mass variability in the East China SeaXu, Q; Sukigara, C; Goes, JI; Gomes, HD; Zhu, YL; Wang, SQ; Shen, AG; Maure, ED; Matsuno, T; Yuji, W; Yoo, S; Ishizaka, JJ OCEANOGR, 75:61–79, https://doi.org/10.1007/s10872-018-0484-y

Flows over crescentic bars under control of wave energyLee, HJ; Kim, M; Do, JD; Lim, HS; Jeon, CKGEO-MAR LETT, https://doi.org/10.1007/s00367-019-00621-y

Forecast of the Rapidly-Intensified Typhoon Nepartak (T201601) in the Eddy-rich Northwestern Pacific RegionKim, H; Kim, EJ; So, JK; Kim, KO; Cha, DHJ COASTAL RES, 166–170, https://doi.org/10.2112/SI91-034.1

Formulation of a Low-cost Medium for Improved Cost-effectiveness of Hydrogen Production by Thermococcus onnurineus NA1Lee, SM; Lee, J; Lee, SH; Kim, JY; Lee, HS; Kang, SGBIOTECHNOL BIOPROC E, 24:833–838, https://doi.org/10.1007/s12257-019-0240-1

Fractionation and risk assessment of metals in sediments of an ocean dumping siteJung, JM; Choi, KY; Chung, CS; Kim, CJ; Kim, SHMAR POLLUT BULL, 141:227–235, https://doi.org/10.1016/j.marpolbul.2019.02.041

Frequency-domain reflection-based full waveform inversion for short-offset seismic dataJun, HJ APPL GEOPHYS, 164:106–116, https://doi.org/10.1016/j.jappgeo.2019.03.010

Fukushima Cs-137 releases dispersion modelling over the Pacific Ocean. Comparisons of models with water, sediment and biota dataPerianez, R; Bezhenar, R; Brovchenko, I; Jung, KT; Kamidara, Y; Kim, KO; Kobayashi, T; Liptak, L; Maderich, V; Min, BI; Suh, KSJ ENVIRON RADIOACTIV, 198:50–63, https://doi.org/10.1016/j.jenvrad.2018.12.014

Fuzzy-inference-based failure mode and effects analysis of the hydrogen production process using Thermococcus onnurineus NA1Park, S; Ahn, J; Choi, K; Kim, S; Yoo, Y; Kang, S; Chang, DINT J HYDROGEN ENERG, 44:13135–13146, https://doi.org/10.1016/j.ijhydene.2019.03.227

Gemmobacter lutimaris sp. nov., a marine bacterium isolated from a tidal flatYoo, Y; Lee, DW; Lee, H; Kwon, BO; Khim, JS; Yim, UH; Park, H; Park, B; Choi, IG; Kim, BS; Jeon, SW; Kim, GH; Kim, JJINT J SYST EVOL MICR, 69:1676–1681, https://doi.org/10.1099/ijsem.0.003375

Generation of a Large-Scale Surface Sediment Classification Map Using Unmanned Aerial Vehicle (UAV) Data: A Case Study at the Hwang-do Tidal Flat, KoreaKim, KL; Kim, BJ; Lee, YK; Ryu, JHREMOTE SENS-BASEL, 11, https://doi.org/10.3390/rs11030229

Genetic diversity and distribution of edible scytosiphonacean algae from Ulleungdo Island, KoreaLee, JI; Jang, HS; Cho, G; Yoon, SJ; Boo, SMALGAE-SEOUL, 34:229–236, https://doi.org/10.4490/algae.2019.34.7.8

Global trend analysis in primary and secondary production of marine aerosol and aerosol optical depth during 2000-2015Song, SK; Shon, ZH; Choi, YN; Son, YB; Kang, M; Han, SB; Bae, MSCHEMOSPHERE, 224:417–427, https://doi.org/10.1016/j.chemosphere.2019.02.152

Harmful Dinoflagellate Prorocentrum donghaiense Lu is Widely Distributed Along the East China Sea and Korean Coastal AreaShin, HH; Li, Z; Seo, MH; Soh, HY; Lim, WA; Park, JWOCEAN SCI J, https://doi.org/10.1007/s12601-019-0028-4

Hierarchical Maritime Radio Networks for Internet of Maritime ThingsKim, Y; Song, Y; Lim, SNIEEE ACCESS, 7:54218–54227, https://doi.org/10.1109/ACCESS.2019.2911703

High Temporal and Spatial Resolutions of Sea Surface Current from Low-Altitude Remote SensingJung, D; Lee, JS; Baek, JY; Nam, J; Jo, YH; Song, KM; Cheong, YIJ COASTAL RES, 282–288, https://doi.org/10.2112/SI90-035.1

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Intraseasonal-to-Interannual Variability of the Upper-Layer Zonal Currents in the Tropical Northwest Pacific OceanAzminuddin, F; Jeon, D; Shin, CWOCEAN SCI J, 54:15–27, https://doi.org/10.1007/s12601-019-0001-2

Involvement of Estrogen and Its Receptors in Morphological Changes in the Eyes of the Japanese Eel, Anguilla japonica, in the Process of Artificially-Induced MaturationHyeon, JY; Hur, SP; Kim, BH; Byun, JH; Kim, ES; Lim, BS; Lee, BI; Kim, SK; Takemura, A; Kim, SJCELLS-BASEL, 8, https://doi.org/10.3390/cells8040310

Isolation and characterization of antiplasmodial constituents from the marine sponge Coscinoderma sp.Jeong, H; Latif, A; Kong, CS; Seo, Y; Lee, YJ; Dalal, SR; Cassera, MB; Kingston, DGIZ NATURFORSCH C, 74:313–318, https://doi.org/10.1515/znc-2019-0039

Isolation, cultivation, and genome analysis of proteorhodopsin-containing SAR116-clade strain Candidatus Puniceispirillum marinum IMCC1322Lee, J; Kwon, KK; Lim, SI; Song, J; Choi, AR; Yang, SH; Jung, KH; Lee, JH; Kang, SG; Oh, HM; Cho, JCJ MICROBIOL, 57:676–687, https://doi.org/10.1007/s12275-019-9001-2

Lagrangian Approach for a New Separation Index of the East Korea Warm CurrentPak, G; Kim, YH; Park, YGOCEAN SCI J, 54:29–38, https://doi.org/10.1007/s12601-018-0059-2

LA-ICP-MS trace element analysis of arsenopyrite from the Samgwang gold deposit, South Korea, and its genetic implicationsLee, M; Shin, D; Yoo, B; Im, H; Pak, S; Choi, SORE GEOL REV, 114, https://doi.org/10.1016/j.oregeorev.2019.103147

Large Decadal Changes in Air-Sea CO2 Fluxes in the Caribbean SeaWanninkhof, R; Trinanes, J; Park, GH; Gledhill, D; Olsen, AJ GEOPHYS RES-OCEANS, 124:6960–6982, https://doi.org/10.1029/2019JC015366

Late Holocene Shallow Marine Sand Sheet in the Haeundae Coast, KoreaBaek, YS; Lee, HJ; Lee, SH; Shin, DHOCEAN SCI J, 54:271–278, https://doi.org/10.1007/s12601-018-0063-6

Lateral dispersion of dye and drifters in the center of a very large lakeChoi, J; Troy, C; Hawley, N; McCormick, M; Wells, MLIMNOL OCEANOGR, https://doi.org/10.1002/lno.11302

M-2 Tidal Current Estimation from One-day Observation Data off the Western and Southern Coasts of KoreaLee, S; Oh, KH; Jang, ST; You, HY; Park, J; Song, KMOCEAN SCI J, 54:39–50, https://doi.org/10.1007/s12601-018-0062-7

Machine Learning Approaches for Detecting Tropical Cyclone Formation Using Satellite DataKim, M; Park, MS; Im, J; Park, S; Lee, MIREMOTE SENS-BASEL, 11, https://doi.org/10.3390/rs11101195

Major Driver Leading to Winter SST Variability in the Kuroshio Recirculation Gyre Region and Its Decadal Changes: Refreshening Versus Spring-Initiated Reemergence ProcessesPak, G; Yeh, SW; Nam, S; Park, YH; Kim, YHGEOPHYS RES LETT, 46:272–280, https://doi.org/10.1029/2018GL081232

Marine radionuclide transport modelling: Recent developments, problems and challengesPerianez, R; Bezhenar, R; Brovchenko, I; Duffa, C; Iosjpe, M; Jung, KT; Kim, KO; Kobayashi, T; Liptak, L; Little, A; Maderich, V; McGinnity, P; Min, BI et al. ENVIRON MODELL SOFTW, 122, https://doi.org/10.1016/j.envsoft.2019.104523

MD001, a Novel Peroxisome Proliferator-activated Receptor α/γ Agonist, Improves Glucose and Lipid MetabolismKim, SH; Hong, SH; Park, YJ; Sung, JH; Suh, W; Lee, KW; Jung, K; Lim, C; Kim, JH; Kim, H; Park, KS; Park, SGSCI REP-UK, 9, https://doi.org/10.1038/s41598-018-38281-0

Measurements of mid-frequency bottom-interacting signals and geoacoustic inversion in Jinhae Bay, Southeast KoreaKwon, H; Choi, JW; Ryang, WH; Son, SU; Jung, SKJ ACOUST SOC AM, 145:1205–1211, https://doi.org/10.1121/1.5092609

Measurements of Normal Incidence Reflection Loss as a Function of Temperature at the Water-Castor Oil InterfaceHan, DG; Seo, HC; Cho, S; Choi, JWSENSORS-BASEL, 19, https://doi.org/10.3390/s19153289

MEST induces Twist-1-mediated EMT through STAT3 activation in breast cancersKim, MS; Lee, HS; Kim, YJ; Lee, DY; Kang, SG; Jin, WCELL DEATH DIFFER, 26:2594–2606, https://doi.org/10.1038/s41418-019-0322-9

Microplastic contamination of table salts from Taiwan, including a global reviewLee, H; Kunz, A; Shim, WJ; Walther, BASCI REP-UK, 9, https://doi.org/10.1038/s41598-019-46417-z

Molecular level determination of water accommodated fraction with embryonic developmental toxicity generated by photooxidation of spilled oilKim, D; Jung, JH; Ha, SY; An, JG; Shankar, R; Kwon, JH; Yim, UH; Kim, SHCHEMOSPHERE, 237, https://doi.org/10.1016/j.chemosphere.2019.124346

Molecular phylogeny and morphology of Torquentidium gen. et comb. nov. for Cochlodinium convolutum and allied species (Ceratoperidiniaceae, Dinophyceae)Shin, HH; Li, Z; Lee, KW; Matsuoka, KEUR J PHYCOL, 54:249–262, https://doi.org/10.1080/09670262.2018.1550213

Monitoring Variation in Sea Surface Temperature in the Nakdong River Estuary, Korea, Using Multiple Satellite ImagesEom, J; Park, W; Syifa, M; Lee, C; Yoon, SJ COASTAL RES, 183–189, https://doi.org/10.2112/SI90-022.1

Morphology, phylogeny and life cycle of Fragilidium mexicanum Balech (Gonyaulacales, Dinophyceae)Li, Z; Shin, HPHYCOLOGIA, 58:419–432, https://doi.org/10.1080/00318884.2019.1620582

Multiple approaches to assessing the risk posed by anthropogenic plastic debrisHardesty, BD; Polidoro, B; Compa, M; Shim, WJ; Widianarko, B; Wilcox, CMAR POLLUT BULL, 141:188–193, https://doi.org/10.1016/j.marpolbul.2019.02.017

Navigation and Control of Underwater Tracked Vehicle Using Ultrashort Baseline and Ring Laser Gyro SensorsJi, DH; Choi, HS; Vu, MT; Nguyen, ND; Kim, SKSENSOR MATER, 31:1575–1587, https://doi.org/10.18494/SAM.2019.2278

New Ancorabolidae (Copepoda: Harpacticoida) from Korea: two new genera, revisionary notes and updated identification keysLee, J; Huys, RZOOL J LINN SOC-LOND, 187:331–377, https://doi.org/10.1093/zoolinnean/zlz019

New Ophiobolin Derivatives from the Marine Fungus Aspergillus flocculosus and Their Cytotoxicities against Cancer CellsChoi, BK; Trinh, PTH; Lee, HS; Choi, BW; Kang, JS; Ngoc, NTD; Van, TTT; Shin, HJMAR DRUGS, 17, https://doi.org/10.3390/md17060346

New records of benthic harpacticoids from Korea: I. Three new species of the genus Zosime Boeck (Copepoda: Harpacticoida: Zosimeidae)Kim, JG; Lee, JMAR BIOL RES, 15:210–239, https://doi.org/10.1080/17451000.2019.1619774

Novel pectin isolated from Spirulina maxima enhances the disease resistance and immune responses in zebrafish against Edwardsiella piscicida and Aeromonas hydrophilaEdirisinghe, SL; Dananjaya, SHS; Nikapitiya, C; Liyanage, TD; Lee, KA; Oh, C; Kang, H; De Zoysa, MFISH SHELLFISH IMMUN, 94:558–565, https://doi.org/10.1016/j.fsi.2019.09.054

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ORGANIC CARBON CYCLE IN THE ULLEUNG BASIN SEDIMENT, EAST/JAPAN SEALee, T; Jung, SK; Kim, KH; Lee, SH; Son, YBAPPL ECOL ENV RES, 17:12165–12179, https://doi.org/10.15666/aeer/1705_1216512179

Overlapping and unique toxic effects of three alternative antifouling biocides (Diuron, Irgarol 1051R, Sea-Nine 211R) on non-target marine fishMoon, YS; Kim, M; Hong, CP; Kang, JH; Jung, JHECOTOX ENVIRON SAFE, 180:23–32, https://doi.org/10.1016/j.ecoenv.2019.04.070

Oxygen-mediated growth enhancement of an obligate anaerobic archaeon Thermococcus onnurineus NA1Lee, SH; Youn, H; Kang, SG; Lee, HSJ MICROBIOL, 57:138–142, https://doi.org/10.1007/s12275-019-8592-y

Oyster Shell as a Low-Cost Adsorbent for Removing Heavy Metal Ions from WastewaterXu, X; Liu, XF; Oh, M; Park, JPOL J ENVIRON STUD, 28:2949–2959, https://doi.org/10.15244/pjoes/92941

Parashewanella tropica sp. nov., a mesophilic bacterium isolated from a marine sponge from Chuuk lagoon, Federated States of Micronesia, and emended description of the genus ParashewanellaNamirimu, T; Park, MJ; Yang, SH; Zo, YG; Kwon, KKINT J SYST EVOL MICR, 69:3262–3267, https://doi.org/10.1099/ijsem.0.003617

Patterns of Gene Expression Variation across Body Parts of the Hydrothermal Vent Shrimp Nautilocaris saintlaurentaeKim, RO; Won, EJ; Kang, HM; Ju, SJ; Kim, SJOCEAN SCI J, https://doi.org/10.1007/s12601-019-0032-8

Performance Evaluation of Wave Input Reduction Techniques for Modeling Inter-Annual Sandbar Dynamicsde Queiroz, B; Scheel, F; Caires, S; Walstra, DJ; Olij, D; Yoo, J; Reniers, A; de Boer, WJ MAR SCI ENG, 7, https://doi.org/10.3390/jmse7050148

Performance of composite mineral adsorbents for removing Cu, Cd, and Pb ions from polluted waterLim, WR; Kim, SW; Lee, CH; Choi, EK; Oh, MH; Seo, SN; Park, HJ; Hamm, SYSCI REP-UK, 9, https://doi.org/10.1038/s41598-019-49857-9

Phenazine Derivatives with Anti-Inflammatory Activity from the Deep-Sea Sediment-Derived Yeast-Like Fungus Cystobasidium laryngis IV17-028Lee, HS; Kang, JS; Choi, BK; Lee, HS; Lee, YJ; Lee, J; Shin, HJMAR DRUGS, 17, https://doi.org/10.3390/md17080482

