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TRANSCRIPT
Õ‘∑∏‘æ≈¢ÕßµâπµÕ â¡∫“ß™π‘¥µàÕº≈º≈‘µ §ÿ≥¿“æº≈º≈‘µ·≈–
§«“¡‡¢â“°—π‰¥â∫“ߪ√–°“√„π â¡®ÿ°·≈– â¡‚™°ÿπ
¡ß§≈ ·´àÀ≈‘¡1 ·≈– ¡ªÕß ‡µ™–‚µ
2
AbstractLim, M.1 and Te-chato, S.2
The influence of some citrus rootstock species on yield, fruit quality and
compatible characteristics of Necked orange (Citrus reticulata Blanco cv.
Necked Orange) and shogun (Citrus reticulata Blanco cv. Shogun)Songklanakarin J. Sci. Technol., 2006, 28(3) : 515-530
The influence of some citrus rootstock species on yield, fruit quality and compatible characteristics
of Necked orange (Citrus reticulata Blanco cv. Necked orange) and Shogun (Citrus reticulata Blanco cv.
Shogun) was investigated at the Department of Plant Science, Faculty of Natural Resources, Prince of Songkla
University during January, 2003 to October, 2004. Eighty-eight of three-year-old Necked orange and Shogun
grafted onto 11 species of citrus rootstocks were raised in 35 litre pot. Complete randomized factorial design
was used for evaluating the two factors, scions and rootstocks. The vegetative growth: upper and lower of
trunk diameter, tree height, canopy volume and leaf area; the foliar nutrient: nitrogen (N), phosphorus (P),
potassium (K), total non-structural carbohydrates (TNC) and C/N ratio; flowering; fruit-set and fruit
qualities were determined and analysed. Furthermore, the graft compatibility between stock and scion was
also evaluated by the esterase isozymes technique. It was found that Necked orange grafted onto most of the
rootstocks showed higher range of upper and lower trunk diameter and leaf area than that of Shogun. Both
π‘æπ∏åµâπ©∫—∫
Department of Plant Science, Faculty of Natural Resources, Prince of Songkla University, Hat Yai, Songkhla
90112 Thailand.
1M.S.(Horticulture), √Õß»“ µ√“®“√¬å
2Ph.D.(Cell Technology), √Õß»“ µ√“®“√¬å ¿“§«‘™“æ◊™»“ µ√å §≥–∑√—欓°√∏√√¡™“µ‘
¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å Õ”‡¿ÕÀ“¥„À≠à ®—ßÀ«—¥ ߢ≈“ 90112
Corresponding e-mail: [email protected]
√—∫µâπ©∫—∫ 12 °—𬓬π 2548 √—∫≈ßæ‘¡æå 29 惻®‘°“¬π 2548
Songklanakarin J. Sci. Technol.
Vol.28 No.3 May - Jun. 2006 516
Influence of some citrus rootstock species of Necked orange & Shogun
Lim, M. and Te-chato, S.
of the scions on rough lemon and volkamer lemon gave higher vegetative growth characteristics than on the
other roostock species. Necked orange grafted onto Cleopatra mandarin, Swingle citrumelo, Volkamer lemon
and Mawo rootstock had 5 times the flowering and fruit-set while Shogun grafted on Troyer citrange had 7
times the flowering and fruit-set. There was no significant difference on the foliar nutrient between scions
and rootstocks except the foliar TNC of necked orange and Shogun on Manaao-khwaai (34.86%). Necked
orange and Shogun grafted on Troyer citrange gave the highest number of fruits/tree (20.6 and 31.6 fruits/
tree) and fruit weight/tree (3,906 g/tree and 5,114 g/tree respectively). Necked orange grafted onto Rough
lemon showed the highest rind thickness (0.559 cm) while Shogun grafted onto Cleopatra mandarin showed
0.275 cm rind thickness. Necked orange grafted on Troyer citrange and Mawo and Shogun grafted on Troyer
citrange and Volkamer lemon gave the highest TSS: TA ratio. The esterase enzyme pattern of necked orange
grafted on Manaao-khwaai was changed and most of the rootstock species affected the esterase enzyme
activities of Shogun.
Key words : necked orange, shogun, rootstock evaluation, yield, fruit quality
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Macf.) “¬æ—π∏ÿå Redblush ∫πµâπµÕ â¡ 12 ™π‘¥ ∑’˪≈Ÿ°∑“ßµÕπ„µâ¢Õß√—∞Õ–√‘‚´π“ ª√–‡∑» À√—∞Õ‡¡√‘°“