Phytoplankton composition associated with physical and chemical variables during summer in the southern sea of Korea: Implication of the succession of the two toxic dinoflagellates Cochlodinium (a.k.a. Margalefidinium) polykrikoides and Alexandrium affineLim, YK; Baek, SH; Lee, M; Kim, YO; Choi, KH; Kim, JHJ EXP MAR BIOL ECOL, 516:51–66, https://doi.org/10.1016/j.jembe.2019.05.006

Plant wax integration and transport from the Mississippi River Basin to the Gulf of Mexico inferred from GIS-enabled isoscapes and mixing modelsSuh, YJ; Diefendorf, AF; Bowen, GJ; Cotton, JM; Ju, SJGEOCHIM COSMOCHIM AC, 257:131–149, https://doi.org/10.1016/j.gca.2019.04.022

Pleistocene forced regressive deposits on the Korea Strait shelf influenced by tectonic and ocean currentsChoi, DL; Lee, YK; Shin, DH; Jung, SK; Kum, BCGEO-MAR LETT, 39:493–511, https://doi.org/10.1007/s00367-019-00613-y

Poleward-propagating near-inertial waves enabled by the western boundary currentJeon, C; Park, JH; Nakamura, H; Nishina, A; Zhu, XH; Kim, DG; Min, HS; Kang, SK; Na, H; Hirose, NSCI REP-UK, 9, https://doi.org/10.1038/s41598-019-46364-9

Population genetic differentiation of the hydrothermal vent crab Austinograea alayseae (Crustacea: Bythograeidae) in the Southwest Pacific OceanLee, WK; Kim, SJ; Hou, BK; Van Dover, CL; Ju, SJPLOS ONE, 14, https://doi.org/10.1371/journal.pone.0215829

Numerical Investigation of Local Scour with Inclined PilesDu, ST; Liang, BC; Lee, DYJ COASTAL RES, 161–165, https://doi.org/10.2112/SI91-033.1

Numerical Modeling of Meteotsunami-Tide Interaction in the Eastern Yellow SeaHeo, KY; Yoon, JS; Bae, JS; Ha, TATMOSPHERE-BASEL, 10, https://doi.org/10.3390/atmos10070369

Observation of Rapid Seabed Erosion Near Closure Depth During a Storm Period at Hujeong Beach, South KoreaDo, JD; Jin, JY; Jeong, WM; Chang, YSGEOPHYS RES LETT, 46:9804–9812, https://doi.org/10.1029/2019GL083910

Observations Utilizing Korea Ocean Research Stations and their Applications for Process StudiesHa, KJ; Nam, S; Jeong, IY; Moon, IJ; Lee, M; Yun, J; Jang, CJ; Kim, YS; Byun, DS; Heo, KY; Shim, JSB AM METEOROL SOC, 100:2061–2075, https://doi.org/10.1175/BAMS-D-18-0305.1

Observing System Evaluation Based on Ocean Data Assimilation and Prediction Systems: On-Going Challenges and a Future Vision for Designing and Supporting Ocean Observational NetworksFujii, Y; Remy, E; Zuo, H; Oke, P; Halliwell, G; Gasparin, F; Benkiran, M; Loose, N; Cummings, J; Xie, JP; Xue, Y; Masuda, S; Smith, GC; Balmaseda, M et al. FRONT MAR SCI, 6, https://doi.org/10.3389/fmars.2019.00417

Occurrence characteristics of harmful and non-harmful algal species related to coastal environments in the southern sea of KoreaKim, JH; Lee, M; Lim, YK; Kim, YJ; Baek, SHMAR FRESHWATER RES, 70:794–806, https://doi.org/10.1071/MF18244

Ocean Observations to Improve Our Understanding, Modeling, and Forecasting of Subseasonal-to-Seasonal VariabilitySubramanian, AC; Balmaseda, MA; Centurioni, L; Chattopadhyay, R; Cornuelle, BD; DeMott, C; Flatau, M; Fujii, Y; Giglio, D; Gille, ST; Hamill, TM; Hendon, H et al. FRONT MAR SCI, 6, https://doi.org/10.3389/fmars.2019.00427

OceanGliders: A Component of the Integrated GOOSTestor, P; de Young, B; Rudnick, DL; Glenn, S; Hayes, D; Lee, CM; Pattiaratchi, C; Hill, K; Heslop, E; Turpin, V; Alenius, P; Barrera, C; Barth, JA et al. FRONT MAR SCI, 6, https://doi.org/10.3389/fmars.2019.00422

On the role of 210Bi in the apparent disequilibrium of 210pb-210Po at seaKim, SH; Hong, GHJ ENVIRON RADIOACTIV, 208, https://doi.org/10.1016/j.jenvrad.2019.106024

Opportunistic Species and Seasonal Variation in Epiphytic Foraminiferal Assemblages in Abalone Farm NetsChoi, YH; Jeong, DU; Lee, YG; Choi, JU; Kim, S; Lee, JSJ COASTAL RES, 35:559–573, https://doi.org/10.2112/JCOASTRES-D-18-00057.1

Optimal Deployment of Vector Sensor Nodes in Underwater Acoustic Sensor NetworksKim, S; Choi, JWSENSORS-BASEL, 19, https://doi.org/10.3390/s19132885

Optimal design of combined propulsion Underwater Glider for operation of the East Sea of South KoreaHong, SM; Lee, S; Hyeon, JW; Lee, JH; Lee, S; Lee, C; Ko, SHADV MECH ENG, 11, https://doi.org/10.1177/1687814019856482

Optimum feeding frequency for juvenile short barbeled velvetchin Hapalogenys nigripinnis reared in floating sea cagesOh, SY; Maran, BAV; Park, JWFISHERIES SCI, 85:379–385, https://doi.org/10.1007/s12562-019-01288-1

Orbital-scale evolution of the Indian summer monsoon since 1.2 Ma: Evidence from clay mineral records at IODP Expedition 355 Site U1456 in the eastern Arabian SeaChen, HJ; Xu, ZK; Clift, PD; Lim, D; Khim, BK; Yu, ZJJ ASIAN EARTH SCI, 174:11–22, https://doi.org/10.1016/j.jseaes.2018.10.012

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Power extraction performance of three types of flapping hydrofoils at a Reynolds number of 1.7E6Sitorus, PE; Ko, JHRENEW ENERG, 132:106–118, https://doi.org/10.1016/j.renene.2018.07.116

Pozzolanic reaction on alkali-activated Class F fly ash for ambient condition curable structural materialsKang, SH; Jeong, Y; Kim, MO; Moon, JCONSTR BUILD MATER, 218:235–244, https://doi.org/10.1016/j.conbuildmat.2019.05.129

Probability distribution for size and mass of a nodule in the KR5 area for the development of a manganese nodule minerKim, S; Cho, SG; Lim, W; Lee, TH; Park, S; Hong, S; Kim, HW; Min, CH; Choi, JS; Ko, YT; Chi, SBOCEAN ENG, 171:131–138, https://doi.org/10.1016/j.oceaneng.2018.10.041

Production of extracellular vesicles with light-induced proton pump activity by proteorhodopsin-containing marine bacteriaKwon, YM; Patra, AK; Chiura, HX; Kim, SJMICROBIOLOGYOPEN, 8, https://doi.org/10.1002/mbo3.808

Prorocentrum shikokuense Hada and P. donghaiense Lu are junior synonyms of P. obtusidens Schiller, but not of P. dentatum Stein (Prorocentrales, Dinophyceae)Shin, HH; Li, Z; Mertens, KN; Seo, MH; Gu, HF; Lim, WA; Yoon, YH; Soh, HY; Matsuoka, KHARMFUL ALGAE, 89, https://doi.org/10.1016/j.hal.2019.101686

Protective Effect of 3-Bromo-4,5-Dihydroxybenzaldehyde from Polysiphonia morrowii Harvey against Hydrogen Peroxide-Induced Oxidative Stress In Vitro and In VivoCho, SH; Heo, SJ; Yang, HW; Ko, EY; Jung, MS; Cha, SH; Ahn, G; Jeon, YJ; Kim, KNJ MICROBIOL BIOTECHN, 29:1193–1203, https://doi.org/10.4014/jmb.1904.04062

Protective effects of Ecklonia cava extract on the toxicity and oxidative stress induced by hair dye in in-vitro and in-vivo modelsOh, JY; Ryu, BM; Yang, HW; Kim, EA; Lee, JS; Jeon, YJJ OCEANOL LIMNOL, 37:909–917, https://doi.org/10.1007/s00343-019-8148-3

Proteomic Analysis of Novel Components of Nemopilema nomurai Jellyfish Venom: Deciphering the Mode of ActionChoudhary, I; Hwang, DH; Lee, H; Yoon, WD; Chae, J; Han, CH; Yum, S; Kang, C; Kim, ETOXINS, 11, https://doi.org/10.3390/toxins11030153

Quasi real-time and continuous non-stationary strain estimation in bottom- fixed offshore structures by multimetric data fusionPalanisamy, RP; Jung, BJ; Sim, SH; Yi, JHSMART STRUCT SYST, 23:61–69, https://doi.org/10.12989/sss.2019.23.1.061

Quick method to measure acoustic properties of the piston core sediment under laboratory conditionsKim, BN; Kim, E; Ji, HY; Sim, MS; Choi, BK; Kim, SHJPN J APPL PHYS, 58, https://doi.org/10.7567/1347-4065/ab19b4

R/V Isabu-Based First Ultraclean Seawater Sampling for Ocean Trace Elements in KoreaKim, SH; Ra, K; Kim, KT; Jeong, H; Lee, J; Kang, DJ; Rho, T; Kim, IOCEAN SCI J, https://doi.org/10.1007/s12601-019-0030-x

Rapid Decay of Slowly Moving Typhoon Soulik (2018) due to Interactions With the Strongly Stratified Northern East China SeaPark, JH; Yeo, DE; Lee, K; Lee, H; Lee, SW; Noh, S; Kim, S; Shin, J; Choi, Y; Nam, SGEOPHYS RES LETT, https://doi.org/10.1029/2019GL086274

Rare Earth Elements and Other Critical Metals in Deep Seabed Mineral Deposits: Composition and Implications for Resource PotentialPak, SJ; Seo, I; Lee, KY; Hyeong, KMINERALS-BASEL, 9, https://doi.org/10.3390/min9010003

Regionalized nervous system in Hydra and the mechanism of its developmentNoro, Y; Yum, S; Nishimiya-Fujisawa, C; Busse, C; Shimizu, H; Mineta, K; Zhang, XM; Holstein, TW; David, CN; Gojobori, T; Fujisawa, TGENE EXPR PATTERNS, 31:42–59, https://doi.org/10.1016/j.gep.2019.01.003

Reliability-based design optimization of a pick-up device of a manganese nodule pilot mining robot using the Coanda effectKim, S; Cho, SG; Lee, M; Kim, J; Lee, TH; Park, S; Hong, S; Kim, HW; Min, CH; Choi, JS; Ko, YT; Chi, SBJ MECH SCI TECHNOL, 33:3665–3672, https://doi.org/10.1007/s12206-019-0707-1

Removal of Heavy Metals Using Rhamnolipid Biosurfactant on Manganese NodulesLee, A; Kim, KWATER AIR SOIL POLL, 230, https://doi.org/10.1007/s11270-019-4319-2

Resorcinosides A and B, Glycosylated Alkylresorcinols from a Marine-Derived Strain of the Fungus Penicillium janthinellumChoi, BK; Phan, THT; Hwang, S; Oh, DC; Kang, JS; Lee, HS; Ngo, TDN; Tran, TTV; Shin, HJJ NAT PROD, 82:3186–3190, https://doi.org/10.1021/acs.jnatprod.9b00776

Review of tidal characteristics of Uldolmok Strait and optimal design of blade shape for horizontal axis tidal current turbinesSeo, J; Yi, JH; Park, JS; Lee, KSRENEW SUST ENERG REV, 113, https://doi.org/10.1016/j.rser.2019.109273

Roseithermus sacchariphilus gen. nov., sp. nov. and proposal of Salisaetaceae fam. nov., representing new family in the order RhodothermalesPark, MJ; Oh, JH; Yang, SH; Kwon, KKINT J SYST EVOL MICR, 69:1213–1219, https://doi.org/10.1099/ijsem.0.003293

Sasa quelpaertensis leaf extract mitigates fatigue and regulates the transcriptome profile in miceSong, H; Jang, MG; Lee, JY; Ko, HC; Hur, SP; Kim, SJGENES GENOM, 41:317–324, https://doi.org/10.1007/s13258-018-0765-2

Satellite Ocean Colour: Current Status and Future PerspectiveGroom, S; Sathyendranath, S; Ban, Y; Bernard, S; Brewin, R; Brotas, V; Brockmann, C; Chauhan, P; Choi, JK; Chuprin, A; Ciavatta, S et al. FRONT MAR SCI, 6, https://doi.org/10.3389/fmars.2019.00485

Satellite-driven Observational and Numerical Modeling Evidence of Negative Surge by Typhoon Talim 2017 over the Shelf of the East China SeaKang, SK; Kim, KO; Kim, EJ; Seung, YH; So, JKJ COASTAL RES, 171–175, https://doi.org/10.2112/SI91-035.1

Sea-level, monsoonal, and anthropogenic impacts on the millennial-scale variability of siliciclastic sediment input into the western Philippine sea since 27 kaXu, ZK; Li, TG; Clift, PD; Wan, SM; Lim, D; Chang, FM; Sun, RTJ ASIAN EARTH SCI, 177:250–262, https://doi.org/10.1016/j.jseaes.2019.04.001

Seasonal changes in abiotic environmental conditions in the Busan coastal region (South Korea) due to the Nakdong River in 2013 and effect of these changes on phytoplankton communitiesBaek, SH; Kim, D; Kim, YO; Son, M; Kim, YJ; Lee, M; Park, BSCONT SHELF RES, 175:116–126, https://doi.org/10.1016/j.csr.2019.01.014

Seasonality and El Niño Diversity in the Relationship between ENSO and Western North Pacific Tropical Cyclone ActivityChoi, Y; Ha, KJ; Jin, FFJ CLIMATE, 32:8021–8045, https://doi.org/10.1175/JCLI-D-18-0736.1

Sediment properties of lithologic units and their correlation within the lower delta plain of the Nakdong River Delta, southeast KoreaKhim, BK; Shin, S; Kim, JC; Takata, H; Hyun, S; Cheong, DQUATERN INT, 519:170–182, https://doi.org/10.1016/j.quaint.2019.02.044

Sedimentary Organic Carbon Budget Across the Slope to the Basin in the Southwestern Ulleung (Tsushima) Basin of the East (Japan) SeaLee, AESO; Han, EOHE; An, S; Kim, SH; Lim, H; Kim, DSO; Kang, DJ; Park, YYJ GEOPHYS RES-BIOGEO, 124:2804–2822, https://doi.org/10.1029/2019JG005138

Serinicoccus sediminis sp. nov., isolated from tidal flat sedimentLee, DW; Yoo, Y; Lee, H; Kwon, BO; Khim, JS; Yim, UH; Kim, BS; Kim, GH; Kim, JJINT J SYST EVOL MICR, 69:1998–2003, https://doi.org/10.1099/ijsem.0.003415

90 KIOST Annual Report 2019

Structural Insights into Catalytic Relevances of Substrate Poses in ACC-1Bae, DW; Jung, YE; An, YJ; Na, JH; Cha, SSANTIMICROB AGENTS CH, 63, https://doi.org/10.1128/AAC.01411-19

Structure, evolution and phylogenetic informativeness of eelpouts (Cottoidei: Zoarcales) mitochondrial control region sequencesTuranov, SV; Lee, YH; Kartavtsev, YPMITOCHONDRIAL DNA A, 30:264–272, https://doi.org/10.1080/24701394.2018.1484117

Submesoscale eddies in Peter the Great Bay of the Japan/East Sea in winterFayman, P; Ostrovskii, A; Lobanov, V; Park, JH; Park, YG; Sergeev, AOCEAN DYNAM, 69:443–462, https://doi.org/10.1007/s10236-019-01252-8

Submesoscale Surface Tidal, Vortical, and Residual Circulations in a Semienclosed BayWon, SI; Kim, SY; Kim, KOJ GEOPHYS RES-OCEANS, 124:5105–5137, https://doi.org/10.1029/2018JC014892