æ∫«à“ µâπ â¡„π°≈ÿࡇ°√Áøø√ÿâµ∑’˵àÕ∫πµâπµÕ «’∑‰≈¡å ·≈–µâπµÕ‚«§“‡¡Õ√å‡≈¡Õπ „Àâº≈º≈‘µ – ¡µàÕµâπ Ÿß·≈–¡’º≈¢π“¥‡≈Á° à«πµâπ∑’˵àÕ∫πµâπµÕ§≈’‚Õæ—µ√“·¡π¥“√‘π·≈–µâπµÕ‰∑«“π‘°“ „Àâº≈º≈‘µµË” ÿ¥ „πªï∑’Ë 9 µâπ∑’˵àÕ∫πµâπµÕ´“‡«® „Àâº≈º≈‘µπâÕ¬·µàº≈º≈‘µ¡’ª√‘¡“≥¢Õß·¢Áß∑’Ë≈–≈“¬πÈ”‰¥â (total soluble solid : TSS) Ÿß ÿ¥ µâπ∑’˵àÕ∫πµâπµÕ§“√‘‚´´‘·µ√ß®å·≈–µâπµÕ∑√Õ¬‡¬Õ√å´‘·µ√ß®å ¡’¢π“¥≈”µâπ„À≠à∑’Ë ÿ¥ ·≈–µâπ∑’˵àÕ∫πµâπµÕ «‘߇°‘≈ ‘µ√Ÿ¡‘‚≈¡’‡ªÕ√凴Áπµå°√¥ Ÿß Georgiou (2000) ∑¥ Õ∫Õ‘∑∏‘æ≈¢ÕßµâπµÕ â¡ 11 ™π‘¥ ∑’Ë¡’µàÕ§ÿ≥¿“æº≈º≈‘µ¢Õß â¡·¡π¥“√‘𠓬æ—π∏ÿå Nova „πª√–‡∑»‰´ª√— æ∫«à“µâπ â¡∑’˵àÕ∫πµâπµÕª“‡≈ ‰µπå «’∑‰≈¡å „Àâº≈º≈‘µ – ¡ Ÿß ÿ¥·≈–°“√∑¥≈ÕߢÕß Wright ·≈– Pena (1999) „™âµâπµÕ «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ §“√‘‚´à´‘·µ√ß®å √—ø‡≈¡Õπ ‚«§“‡¡Õ√å‡≈¡Õπ ·≈– Citrus macrophylla ∑”‡ªìπµâπµÕ¢Õß¡–π“«Ω√—Ëßæ—π∏ÿå Lisbon Limoeira 8A ª√“°Øº≈«à“µâπµÕ «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ ·≈–§“√‘‚´à´‘·µ√ß®å ∑”„Àâ¡–π“«≈‘ ∫Õπ¡’¢π“¥º≈‡≈Á°≈ß ·≈–≈¥§«“¡·¢Áß·√ߢÕß°‘Ëßæ—π∏ÿ奒 à«πÕ‘∑∏‘æ≈µàÕ¢π“¥µâπ æ∫«à“µâπµÕ´“«√åÕÕ‡√π®å √—ø‡≈¡Õπ ·≈–擇≈ ‰∑πå «’∑‰≈¡å àߺ≈„Àâ¢π“¥µâπ à«π∫π‚µ∑’Ë ÿ¥ „π¢≥–∑’˵âπµÕ¬Ÿ¡“·≈–§“√‘‚´´‘·µ√ß®å àߺ≈„Àâ¢π“¥≈”µâπ‡≈Á°∑’Ë ÿ¥ ·≈–¡’Õ‘∑∏‘æ≈µàÕ§ÿ≥¿“æº≈º≈‘µ ‚¥¬∑’˵âπµÕ§“√‘‚´´‘·µ√ß®å·≈–‚«§“‡¡Õ√å‡≈¡Õπ „Àâ¢π“¥º≈πÈ”Àπ—°º≈ ª√‘¡“≥πÈ” â¡ §«“¡À«“π ·≈–ª√‘¡“≥°√¥ Ÿß ÿ¥ „π ⡵√“ (Citrus sinensis Osb.) ∫πµâπµÕ¡–¢«‘¥(Feronia limonia (L) Swing) ¡’Õ‘∑∏‘æ≈∑”„Àâ ⡵√“‡µ’Ȭ·§√–·≈–ÕÕ°¥Õ°µ‘¥º≈‡√Á«¢÷Èπ (‰æ‚√®πå, 2516) °“√π”‡¢â“µâπµÕ®“°µà“ߪ√–‡∑» ‡™àπ ∑√Õ¬‡¬Õ√å´‘·µ√ß®å·≈– «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ ¡“„™â°—∫æ—π∏ÿå â¡∑’˪≈Ÿ°‡ªìπ°“√§â“„πª√–‡∑»‰∑¬ àߺ≈„ÀâµâπµÕ·≈–°‘Ëßæ—π∏ÿ奒¡’°“√‡®√‘≠‡µ‘∫‚µ‰¡à‡∑à“°—π ‡°‘¥‚√§‡∑â“™â“ß ∑√ßæÿà¡°√–∑—¥√—¥ ·≈–·∫°√—∫πÈ”Àπ—°º≈º≈‘µ‰¥â¥’ (‡§À°“√‡°…µ√, 2543 Õâ“ß‚¥¬ ¡ß§≈·≈– ¡ªÕß, 2545¢)
°“√«‘‡§√“–Àåª√‘¡“≥·√à∏“µÿÕ“À“√·≈–‚ª√¥—§(products) µà“ßÊ ‡™à𠂪√µ’π °√¥Õ–¡‘‚π ∑’Ë¡’°“√‡§≈◊ËÕπ¬â“¬√–À«à“ß à«π¢ÕßµâπµÕ°—∫°‘Ëßæ—π∏ÿ奒¡“„™âµ√«® Õ∫§«“¡‡¢â“°—π‰¥â·≈–§«“¡‡¢â“°—π‰¡à‰¥â¢ÕßµâπµÕ·≈–°‘Ëßæ—π∏ÿ奒‰¥â Moreno ·≈–§≥– (1994) «—¥ª√‘¡“≥‰π‚µ√‡®π
Songklanakarin J. Sci. Technol.
Vol.28 No.3 May - Jun. 2006 518
Influence of some citrus rootstock species of Necked orange & Shogun
Lim, M. and Te-chato, S.
·≈–°√¥Õ–¡‘‚πÕ‘ √– ·≈–ª√‘¡“≥‚ª√µ’π∑’Ë≈–≈“¬πÈ”‰¥â„π∑âÕ∑’˵àÕ°‘Ëß∫πæ≈—¡ 2 “¬æ—π∏ÿå (P18 ·≈– P2032)
æ∫«à“°‘Ëßæ—π∏ÿ奒„𠓬æ—π∏ÿå∑’Ë· ¥ßÕ“°“√‡¢â“°—π‰¡à‰¥â¡’ª√‘¡“≥‰π‚µ√‡®π·≈–‚ª√¥—§¥—ß°≈à“«≈¥≈ß„π√–¬–‡«≈“ 3
‡¥◊Õπ À≈—ß°“√µàÕ°‘Ë߇¡◊ËÕ‡ª√’¬∫‡∑’¬∫°—∫°‘Ëßæ—π∏ÿ奒¢Õß “¬æ—π∏ÿ媰µ‘∑’ˇ¢â“°—π‰¥â
°“√„™â‡∑§π‘§∑“ß™’«‡§¡’ ‡™àπ °“√µ√«® Õ∫‰Õ‚´-‰´¡å ‡ªìπ«‘∏’Àπ÷Ëß∑’Ë “¡“√∂„™â»÷°…“§«“¡‡¢â“°—π‰¥â¢Õß√Õ¬µàÕÀ√◊ÕÕ‘∑∏‘æ≈¢ÕßµâπµÕµàÕ°‘Ëßæ—π∏ÿ奒 ´÷Ëß«‘∏’°“√π’È¡’√“¬ß“π„π°“√µàÕ°‘Ëßæ√‘° Capsicum ∫πµâπµÕ¡–‡¢◊Õ‡∑»Lycopersicum (Deloire and Hebant, 1982) ·≈–¬—ßÕ“®µ√«® Õ∫Õ‘∑∏‘æ≈¢ÕßµâπµÕµàÕ°‘Ëßæ—π∏ÿ奒‰¥â ¡“≈’ (2541)
»÷°…“Õ‘∑∏‘æ≈¢ÕßµâπµÕæ◊Èπ‡¡◊Õß∫“ßæ—π∏ÿå ‰¥â·°à â¡‚Õø√’¡Õßµå â¡´à“ ¡–°√Ÿ¥ ⡇¢’¬«À«“π ¡– —ß ·≈–¡–¢«‘¥µàÕ â¡‚™°ÿπ æ∫«à“ √–∫∫‡Õπ‰´¡å‡ªÕ√åÕÕ°´‘‡¥ “¡“√∂µ√«® Õ∫§«“¡‡¢â“°—π‰¥â¢ÕßµâπµÕ·≈–°‘Ëßæ—π∏ÿ奒„π√–¬–‡√‘Ë¡µâπ‰¥â ÿ∏’√“ (2542) „™â√–∫∫‡Õπ‰´¡å‡Õ ‡∑Õ‡√ „π°“√µ√«® Õ∫º≈°“√µàÕ°‘Ë ß â¡‚™°ÿπ∫πµâπµÕ â¡‚Õ∑√Õ¬‡¬Õ√å´‘·µ√ß®å ·≈– «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ ∑’ËÕ“¬ÿ 8, 16 ·≈–24 —ª¥“ÀåÀ≈—ß°“√µàÕ°‘Ëß ‰¥âº≈™—¥‡®π
®“°º≈°“√«‘®—¬¥—ß°≈à“« · ¥ß„Àâ‡ÀÁπ∂÷ßÕ‘∑∏‘æ≈¢ÕßµâπµÕ∑’Ë¡’º≈°√–∑∫µàÕ°“√‡®√‘≠·≈–§ÿ≥¿“æº≈º≈‘µ¢Õß°‘Ëßæ—π∏ÿ奒 ª√–°Õ∫°—∫¡’°“√‡æ‘Ë¡æ◊Èπ∑’˪≈Ÿ° â¡¡“°¢÷Èπ„π∑»«√√…∑’˺à“π¡“ ¡’‡°…µ√°√ºŸâª≈Ÿ° â¡·≈–Àπ૬ߓπ¢Õß√—∞∑’ˇ°’ˬ«¢âÕßπ”‡¢â“µâπµÕ∑’Ë„™â‰¥â¥’°—∫ â¡æ—π∏ÿåµà“ߪ√–‡∑»‡æ◊ËÕ„™â°—∫ â¡‚™°ÿπ ß“π∑¥≈Õߧ√—Èßπ’È®÷ß¡’«—µ∂ÿ-ª√– ߧå‡æ◊ËÕ»÷°…“Õ‘∑∏‘æ≈¢ÕßµâπµÕµàÕ°‘Ëßæ—π∏ÿ奒 ‚¥¬°“√ª√–‡¡‘π®“°≈—°…≥–∑“ß —≥∞“π«‘∑¬“ ª√‘¡“≥ ·≈–§ÿ≥¿“æº≈º≈‘µ„π â¡®ÿ°·≈– â¡‚™°ÿπ
«— ¥ÿÕÿª°√≥å·≈–«‘∏’°“√
§—¥‡≈◊Õ°µâπ â¡‚™°ÿπ ·≈– â¡®ÿ°∑’ˇ ’¬∫°‘Ëß∫πµâπµÕ11 ™π‘¥§◊Õ â¡´à“ (Citrus medica L var. limettta) ¡–ß—Ë«(Citrus latipes Swing) ¡–𓫧«“¬ (Citrus medica
Linn.; Manaao khwaai) â¡®—π°√– (Citrus hystrix
DC; Chan-kra) â¡‚Õ (Citrus grandis L. Osbeck;
Pummelo) «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ (Citrus paradisi x Poncirus
trifoliata L. Raf.: Swingle citrumelo) ∑√Õ¬‡¬Õ√å ‘·µ√ß®å(Citrus sinensis L. Osbeck x Poncirus trifoliata L.