Suppressed CO2 Outgassing by an Enhanced Biological Pump in the Eastern Tropical PacificKim, HJ; Kim, TW; Hyeong, K; Yeh, SW; Park, JY; Yoo, CM; Hwang, JJ GEOPHYS RES-OCEANS, https://doi.org/10.1029/2019JC015287

Suspended particles enhance biodegradation of oil in seaLoh, A; Shankar, R; Ha, SY; An, JG; Yim, UHSCI TOTAL ENVIRON, 685:324–331, https://doi.org/10.1016/j.scitotenv.2019.05.390

Synchronicity of climate driven regime shifts among the East Asian marginal sea waters and major fish speciesRahman, SMM; Jung, HK; Park, HJ; Park, JM; Lee, CIJ ENVIRON BIOL, 40:948–961, https://doi.org/10.22438/jeb/40/5(SI)/SI-18

Synergistic Effect of Multi-Sensor Data on the Detection of Margalefidinium polykrikoides in the South Sea of KoreaShin, J; Kim, K; Son, YB; Ryu, JHREMOTE SENS-BASEL, 11, https://doi.org/10.3390/rs11010036

Synthesis, Molecular Engineering, and Photophysical Properties of Fluorescent Thieno[3,2-b]pyridine-5(4H)-onesSung, DB; Mun, B; Park, S; Lee, HS; Lee, J; Lee, YJ; Shin, HJ; Lee, JSJ ORG CHEM, 84:379–391, https://doi.org/10.1021/acs.joc.8b01924

Temporal and Spatial Variability of Near-Inertial Waves in the East/Japan Sea From a High-Resolution Wind-Forced Ocean ModelJeon, C; Park, JH; Park, YGJ GEOPHYS RES-OCEANS, 124:6015–6029, https://doi.org/10.1029/2018JC014802

Tertiary Waves Measured during 2017 Pohang Earthquake Using an Underwater GliderLee, JH; Ko, SH; Jung, SK; Hyeon, JWAPPL SCI-BASEL, 9, https://doi.org/10.3390/app9183860

The biochemical composition of phytoplankton in the Laptev and East Siberian seas during the summer of 2013Ahn, SH; Whitledge, TE; Stockwell, DA; Lee, JH; Lee, HW; Lee, SHPOLAR BIOL, 42:133–148, https://doi.org/10.1007/s00300-018-2408-0

The complete mitochondrial genome of a Dokdo shrimp, Lebbeus groenlandicusKim, J; Choi, JP; Kim, HS; Jo, Y; Min, WG; Yum, S; Bhak, JMITOCHONDRIAL DNA B, 4:4196–4197, https://doi.org/10.1080/23802359.2019.1693290

The Draft Genome of an Octocoral, Dendronephthya giganteaJeon, Y; Park, SG; Lee, N; Weber, JA; Kim, HS; Hwang, SJ; Woo, S; Kim, HM; Bhak, Y; Jeon, S; Lee, N; Jo, Y; Blazyte, A; Ryu, T; Cho, YS; Kim, H; Lee, JH; Yim, HS; Bhak, J; Yum, SGENOME BIOL EVOL, 11:949–953, https://doi.org/10.1093/gbe/evz043

Shoreline Movement Monitoring and Geomorphologic Changes of Beaches Using Lidar and UAVs Images on the Coast of the East Sea, KoreaLee, YK; Eom, J; Do, JD; Kim, BJ; Ryu, JHJ COASTAL RES, 409–414, https://doi.org/10.2112/SI90-052.1

Short-Term Response of Chlorophyll-a Concentration to Change in Sea Surface Wind Field over Mesoscale EddyPark, JE; Park, KA; Kang, CK; Park, YJESTUAR COAST, https://doi.org/10.1007/s12237-019-00643-w

Simultaneous measurement of wave forces and pressures on a double-chamber perforated caissonOh, SH; Ji, CHMEAS SCI TECHNOL, 30, https://doi.org/10.1088/1361-6501/ab1bb6

Southeastern Yellow Sea as a sink for atmospheric carbon dioxideChoi, Y; Kim, D; Cho, S; Kim, TWMAR POLLUT BULL, 149, https://doi.org/10.1016/j.marpolbul.2019.110550

Spatial and temporal characteristics and removal methodology of suspended particulate matter speckles from Geostationary Ocean Color Imager dataLee, MS; Park, KA; Moon, JE; Kim, W; Park, YJINT J REMOTE SENS, 40:3808–3834, https://doi.org/10.1080/01431161.2018.1552818

Spatial Macrobenthos Habitat on Ganghwa Tidal Flat, Korea: Part I - Spatial Relationship between Potamocorbula laevis and Spatial VariablesOh, HJ; Koo, BJ; Ryu, JH; Lee, SJ COASTAL RES, 393–400, https://doi.org/10.2112/SI90-050.1

Spatial Macrobenthos Habitat on Ganghwa Tidal Flat, Korea: Part II - Habitat Potential Mapping of Potamocorbula laevis Using Probability ModelsLee, S; Syifa, M; Koo, BJ; Lee, CW; Oh, HJJ COASTAL RES, 401–408, https://doi.org/10.2112/SI90-051.1

Spatial variations of small phytoplankton contributions in the Northern Bering Sea and the Southern Chukchi SeaLee, SH; Ryu, J; Lee, D; Park, JW; Kwon, JI; Zhao, JP; Son, SGISCI REMOTE SENS, 56:794–810, https://doi.org/10.1080/15481603.2019.1571265

Spatiotemporal distribution and annual load of microplastics in the Nakdong River, South KoreaEo, S; Hong, SH; Song, YK; Han, GM; Shim, WJWATER RES, 160:228–237, https://doi.org/10.1016/j.watres.2019.05.053

Sporophytic photosynthesis and gametophytic growth of the kelp Ecklonia stolonifera affected by ocean acidification and warmingGao, X; Choi, HG; Park, SK; Kim, JH; Yu, OH; Nam, KWAQUAC RES, 50:856–861, https://doi.org/10.1111/are.13957

Spring 2018 Asian Dust Events: Sources, Transportation, and Potential Biogeochemical ImplicationsYoon, JE; Lim, JH; Shim, JM; Kwon, JI; Kim, INATMOSPHERE-BASEL, 10, https://doi.org/10.3390/atmos10050276

Spring-neap variation on sediment reworking with organic matter contents by a polychaete, Perinereis aibuhitensis, in the intertidal sediments of the Gomso Bay, KoreaSeo, J; Koo, BJMAR BIOL, 166, https://doi.org/10.1007/s00227-019-3572-7

Stable isotope ratio of atmospheric and seawater nitrate in the East Sea in the northwestern Pacific oceanKim, H; Park, GH; Lee, SE; Kim, YI; Lee, K; Kim, YH; Kim, TWMAR POLLUT BULL, 149, https://doi.org/10.1016/j.marpolbul.2019.110610

Structural Health Monitoring with Sensor Data and Cosine Similarity for Multi-DamagesKim, B; Min, C; Kim, H; Cho, S; Oh, J; Ha, SH; Yi, JHSENSORS-BASEL, 19, https://doi.org/10.3390/s19143047

91

The first reference transcriptome assembly of the stalked barnacle, Neolepas marisindica, from the Onnuri Vent Field on the Central Indian RidgeRyu, T; Woo, S; Lee, NMAR GENOM, 48:63–66, https://doi.org/10.1016/j.margen.2019.04.004

The genome of the giant Nomura’s jellyfish sheds light on the early evolution of active predationKim, HM; Weber, JA; Lee, N; Park, SG; Cho, YS; Bhak, Y; Lee, N; Jeon, Y; Jeon, S; Luria, V; Karger, A; Kirschner, MW; Jo, YJ; Woo, S; Shin, K; Chung, O; Ryu, JC et al. BMC BIOL, 17, https://doi.org/10.1186/s12915-019-0643-7

The Global Ocean Ship-Based Hydrographic Investigations Program (GO-SHIP): A Platform for Integrated Multidisciplinary Ocean ScienceSloyan, BM; Wanninkhof, R; Kramp, M; Johnson, GC; Talley, LD; Tanhua, T; McDonagh, E; Cusack, C; O’Rourke, E; McGovern, E; Katsumata, K et al.FRONT MAR SCI, 6, https://doi.org/10.3389/fmars.2019.00445

The mRNA expression patterns of kisspeptins, GnRHs, and gonadotropins in the brain and pituitary gland of a tropical damselfish, Chrysiptera cyanea, during the reproductive cycleImamura, S; Hur, SP; Takeuchi, Y; Badruzzaman, M; Mahardini, A; Rizky, D; Takemura, AFISH PHYSIOL BIOCHEM, https://doi.org/10.1007/s10695-019-00715-5

The non-linear relationship between the western North Pacific anticyclonic circulation and Korean summer precipitation on subseasonal timescalesYeo, SR; Kwon, MH; Lee, JYCLIM DYNAM, https://doi.org/10.1007/s00382-019-05013-7

The Tropical Transition in the Western North Pacific: The Case of Tropical Cyclone Peipah (2007)Chang, M; Ho, CH; Chan, JCL; Park, MS; Son, SW; Kim, JJ GEOPHYS RES-ATMOS, 124:5151–5165, https://doi.org/10.1029/2018JD029446

The water depth-dependent co-occurrence patterns of marine bacteria in shallow and dynamic Southern Coast, KoreaCui, Y; Chun, SJ; Baek, SH; Lee, M; Kim, Y; Lee, HG; Ko, SR; Hwang, S; Ahn, CY; Oh, HMSCI REP-UK, 9, https://doi.org/10.1038/s41598-019-45512-5

Thermodynamic stability and formation kinetics of CHClF2 hydrates in the presence of NiCl2Woo, Y; Jeong, JH; Lee, JW; Park, J; Cha, M; Kim, D; Yoo, K; Yoon, JHCHEM ENG SCI, 202:529–536, https://doi.org/10.1016/j.ces.2018.09.002

Time reversal communication using vertical particle velocity and pressure signals in shallow waterKim, S; Kim, H; Jung, SK; Choi, JWAD HOC NETW, 89:161–169, https://doi.org/10.1016/j.adhoc.2019.03.008

Tracing the trajectory of pelagic Sargassum using satellite monitoring and Lagrangian transport simulations in the East China Sea and Yellow SeaKwon, K; Choi, BJ; Kim, KY; Kim, KALGAE-SEOUL, 34:315–326, https://doi.org/10.4490/algae.2019.34.12.11

Transcriptomic profiling of Hydra magnipapillata after exposure to naproxenYamindago, A; Lee, N; Woo, S; Yum, SENVIRON TOXICOL PHAR, 71, https://doi.org/10.1016/j.etap.2019.103215

Trans-dimensional Markov chain Monte Carlo inversion of sound speed and temperature: Application to Yellow Sea multichannel seismic dataJun, H; Cho, Y; Noh, JJ MARINE SYST, 197, https://doi.org/10.1016/j.jmarsys.2019.05.006

Tributyltin Affects Retinoid X Receptor-Mediated Lipid Metabolism in the Marine Rotifer Brachionus koreanusLee, MC; Fonseca, E; Park, JC; Yoon, DS; Choi, H; Kim, M; Han, J; Cho, HS; Shin, KH; Santos, ML; Jung, JH; Castro, LFC; Lee, JSENVIRON SCI TECHNOL, 53:7830–7839, https://doi.org/10.1021/acs.est.9b01359

Tsunami hazard from submarine landslides: scenario-based assessment in the Ulleung Basin, East Sea (Japan Sea)Urgeles, R; Bahk, JJ; Lee, SH; Horozal, S; Cukur, D; Kim, SP; Kim, GY; Jeong, SW; Um, IKGEOSCI J, 23:439–460, https://doi.org/10.1007/s12303-018-0044-x

Tuberatolide B isolated from Sargassum macrocarpum inhibited LPS-stimulated inflammatory response via MAPKs and NF-kappa B signaling pathway in RAW264.7 cells and zebrafish modelKim, EA; Kim, SY; Kim, J; Oh, JY; Kim, HS; Yoon, WJ; Kang, DH; Heo, SJJ FUNCT FOODS, 52:109–115, https://doi.org/10.1016/j.jff.2018.10.030

Two fouling Olifantiella (Bacillariophyceae) species from the northwest temperate Pacific coastJung, SW; Park, JSDIATOM RES, 34:165–180, https://doi.org/10.1080/0269249X.2019.1649307

Two new species of Apseudomorpha (Peracarida: Tanaidacea) from the East China Sea, with a key to the species of PhoxokalliapseudesWi, JH; Yu, OH; Kang, CKJ CRUSTACEAN BIOL, 39:150–161, https://doi.org/10.1093/jcbiol/ruy105

Ultimate Behavior of Steel Cable-Stayed Bridges During ConstructionKim, S; Won, D; Kang, YJINT J STEEL STRUCT, 19:932–951, https://doi.org/10.1007/s13296-018-0176-x

Uncertainties in the Geostationary Ocean Color Imager (GOCI) Remote Sensing Reflectance for Assessing Diurnal Variability of Biogeochemical ProcessesConcha, J; Mannino, A; Franz, B; Kim, WREMOTE SENS-BASEL, 11, https://doi.org/10.3390/rs11030295

U-Net Convolutional Neural Network Model for Deep Red Tide Learning Using GOCIKim, SM; Shin, J; Baek, S; Ryu, JHJ COASTAL RES, 302–309, https://doi.org/10.2112/SI90-038.1

Vicarious calibration of GOCI for the SeaDAS ocean color retrievalConcha, J; Mannino, A; Franz, B; Bailey, S; Kim, WINT J REMOTE SENS, 40:3984–4001, https://doi.org/10.1080/01431161.2018.1557793

Wave prediction in a port using a fully nonlinear Boussinesq wave modelChoi, YK; Seo, SN; Choi, JY; Shi, FY; Park, KSACTA OCEANOL SIN, 38:36–47, https://doi.org/10.1007/s13131-019-1456-2

Wave Response Analysis of a Sinkable Float-type Storm Surge Barrier Through Hydraulic ExperimentsYoon, JJ; Shim, JSJ COASTAL RES, 136–140, https://doi.org/10.2112/SI91-028.1

Wintertime Large Temperature Inversions in the Yellow Sea Associated With the Cheju and Yellow Sea Warm CurrentsLie, HJ; Oh, KH; Cho, CH; Moon, JHJ GEOPHYS RES-OCEANS, 124:4856–4874, https://doi.org/10.1029/2019JC015180

Zinc Pyrithione (ZnPT) as an Antifouling Biocide in the Marine Environment-a Literature Review of Its Toxicity, Environmental Fates, and Analytical MethodsSoon, ZY; Jung, JH; Jang, M; Kang, JH; Jang, MC; Lee, JS; Kim, MWATER AIR SOIL POLL, 230, https://doi.org/10.1007/s11270-019-4361-0

PART. III

연구지원활동

RESEARCH SUPPORT ACTIVITIES

01 해양연구선운영

The KIOST Fleet

02 해양인재양성KIOST Academic Programs

03 국제협력International Cooperation

04 홍보

Public Relations

05 해양학술정보자원제공및출판

Providing and Publishing Oceanographic Information Resources

RESEARCH SUPPORT ACTIVITIES

KIOST 종합해양연구선단은 선진 종합해양연구를 위해 우리나라 전 해역을 넘어 세계의 해양을 누비고 있다. 한국 최초의 종합해양연구선

인 온누리호를 비롯해 이어도호, 장목1호 및 장목2호, 그리고 2016년 취항한 5,900톤 급 대형 연구선 이사부호는 본격적인 대양탐사를 통해

대한민국을 글로벌 해양 연구라는 미지의 길로 인도하고 있다. 앞으로도 KIOST의 연구선들은 무한한 해양의 잠재성과 가능성을 지속적으로

증명해낼 것이다.

Marine research vessels, which represent the research capacity of KIOST, are accelerating with the efforts in advanced marine research in the seas across the world. Onnuri, Eardo, Jangmok 1& Jangmok 2, and the large Marine Research Vessel Isabu (with a capacity of about 5,900 tons, scheduled to be sailing in 2016) will continuously pioneer domestic and global marine research, and prove the limitless potential of the ocean.