Raf.; Troyer citrange) §≈’‚Õæ—µ√“·¡π¥“√‘π (Citrus
reticulata L.) √—ø‡≈¡Õπ (Citrus jambhiri Lush.)
‚«§“‡¡Õ√å‡≈¡Õπ (Citrus volkamariana; Volkamer
lemon) ·≈–§“√‘‚´à´‘·µ√ß®å (Carrizo citrange) ¢π“¥Õ“¬ÿ 3 ªï ®”π«π 88 µâπ ª≈Ÿ°„π°√–∂“߇§≈◊Õ∫¢π“¥ 35
≈‘µ√ ¥Ÿ·≈√—°…“‚¥¬ „ÀâπÈ”«—π≈– 1 §√—Èß ·≈–„ àªÿܬ Ÿµ√ 15-
15-15 ∑ÿ° 3 ‡¥◊Õπ «“ß·ºπ°“√∑¥≈Õß·∫∫·ø°∑Õ‡√’¬≈®—¥∑√’µ‡¡πµå·∫∫ ÿࡵ≈Õ¥ (CRD) ¡’ 2 ªí®®—¬§◊Õ °‘Ëßæ—π∏ÿ奒 ‰¥â·°à â¡®ÿ° °—∫ â¡‚™°ÿπ ·≈–™π‘¥¢ÕßµâπµÕ ·≈–∑”°“√ª√–‡¡‘πº≈¥—ßπ’È 1) §«“¡·¢Áß·√ߢÕß°‘Ëßæ—π∏ÿ奒 ‚¥¬«—¥®“°°“√‡ª≈’ˬπ·ª≈ß∑“ß —≥∞“π«‘∑¬“·≈–°“√‡®√‘≠¢Õß°‘Ëßæ—π∏ÿ奒À≈—ß°“√‡ ’¬∫°‘Ëß ‰¥â·°à ¢π“¥‡ âπºà“π»Ÿπ¬å°≈“ß≈”µâπ‡Àπ◊Õ·≈–„µâ√Õ¬µàÕ ·≈– —¥ à«π¢Õߢπ“¥≈”µâπ¢Õß°‘Ëßæ—π∏ÿ奒°—∫µâπµÕ ®”π«π„∫‡æ◊ËÕ§”π«≥À“æ◊Èπ∑’Ë„∫®“° Ÿµ√ Y = 7.7564X - 8.8374 ‚¥¬„Àâ Y = §à“æ◊Èπ∑’Ë„∫(µ√.´¡.) X = §«“¡°«â“ß„∫ (´¡.) (≈—°¢≥“, 2547)
¢π“¥∑√ßæÿà¡ ·≈–ª√‘¡“µ√∑√ßæÿà¡ 2) °“√∑¥ Õ∫‚¥¬À“ª√‘¡“≥·√à∏“µÿÕ“À“√À≈—° (macro element) ‚¥¬‡°Á∫„∫ â¡®ÿ°·≈– â¡‚™°ÿπ∫πµâπµÕ·µà≈–™π‘¥ ®”π«π 20 „∫/µâπÕ∫·Àâß∑’ËÕÿ≥À¿Ÿ¡‘∑’Ë 65ºC ‡ªìπ‡«≈“ 48 ™¡. π”¡“∫¥≈–‡Õ’¬¥·≈–«‘‡§√“–ÀåÀ“ª√‘¡“≥§“√å‚∫‰Œ‡¥√µ∑’ˉ¡à„™à‚§√ß √â“ß À√◊Õ TNC (total non-structural carbo-
hydrate) ‰π‚µ√‡®π øÕ øÕ√— ·≈–‚æ·∑ ‡´’¬¡ µ“¡«‘∏’°“√¢Õß ®”‡ªìπ (2545) ‡ª√’¬∫‡∑’¬∫ª√‘¡“≥°“√„™â·≈–°“√‡ª≈’ˬπ·ª≈ß∏“µÿÕ“À“√À≈—° ™à«ß‡«≈“ÕÕ°¥Õ° ·≈–µ‘¥º≈ 3) °“√ª√–‡¡‘πª√‘¡“≥·≈–§ÿ≥¿“æº≈º≈‘µ ‰¥â·°à°“√ÕÕ°¥Õ°·≈–µ‘¥º≈ ‡ªÕ√凴Áπµå°“√µ‘¥º≈§”π«≥ ®“°®”π«πº≈µ‘¥/®”π«π¥Õ°∑—ÈßÀ¡¥∑’Ëπ—∫‰¥â (µàÕÀπ૬∑¥≈Õß)
x 100 §ÿ≥¿“æº≈º≈‘µ‡∫◊ÈÕßµâπ ‰¥â·°à §ÿ≥¿“æº≈¿“¬πÕ°§◊Õ ¢π“¥‡ âπºà“π»Ÿπ¬å°≈“ߺ≈ πÈ”Àπ—°º≈ §ÿ≥¿“æº≈¿“¬„π §◊Õ §«“¡À𓇪≈◊Õ°º≈ ’‡π◊ÈÕº≈ ‡ªÕ√凴Áπµå‡π◊ÈÕº≈ ª√‘¡“≥°√¥ (TA) ª√‘¡“≥¢ÕߢÕß·¢Áß∑’Ë≈–≈“¬πÈ”‰¥â4) °“√ª√–‡¡‘𧫓¡‡¢â“°—π‰¥â¢ÕßµâπµÕ°—∫°‘Ëßæ—π∏ÿ奒„π™à«ßÕÕ°¥Õ°·≈–µ‘¥º≈ ‚¥¬‡°Á∫µ—«Õ¬à“߇ª≈◊Õ°≈”µâπ¢Õßµâπ â¡®ÿ°·≈– â¡‚™°ÿπ ·≈–µâπµÕ·µà≈–™π‘¥µ√ß∫√‘‡«≥Àà“ß®“°‡Àπ◊Õ·≈–„µâ√Õ¬µàÕ 2-3 ´¡. π”¡“ °—¥‡Õπ‰´¡åµ“¡
«. ߢ≈“π§√‘π∑√å «∑∑.
ªï∑’Ë 28 ©∫—∫∑’Ë 3 æ.§.