해양연구선운영The KIOST Fleet

주요 연구조사 지역 Major Research Sites

전 지구해양

The ocean all over the world

2019년 운항실적 Total Distance and Days

운항거리 71,744km, 운항일수 253일

(71,744km, 253days)

주요 관측 장비 Major Research Equipment

다중 음향측심기 EM122, EM710(Multibeam Echo

Sounder), 음향측심기 EA600(Hydrographic

Echo Sounder), 해상중력계 MGS6(Marine

Gravity Meter), 음향 도플러 유속계 OS38,

OS150(Acoustic Doppler Current Profiler),

수층별 수온, 염분 측정기 SBE911(Conductivity

Temperature Depth), 초순수 해수채집장비

Ultra Clean CTD(TEI Ultraclean Sampling

System), 천부지층탐사기 P70(Sub Bottom

Profiling System), 과학어군탐지기 EK80, SH90,

ME70(Scientific Echo Sounder), 표층 수온,염분

측정기 SBE45, SBE38(Thermosalinograph),

소모성 음속측정 시스템 XBT MK21(The Expendable

Bathythermograph), 자동항해정보시스템 DGPS,C

NAV,MarineSTAR, Seapath 330+, 위치/자세

탐지기 PHIN, Seapath 330+, MRU+5(Attitude &

Motion sensor with Gyro), 수중 위치 측정기 HiPAP

101,HiPAP mini(Underwater Positioning), 자동

기상정보 시스템(Auto Weather Station), 염분측정기

AutoSAL 8400B(Salinometer), 음향동기화시스템

K sync(Acoustic Synchronization Unit),

시간동기화 장치(Time Synchronization), 사이즈믹

공기압축기(Air Compressor for Multichannel

Seismic), 해저 퇴적물 시료채취기(Giant Piston

Corer System), 수중영상 촬영,지질시료 채집장비

TV grab(Video Guided Hydraulic Grab), 다층

플랑크톤 채집기 MOCNESS(Multi layer plankton

sampler), 연속 어란 채집기(Continuous Underway

Fish Egg Sampler), 파고측정기(Wavemeter),

이산화탄소 자동분압 측정 시스템 pCO2(Autonomous

Analytical System for Measuring CO2 in Oceanic

Surface Water), 지질시료분석장비 ITRAX(Core

Scanner)(Multichannel Seismic System), 심해저

측면 주사 음향 측심기(Deep tow side scan sonar),

심해저 카메라 시스템(Deep Sea Camera System)

이사부호 제원 Specifications

취항 2016년 11월

대양종합연구선 3년

이사부호 R/V ISABU

5,897톤15knots60명18m

순항속도 Cruising Speed

총톤수 Gross Tonnage

승선인원 Complement 연구원 35명 승무원 25명

선폭 Breadth (moulded)

99.8m전장 Length Over All

Research Support Activities The KIOST Fleet

95

Research Support Activities The KIOST Fleet

주요 연구조사 지역 Major Research Sites

동중국해 대한해협

East China Sea Straits of Korea

2019년 운항실적 Total Distance and Days

운항거리 44,247km, 운항일수 188일

(44,247km, 188days)

온누리호 R/V Onnuri

온누리호 제원 Specifications

취항 1992년 01월

대양종합연구선 27년

주요 관측 장비 Major Research Equipment

다중 음향측심기 EM120(Multibeam Echo

Sounder), 음향측심기 EA600(Hydrographic

Echo Sounder), 음향 도플러 유속계 OS75,

OS150(ADCP : Acoustic Doppler Current Profiler),

수층별 수온, 염분 측정기 SBE911(Conductivity

Temperature Depth), 천부지층탐사기 P70(Sub

Bottom Profiling System), 표층 수온,염분 측정기

SBE21, SBE38(Thermosalinograph), 소모성

음속측정 시스템 XBT MK21(The Expendable

Bathythermograph), 자동항해정보시스템 DGPS,

Fugro, Trimble212 ,Seapath 300+ & 위치/자세

탐지기 Hydrins, Seapath 300+, MRU+5(Attitude

& Motion sensor with Gyro), 자동 기상정보

시스템(Auto Weather Station), 이산화탄소

자동분압 측정 시스템 pCO2(Autonomous

Analytical System for Measuring CO2 in

Oceanic Surface Water), 탄성파 지질탐사 장비

Sercel(Multichannel Seismic System), 심해저

측면 주사 음향 측심기(Deep tow side scan sonar),

심해저 카메라 시스템(Deep Sea Camera System)

1,370톤12.5knots41명12m

순항속도 Cruising Speed

총톤수 Gross Tonnage

승선인원 Complement 연구원 24명 승무원 17명

선폭 Breadth (moulded)

63.8m전장 Length Over All

연구지원활동

해양연구선운영

96 KIOST Annual Report 2019

주요 연구조사 지역 Major Research Sites

국내연근해지역

Coastal waters and seas around the Korea Peninsula

2019년 운항실적 Total Distance and Days

운항거리 32,958km, 운항일수 218일

(32,958km, 218days)

이어도호 R/V Eardo

이어도호 제원 Specifications

취항 1992년 03월

연근해종합연구선 27년

주요 관측 장비 Major Research Equipment

다중 음향측심기 EM710(Multibeam Echo

Sounder), 음향측심기 EA400(Hydrographic

Echo Sounder), 음향 도플러 유속계 OS38,

OS150(Acoustic Doppler Current Profiler),

수층별 수온, 염분 측정기 SBE911(Conductivity

Temperature Depth), 천부지층탐사기 Chirp

Ⅲ(Sub Bottom Profiling System), 표층 수온,염분

측정기 SBE21, SBE38(Thermosalinograph), 소모성

음속측정 시스템 XBT MK21(The Expendable

Bathythermograph), 자동항해정보시스템

Trimble SPS 356, Seapath 200+ & 자동 기상정보

시스템(Auto Weather Station), 이산화탄소

자동분압 측정 시스템 pCO2(Autonomous

Analytical System for Measuring CO2 in Oceanic

Surface Water)

357톤12knots32명8.6m

순항속도 Cruising Speed

총톤수 Gross Tonnage

승선인원 Complement 연구원 18명 승무원 14명

선폭 Breadth (moulded)

49m전장 Length Over All

Research Support Activities The KIOST Fleet

97

주요 연구조사 지역 Major Research Sites

국내 연해지역

Inner coastal areas of South Korea

2019년 운항실적 Total Distance and Days

운항거리 8,328km, 운항일수 126일

(8,328km, 126days)

주요 관측 장비 Major Research Equipment

다중 음향측심기 EM3002(Multibeam Echo

Sounder), 음향측심기 EA400(Hydrographic

Echo Sounder), 음향 도플러 유속계 Workhorse

Mariner 300kHz(Acoustic Doppler

Current Profiler), 수층별 수온, 염분 측정기

SBE911(Conductivity Temperature Depth),

천부지층탐사기 HMS622(Sub Bottom Profiling

System), 표층 수온,염분 측정기 SBE21,

SBE38(Thermosalinograph), 자동항해정보시스템

Seapath 320+, 자동 기상정보 시스템(Auto

Weather Station)

장목1호 R/V Jangmok 1

장목1호 제원 Specifications

취항 2005년 11월

연근해 저수심 해역조사 14년

41톤13knots15명5.2m

순항속도 Cruising Speed

총톤수 Gross Tonnage

승선인원 Complement연구원 11명 승무원 4명

선폭 Breadth (moulded)

24m전장 Length Over All

연구지원활동

해양연구선운영

98 KIOST Annual Report 2019

주요 연구조사 지역 Major Research Sites

국내 연해지역

Inner coastal areas of South Korea

2019년 운항실적 Total Distance and Days

운항거리 6,563km, 운항일수 82일

(6,563km, 82days)

주요 관측 장비 Major Research Equipment

다중 음향측심기 EM2040(Multibeam Echo

Sounder), 음향측심기 EA400(Hydrographic

Echo Sounder), 음향 도플러 유속계 Workhorse

Mariner 300kHz(Acoustic Doppler

Current Profiler), 수층별 수온, 염분 측정기

SBE911(Conductivity Temperature Depth),

천부지층탐사기 HM3300(Sub Bottom Profiling

System), 표층 수온,염분 측정기 SBE21,

SBE38(Thermosalinograph), 자동항해정보시스템

Seapath 330+, 자동 기상정보 시스템(Auto

Weather Station)

장목2호 R/V Jangmok 2

장목2호 제원 Specifications

취항 2012년 03월

연안해양조사 7년

35톤16knots12명4.8m

순항속도 Cruising Speed

총톤수 Gross Tonnage

승선인원 Complement 연구원 8명승무원 4명

선폭 Breadth (moulded)

24m전장 Length Over All

Research Support Activities The KIOST Fleet

99

1. 이사부호 A cruise Log R/V ISABU

2019년연구선(이사부호,온누리호)운항실적A cruise Log of R/V ISABU, R/V Onnuri

운항일정 Cruise Period 운항목적 Cruise Objective 조사지역 Site 책임자 Chief Scientist

02.15.-02.16. 연구장비 테스트 (멀티빔)

Sea acceptance test of research and observation equipment (multibeam) 남해, 동해

South Sea, East Sea심원준

Shim, Won Joon

02.17.-03.03. 상가 수리

Dry Docking부산

Busan심원준

Shim, Won Joon

03.04.-03.12. 생지화학순환 이해 및 해양환경변동 연구

Biogeochemical cycling and marine environmental change studies동해

East Sea나공태

Ra, Kong Tae

03.24.-04.07. 이동 항해(거제→콜롬보)

Transit Cruise (Geoje → Colombo)인도양

Indian Ocean심원준

Shim, Won Joon

04.08. 콜롬보 정박

Berth at Colombo인도양(모리셔스)

Indian Ocean(Colombo)심원준

Shim, Won Joon

04.09.-04.17. CUFES를 이용한 인도-태평양 어류의 산란가입

Spawning Recruitment of the Indo-Pacific fishes using CUFES : Indian Ocean인도양

Indian Ocean김 성

Kim, Sung

04.18.-04.19. 모리셔스 정박

Berth at Mauritius인도양(모리셔스)

Indian Ocean(Mauritius)심원준

Shim, Won Joon

04.20.-05.15. 생지화학 순환 이해 및 해양환경변동 연구

Biogeochemical cycling and marine environmental change studies인도양

Indian Ocean김동선

Kim, Dong Seon

세이셸리스-차고스 수온약층 언덕 파일럿 시계열 관측 이니셔티브

Seychelles-Chagos Thermocline Ridge Pilot Time-Series Observation Initiative남성현

Nam, Sung Hyoun

05.16.-05.19. 모리셔스 정박

Berth at Mauritius인도양(모리셔스)

Indian Ocean(Mauritius)심원준

Shim, Won Joon

05.20.-06.16. 남서태평양 및 인도양 해양광물자원 개발사업

Exploration of seafloor hydrothermal deposits and Fe-Mn crusts in the southwestern Pacific and Indian oceans.

인도양

Indian Ocean송승규

Son, Seung Kyu

심해저광업 잔사물질 특성규명 및 환경친화 처리기술 개발

Characterization of deep seabed mine tailing and development of environmentally-friendly reduction/processing technologies.

유찬민

Yoo, Chan Min

06.17.-06.18. 모리셔스 정박

Berth at Mauritius인도양(모리셔스)

Indian Ocean(Mauritius)심원준

Shim, Won Joon

06.19.-07.09. 인도양 중앙해령대 심해열수공 생명시스템 이해

Understanding the deepsea biosphere on seafloor hydrothermal vents in the Indian Ridge

인도양

Indian Ocean김동성

Kim, Dong Sung

리유니온 플룸과 중앙 인도양 해령의 상화작용이 해저지형 및

암석지구화학에 미치는 영향

Influence of interaction between Reunion plume and Central indian Ridge on bathymetry and MORB geochemistry

박정우

Park, Jung Woo

07.10.-07.16. 이동 항해(몰디브 말레→말레이시아 포트클랑)

A Port of Travel (Maldives Male → Malaysia Port Klang)인도양

Indian Ocean심원준

Shim, Won Joon

연구지원활동

해양연구선운영

100 KIOST Annual Report 2019

07.17.-07.18. 포트클랑 정박

Berth at Port Klang포트클랑(말레이시아)

Port Klang(Malaysia)심원준

Shim, Won Joon

07.19.-07.29. 이동 항해

Transit Cruise (Port Klang→ Geoje)인도양

Indian Ocean심원준

Shim, Won Joon

08.16.-08.20. 독도의 지속가능한 이용 연구

A sustainable research and development of Dokdo독도,울릉도

Sea around, Dokdo-Ulleungdo박찬홍

Park, Chan Hong

08.27.-09.16. 북서태평양 유기물 순환과정과 생지화학 이해 : 태풍전후의 비교를 중심으로

Understanding organic matter cycling and the influence of typhoon in the northwest pacific

태평양-1(장목→괌)

The North Pacific Ocean-1 (Jangmok→Guam)

황점식

Hwang, Jeom Shik

북서태평양 해양-대기 상호작용 및 태풍 급강화 현상 연구

Study on air-sea interaction and process of rapidly intensifying typhoon in the Northwestern Pacific

강석구

Kang, Sok Kuh

10.04.-10.18. 북서태평양 해양-대기 상호작용 및 태풍 급강화 현상 연구

Study on air-sea interaction and process of rapidly intensifying typhoon in the Northwestern Pacific

태평양-2(괌→장목)

The North Pacific Ocean-2 (Guam→Jangmok)

강석구

Kang, Sok Kuh

다중 수중 글라이더를 활용한 태풍시기 해양의 난류 혼합 과정 연구

Turbulent mixing characteristics in the upper and deep ocean during Typhoon passage : Applications of underwater gliders

박종진

Park, Jong Jin

CUFES를 이용한 인도-태평양 어류의 산란가입

Spawning Recruitment of the Indo-Pacific fishes using CUFES: Indian Ocean김 성

Kim, Sung

북서태평양에서 태풍에 의한 해양탄소순환 변화 연구

Changing of Oceanic Carbon Cycle by Typhoon in the NW Pacific강동진

Kang, Dong Jin

10.25.-11.15. 북서태평양 순환과 기후 변동성이 한반도 주변해역 변화와 물질순환에 미치는 영향 I

– 제주난류 변동성과 역할

Influences of the Northwest Pacific circulation and climate variability on the Korean water changes and material cycle I – The role of jeju warm current and its variabilit

태평양-3

The North Pacific Ocean-3강현우

Kang, Hyoun Woo

11.25.-12.18. 북서태평양 해양-대기 상호작용 및 태풍 급강화 현상 연구

Study on air-sea interaction and process of rapidly intensifying typhoon in the Northwestern Pacific

태평양-4(장목→괌)

The North Pacific Ocean-4 (Jangmok→Guam)

이재학

Lee, Jae Hak

서태평양 저위도 해양-대기 환경변화 감시와 과거변화 복원을 위한 대학 연합형 연구

University collaborative research : present and past ocean and atmosphere environmental changes in low-latitude western Pacific

이경은

Lee, Kyoung Eun

12.19.-12.20. 괌 정박

Berth at Port Guam태평양

The North Pacific Ocean심원준

Shim, Won Joon

12.21.-12.29. 필리핀 해 내부조석파와 중규모 와류 변동성 연구-내부 조석파 집중 해역관측

Variability of internal tides and mesoscale eddies in the Philippine Sea-Observation in the internal tide focal region

태평양-5(괌→장목)

The North Pacific Ocean-5 (Guam→Jangmok)

박재훈

Park, Jae Hoon

Research Support Activities The KIOST Fleet

101

2. 온누리호 A cruise Log R/V Onnuri

2019년연구선(이사부호,온누리호)운항실적A cruise Log of R/V ISABU, R/V Onnuri

운항일정 Cruise Period 운항목적 Cruise Objective 조사지역 Site 책임자 Chief Scientist

02.17.-02.28. 상가 수리

Dry Docking남해

South Sea김기복

Kim, Ki Bok

03.12.-03.14. DP 테스트

DP Test남해

South Sea김기복

Kim, Ki Bok

03.28.-03.31. 연구장비 테스트

Sea acceptance test of research and observation equipment남해

South Sea김덕진

Kim, Dug Jin

04.03.-04.14. 해양배출 폐기물 종합관리 시스템 구축

Development of the best practical technology & management options for the national disposal of waste at sea

동서해

East/Yellow Sea정창수

Jung, ChungSoo

04.19.-04.26. 한국 주변 해양생태계 변동이해 및 대응기반 연구

A base study to understand and counteract marine ecosystem change in Korean waters서해

Yellow Sea최동한

Choi, Dong Han

05.14.-05.16. 해양배출 폐기물 종합관리 시스템 구축

Development of the best practical technology & management options for the national disposal of waste at sea

동해

East Sea정창수

Jung, ChungSoo

05.20.-06.01. 독도의 지속가능한 이용 연구

A sustainable research and development of Dokdo독도, 울릉도

Sea around, Dokdo-Ulleungdo박찬홍

Park, Chun Hong

06.16.- 06.21. 한반도 연안물리 특성 조사

Survey on Coastal Physical Characteristics around Korea.서해

Yellow Sea김 응

Kim, Eung

07.02.-07.06. 외해 생물 이용성 농도 측정법 개발 (경상대)

Development of Method to Detect Cree on of f shore (Gyeongsang National University)남해

South Sea김기범

Kim, Kee Bum

07.16.-07.19. 백터 선배열 센서 해상 성능 시험

Technical service for Performance Test of Vector Sensor Arrays at Sea동해

East Sea조성호

Cho, SungHo

07.22.-07.27. 종합해양과학기지 구축 및 활용 연구

Construction of ocean research stations and their application studies서해

Yellow Sea심재설

Shim, JaeSeol

08.07.-08.10. 생지화학순환 이해 및 해양환경 변동 연구

Biogeochemical cycling and marine environmental change studies동해

East Sea나공태

Ra, Kong Tae

08.13.-08.14. 연구선 실습 프로그램

2019 KIO-Dream Lab Program for Research Ships남해

South Sea이희승

Lee, Hyi Seung

08.23.-08.28. 이동 항해 (장목→괌)

Transit Cruise (Jangmok → Guam)태평양

Northeast of Guam김기복

Kim, Ki Bok

08.29. 괌 정박

Berth at Guam태평양

Northeast of Guam김기복

Kim, Ki Bok

08.30.-09.11. 탄성파 해양학을 활용한 수층 혼합구조 가시화와 정량화 연구

A study on the visualization and quantification of the ocean mixing using seismic oceanography

태평양

Eastern Philippine Sea이상훈

Lee, Sang Hoon

09.12.-09.18. 괌 정박

Berth at Guam태평양

Northeast of Guam김기복

Kim, Ki Bok

09.19.-09.28. 대양의 생물다양성 이해와 신 해양자원 확보

Exploration of new marine biological/genetic resources and rare metal resources in the Area beyond national jurisdiction of the West Pacific

태평양

Northeast of Guam형기성

Hyeong, Ki Seong

연구지원활동

해양연구선운영

102 KIOST Annual Report 2019

3. 연구선 운항실적 A cruise Log

09.29.-09.30. 괌 정박

Berth at Guam태평양

Northeast of Guam김기복

Kim, Ki Bok

10.01.-10.16. 대양의 생물 다양성 이해와 신 해양자원 확보

Exploration of new marine biological/genetic resources and rare metal resources in the Area beyond national jurisdiction of the West Pacific

태평양

Northeast of Guam형기성

Hyeong, Ki Seong

10.17.-10.23. 북서태평양 심해 저서생물의 생물지리학적 분포 특성

Bio-geographical distribution of deep-sea benthic fauna in the Northwest Pacific태평양

Northwest Pacific이지민

Lee, Ji Min

10.24.-10.25. 괌 정박

Berth at Guam태평양

Northeast of Guam김기복

Kim, Ki Bok

10.26.-11.09. 한국 Pacific Array 사업 - 가장 오래된 해양판에서의 탄성파/전자기파 해저면

장기 관측을 통한 심부구조 연구

Korean Pacific Array Project: Deep Earth structure by long-term seismic/electromagnetic observations on the oldest oceanic plate seafloor

태평양

The North Pacific Ocean김영희

Kim, Young Hee

11.10.-11.11. 괌 정박

Berth at Guam태평양

Northeast of Guam김기복

Kim, Ki Bok

11.12.-11.18. 이동 항해 (장목→괌)

Transit Cruise (Guam → Jangmok)태평양

The North Pacific Ocean김기복

Kim, Ki Bok

11.27.-12.02. 한반도 연안물리 특성조사

Survey on Coastal Physical Characteristics around Korea.남해

South Sea김병남

Kim, Byoung Nam

12.05.-12.07. 수중광역 이동통신 시스템 기술 개발

Development of the wide-area Underwater mobile communication systems남해

South Sea김승근

Kim, Seung Geun

12.12.-12.15. 트롤 피해방지 해저면 계류장치를 이용한 실시간 연속 층별 해양환경 감시 시스템

Development and application of Real-time Environmental Progiling system in Trawi-resistant bottom platform

남해

South Sea(주)지오시스템리서치

G.E.O.R.Corp.

12.16.-12.19. 예인형 간섭 계측 합성 개구소나 개발 사업

Developmen of Towed inerferometry Synthetic Aperture Sonar System동해 및 남해

East Sea and, South Sea김병남

Kim, Byoung Nam

이사부호 온누리호 이어도호 장목1호 장목2호

인도양 태평양 태평양 국내연근해 국내 연해 국내 연해

‘19년 운항실적

운항일수(일)253 188 218 126 82

‘19년 운항실적

운항거리(km)71,744 44,247 32,958 8,328 6,563

Research Support Activities The KIOST Fleet

103

KIOST는 선진 해양의 미래를 이끌어갈 해양과학기술 분야의 유능한 인재를 양성하기 위해 노력하고 있다. 해양과학 교육 프로그램의 일환으로

‘과학교사 해양과학 연수 프로그램’ 및 ‘해군 전문교육’을 운영하고 있으며, 차세대 글로벌 해양 전문가를 양성하기 위하여 ‘하계방학 현장실습’

및 ‘대학생 연구선 승선 프로그램’을 진행하고 있다.

KIOST has been engaged in efforts to train talented students who will lead the future in the field of ocean science and technology. As part of the ocean sciences education program, KIOST operates the ‘Marine Science Training Program for Science Teachers’ and ‘Specialized Training for Navy.’ In addition, KIOST manages ‘Summer Vacation Lab Training for Undergraduate Students’ and the ‘Research Vessel Boarding Program for University Students’ to foster future global experts in the field of ocean science.

해양인재양성KIOST Academic Programs

KIOST는 2019년도에 UST로부터 스쿨 인증을 획득하여 UST-KIOST

스쿨을 운영하고 있다. UST-KIOST 스쿨에는 해양과학기술 분야의 차별

화된 연구 현장 중심의 문제 해결형 교육을 제공하고 있으며, 해양과학

단일전공 아래에 해양학, 응용해양과학 및 외국인 전문석사과정(LPEM)

의 세 개의 세부전공을 두고 있다. 2019년 12월 현재, 교원은 53명이며,

재학 중인 학생은 석사과정 11명, 박사과정 23명, 통합과정 29명 등 63

명이다. 2019년도에는 10명의 졸업생을 배출하였다.

KIOST obtained the KIOST School certification from the UST in 2019 and operates the ‘UST-KIOST School’. The ‘UST-KIOST School’ pro-vides problem-solving education programs based on field research in ocean science and technology. The ‘UST-KIOST School also has an Ocean Science major with specialized sub-majors in Oceanography, Applied Ocean Science, and LPEM. There are 53 faculty members and 63 students (11 Master’s, 23 Doctoral, and 29 Integrative course students). Ten students graduated in 2019.

KIOST는 2013년도부터 한국해양대학교와 공동으로 해양과학기술전문

대학원을 운영하고 있다. OST 스쿨에는 해양기후, 해양생명, 해양선박·

플랜트 분야 등 6개의 연구그룹이 있다. 2019년 12월 현재, 교원은 132

명이며, 학생은 석사과정 21명, 박사과정 11명이다. 2019년도에는 13명

의 졸업생을 배출하였다.

KIOST has jointly operated the Ocean Science & Technology (OST) School with Korea Maritime and Ocean University (KMOU) since 2013. The OST school has six research groups encompassing the fields of ocean climate, marine bioscience, and ship and offshore plants. There are 132 faculty members and 32 students (21 Master’s and 11 Doctoral course students). Thirteen students graduated in 2019.

과학기술연합대학원대학교(UST)-

한국해양과학기술원(KIOST) 스쿨 운영

Operation of the UST-KIOST school

해양과학기술전문대학원(OST school)

공동운영

Joint operation of the Ocean Science & Technology school (OST School)

해군 전문교육

Specialized training for navy2019 UST 교원·학생 워크숍

2019 UST faculty & student workshop

대학생 연구선 승선 프로그램

Research vessel boarding program for university students2020 UST-KIOST 스쿨 학위 수여식

2020 UST-KIOST School commencement

105

Research Support Activities KIOST Academic Programs

KIOST는 해양과학기술분야 양자간·다자간 협력을 통하여 국제공동연구를 적극적으로 수행하고 있다. IOC, PICES, IMO, ISA 등의 국제기구와

다자간 협력을 통하여 해양 관련 국제 레짐에도 선제적으로 대응하고 있다. 또한 중국, 영국, 미국, 페루, 미크로네시아에 있는 해외 연구거점을

통해서 선진국 및 개도국과의 상호 호혜적 협력도 증진시키고 있다. 이러한 노력들을 통해 KIOST는 기후변화, 해양환경 악화 대응 등 전 지구적

해양 문제해결과 지속가능한 해양발전에 이바지하고 있다.

The Korea Institute of Ocean Science & Technology (“KIOST”) is actively carrying out international joint research in the field of ocean science and technology via bilateral and multilateral collaborations. It is also proactive in its responses to the international regime regarding maritime affairs through multilateral collaborations with international organizations such as IOC, PICES, IMO, and ISA. Moreover, KIOST is fostering mutually beneficial collaborations with both developed and developing countries through research hubs in China, U.K., U.S., Peru, and Micronesia. These efforts have become instrumental in resolving global maritime issues such as climate change and the worsening of maritime conditions and have contributed to sustainable maritime developments.

국제협력International Cooperation

한국해양과학기술원은 정부간해양학위원회(IOC), 북태평양해양과학기구(PICES) 등 정부간 국제기구에 우리나라 대표로 참석하여 국익을 대변하고,

이들 국제기구와 협조를 강화하고 있다. 특히 UN에서 승인된 ‘지속가능한 발전을 위한 UN 해양과학 10개년 계획(UN Decade)’에 자발적으로 기여하는

한편 집행기획위원회(EPG) 활동을 통하여 국익이 잘 반영될 수 있도록 적극 노력하고 있다.

KIOST has been working with intergovernmental organizations such as the International Oceanography Council (IOC) and the North Pacific Marine

Science Organization (PICES) as a representative of Korea, speaking for its national interests, and strengthening its ties with these international

organizations. In particular, KIOST has voluntarily contributed to the “United Nations Decade of Ocean Science for Sustainable Development” as a

member of the Executive Planning Group (EPG).

국제해양거버넌스 대응

Response to international maritime governance

KIOST-IOC UN Decade 준비단계 지원을 위한 신탁기금 협약 체결 (2019.07)

Trust fund agreement for the preliminary support of KIOST-IOC UN Decade (2019.07)

UN Decade EPG 임시회의에 참석(2019.06., 이윤호 박사)

Participation in the executive planning meeting of the UN Decade EPG(2019.06.,Youn-Ho Lee, PhD)

PICES BIO 위원회 의장 활동(2016-2019, 주세종 박사)

PICES BIO committee chair(2016-2019, Se-Jong Ju, PhD)

107

Research Support Activities International Cooperation

연구지원활동

국제협력

국제 공동연구 발굴 등을 목적으로 연례 심포지엄인 KIS (KIOST International Symposium, 2019.11.)를 비롯하여 8번의 크고 작은 국제학술 행사를

개최하였다. 이를 통해 20개국 400여 명의 전문가들과 서로 간의 연구결과를 공유하며 국제적 협력의 틀을 구축하는 자리를 마련하였다. 이러한 국제

학술행사 외에도 2019년에 국제기구 및 해외 연구기관과 국제 공동연구 추진, 기술 교류 및 능력배양활동 등을 목적으로 방문 교류, 교육훈련 등 다양한

활동을 진행하였다.

Aside from the annual KIOST International Symposium (KIS) that was held in November 2019, KIOST hosted eight international academic events

of varying scales, bringing together around 400 experts from 20 different countries to exchange research findings and create a framework of

international cooperation. Moreover, KIOST conducted international joint research with international organizations and foreign research institutes

in 2019, taking part in diverse activities such as visiting programs and educational training programs designed for technology exchange and

capacity building.

국제학술행사 및 프로그램 활동

International academic events and programs

바다교양·해양유산 한·아세안 포럼

Korea-ASEAN forum on sea culture and marine heritagePML 소장 초청

Invitation of the chief executive of PML

2019 SCOR 총회

2019 SCOR annual meetingPEMSEA 해양미세플라스틱 국제 심포지움

PEMSEA international symposium on marine microplastics

108 KIOST Annual Report 2019

유네스코한국위원회와 함께 지속가능발전목표(Sustainable Development Goals: SDGs) 17개 중 14번째인 해양을 주제로 ‘우리의 지속가능한 해양’

해설서를 발간하였다. 이번 해설서 발간으로 일반인들에게 멀게만 느껴졌던 유엔의 지속가능발전목표 14번(해양환경보전과 해양자원의 지속가능한

이용)에 대하여 보다 쉽게 이해할 수 있는 계기를 마련하였다. 또한, 한국해양학위원회(KOC)와 함께 8월 19일부터 21일까지 부산 해운대에서 제 6차

차세대해양과학자 워크숍을 개최하였다. 전국 17개 대학, 44명의 대학생들이 참가하여 해양전문가들과 네트워크를 구축하였고 유관 해양기관들을

방문하였다. 대학생들의 워크샵 참석을 통해 해양과학자 및 국제기구 전문가로서의 꿈을 키우고 나아가 해양관련 산업에서 활약할 수 있는 토대를

마련하였다.

In cooperation with the Korean National Commission for UNESCO, KIOST published a manual called “Our Sustainable Sea” written under the

theme of “sea,” which pertains to the 14th of the 17 Sustainable Development Goals (SDGs). This manual has allowed the general public to under-

stand the rather obscure 14th SDG of the UN––the preservation of the maritime environment and sustainable use of maritime resources––better.

Further, in cooperation with the Korea Oceanographic Commission (KOC), KIOST held the 6th Workshop for Future Marine Scientists at Busan

Haeundae from August 19 to 21, 2019 . A total of 44 students from 17 universities participated in the workshop, networking with marine science

specialists and visiting relevant organizations. The workshop provided a foundation to interested students in pursuing the career of marine scien-

tists and experts in international organizations, to eventually become leaders in the maritime industry.

대중과 함께하는 국제협력활동

International collaborative activities with the public한국사회와

지속가능발전목표

14유네스코한국위원회

| 한국해양과학기술원

우리의

지속가능한

해양

우리의 지속가능한 해양

유네스코한국위원회 한국해양학위원회 기획

김웅서 김태욱 남정호 이용희 이윤호 이종명 정석근 지음

한국사회와 지속가능발전목표 14

SDG-14 해설서 발간기념회 기념사진

Commemorating the publication of the SDG-14 manual차세대 해양과학자 워크숍 단체사진

Participants at the workshop

차세대 해양과학자 워크숍 강연사진

Lecturing during the workshop for future marine scientists차세대 해양과학자 워크숍 젊은과학자와의 만남

Meeting with early career scientists at the workshop

SDG-14 해설서 표지

SDG-14 Manual Cover

109

Research Support Activities International Cooperation

연구지원활동

국제협력

한국해양과학기술원은 해외연구센터(한·중, 한·인니, 한·페루) Lab(미국-NOAA, 영국-PML), 해외기지(태평양해양과학기지)를 활용하여 다양한 공동

연구를 발굴하여 수행하였다. 특히, 한중센터에서는 한중 해양환경모니터링과제를 통해 도출된 연구결과를 JCR(Journal of Coastal Research) 특별호

(SI 90)로 발간하였다. 한페루센터에서는 페루 민간양식산업 진출지원을 위한 투자 가이드라인(국문본, 영문본) 발간 및 국내·외 설명회를 개최하여 국내

양식업자들이 페루 양식산업에 진출할 수 있는 교두보를 마련하였다. 또한, 한인니센터에서는 인도네시아 해양과학기술계의 가장 대표적인 학술 단체인

인도네시아 해양학협회(ISOI)의 연차대회에서 한·인니 해양과학공동연구센터(MTCRC)가 주최, ‘인도네시아 해양과학기술 국제협력 개발’ 특별 프로

그램을 개최하여 5개 세션, 19개 발표, 170여명의 인도네시아 해양과학자들이 참여하였다. 이를 통해 한국과 인도네시아 해양과학자들간의 협력 기반

확보 및 MTCRC와 인니해양학위원회(ISOI)간의 공식적 협력관계를 공고히 할 수 있었다.