-
¡‘.¬. 2549Õ‘∑∏‘æ≈¢ÕßµâπµÕ â¡∫“ß™π‘¥„π â¡®ÿ°·≈– â¡‚™°ÿπ
¡ß§≈ ·´àÀ≈‘¡ ·≈– ¡ªÕß ‡µ™–‚µ519
«‘∏’°“√¢Õß ¡“≈’ (2541) ·≈–¬âÕ¡ ’‡Õπ‰´¡å‚¥¬„™â√–∫∫‡Õπ‰´¡å‡Õ ‡∑Õ‡√ ¡’°“√À“§«“¡ —¡æ—π∏å√–À«à“ß·∂∫¢Õ߉´‚¡·°√¡¢Õ߇Õπ‰´¡å®“°µâπµÕ·µà≈–™π‘¥°—∫°“√‡®√‘≠¢ÕßµâπµÕ·≈–°‘Ëßæ—π∏ÿ奒
º≈°“√∑¥≈Õß
1. °“√ª√–‡¡‘𧫓¡·¢Áß·√ߢÕß°‘Ëßæ—π∏ÿ奒
1.1 ¢π“¥‡ âπºà“π»Ÿπ¬å°≈“߇Àπ◊Õ√Õ¬µàÕ °“√‡ª√’¬∫‡∑’¬∫√–À«à“ß°‘Ëßæ—π∏ÿ奒æ∫«à“¢π“¥‡ âπºà“π»Ÿπ¬å°≈“߇Àπ◊Õ√Õ¬µàÕ¢Õß â¡®ÿ°∑’˵àÕ°‘Ëß∫πµâπµÕ∑—Èß 11 ™π‘¥‡∑à“°—∫2.37 ´¡. Ÿß°«à“¢π“¥‡ âπºà“π»Ÿπ¬å°≈“߇Àπ◊Õ√Õ¬µàÕ¢Õßµâπ â¡‚™°ÿπ (1.79 ´¡.) º≈°“√‡ª√’¬∫‡∑’¬∫√–À«à“ß™π‘¥¢ÕßµâπµÕ µâπ â¡®ÿ°∑’˵àÕ°‘Ëß∫πµâπµÕ√—ø‡≈¡Õπ ¡’¢π“¥‡ âπºà“π»Ÿπ¬å°≈“ß≈”µâπ Ÿß ÿ¥ (2.83 ´¡.) ·≈–°“√‡ª√’¬∫‡∑’¬∫√–À«à“ß™π‘¥¢ÕßµâπµÕ·≈–°‘Ëßæ—π∏ÿ奒 æ∫«à“¡’§«“¡ —¡æ—π∏å°—π ‚¥¬∑’˵âπ â¡®ÿ°µàÕ°‘Ëß°—∫µâπµÕ√—ø‡≈¡Õπ·≈–‚«§“‡¡Õ√å‡≈¡Õπ¡’¢π“¥‡ âπºà“π»Ÿπ¬å°≈“߇Àπ◊Õ√Õ¬µàÕ Ÿß ÿ¥ ·≈–‡ âπºà“π»Ÿπ¬å°≈“ß„µâ√Õ¬µàÕ¢ÕßµâπµÕ ‡ªìπ‡™àπ‡¥’¬«°—∫¢π“¥‡ âπºà“π»Ÿπ¬å°≈“߇Àπ◊Õ√Õ¬µàÕ (Table 1)
1.2 §«“¡ Ÿß≈”µâπ °“√‡ª√’¬∫‡∑’¬∫§à“‡©≈’ˬ§«“¡ Ÿß√–À«à“ß°‘Ëßæ—π∏ÿ奒‰¡à¡’§«“¡·µ°µà“ß°—π∑“ß ∂‘µ‘ §à“‡©≈’ˬ§«“¡ Ÿß√–À«à“ß™π‘¥µâπµÕ æ∫«à“µâπµÕ‚«§“‡¡Õ√å‡≈¡Õπ·≈–√—ø‡≈¡Õπ¡’§à“‡©≈’ˬ§«“¡ Ÿß‡∑à“°—∫ 163 ´¡. ·≈–159.25 ´¡.µ“¡≈”¥—∫ ‰¡à¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘°“√æ‘®“√≥“§«“¡ —¡æ—π∏å√–À«à“ß°‘Ëßæ—π∏ÿ奒°—∫µâπµÕ æ∫«à“¡’§«“¡ —¡æ—π∏å°—π‚¥¬ â¡®ÿ°∫πµâπµÕ‚«§“‡¡Õ√å‡≈¡Õπ‡æ‘Ë¡¢÷Èπ Ÿß ÿ¥ ‡∑à“°—∫ 175.5 ´¡. ·≈–µâπµÕ√—ø‡≈¡Õπ√Õß≈ß¡“ 166.3 ´¡. ‰¡à·µ°µà“ß°—π∑“ß ∂‘µ‘ µâπµÕ¡–𓫧«“¬°—∫ â¡‚™°ÿπ¡’§à“‡©≈’ˬ§«“¡ Ÿß≈”µâπµË” ÿ¥‡∑à“°—∫ 64
´¡. (Table 1)
1.3 ª√‘¡“µ√∑√ßæÿà¡¢Õßµâπ â¡ ‡ªìπ¢âÕ¡Ÿ≈∑’Ë„™â§“¥§–‡πª√– ‘∑∏‘¿“æ°“√„Àâº≈º≈‘µ„π ⡉¥â ®“°º≈°“√»÷°…“°“√‡µ‘∫‚µ¢Õßµâπ â¡®ÿ°∫πµâπµÕ™π‘¥µà“ßÊ „π™à«ß‡√‘Ë¡„Àâº≈º≈º≈‘µ (Õ“¬ÿ 2.5 ªï À≈—ß°“√‡ ’¬∫¬Õ¥) ‰¥â·°à®”π«π°“√·µ°°‘Ëß·≈–„∫ §«“¡ Ÿß à«π∫π≈”µâπ‡Àπ◊Õ√Õ¬µàÕ àߺ≈„Àâ¡’°“√‡µ‘∫‚µ¢Õߪ√‘¡“µ√∑√ßæÿà¡ (Table 1)
°“√‡ª√’¬∫‡∑’¬∫√–À«à“ß™π‘¥¢ÕßµâπµÕ æ∫«à“µâπµÕ
‚«§“‡¡Õ√å‡≈¡Õπ∑”„Àâ°‘Ëßæ—π∏ÿ奒‡®√‘≠‡µ‘∫‚µ Ÿß ÿ¥ 0.374
≈∫.‡¡µ√ ·≈–√—ø‡≈¡Õπ‡ªìπµâπµÕ∑’Ë∑”„Àâ°‘Ëßæ—π∏ÿ奒‡®√‘≠‡µ‘∫‚µ‡ªìπÕ—π¥—∫√Õß≈ß¡“ 0.324 ≈∫.‡¡µ√ °“√‡ª√’¬∫‡∑’¬∫°—π√–À«à“ß°‘Ëßæ—π∏ÿ奒 æ∫«à“µâπ â¡‚™°ÿπ¡’ª√‘¡“µ√∑√ßæÿà¡‚µ°«à“µâπ â¡®ÿ° ®÷ߧ“¥§–‡π‰¥â«à“¡’º≈º≈‘µ Ÿß°«à“µâπ â¡®ÿ°
1.4 æ◊Èπ∑’Ë„∫ °“√‡ª√’¬∫‡∑’¬∫√–À«à“ß™π‘¥°‘Ëßæ—π∏ÿ奒 æ∫«à“µâπ â¡®ÿ°¡’æ◊Èπ∑’Ë„∫‡©≈’ˬ Ÿß°«à“µâπ â¡‚™°ÿπ·≈–¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘Õ¬à“ß¡’π—¬ ”§—≠ ·≈–°“√‡ª√’¬∫‡∑’¬∫°—π„π√–À«à“ß™π‘¥¢ÕßµâπµÕ æ∫«à“µâπµÕ√—ø‡≈¡Õπ∑”„Àâ°‘Ëßæ—π∏ÿ奒¡’æ◊Èπ∑’Ë„∫‡©≈’ˬ‡æ‘Ë¡¢÷Èπ Ÿß ÿ¥ 7114.5 µ√.´¡.·µ°µà“ß°—π„π∑“ß ∂‘µ‘°—∫ â¡ à“ ∑√Õ¬‡¬Õ√å ‘·µ√ß®å ¡–𓫧«“¬ §“√‘‚´à´‘·µ√ß®å ®—π°√– ·≈– â¡‚Õ °“√‡ª√’¬∫‡∑’¬∫æ◊Èπ∑’Ë„∫∑’ˇæ‘Ë¡¢÷Èπ‡©≈’ˬµàÕµâπ√–À«à“ß™π‘¥¢ÕßµâπµÕ°—∫°‘Ëßæ—π∏ÿ奒 µâπ â¡®ÿ°∫πµâπµÕ√—ø‡≈¡Õπ¡’æ◊Èπ∑’Ë„∫‡æ‘Ë¡¢÷Èπ Ÿß ÿ¥ √Õß≈ß¡“§◊ÕµâπµÕ‚«§“‡¡Õ√å‡≈¡Õπ ·≈–µâπ â¡‚™°ÿπ∫πµâπµÕ¡–𓫧«“¬¡’æ◊Èπ∑’Ë„∫‡©≈’ˬµàÕµâπµË” ÿ¥ 783.61
µ√.´¡. (Table 1)
2. °“√∑¥ Õ∫‚¥¬À“ª√‘¡“≥∏“µÿÕ“À“√
2.1 ‰π‚µ√‡®π (N) ª√‘¡“≥∏“µÿ N „π„∫‡©≈’ˬ¢Õß â¡®ÿ° Ÿß°«à“ â¡‚™°ÿπ ‡∑à“°—∫ 3.7% ·≈– 3.56% µ“¡≈”¥—∫ ·µ°µà“ß°—π„π∑“ß ∂‘µ‘∑’Ë P<0.05 °“√‡ª√’¬∫‡∑’¬∫§à“‡©≈’ˬ¢Õߪ√‘¡“≥∏“µÿ N „π„∫√–À«à“ß™π‘¥¢ÕßµâπµÕæ∫«à“µâπµÕ§≈’‚Õæ—µ√“·¡π¥“√‘π â¡´à“ «‘߇°‘≈´‘µ√Ÿ¡‘‚≈∑√Õ¬‡¬Õ√å´‘·µ√ß®å ·≈–¡–ß—Ë« ¡’ª√‘¡“≥ N „π„∫‡©≈’ˬ Ÿß°«à“µâπµÕ¡–𓫧«“¬ ‚¥¬¡’§«“¡·µ°µà“ß°—π∑“ß ∂‘µ‘∑’Ë P<0.05 §«“¡ —¡æ—π∏å√–À«à“ß™π‘¥°‘Ëßæ—π∏ÿ奒·≈–™π‘¥¢ÕßµâπµÕ¡’§«“¡·µ°µà“ß°—π‚¥¬µâπ â¡‚™°ÿπ°—∫¡–𓫧«“¬¡’ª√‘¡“≥ N „π„∫‡©≈’ˬµË” ÿ¥‡∑à“°—∫ 2.55% (Table
2)
2.2 øÕ øÕ√— (P) ª√‘¡“≥ P „π„∫‡©≈’ˬ¢Õß â¡®ÿ°·≈– â¡‚™°ÿπ ‡∑à“°—∫ 0.236% ·≈– 0.216% µ“¡≈”¥—∫ ¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘∑’Ë P<0.05 °“√‡ª√’¬∫‡∑’¬∫ª√‘¡“≥∏“µÿøÕ øÕ√— „π√–À«à“ß™π‘¥¢ÕßµâπµÕ ·≈–§«“¡ —¡æ—π∏å√–À«à“ß™π‘¥°‘Ëßæ—π∏ÿ奒·≈–™π‘¥¢ÕßµâπµÕ‰¡à¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘ (Table 2)
2.3 ‚æ·∑ ‡´’¬¡ (K) ª√‘¡“≥∏“µÿ K „π„∫‡©≈’ˬ
Songklanakarin J. Sci. Technol.
Vol.28 No.3 May - Jun. 2006 520
Influence of some citrus rootstock species of Necked orange & Shogun
Lim, M. and Te-chato, S.T
ab
le 1
.C
om
pari
son
of
the
Nec
k o
ran
ge
an
d S
hogu
n g
row
th p
erfo
rman
ces
on
11 s
pec
ies
of
citr
us
roots
tock
s.
R
oots
tock
Sci
on
Mea
n2
Cle
op
atr
aS
om
saS
win
gle
Tro
yer
Ma
na
ao
_R
ou
gh
Vo
lka
mer
Ca
rriz
oJ
an
_k
raP
um
mel
oM
a_
wo
citr
um
elo
citr
an
ge
kh
wa
ai
lem
on
lem
on
citr
an
ge
Upp
er u
nion
Nec
k or
2.4
bcd
2.14
cde
fghi
2.45
bc
1.9
defg
hi2.
1 cd
efgh
3.1
a3.
1 a
2.3
bcde
2.4
bcd
1.9
cdef
ghi
2.2
bcde
fg2.
37 A
17.4
1 S
tem
dia
.Sh
ogun
1.9
cdef
ghi
1.8
fghi
1.7
ghi
1.6
i1.
1 j
2.5
b2.
2 bc
def
1.8
fghi
1.6
i1.
6 i
1.8
fghi
1.79
B (
cm)
Mea
n12.
19 B
1.93
BC
D2.
06 B
C1.
77 C
D1.
62 D
2.83
A2.
66 A
2.03
BC
1.99
BC
1.82
CD
1.99
BC
Low
err
unio
nN
eck
or2.
7 ab
cde
2.8
abc
2.9
ab2.
4 bc
de2.
1 de
f3.
2 a
3.23
a2.
8 ab
c2.
4 bc
de2.
5 bc
de2.
4 bc
de2.
68 A
18.3
2 S
tem
dia
.Sh
ogun
2.2
cdef
2.7
abcd
e3.
043
ab2.
7 ab
cde
1.7
f2.
9 ab
2.9
ab2.
9 ab
2.03
ef
2.5
bcde
2.4
bcde
2.54
A (
cm)
Mea
n12.
45 B
C2.
78 A
B3.
01 A
2.53
BC
1.86
D3.
05 A
3.04
A2.
87 A
B2.
21 C
D2.
49 B
C2.
41 B
CH
eigh
tN
eck
or11
6 cd
efg
125.
4 cd
ef13
1 bc
def
114.
3 de
fg84
.9 g
h16
6.3
ab17
5.5
a13
3 bc
de12
2 cd
efg
116
cdef
g11
7 cd
efg
127.
41 A
21.7
1 (
cm)
Shog
un13
1.5
bcde
122
cdef
g11
9 cd
efg
113.
3 de
fg64
h15
2.3
abc
151
abcd
131
bcde
f93
.5 f
gh10
1.5
efg
101.
5 ef
g11
6.97
AM
ean1
124.
00 B
123.
72 B
124.
62 B
113.
75 B
74.4
3 C
159.
25 A
163.
00 A
132.
05 B
107.
62 B
112.
50 B
109.
12 B
Can
opy
Nec
k or
0.34
3 ab
cd0.
203
efgh
i0.
198
efgh
i0.
23 d
efgh
i0.
178
fghi
0.35
abc
0.31
bcd
e0.
125
i0.
133
i0.
113
i0.
113
i0.
208
B28
.94
Vol
. (m
3 )Sh
ogun
0.19
3 ef
ghi
0.28
bcd
efg
0.27
def
gh0.
4 a
b0.
135
i0.
29 c
def
0.44
3 a
0.29
bcd
ef0.
153
hi0.
135
i0.
165
ghi
0.25
1 A
Mea
n10.
268
BC
D0.
243
BC
DE
0.23
3 C
DE
0.31
3 A
BC
0.15
6 E
F0.
324
AB
0.37
4 A
0.20
8 D
EF
0.14
3 F
0.12
4 F
0.13
9 F
Lea
f ar
eaN
eck
or60
50 c
d57
69 c
de60
01 c
d52
62 c
def
4879
cde
fg10
620
a87
63.6
ab
4774
cde
fg43
57 d
efgh
4156
def
ghi
6834
.1 b
c61
33.3
A40
.19
(cm
2 )Sh
ogun
2218
.6 h
ijkl
1973
ijkl
3132
fgh
ijk20
97 h
ijkl
783.
6 l
3609
efg
hij
2687
ghi
jkl
2205
.9 h
ijkl
1121
.7 k
l17
09 jk
l14
86.5
jkl
2093
.1 B
Mea
n141
34.3
AB
3871
.4 B
4566
.2 A
B36
79.2
B28
31.5
B71
14.5
A57
25.5
AB
3489
.8 B
2739
.4 B
2932
.7 B
4160
.3 A
B
1,2
Mea
ns
wit
hin
row
s fo
llow
ed b
y d
iffe
ren
t le
tter
s d
iffe
r si
gn
ific
an
tly
by
LS
D
CV
(%)
Tab
le 2
.C
om
pari
son
of
the
Nec
k o
ran
ge
an
d S
hogu
n f
oli
ar
nu
trie
nts
on
11 s
pec
ies
of
citr
us
roots
tock
s.