KIOST conducted various joint research projects, making use of overseas research centers (Korea-China, Korea-Indonesia, Korea-Peru), labs (U.S.: KI-

OST-NOAA Lab, U.K.: PML), and an overseas base (Pacific Ocean Research Center). In particular, in the Korea-China center, the research results of the

Korea-China maritime environment monitoring were published in a special issue (SI 90) of the Journal of Coastal Research (JCR). In the Korea-Peru

center, KIOST published the Guidelines for Public/Private Enterprises to Invest in the Aquaculture Industry in Peru (Korean and English versions)

and held domestic and overseas information sessions that enabled Korean businesses to successfully advance and settle down in the Peruvian

aquaculture industry. Additionally, in the Korea-Indonesia center, the Korea Indonesia Marine Technology Cooperation Research Center (MTCRC)

hosted a special program titled “Development of International Collaboration in Ocean Science and Technology Indonesia” at the annual event held

by Ikatan Sarjana Oseanologi Indonesia (ISOI), the most prestigious academic group of marine scientists in Indonesia. The program consisted of five

sessions and 19 presentations, and around 180 Indonesian marine scientists participated. This program facilitated the securing of the collaborative

foundation between Korean and Indonesian marine scientists and the solidifying the official cooperation between the MTCRC and ISOI.

KIOST 해외연구거점 활동

Overseas research activities of KIOST

GOA-ON 해양산성화 관측부이(Chuuk-k1) 점검 (태평양해양과학기지)

GOA-ON inspection of an observation buoy for ocean acidification (Korean South Pacific Ocean Research Center)

110 KIOST Annual Report 2019

제3차 한중해양에너지 워크숍 개최 (한·중 해양과학공동연구센터)

The 3rd China-Korea marine energy workshop (Joint Ocean Research Center)

페루 민간양식산업 진출지원을 위한 투자가이드라인 발간 출판기념회

(한·페루 해양과학기술공동연구센터)

Event for the publication of the guidelines for public/private enterprises to invest inthe aquaculture industry in Peru (Korea-Peru Research Laboratory on Marine Science& Technology for Latin America)

KIOST-PML 공동워크숍 개최 (KIOST-PML Lab)

KIOST-PML joint workshop (KIOST-PML Lab)

한·인니 해양과학공동연구센터(MTCRC) 주최 인도네시아 국제협력 개발 특별 프로그램

초청연사 발표(한·인니 해양과학공동연구센터)

Guest speaker presentation during the special program on developing international cooperation in Indonesia (hosted by MTCRC)

2019 JPA 연례회의 참석 (KIOST-NOAA Lab)

2019 JPA annual event (KIOST-NOAA Lab)

111

Research Support Activities International Cooperation

KIOST는 해양과학기술 연구성과를 기반으로 해양과학의 중요성과 필요성을 국민에게 널리 알리기 위해 주력하고 있다. 청소년이나 일반인

들이 해양분야를 쉽게 이해할 수 있도록 가독성 높은 다양한 콘텐츠를 개발하여 해양과학에 대한 호감도와 접근성을 높이고, 다양한 계층의

전문가를 위한 해양분야의 사회적 이슈에도 대응하여 해양과학 인식 제고와 해양과학문화 확산을 위해 노력하고 있다.

Based on research findings on marine science technology, the Korea Institute of Ocean Science and Technology (KIOST) has been committed to informing the public of the significance and necessity of marine science. We develop various kinds of highly readable content so that teenagers and ordinar y people can easi l y understand marine science, and thereby increase their preference and access to marine science. We also devote ourselves to spreading the awareness and culture of marine science by responding to marine-related social issues for different expert groups.

홍보Public Relations

Research Support Activities Public Relations

KIOST는 보유한 연구 인프라(연구시설 및 인력)를 활용하여 학교 현장에 꾸준히 교육기부 활동을 하고 있다. 2019년부터는 KIO-Dream School이라는

브랜드로 교육기부 사업을 실시하고 있다. 5, 6월 인천 강화와 부산 낙동강에서 진행된 KIO-Dream 해양과학교실은 갯벌 현장에서 연구자와 함께 직접

생태계를 경험하는 체험으로 좋은 반응을 이끌어 냈다. 11월에는 ‘제4차 해양클러스터 공동학술대회’ 개최를 통해, 시·교육청·해양분야 공공기관이 주체

별로 운영 중인 교육프로그램을 소개하고 지식콘텐츠 공동활용 방안에 대해 논의하는 자리를 가졌다. 12월에는 ‘부산해양교육발전협의회’에 가입하였고,

향후 지역사회를 대상으로 해양과학문화 확산을 위해 노력할 예정이다.

KIOST has been contributing to the education system by providing its research facilities and human resources to schools. In 2019, KIOST initiated

an educational contribution project called the KIO-Dream School. In May and June, the ocean science class at the KIO-Dream School initiated a

well-received program taught by experts at the mudflats in Ganghwa in Incheon, and the Nakdong River in Busan so that students could expe-

rience the ecosystem firsthand. In November, KIOST hosted the 4th Marine Cluster Joint Conference, where the City Hall, the office of Education,

and various maritime affairs offices have introduced their own educational programs. Ways to share their knowledge and the content of their

programs were also discussed. In December, KIOST joined the Busan Maritime Education Development Council with the intention of expanding

marine science culture to local communities.

해양과학기술 대중화를 위한 위한 KIO-Dream School 운영

Operation of the KIO-Dream school for the popularization of ocean science technology

KIO-Dream 열대해양캠프(미크로네시아 축주)

The KIO-Dream ocean science camp (Federated States of Micronesia, chuuk)KIO-Dream Hall 개관

Opening of the “KIO-Dream Hall”

113

연구지원활동

홍보

KIOST는 연구성과와 해양과학기술을 소개하기 위하여 페이스북, 블로그 등 온라인 매체를 적극 활용하고 있다. 특히, 접근성 향상과 콘텐츠 구성에 많은

노력을 기울이고 있는데, 블로그 일 평문 방문자 수는 2,000명을 상회하고 있다. 특히, 대학생들이 KIOST 행사 및 학술프로그램 참여를 통해, 일반인의

눈높이에 맞게 제작된 콘텐츠의 반응이 좋았다. 또한, KIOST에서 생산된 해양지식 콘텐츠 공동 활용을 위해, 홈페이지 메뉴를 개편하여 홈페이지 방문

자가 손쉽게 청소년 교육 및 교육정보에 대한 정보를 얻을 수 있도록 하였다. 적극적인 온라인 홍보활동을 통해, 12월에는 대한민국 블로그 어워드 공공

기관 부문에서 장려상을 수상하여 기관 브랜드 이미지를 제고한 공을 인정받았다.

In an effort to publicize its research accomplishments and ocean science technology, KIOST has been actively utilizing social media such as Face-

book and blogs. In particular, we have been trying to improve accessibility and create a variety of interesting content. The number of daily visitors

to our blog is currently over 2,000. With the participation of university students in various KIOST events and academic programs, there have been

favorable responses to the content catered to non-experts. Furthermore, KIOST reorganized its website for the purpose of sharing marine content

knowledge, making it easier for website visitors to access information regarding educational information. As a result of these online promotional

activities, KIOST has won a prize at the Korea Blog Awards under the public institutions category in December, thus further enhancing the image

of the organization.

해양지식콘텐츠 플랫폼 구축 및 온라인 홍보활동

Establishment of platform for marine content knowledge and online promotional activities

KIOST 온라인 기자단 '19년 해단식 및 '20년 발대식

KIOST online press corps’ 2019 ceremony of disbanding 2020 kick-off ceremony

KIOST SNS 해양지식 플랫폼

KIOST SNS, a platform for marine knowledge

114 KIOST Annual Report 2019

Research Support Activities Public Relations

2019년에는 적극적이고 능동적인 방법으로 KIOST 연구성과 홍보활동을 실시하였다. 단순히 보도자료를 제공하는 것이 아니라, 기자단을 초청하여 취재

기회를 제공하였고, 이는 다양한 방법으로 보도 및 기사화 되었다. 2019년 1월에는 해양수산부 차관 및 출입기자단을 초청하여, 수중건설로봇 3종 R&D

성과보고회와 기술이전 협약식을 진행하였고, 수중건설로봇 국산화를 위한 KIOST의 연구성과를 알리는 계기가 되었다. KIOST 연구선을 활용한 홍보

활동도 진행되었다. 4월에는 KIOST 연구선을 이용하여 침몰한지 39년 지난 해경72정 추정 선박을 발견하여, 강릉 현장에서 취재를 지원하였고, 9월에는

부산MBC 취재진의 이사부호 동행 취재를 지원하였다. 국내 및 전 세계를 누비는 한국해양과학기술원 연구원들의 연구 현장을 생생히 담은 다큐멘터리를

통해 국가 해양과학기술 발전에 기여하는 KIOST인의 삶이 안방에 전달되었다.

In 2019 KIOST proactively promoted its research accomplishments. Rather than merely providing press releases, we invited the press and provid-

ed information that was published through various media. In January 2019, we invited the vice-minister of the Ministry of Oceans and Fisheries

and the media to a press conference. The conference focused on performance reporting of R&D in three types of underwater construction robots

and the signing ceremony of the technology transfer agreement. It was an opportunity for KIOST to announce its success in the localization of

underwater construction robot technology. There were also promotional activities during which KIOST’s research vessels were used. In April, we

used our research vessel to discover what we presume is the hull of Coast Guard Vessel 72, which had sunk 39 years ago, and supported the on-

site press coverage in Gangneung. In September, the press team from the Busan branch of the Munhwa Broadcasting Corporation (MBC) accom-

panied us on board the ISABU to produce a documentary at the research site. Accordingly, we showcased KIOST’s accomplishments in advancing

ocean science technology worldwide.

언론을 통한 연구성과 홍보활동 추진

Promotion of research accomplishments through the media

수중건설로봇센터 R&D 성과보고회 및 기술이전 협약식

Press conference on the performance reporting of R&D in underwater construction robots and the signing ceremony of the technology transfer agreement

부산MBC 다큐에세이 <그 사람> ‘태풍을 좇는 사람들’ 편

Busan MBC’s documentary series “That Person” (Episode: Those who pursue typhoons)

115

Research Support Activities Public Relations

해양학술정보실은 국내 최대의 해양과학분야 학술정보를 구축하고, 국민을 위한 해양 지식 정보 서비스를 제공하고 있다. 해양과학 분야 전문

학술지인 OSJ와 OPR 발간을 통해 국내외 학술커뮤니케이션을 선도하고 있으며, 해양 관련 단행본 출판을 통해 대중에게 해양 지식을 널리

알리는 역할을 하고 있다.

The Maritime Academic Information Office has created an infrastructure of maritime knowledge and information while providing maritime information services to the public. By publishing professional academic journals, such as Ocean Science Journal (OSJ) and Ocean and Polar Research (OPR), KIOST takes the lead of domestic and international scholarly communication. The publication of oceanic scientific monographs also allows the general audience to gain wide access to the field of oceanography.

해양학술정보자원제공및출판Providing and Publishing Oceanographic Information Resources

해양학술정보실이 운영하는 해양과학도서관은 기관의 창조적 역량강화와 우수한 연구성과 창출을 위해 해양연구자들이 필요로 하는 학술정보자원을

널리 수집·구축·제공하고 있다. 해양과학도서관은 해양과학 전자도서관 플랫폼을 통해 소장자료 및 다양한 웹자원의 통합정보검색, 전자저널, 학술DB,

인용색인정보 (SCI/SCOPUS/JCR), e-book 등의 서비스를 연구자들에게 제공하고 있다. 연구자들이 도서관의 다양한 서비스와 정보를 충분히 활용할

수 있도록 정기적인 교육을 시행하고 있으며, 우리 원에서 수행한 주요사업 보고서를 보존하여 관리하고 있다. 또한, KIOST의 연구활동과 각종 행사의

영상자료를 iPhoto Library에 구축하여 대내·외에 제공하고 있다.

The Ocean Science Library has provided a comprehensive collection of academic information and resources to ocean science researchers. The

goal is to enhance the creative capacity of the institution and generate substantial research results. Researchers can view the comprehensive

collection within the library, as well as web resources, electronic journals, academic database, citation information (SCI/SCOPUS/JCR), and e-books

through the electronic library platform. The library also offers regular training programs to the researchers on utilizing the various functions

and data within the system, basis to teach researchers how to make use of its variety of services and information and retains various reports on

the main projects carried out by the institution. Furthermore, the library has been uploading images and video files from research activities and

events of KIOST to an iPhoto Library, which is available to users from both inside and outside the institution.

전문도서관 운영

Operation of a specialized library

전문도서관 운영

Operation of specialized library

• 학술정보 구축/제공

• 연구보고서 관리

• 사진·영상DB 구축

• 기관 리포지터리

• 기록정보 구축/관리

• 콘텐츠 큐레이션

• 전문학술지 발간

• 단행본 출판

• 연구성과 진단 • 연구동향 분석

• 계량정보 분석

정보구축및분석역량강화

연구밀착형정보서비스제공

콘텐츠

수집/제공

연구및

업무지원

콘텐츠

생산

전문정보

분석

• 정보검색 지원

• 연구성과물 관리

• 연구사업 지원

• 행정업무 지원

• 정보활용교육

• 아웃리치 활동

117

Research Support Activities Providing and Publishing Oceanographic Information Resources

연구지원활동

해양학술정보자원제공및출판

연구자 맞춤 학술정보 서비스 제공

Providing customized academic information services to researchers

저자키워드 네트워크 분석

Network analysis of author keyword공동연구 네트워크 분석

Network analysis of the collaboration

논문 생산의 효율성을 높이고 연구 역량 강화에 도움을 줄 수 있도록 계량정보학적 방법론을 활용한 전문적인 연구지원 서비스를 제공하고 있다.

2019년에는 학술논문을 바탕으로 특정 주제 분야의 연구생산성, 파급력, 주제네트워크, 협력·경쟁관계 등을 분석하는 연구동향분석 서비스를 신규로

기획, 시행하였다. 이는 국내 출연연 최초의 연구동향 분석서비스로써, 기획연구 수행 시 연구자가 필요한 유망 연구주제를 발굴하고 미래 기술을 조기

탐지하는 데 기여하고 있다.

By making use of quantitative research methodologies, KIOST also supports researchers to increase the efficiency of writing articles and strength-

en research capacity. In 2019, the library designed and initiated the research trend analysis system that examines research productivity, impact,

topic network, cooperating/competing relations, and other factors related certain topics on the basis of academic papers. As the first institutional

research trend analysis service in Korea, this program has made contribution to detecting potential topics necessary for researchers during their

planning process of the research, as well as identifying future technology at an early stage.

118 KIOST Annual Report 2019

한국해양과학기술원은 우리나라 해양과학기술의 학술적 영향력 확대

를 위한 학술지 2종을 발간하고 있다. 특히, 한국해양학회와 공동으로

발간 중인 『Ocean Science Journal (OSJ)』은 해양학 분야의 국내 최초

SCIE 등재지로서, 2019년 제54권 1~4호(총 52편)를 발행하였다. 또한

해양과 극지 분야의 전문학술지인 『Ocean and Polar Research(OPR)』는

Elesvier社의 SCOPUS 등재지로서 2019년에는 제41권 1~4호(총 25편)를

발간하였다.