R
oots
tock
Sci
on
Mea
n2
Cle
op
atr
aS
om
saS
win
gle
Tro
yer
Ma
na
ao
_R
ou
gh
Vo
lka
mer
Ca
rriz
oJ
an
_k
raP
um
mel
oM
a_
wo
citr
um
elo
citr
an
ge
kh
wa
ai
lem
on
lem
on
citr
an
ge
N (
%)
Nec
k or
3.63
a3.
89 a
4.07
a3.
87 a
3.77
a3.
8 a
3.56
a4
a3.
76 a
3.46
a3.
88 a
3.7
A9.
0Sh
ogun
3.88
a3.
8 a
3.55
a3.
77 a
2.55
b3.
52 a
3.53
a3.
43 a
3.41
a3.
53 a
3.74
a3.
56 B
Mea
n13.
76 A
3.85
A3.
81 A
3.82
A3.
16 B
3.66
AB
3.55
AB
3.43
AB
3.56
AB
3.49
5 A
B3.
81 A
P (%
)N
eck
or0.
233 n
s0.
240.
253
0.24
30.
233
0.24
70.
233
0.23
30.
223
0.19
0.26
70.
236
A14
.06
Shog
un0.
210.
207
0.23
0.22
70.
153
0.21
0.22
70.
257
0.23
60.
213
0.20
30.
216
BM
ean1
0.22
1 ns
0.22
30.
241
0.23
50.
193
0.22
80.
230.
245
0.22
90.
201
0.23
5K
(%
)N
eck
or2.
317
cd2.
34 c
d2.
403
bcd
2.51
abc
d2.
347
cd2.
553
abcd
2.50
7 ab
cd2.
427
bcd
2.88
3 a
2.61
3abc
d2.
53 a
bcd
2.49
A10
.85
Shog
un2.
35 c
d2.
447
bcd
2.26
a2.
35 c
d0.
8 e
2.60
7 ab
cd2.
587
abcd
2.32
3 cd
2.79
ab
2.73
7 ab
c2.
49 a
bcd
2.34
BM
ean1
2.33
B2.
39 B
2.33
B2.
43 B
1.57
C2.
58 A
BC
2.55
AB
C2.
38 B
2.84
A2.
68 A
BC
2.51
AB
CT
NC
(%
)N
eck
or32
.14 n
s18
.40
21.6
320
.03
42.2
022
.50
24.4
931
.15
16.9
422
.32
33.3
525
.92n
s36
.52
Shog
un9.
2814
.02
22.9
720
.24
27.5
338
.16
24.7
932
.69
22.0
621
.18
24.4
423
.49
Mea
n120
.71A
BC
D16
.21
D22
.30B
C20
.14A
BC
D34
.86A
30.3
3AB
C24
.64A
BC
D31
.92A
B19
.5A
BC
D21
.75A
B29
.39A
BC
C/N
rat
ioN
eck
or8.
32 n
s4.
965.
965.
7011
.32
6.38
6.12
7.67
4.37
8.83
8.89
7.14
ns
43.0
6Sh
ogun
2.42
4.15
7.44
5.75
7.72
10.0
77.
08.
946.
226.
226.
816.
61M
ean1
5.37
ns
4.55
6.70
5.72
9.72
8.23
6.56
8.30
5.30
7.52
7.85
1,2
Mea
ns
wit
hin
ro
ws
foll
ow
ed b
y d
iffe
ren
t le
tter
s d
iffe
r si
gn
ific
an
tly b
y D
MR
T
N
S =
Non
sig
nif
ican
t d
iffe
ren
ce
CV
(%)
«. ߢ≈“π§√‘π∑√å «∑∑.
ªï∑’Ë 28 ©∫—∫∑’Ë 3 æ.§.
-
¡‘.¬. 2549Õ‘∑∏‘æ≈¢ÕßµâπµÕ â¡∫“ß™π‘¥„π â¡®ÿ°·≈– â¡‚™°ÿπ
¡ß§≈ ·´àÀ≈‘¡ ·≈– ¡ªÕß ‡µ™–‚µ521
¢Õß â¡®ÿ°·≈– â¡‚™°ÿπ ‡∑à“°—∫ 2.49% ·≈– 2.34% µ“¡≈”¥—∫ ¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘∑’Ë P<0.05 °“√‡ª√’¬∫‡∑’¬∫ª√‘¡“≥∏“µÿøÕ øÕ√— „π√–À«à“ß™π‘¥¢ÕßµâπµÕ æ∫«à“µâπµÕ®—π°√–¡’ª√‘¡“≥∏“µÿ K „π„∫‡©≈’ˬ Ÿß ÿ¥ ‡∑à“°—∫2.84% ·≈–µâπµÕ¡–𓫧«“¬ ¡’ª√‘¡“≥ K „π„∫µË” ÿ¥‡∑à“°—∫ 1.57% §«“¡ —¡æ—π∏å√–À«à“ß™π‘¥°‘Ëßæ—π∏ÿ奒·≈–™π‘¥¢ÕßµâπµÕ¡’§«“¡·µ°µà“ß°—π‚¥¬µâπ â¡®ÿ°°—∫µâπµÕ â¡®—π°√–¡’ª√‘¡“≥ K „π„∫‡©≈’ˬ Ÿß ÿ¥ (2.883%) ·≈–µâπ â¡‚™°ÿπ°—∫¡–𓫧«“¬¡’ª√‘¡“≥ K „π„∫µË” ÿ¥‡∑à“°—∫0.8% (Table 2)
2.4 §“√å‚∫‰Œ‡¥√µ∑’ˉ¡à„™à‚§√ß √â“ß (TNC)
ª√‘¡“≥ “√ª√–°Õ∫ TNC „π„∫‡©≈’ˬ¢Õß â¡®ÿ°·≈– â¡‚™°ÿπ‡∑à“°—∫ 25.92% ·≈– 23.49% µ“¡≈”¥—∫ ‰¡à¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘ ·µà¡’§«“¡·µ°µà“ß°—π„π√–À«à“ß™π‘¥¢ÕßµâπµÕ‚¥¬µâπµÕ¡–𓫧«“¬¡’ª√‘¡“≥ TNC „π„∫‡©≈’ˬ Ÿß ÿ¥ (34.86%) ·≈–µâπµÕ â¡´à“¡’ª√‘¡“≥ TNC
„π„∫‡©≈’ˬµË” ÿ¥‡∑à“°—∫ 16.21% à«π°“√‡ª√’¬∫‡∑’¬∫§à“‡©≈’ˬ√–À«à“ß™π‘¥¢Õß°‘Ëßæ—π∏ÿ奒·≈–™π‘¥µâπµÕ‰¡à¡’§«“¡·µ°µà“ß°—π (Table 2)
—¥ à«π¢Õߪ√‘¡“≥§“√å‚∫‰Œ‡¥√µ°—∫∏“µÿ‰π‚µ√‡®π(C/N ratio) º≈°“√∑¥≈Õßæ∫«à“ ‰¡à¡’§«“¡·µ°µà“ß°—π∑—Èß™π‘¥¢Õß°‘Ëßæ—π∏ÿ奒 ™π‘¥¢ÕßµâπµÕ ·≈–§«“¡ —¡æ—π∏å√–À«à“ß°‘Ëßæ—π∏ÿ奒·≈–µâπµÕ (Table 2)
3. °“√ª√–‡¡‘πª√‘¡“≥·≈–§ÿ≥¿“æº≈º≈‘µ
3.1 ‡ªÕ√凴Áπµå°“√µ‘¥º≈
1) â¡®ÿ°
º≈°“√»÷°…“‡ªÕ√å‡ Áπµå°“√µ‘¥º≈¢Õß â¡®ÿ°∫πµâπµÕ∑—Èß 11 ™π‘¥ æ∫«à“¡’§«“¡ —¡æ—π∏å°—∫ ¿“æÕ“°“»‚¥¬‡©æ“–ª√‘¡“≥πÈ”Ωπ µâπ â¡®ÿ°∫πµâπµÕ‡°◊Õ∫∑ÿ°™π‘¥ÕÕ°¥Õ°µ‘¥º≈„π‡¥◊Õπ∑’Ë¡’ª√‘¡“≥πÈ”ΩππâÕ¬ ‰¥â·°à‡¥◊Õπ¡°√“§¡ °ÿ¡¿“æ—π∏å ·≈–°√°Ø“§¡ 2547 (Figure
1) ”À√—∫™π‘¥µâπµÕ∑’Ë¡’°“√µÕ∫ πÕßµàÕ™à«ß·≈âß®÷ßÕÕ°¥Õ°µ‘¥º≈ æ‘®“√≥“®“°®”π«π§√—ÈߢÕß°“√ÕÕ°¥Õ°µ‘¥º≈ ‚¥¬µâπ â¡®ÿ°∫πµâπµÕ¡–ß—Ë« §≈’‚Õæ—µ√“·¡π¥“√‘π‚«§“‡¡Õ√å‡≈¡Õπ ·≈– «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ ¡’§«“¡∂’Ë¢Õß°“√µ‘¥º≈ Ÿß∂÷ß 5 §√—Èß µâπµÕ¡–𓫧«“¬ √—ø‡≈¡Õπ ·≈–§“√‘‚´à´‘·µ√߮塒§«“¡∂’Ë¢Õß°“√µ‘¥º≈ 3 §√—Èß ·≈–µâπµÕ®—π°√– 2 §√—Èß µâπµÕ∑√Õ¬‡¬Õ√å´‘·µ√ß®å 1 §√—Èß ·≈–µâπµÕ â¡‚Õ´÷Ëß¡’°“√‡®√‘≠¢Õß â¡®ÿ°§àÕπ¢â“ߵ˔‰¡à¡’°“√µ‘¥º≈µ≈Õ¥∑—Èß 7 ‡¥◊Õπ (Figure 2) à«π§«“¡¥°¢Õß°“√ÕÕ°¥Õ°µ‘¥º≈·µà≈–§√—Èߧ‘¥‡ªìπ‡ªÕ√å‡ Áπµåµ‘¥„π√–¬–·√°‰¥â ·µà‡¡◊ËÕº≈ â¡®ÿ°¡’°“√‡®√‘≠¢¬“¬¢π“¥‡æ‘Ë¡¢÷Èπ‰¡à “¡“√∂‰«âº≈µ“¡∏√√¡™“µ‘‰¥â ®”‡ªìπµâÕߪ≈‘¥º≈ÕÕ°‡æ◊ËÕ„ÀâæÕ¥’°—∫¢π“¥µâπ„π ¿“æ®”°—¥¿“™π–ª≈Ÿ° ´÷Ëß®–¡’°“√‰«âª√–¡“≥ 15-30 º≈/°√–∂“ß
Figure 1. Annual rainfall, evaporation, humidity, soil temperature and max. - min. temper-
ature of Kohong station, Amphur Hat Yai, Songkhla province year 2004.
Songklanakarin J. Sci. Technol.
Vol.28 No.3 May - Jun. 2006 522
Influence of some citrus rootstock species of Necked orange & Shogun
Lim, M. and Te-chato, S.
Figure 2. Fruit setting of Necked orange during January to September 2004.
2) â¡‚™°ÿπ
º≈°“√»÷°…“‡ªÕ√凴Áπµå°“√µ‘¥º≈¢Õß â¡‚™°ÿπ∫πµâπµÕ 11 ™π‘¥ æ∫«à“ â¡‚™°ÿπ∫πµâπµÕ‡°◊Õ∫∑ÿ°™π‘¥¡’°“√ÕÕ°¥Õ°µ‘¥º≈∑—Èß„π ¿“æ·Àâß·≈âß (‡¥◊Õπ°ÿ¡¿“æ—π∏å∂÷߇¥◊Õπ‡¡…“¬π) ·≈–„π ¿“æ∑’Ë¡’ª√‘¡“≥πÈ”Ωπ Ÿß (‡¥◊Õπ情¿“§¡) (Figure 1) °“√æ‘®“√≥“∂÷ß°“√µÕ∫ πÕߢÕßµâπµÕ·µà≈–™π‘¥ ª√“°Øº≈¥—ßπ’È â¡‚™°ÿπ
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®”π«πº≈‡©≈’ˬ/µâπ ¢Õß â¡®ÿ°·≈– â¡‚™°ÿπ‡∑à“°—∫ 10.45 ·≈– 17.79 º≈/µâ𠵓¡≈”¥—∫ °“√‡ª√’¬∫‡∑’¬∫®”π«πº≈º≈‘µ¢Õß â¡®ÿ°∫πµâπµÕ∑√Õ¬‡¬Õ√å ‘·µ√ß®å
Ÿß ÿ¥‡∑à“°—∫ 20.6 º≈ √Õß≈ß¡“‡ªìπ§≈’‚Õæ—µ√“·¡π¥“√‘π17.6 º≈ ÷Ë߉¡à¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘ ·≈–¡’πÈ”Àπ—°/º≈ Ÿßª“π°≈“߇¡◊ËÕ‡ª√’¬∫‡∑’¬∫°—∫°“√„™âµâπµÕ™π‘¥Õ◊ËπÊ à«π â¡‚™°ÿπ∫π∑√Õ¬‡¬Õ√å´‘·µ√ß®å ·≈–µâπµÕ¡–ß—Ë«„Àâ®”π«πº≈º≈‘µ‡©≈’ˬ Ÿß ÿ¥ ‡∑à“°—∫ 31.6 º≈ ·≈–31 º≈ µ“¡≈”¥—∫ ‰¡à¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘ à«π°“√„™âµâπµÕ√—ø‡≈¡Õπ «‘ß‡°‘≈´‘µ√Ÿ¡‘‚≈ ·≈–‚«§“‡¡Õ√å‡≈¡Õπ„Àâº≈º≈‘µª“π°≈“ß ‡∑à“°—∫ 29, 21.6 ·≈– 21.6 º≈ µ“¡
Figure 3. Fruit setting of Shogun during January to September 2004.
Songklanakarin J. Sci. Technol.
Vol.28 No.3 May - Jun. 2006 524
Influence of some citrus rootstock species of Necked orange & Shogun
Lim, M. and Te-chato, S.