KIOST currently publishes two academic journals that are expanding the academic influence of Korea in ocean science technology. In par-ticular, the Ocean Science Journal (OSJ), a joint publication with the Korean Society of Oceanography, is the first Korean ocean science journal to be included in SCIE, leading to the publication of the first four issues within Volume 54 (total 52 sections) in 2019. In addition, the Ocean and Polar Research (OPR), a journal in the field of ocean and polar regions, has been included in the SCOPUS built by Elsevier, leading to the publication of the first four issues within Volume 41 (total 25 sections) in 2019.

해양과학분야 최대 연구기관인 KIOST에서 생산된 해양과학지식을

청소년을 비롯한 대중들에게 널리 알리기 위한 단행본을 발간하고 있다.

청소년 대상의 교양도서 ‘미래를 꿈꾸는 해양문고’, KIOST의 연구를

사진과 일러스트로 소개하는 ‘과학으로 보는 바다’, 해양과학을 깊이

알고자 하는 대중을 위한 ‘해양과학총서’, 해양학자를 위한 ‘전문도서’

시리즈에 우리 원 전문 연구자들이 참여하고 있다. 2019년에는 ‘미래를

꿈꾸는 해양문고’ 시리즈 『바닷속 보물선은 누구 것인가요?』, 『북극에서

다산을 만나다』를 발간하여 국민의 해양적 교양을 높이고 기관의 역량을

알렸다.

As a leading research institution for ocean science, KIOST has been working on separate publications to spread the knowledge of ocean science to the public, including young students. Experts within KIOST have participated in the making The Marine Library of Dreams for the Future guided to young students; the Ocean through Science that introduces the research of KIOST through pictures and illustra-tions; the Ocean Science Series for non-professionals wishing to gain more knowledge in the field; and the Expert Book series targeted to oceanographers. In 2019, KIOST published “Whose Underwater Treasure Ship is This?” and “Meeting Dasan in the North Pole” part of the Marine Library of Dreams for the Future series, enhancing the mass understanding on marine field and demonstrating the high capacity of the research institute.

해양과학 전문학술지 발간

Publication of ocean science journals

해양지식 대중화를 위한 단행본 출판

Publication of marine-field books accessible to the public

Research Support Activities Providing and Publishing Oceanographic Information Resources

「OSJ」, 「OPR」

해양과학 전문학술지 발간

『바닷속 보물선은 누구 것인가요?』, 『북극에서 다산을 만나다』

해양지식 대중화를 위한 단행본 출판

119

PART. IV

부록

APPENDIX

01 2019KIOST포상

2019 KIOST Award

02 주소록Contact

03 KIOST본원건물배치도

KIOST Headquaters Government Office Building Layout

2019 KIOST Award

KIOST 포상

도전적인 연구와 뛰어난 논문으로 해양과학기술을 발전시킨 연구자들,

번뜩이는 아이디어와 애사심으로 생산성을 높인 직원들.

2019년 뛰어난 업적과 성과로 대내외에 귀감이 된 분들을 축하합니다.

KIOST인상 KIOST Person of the Year Award

최우수논문상Best Research Paper Award

양은찬Eun Chan Yang

해양생태연구센터

Marine Ecosystem Research Center

「Analysis of the Draft Genome of the Red Seaweed Gracilariopsis chorda Provides In-

sights into Genome Size Evolution in Rhodophyta」는 유용 양식 홍조류의 유전체 정보를

완성한 사례로 해양 식물 유전체를 활용한 관련 산업에서 활용성을 높일 수 있는 계기를 만들어

주목받고 있습니다.

The research intitled "Analysis of the Draft Genome of the Red Seaweed Gracilariopsis chorda Provides Insights into Genome Size Evolution in Rhodophyta" present comprehensive ge-nome of cultivated red algae in Korea. New genome data provided new insight for eukaryotic genome evolution and may useful for industrial application of marine plant.

장인성In Sung Jang

해양로봇실증단

Maritime Robotics Test and Evaluation Center

장인성 연구원은 해양구조물 및 로봇과 관련된 수많은 프로젝트에 참여하여 연구개발 및 융복합

기술 확산에 기여하였습니다. SCIE 논문 6편을 포함하여 총 136편의 논문과 2편의 저서를 집필

하였고, 국내외에 많은 수의 특허가 등록되어 있습니다. 현재는 국가 미래 먹거리 창출을 위한

기획 연구를 추진하고 있습니다.

Researcher Insung Jang has contributed to the proliferation of research development and convergence technology by participating in numerous projects related to maritime structures and robots. He has written a total of 136 papers and two books, including six SCI-grade papers, and has many registered patents, both domestic and international. He is currently developing practical research to create key future maritime industry in Korea.

123

우수 논문상

Outstanding Research Paper Award

심원준Won Joon Shim남해연구소

South Sea Research Institute

「Horizontal and vertical distribution of microplastics in

Korean coastal waters」는 연안의 수층에서도 미세플라스틱이

높은 농도로 존재하고, 크기와 재질에 따라 수직 분포가 다르게

나타나는 것을 최초로 밝혔다는 점에서 그 우수성을 인정받았

습니다.

The study “Horizontal and vertical distribution of microplas-tics in Korean coastal waters” is recognized for verifying for the first time the prevalence of microplastics in coastal water columns and their varying vertical distribution according to size and density.

염승식Seungshic Yum위해성분석연구센터

Risk Assessment Research Center

「Acute toxic effects of zinc oxide nanoparticles on Hy-dra magnipapillata」는 ZnO 나노입자의 생물학적 영향을 개

체, 조직 및 유전자 발현 수준에서 고찰한 점에서 그 우수성을

인정받았습니다.

The study “Acute toxic effects of zinc oxide nanoparticles on Hydra magnipapillata” examines the ecotoxicity of zinc oxide nanoparticles and is recognized for considering the biological effects of zinc oxide on the level of individual, tissue, and gene expressions in Hydra magnipapillata. 서인아

Inah Seo대양자원연구센터

Global Ocean Research Center

「Migration of the Kuroshio Extension in the Northwest Pacific since the Last Glacial Maximum」은 마지막 빙하기

이후 부유성 유공충에 기록된 쿠로시오 확장역의 해양환경을

복원한 연구로, 고위도의 기후변화가 중위도의 순환계 경계

부에 미치는 영향을 밝혔다는 점에서 관심을 받고 있습니다.

The study “Migration of the Kuroshio Extension in the Northwest Pacific since the Last Glacial Maximum” recon-structed the paleoceanography of the Kuroshio Extension region, recorded in planktic foraminifera since the last glacial maximum. The research is receiving attention for discovering the effect of climate change in high latitudes on the subtrop-ical-subarctic transition zone boundary.

김은아Eun-A Kim제주특성연구센터

Jeju Marine Research Center

「Anti-inflammatory effect of Apo-9′-fucoxanthinone

via inhibition of MAPKs and NF-kB signaling pathway in

LPS-stimulated RAW 264.7 macrophages and zebrafish

model」는 모자반류인 Sargassum macrocarpum에서 분리된

Tuberatolide B가 MAPK와 NF-κB 작용기전을 통해 항염증

효과가 있음을 확인하였고, 제브라피쉬 모델에서 효능을 검증

하였으며 건강기능식품 소재로써 활용가능성을 확인한 연구

라는 점에서 많은 연구자들의 관심을 받고 있습니다.

The study “Anti-inflammatory effect of Apo-9¢¢çÇ-fucoxan-thinone via inhibition of MAPKs and NF-kB signaling pathway in LPS-stimulated RAW 264.7 macrophages and zebrafish model” investigated the anti-inflammatory effect of Tuber-atolide B, isolated from Sargassum macrocarpum seaweed, through MAPKs and NF-kB mechanisms. It is receiving much attention from other researchers because of verifying the efficacy of the zebrafish model and confirming its potential nutraceutical applications.

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우수 논문상

Outstanding Research Paper Award

양찬수Chan-Su Yang해양방위·안전연구센터

Marine Security and Safety Research Center

인공위성 합성개구레이더(SAR)를 이용하여 북극의 얼음(해

빙)을 자동으로 탐지하는 알고리즘을 개발한 논문 「Automat-ic discrimination approach of sea ice in the Arctic Ocean

using Sentinel-1 Extra Wide Swath dual-polarized SAR

data」는 기계 학습을 기반으로 높은 정확도를 가지고 해빙을

자동으로 분류한 결과를 제시했다는 점에서 그 우수성을 인정

받았습니다.

The study “Automatic discrimination approach of sea ice in the Arctic Ocean using Sentinel-1 Extra Wide Swath dual-polarized SAR data ”introduces developed an algorithm that automatically detects sea ice in the Arctic Ocean using Synthetic Aperture Radar (SAR) satellites. It is recognized for presenting highly accurate results of automatic sea ice discrimination based on machine learning.

신희재Hee Jae Shin해양생명공학연구센터

Marine Biotechnology Research Center

「Streptoglycerides A-D with a Rare 6/5/5 Tricyclic Ring

Skeleton from a Marine Actinomycete Streptomyces spe-cies」는 해양미생물에서 분리된 신물질인 streptoglycerides에 대한 구조 결정 및 활성연구를 통해 특이한 구조와 치매에

관련된 신경염증을 억제하는 신물질로써 기능을 밝혀 그 우

수성을 인정받았습니다.

Through structural and activity research on streptoglycerides, a novel compounds isolated from marine microbes, the study “Streptoglycerides A-D with a Rare 6/5/5 Tricyclic Ring Skeleton from a Marine Actinomycete Streptomyces species” is recognized for verifying its their unique structures and inhibiting neuroinflammation related to dementia.

김지훈Jihoon Kim해양로봇실증단

Maritime Robotics Test and Evaluation Center

「Shaping characteristics in alginate hydrogel encapsu-lation via a two-fluid spraying method」는 양친매성을

이용한 방오도료 제작에 관한 연구로 향후 방오 입자(코팅 포

함)를 복잡한 부유체, 수중구조물, 해양로봇, 수산업 어구 등

사용자 요구 조건에 맞춘 환경에 적용 가능하다는 점에서 그

우수성을 인정받았습니다.

The study “Shaping characteristics in alginate hydrogel encapsulation via a two-fluid spraying method” concerns the development of an antifouling agent using amphiphilic liposomes. It is recognized for the wide application possi-bilities of antifouling droplets (including coatings) based on environmental application needs of users, such as on complex buoyant objects, underwater structures, marine robots, fishing industry equipment, and so on.

김동선Dongseon Kim해양환경연구센터

Marine Environmental Research Center

부산 연안 해역에서 아라고나이트 포화도의 물리·생물적 영

향을 연구한 「Physical and biological control of aragonite

saturation in the coastal waters of southern South Korea

under the influence of fresh water」는 부산 연안 해역에서

해양산성화 상태를 평가하고 해양산성화에 영향을 미치는

환경요인을 파악하였다는 점에서 그 우수성을 인정받았습니다.

The study “Physical and biological control of aragonite sat-uration in the coastal waters of southern South Korea under the influence of fresh water” is recognized for evaluating acidification in the coastal waters of Busan and identifying environmental factors affecting ocean acidification.

허수진Soo-Jin Heo제주특성연구센터

Jeju Marine Research Center

「Bis (3-bromo-4,5-dihydroxybenzyl) ether, a novel bromophenol from the marine red alga Polysiphonia morrowii that suppresses LPS-induced inflammatory

response by inhibiting ROS-mediated ERK signaling

pathway in RAW 264.7 macrophages」는 활성산소와 ERK의 인산화 반응 저해를 통해 염증성 인자를 감소시켜 항염증

작용기전을 규명한 점에서 그 우수성을 인정받았습니다.

The study “Bis (3-bromo-4,5-dihydroxybenzyl) ether, a novel bromophenol from the marine red alga Polysiphonia mor-rowii that suppresses LPS-induced inflammatory response by inhibiting ROS-mediated ERK signaling pathway in RAW 264.7 macrophages” established the anti-inflammatory effect of Bis (3-bromo-4,5-dihydroxybenzyl) ether, a novel compound isolated from red algae P. morrowii. This research is recognized for investigating the anti-inflammatory mechanism by suppressing the ROS-mediated ERK signaling pathway.

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재정기여도상 강석구 해양순환·기후연구센터 해양수산부 R&D사업인 「북서태평양 해양-대기 상호작용 및 태풍 급강화 현상 연구」의 성공적인 수행으로, 관련 분야

연구 발전은 물론 우리 원의 재정 건전성 확대에 크게 기여하였습니다.

장기공로상 권문상 해양법·제도연구실 우리 원 발전에 기여하였으며, 전 한국해양수산기술진흥원 원장을 역임하는 등 다양한 활동을 펼쳤습니다.

김상익 해양재난·재해연구센터 파랑의 효율적인 관측과 분석법을 향상시키고, DGPS와 음향측심기를 결합한 연안수심측량을 개선, 결과의 신뢰도

를 높여 해양과학기술과 우리 원 발전에 기여하였습니다.

소재귀 해양순환·기후연구센터 해양 및 환경 공학 분야를 연구하며 해양과학기술 발전을 위해 노력하였고, 기관 발전에 기여하였습니다.

김철호 해양순환·기후연구센터 기후변화예측을 위한 전 지구해양순환 모델링 연구에 열정을 다하였고, 해양기후환경연구본부장, 물리연구본부장을

역임하는 등 해양과학 및 기관 발전에 헌신하였습니다.

정경태 해양환경연구센터 장기간 다양한 연구사업 수행을 통해 4회에 걸쳐 우수 논문상, 국무총리상을 받는 등 우수한 연구성과를 창출하여

해양과학기술 및 연구원 발전에 기여하였습니다.

김은수 해양환경연구센터 오랜 시간 해양 환경 분야를 연구하여 해양과학기술과 우리 원 발전에 이바지하였습니다.

전동철 태평양해양과학기지 해양 공학 분야의 우수한 연구 성과를 통해 해양과학기술과 우리 기관 발전에 기여하였습니다.

김복훈 연구선운항팀 오랜 시간 연구선에 승선하여 안전한 연구를 지원한 공로로 ‘이달의 KORDI인 상’을 받는 등 해양과학기술 발전에 기여

하였습니다.

임장근 울릉도·독도해양연구기지 우리 원 제2부원장 등을 역임하였으며 기획, 예산, 연구기획, 정책개발, 기술사업화 분야에서 탁월한 성과를 창출하고,

연구기반 조성, 지역 연구소 설립과 각종 연구 인프라 구축을 주도적으로 추진하였습니다.

권순철 정보전산실 1985년 3월부터 한국해양과학기술원에 재직하면서 남다른 열정과 헌신으로 우리 원 발전에 크게 기여하였으며,

우리나라 해양과학기술 발전에 크게 공헌하였습니다.

홍광유 인사실 재정, 예산, 재무관리 시스템 구축 및 고도화, 회계 업무 선진화에 기여하였고, 국제회계기준(K-IFRS)에 따른 선진

재무정보 보고 체계로 우수한 평가를 받았습니다. 특히, 선박해양플랜트연구소 분리 시 본. 분원 재산 및 회계 분리

작업과 현금 이관분 도출을 성공적으로 수행하는 등 기관 발전에 공헌하였습니다.

서승남 이사부호기반시설건설사업단 우리 원에서 근무하며 과학기술 우수 논문상을 수상하는 등 해양과학기술과 기관 발전에 기여하였습니다.

우수 연구 업적상 김형직 심해저광물자원연구센터 장기간의 대양 탐사 속에서도 SCIE 논문 22편을 포함한 약 30편의 논문을 게재하는 등 미래 해양자원 기술개발 사업

환경 연구분야 전문가로서 중추적인 역할을 하고 있으며, 서태평양에 우리나라의 신규 독점탐사광구 확보에 크게

기여한 바 있습니다.

원덕희 해양ICT융합연구센터 연안 및 항만의 방재, 교통인프라 등을 연구하며, 특히 항만지진계측 시스템 구축 및 운영, 지진재난 위기관리매뉴얼

개정에 기여하였습니다. 또한 지진 및 지진해일 현황을 전파하여 신속하고 효과적인 재난대응에 크게 기여하였습니다.

유옥환 해양생태연구센터 해양 저서 동물 생태학 분야 SCIE 논문 16편을 포함한 국내외 논문 32편과 9편의 도서를 발표하고, 해양생물 3D 모델

콘텐츠를 기업체에 이전하는 등, 우리 원의 연구 성과를 확산하고 있으며, 기후 및 환경변화에 따른 해양생태계 변동

연구를 통해 해양 발전에 기여하고 있습니다.

이창열 해양법·제도연구실 관할 해역 해양 지질 및 해양경계획정 정책연구, BBNJ 정부 간 회의 및 나고야 의정서 대응을 위한 연구 외 다수 연구

사업을 수행하고 있으며, 국제회의에 정부대표단으로 참석하는 등 우리 원의 국제회의 대응력을 높이고 국가의 권익

을 수호하는 데 기여하였습니다.

조진형 해양방위·안전연구센터 무인 해양 탐사 체계를 이용한 해양특성조사에서 중요 역할을 수행하고 있으며, 현재까지 20편 이상의 우수 논문과

5건의 특허를 출원하였습니다. 또한 40년 간 침몰되었던 해경72정 수색 성공에 주도적 역할을 하였습니다.

정지현 위해성분석연구센터 해양환경독성영향평가를 연구하며 SCIE 57편을 포함한 총 65편의 논문과, 2건의 특허, 5편의 저/역서를 펴내는 등,

활발한 학술활동 실적을 보였습니다. 특히, 2007년 허베이스피리트 호 사고 관련한 연구를 통해 여러 가지 열악한 현장

상황 속에서 성실하게 장기 모니터링하여 태안 유류오염 영향으로부터 연안종의 건강성 회복을 입증하였습니다.

장풍국 선박평형수연구센터 선박평형수처리장치(BWMS)에 대한 정부형식승인 업무 대행 및 전 세계에서 6번째로 미국형식승인 독립시험기관

으로서 업무를 수행하는데 크게 기여하였습니다.

김윤배 울릉도·독도해양연구기지 독도 바다사자에 대한 지속적인 관심으로 국내에서 처음으로 DNA 분석을 통해 독도 바다사자의 유전자 분석 확인

및 국제유전자 정보은행 등록을 마쳤으며, 관련 논문을 게재하였습니다. 또한 울릉도와 독도 연구에 대한 꾸준한

연구를 지속하고 있으며, 울릉도 오징어 어획량 변동 연구에도 기여하였습니다.

126 KIOST Annual Report 2019

김창환 독도전문연구센터 독도 서식환경, 해양생물의 서식처, 심해저 자원탐사, 정밀 지자기 탐사 등에서 큰 공헌을 하고 있으며, 독도-울릉도

의 형성 원인을 파악하기 위한 연구를 진행 중에 있습니다.

우수연구지원상 이현미 해양환경연구센터 베타계측장비를 선상에 설치하여 해양환경시료 자연방사성핵종을 분석하였고, 후쿠시마 원전사고 영향과 관련하여

전체 인벤토리를 파악하였으며, 해양환경시료 인공방사성핵종을 분석하였습니다.

최정운 해양재난·재해연구센터 운용해양 시스템과 해양수치모델링, 지능정보기술을 활용하여 해양 예측 정확도 향상 연구를 수행하였으며, 실종자

수색 구조 및 오염물질의 이동 예측 자료를 적시에 제공하여 대책을 수립하고 피해를 줄이는 데 크게 기여하였습니다.

서만덕 해양학술정보실 전문 도서관 국내 최초로 학술논문 동향 분석을 제공하여 연구자의 우수 논문 생산을 위한 최적화된 정보서비스를

지원하고 있으며, 해양과학 분야 SCIE 등재지 “Ocean Science Journal (OSJ)” 발간을 전담하여 학술 발전에 기여하

고 있습니다.

박요섭 해양기기개발·운영센터 무인 체계 운영 기술을 확보하고 연구현장에 적용하여 연구자들의 현장 연구를 지원하고, Wave Glider 및 3D 프린터

관련 기술 세미나 개최, 딥토우 시스템 운영기술 확보를 위한 기술 이전 등 기술 확산에 일조하고 있습니다. 또한, 스

텔라데이지 호 수색에 정부자문단으로 참여하였습니다.

류승완 연구선운항팀 대양연구사업의 성공적인 수행을 성실하게 지원하여 성공적인 연구조사에 도움을 주었으며, 연구원들과의 협업을

통해 ‘피스톤 코어러 배럴 이송장치’, ‘피스톤 코어러 라이너 유압식 사출장치’등 갑판 장비 운용기술에 관한 국내 특허

2건을 출원하였습니다.

우수근무업적상 허성진 시설안전실 본·분원의 전체 연구실험실 안전환경 조성에 적극 대처하여 기관의 안전관리를 체계적으로 내실화하였고, 연구실안

전법에 따라 사전 유해 인자 위험분석시스템을 구축하여 연구실책임자의 직무인 유해 인자 관리 및 관련 보고서

작성을 지원하였습니다.

이철교 예산실 해양쓰레기 문제 해결을 위한 신규 주요사업비를 확보하였고, 해양위성센터, 남해연구소 전용부두의 필수 운영비를

증액하였으며, 특히 독도(울릉도) 전용조사선 건조비, 연구장비 공동활용시설 구축비 등 대형 연구 인프라 구축 재원을

확보함으로써, 안정적 연구환경 조성에 크게 기여하였습니다.

심재민 재무실 2019년도 지방세특례제한법 개정(안)을 발의하는데 기여하였으며, 국세청 홈택스 데이터와 연동한 전자세금계산서

지급신청시스템 구축, Paperless 환경 구축을 위한 전자증빙 시스템 구축 등 행정 절차 간소화를 실현하였습니다.

이문정 제주연구소 운영관리실 제주연구소 설립 초기 운영 안정화와 제주지역 기관 간 지역 협력, 제주도 내 해양과학문화 확산에 크게 기여하였습

니다. 또한, 다양한 교육기부 프로그램을 개발하여 기관의 이미지를 높이는 데 힘썼습니다.

조규표 울릉도·독도 해양연구기지 성과 확산 부서에 근무하면서 우수논문 피인용상 제도 도입 등 연구자들의 연구 의욕을 고취시키는 등 우리 원의

성과를 확산시키는 데 기여하였습니다.

명예근로봉사상 윤민섭 제주연구소 운영관리실 제주연구소 운영 안정화와 시설 인프라의 안정적 운영에 크게 기여하였습니다.

심근자 남해연구소 운영관리실 조리업무 담당 책임자로서 오랜 기간 성실히 근무에 임하여 연구소 운영에 기여한 바가 큽니다.

김종만 동해연구소 운영관리실 동해연구소의 통신 및 보안 업무를 담당하면서 성실하고 근면한 자세로 통신 설비에 대한 점검 및 유지 관리 등에 힘써

동해연구소 운영에 크게 기여했습니다.

보안유공자상 염현정 총무실 보안업무 및 개인정보보호 업무 등 본인의 업무를 성실히 수행하고 있으며, 보안사고 예방을 위한 보안 활동에도

적극적으로 참여하여 다른 사람의 모범이 되고 있습니다.

에너지절약유공상 양승직 시설안전실 기계장치의 정기 점검, 적절한 노후장비개선을 통한 쾌적한 업무환경 조성을 위해 최선을 다하고 있으며, 주기적인

에너지절약 점검활동을 시행하는 등 에너지절약을 적극 추진하고 있습니다.

반부패청렴부서상 구매실 반부패청렴부서상 구매실은 입찰자의 최근 2년간 우리 원 퇴직 임원 채용여부를 확인하는 등 계약 진행 시 부패를 사전에 예방하기 위해

노력하였고, 청렴하고 공정한 계약절차 강화를 위한 내부 규정을 정비하였습니다.

127

본원

Headquarters

(49111) 부산광역시 영도구 해양로 385

385, Haeyang-ro, Yeongdo-gu, Busan Metropolitan City, 49111, South KoreaT. 051-664-3000

F. 051-405-9330

남해연구소

South Sea Research Institute

(53201) 경남 거제시 장목면 장목1길 41

41, Jangmok 1-gil, Jangmok-myeon, Geoje, Gyeongsangnam-do, 53201, South Korea

T. 055-639-8400

F. 055-635-3913

동해연구소

East Sea Research Institute

(36315) 경북 울진군 죽변면 해양과학길 48

48, Haeyangscience-gil, Jukbyeon-myeon, Uljin-gun, Gyeongsangbuk-do, 36315, South Korea

T. 054-780-5200

F. 054-780-5249

제주연구소

Jeju Research Institute

(63349) 제주특별자치도 제주시 구좌읍 일주동로 2670

2670, Iljudong-ro, Gujwa-eup, Jeju, Jeju Island, 63349, South KoreaT. 064-798-6000

F. 064-798-6039

울릉도·독도해양연구기지

Ulleungdo·Dokdo Ocean Science Station

(40205) 경상북도 울릉군 북면 현포2길 121

121, Hyeonpo 2-gil, Buk-myeon, Ulleung-gun, Gyeongsangbuk-do, 40205, South Korea

T. 054-791-8406

통영해양생물자원기지

Tongyoung Marine Living Resources Station

경상남도 통영시 산양읍 연화리 연명마을 지선

수중로봇복합실증센터

Underwater Construction Robotics R&D Center

(37553) 경북 포항시 북구 흥해읍 해안로 1104 T. 054-240-3504

F. 054-240-3532

이사부호

R/V ISABU

INMARSAT. 001-870-773-111-189

T. 070-4296-2495~8

F. 001-870-783-112-511

온누리호

R/V Onnuri

INMARSAT. 001-870-7731-10860

001-870-7731-10864

F. 001-870-7831-11859

이어도호

R/V Eardo

INMARSAT. 001-870-7731-10925

T. 010-3577-1518

F. 001-870-7831-11984

국내 Domestic

01

해양연구선 Marine Research Vessels

02

주소록Contact

장목 1호

R/V Jangmok 1

T. 010-8503-1518

장목 2호

R/V Jangmok 2

T. 010-6241-1520

128 KIOST Annual Report 2019

국외거점 및 국외협력센터 International Cooperation Center

03

부설 극지연구소

Korea Polar Research Institute

(21990) 인천광역시 연수구 송도미래로 26

26, Songdomirae-ro, Yeonsu-gu, Inchen, 21990, South KoreaT. 032-770-8400

F. 032-770-8709

부설 선박해양플랜트연구소

Korea Research Institute of Ships & Ocean Engineerig

(34103) 대전광역시 유성구 유성대로 1312번길 32

32, Yuseong-daero 1312 beon-gil, Yuseong-gu, Daejeon, 34103, South KoreaT. 042-866-3114

남극세종과학기지

Antartic King Sejong Station

The King Sejong Station, King George Island, Punta Arenas, CHILE T. 032-770-8570

북극다산기지

Arctic DASAN Station

The DASAN Arctic Station, N-9173 Ny-Alesund, Norway T. +47-79-02-6844

남극장보고과학기지

Antartic Jang Bogo Station

The Jang Bogo Station, Terra Nova Bay, Northern Victoria Land, Antartica T. 032-770-8585

부설기관 Subsidiary Organization

04

한·중 해양과학공동연구센터

Korea-China Joint Ocean Research Center

Korea-China Joint Ocean Research Center 6 Xianxialing Road, High-tech Park,

Qingdao 266061, Shandong CHINA

T. +86-532-8896-4987

F. +86-532-8896-4779

한·페루

해양과학기술공동연구센터

Korea-Peru Joint Ocean Research Center

Peru-Korea Joint Ocean Research Center, Esquina Gamarray General Valle

S/N Chucuito Callao, Peru

T. +51-14-208-8605

F. +51-14-7461-1436

KIOST–NOAA Lab 1315 East-west Highway, Silver Spring MD 20910, USA T. +1-301-427-2462

KIOST–PML Lab Prospect Place, Plymouth, PL1 3DH, United Kingdom T. +44-1752-633-100

F. +44-1752-633-101

태평양해양과학기지

Korea-South Pacific Ocean Research Center

Pacific Ocean Research Center P.O.Box Weno, Chuuk State, FSM 96942 T. +691-330-5729

F. +691-330-5730

한·인니 해양과학공동연구센터

Marine Technology Cooperation Research Center(MTCRC)

Jl. Fatahillah, No. 24 RT/RW : 02/04, Kelurahan Watubelah, Kecamatan Sumber,

Kab Cirebon, Jawa Barat 45617

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KIOST Annual Report 2017

01.

키오스타광장

활력마당

(축구장)

안내동

Public Information Building

해양환경·기후연구본부

Marine Environmental & Climate Research Division

해양순환·기후연구센터

Ocean Circulation and Climate Research CenterR2

해양생태연구센터

Marine Ecosystem Research Center

R1

R3

R4

해양환경연구센터

Marine Environmental Research CenterR1

해저활성단층연구단

Marine Active Fault Research UnitR1

해양자원연구센터

Marine Resources Research Division

해양생명공학연구센터

Marine Biotechnology Research CenterR3

심해저광물자원연구센터

Deep sea Mineral Resources Research CenterR1

대양자원연구센터

Global Ocean Research CenterR1

해양생물자원연구단

Marine Bio-Resources Research UnitR4

해양공학연구본부

Coastal & Ocean Engineering Division

연안개발·에너지연구센터

Coastal Development and Ocean Energy

Research Center

R2

해양ICT융합연구센터

Maritime ICT R&D CenterR2

해양영토연구본부

Marine Domain Management Research Division

해양방위·안전연구센터

Marine Security and Safety Research CenterR4

해양재난·재해연구센터

Marine Disaster Research CenterR4

관할해역지질연구단

Korean Seas Geosystem Research UnitR1

해양연구기반부

Ocean Research, Operations & Support Department

해양위성센터

Korea Ocean Satellite CenterR4

해양기기개발·운영센터

Instrumental Development & Management

Center

E

해양과학데이터운영실

Ocean Data Science StationR2

해양학술정보실

Ocean Science LibraryR1

정보전산실

Computing Information SectionR2

종합연구선건조사업단

Research Vessel Building UnitA

해양정책연구소

Ocean Policy InstituteR1

KIOST본원건물배치도KIOST Headquaters Government Office Building Layout

KIOST본원건물배치도위치Locatios

행정동

Adm

inis

trat

ion

Build

ing

제1연

구동

Rese

arch

Bui

ldin

g N

o.1

교육연수동

Educ

atio

n &

Tra

inin

g Bu

ildin

g

R1

I

A

E

130 KIOST Annual Report 2019

ClipboardPageNumber

KIOST Annual Report 2017

01.

해바라기쉼터

해미래광장 자재야적장

해누리마당

해수탱크

한국해양대학교 제2캠퍼스

폐수처리장

(주차장하부)

생물실험동

Laboratory Building No.2

연구장비정비동

Laboratory Building No.1

수리실험동

Laboratory Building No.3

제4연구동

Research Building No.4후생동

Welfare Building

제3연구동

Research Building No.3

제2연구동

Rese

arch

Bui

ldin

g N

o.2

WR4

L3

R3 L2

L1

R2

131

한국해양과학기술원

Korea Institute of Ocean Science & Technology

부산광역시 영도구 해양로 385(동삼동)

KIOST, 385, Haeyang-ro, Yeongdo-gu, Busan, Korea

www.kiost.ac.kr | 051.664.3000

2020. 04. 17

해양학술정보실

Ocean Science Library

(주)디자인인트로

Designintro Co., Ltd

2508-206X

발행Publish

발행일Date

기획·편집Planning·Editing

디자인·제작Production

ISSN

한국해양과학기술원

2019년연보

Korea Institute of Ocean Science & TechnologyAnnual Report 2019

Korea Institute of Ocean Science & TechnologyAnnual Report 2019

49111 부산광역시 영도구 해양로 385 (동삼동 1166)

www.kiost.ac.kr

한국

해양

과학

기술

원 2

019

년 연

보

05

9ISSN 2508-206X772508 206000