≈”¥—∫ (Table 3)
πÈ”Àπ—°/º≈‚¥¬‡©≈’ˬ ¢Õßµâπ â¡®ÿ° ·≈– â¡‚™°ÿπ‡∑à“°—∫ 198.7 °√—¡/º≈ ·≈– 129.27 °√—¡/º≈ µ“¡≈”¥—∫ ·≈–°“√‡ª√’¬∫‡∑’¬∫πÈ”Àπ—°/º≈ æ∫«à“∑—Èß â¡®ÿ°·≈– â¡‚™°ÿπ∫πµâπµÕ®—π°√–„ÀâπÈ”Àπ—°/º≈‡©≈’ˬ Ÿß ÿ¥¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘∑’Ë P<0.05 °—∫µâπµÕ§≈’‚Õæ—µ√“·¡π¥“√‘π «‘ß‡°‘≈´‘µ√Ÿ¡‘‚≈ ·≈–¡–𓫧«“¬ (Table 3)
πÈ”Àπ—°º≈º≈‘µ‡©≈’ˬ/µâπ ¢Õßµâπ â¡®ÿ° ·≈–‚™°ÿπ‡∑à“°—∫ 1965.55 °√—¡/µâπ ·≈– 2346.26 °√—¡/µâπµ“¡≈”¥—∫ °“√‡ª√’¬∫‡∑’¬∫πÈ”Àπ—°º≈º≈‘µ‡©≈’ˬ/µâπ ¢Õß â¡®ÿ°∫πµâπµÕ ∑√Õ¬‡¬Õ√å´‘·µ√ß®å Ÿß ÿ¥ 3906 °√—¡/µâπ à«ππÈ”Àπ—°º≈º≈‘µ‡©≈’ˬ/µâπ ¢Õß â¡‚™°ÿπ∫πµâπµÕ∑√Õ¬‡¬Õ√å´‘·µ√ß®å Ÿß ÿ¥ 5114 °√—¡/µâ𠇙àπ‡¥’¬«°—π ·≈–‚™°ÿπ°—∫µâπµÕ¡–ß—Ë«√Õß≈ß¡“‡∑à“°—∫ 4702.7 °√—¡/µâπ‰¡à¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘ (Table 3)
¢π“¥º≈‡©≈’ˬ¢Õß â¡®ÿ°·≈– â¡‚™°ÿπ‡∑à“°—∫7.18 ·≈– 6.23 ´¡. µ“¡≈”¥—∫ °“√‡ª√’¬∫‡∑’¬∫¢π“¥º≈‡©≈’ˬ¢Õß â¡®ÿ°∫πµâπµÕ¡–ß—Ë« Ÿß ÿ¥ 8.11 ´¡. ·≈–µâπµÕ®—π°√–√Õß≈ß¡“ 7.8 ´¡. ‰¡à¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘°—∫µâπµÕ â¡´à“ «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ ∑√Õ¬‡¬Õ√å´‘·µ√ß®å ¡–𓫧«“¬ ·≈–√—ø‡≈¡Õπ ®”π«π‡¡≈Á¥‡©≈’ˬ¢Õßµâπ â¡®ÿ°∫πµâπµÕ§≈’‚Õæ—µ√“ Ÿß ÿ¥ (7 ‡¡≈Á¥/ º≈) ·≈–µâπµÕ∑√Õ¬-‡¬Õ√å´‘·µ√ß®åµË” ÿ¥ ·µ°µà“ß°—πÕ¬à“ß¡’π—¬ ”§—≠∑“ß ∂‘µ‘∑’Ë P<0.05 à«π§«“¡µ÷ߺ‘«º≈ §«“¡À𓇪≈◊Õ° ª√‘¡“≥πÈ”µ“≈ ·≈–ª√‘¡“≥°√¥∑’ˉ∑‡∑√µ‰¥â‰¡à¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘ (Table 3)
¢π“¥º≈‡©≈’ˬ¢Õß â¡‚™°ÿπ∫πµâπµÕ§≈’‚Õ-æ—µ√“·¡π¥“√‘π ∑√Õ¬‡¬Õ√å´‘·µ√ß®å µâπµÕ¡–ß—Ë« ·≈–µâπµÕ®—π°√–¡’¢π“¥º≈‡©≈’ˬ 6.41, 6.79, 6.9 ·≈– 6.86
´¡. µ“¡≈”¥—∫ ¡’§«“¡·µ°µà“ß®“°µâπµÕ¡–𓫧«“¬∑’Ë¡’¢π“¥º≈‡©≈’ˬ‡∑à“°—∫ 5.13 ´.¡. º≈°“√∑¥≈Õßæ∫«à“µâπ â¡‚™°ÿπ∫πµâπµÕ®—π°√–¡’πÈ”Àπ—°µàÕº≈ Ÿß ÿ¥‡∑à“°—∫169.34 °√—¡/º≈ ·≈–µâπµÕ «‘߇°‘≈´‘µ√Ÿ¡‘‚≈¡’πÈ”Àπ—°/º≈µË” ÿ¥‡∑à“°—∫ 92.3 °√—¡/º≈ ‡π◊ËÕß®“° â¡‚™°ÿπ¡’°“√µ‘¥º≈ Ÿß°«à“ â¡®ÿ° ¥—ßπ—ÈππÈ”Àπ—°º≈‡©≈’ˬ®÷ߢ÷Èπ°—∫®”π«π°“√µ‘¥º≈¥â«¬ (Table 3) à«π â¡‚™°ÿπ°—∫µâπµÕ «‘߇°‘≈´‘µ√Ÿ¡‘‚≈¡’§«“¡µ÷ߺ‘«º≈ Ÿß ÿ¥ (28.79 π‘«µ—π) ·≈–µâπµÕ§≈’‚Õæ—µ√“¡’§«“¡À𓇪≈◊Õ° Ÿß ÿ¥ (0.275 ´¡.) µâπµÕ
¡–ß—Ë«¡’®”π«π‡¡≈Á¥ Ÿß ÿ¥ ‡∑à“°—∫ 16.5 ‡¡≈Á¥/ º≈ ª√‘¡“≥πÈ”µ“≈¢Õß â¡‚™°ÿπ∫πµâπµÕ â¡ à“ «‘߇°‘≈ ‘µ√Ÿ¡‘‚≈∑√Õ¬‡¬Õ√å´‘·µ√ß®å ¡–𓫧«“¬ ‚«§“‡¡Õ√å‡≈¡Õπ ·≈–¡–ß—Ë«‰¡à¡’§«“¡·µ°µà“ß°—π„π∑“ß ∂‘µ‘ à«πª√‘¡“≥°√¥∑’ˉ∑‡∑√µ‰¥â¢ÕßµâπµÕ «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ Ÿß ÿ¥ ‡∑à“°—∫ 1.53%
·≈–¡–𓫧«“¬√Õß≈ß¡“ (1.38%) ®“°º≈°“√«‘‡§√“–Àå§ÿ≥¿“æº≈æ∫«à“ â¡®ÿ°∫πµâπ¡–𓫧«“¬„Àâº≈º≈‘µ∑’Ë¡’ª√‘¡“≥πÈ”µ“≈ Ÿß ÿ¥ ‡∑à“°—∫ 8.9% (Table 4)
”À√—∫ —¥ à«π¢Õߪ√‘¡“≥πÈ”µ“≈°—∫ª√‘¡“≥°√¥∑’ˉ∑‡∑√µ‰¥â (TSS: TA) ‡ªìπ§ÿ≥ ¡∫—µ‘ ”§—≠∑’Ë∫àß∫Õ°∂÷ß√ ™“µ‘¢Õß â¡ æ‘®“√≥“®“°ª√‘¡“≥πÈ”µ“≈¡’§à“ Ÿß·≈–ª√‘¡“≥°√¥ª“π°≈“ß ®“°º≈°“√∑¥≈Õßæ∫«à“ â¡®ÿ°°—∫µâπµÕ â¡´à“ ¡–𓫧«“¬ ·≈–√—ø‡≈¡Õπ ¡’ª√‘¡“≥TSS ‡∑à“°—∫ 8.55, 8.9 ·≈– 8.45% µ“¡≈”¥—∫ ®—¥Õ¬Ÿà„πª√‘¡“≥ Ÿß ·µà‰¡à¡’§«“¡·µ°µà“ß∑“ß ∂‘µ‘°—∫µâπµÕ™π‘¥Õ◊ËπÊ ·≈–¡’ª√‘¡“≥°√¥Õ¬Ÿà„π√–¥—∫ª“π°≈“ß §◊Õ 0.4, 0.5
·≈– 0.47% ‡¡◊ËÕ‡∑’¬∫‡ªìπ —¥ à«π TSS: TA ‰¥â‡∑à“°—∫21.38, 17.8 ·≈– 17.98 ¥—ßπ—Èπ®÷ßÕ¬Ÿà„π™à«ß∑’ˇÀ¡“– ¡ ”À√—∫√ ™“µ‘¢Õß â¡®ÿ° (Table 4) ”À√—∫§à“‡©≈’ˬ¢Õß —¥ à«π TSS: TA ¢Õß â¡‚™°ÿπ‡∑à“°—∫ 13.85 ¡’§à“µË”°«à“ â¡®ÿ° (18.59) ‡π◊ËÕß®“°º≈ â¡‚™°ÿπ¡’§à“‡©≈’ˬ¢Õߪ√‘¡“≥°√¥ Ÿß°«à“ â¡®ÿ°§◊Õ 0.84% ·≈– 0.44% µ“¡≈”¥—∫ ∑”„Àâ√ ™“µ‘¢Õß â¡‚™°ÿπ¡’§«“¡‡¢â¡¢âπ¡“°°«à“ â¡®ÿ° ®“°º≈°“√∑¥≈Õßµ“¡ Table 4 ‡ÀÁπ‰¥â«à“ â¡‚™°ÿπ∫πµâπµÕ∑√Õ¬‡¬Õ√å´‘·µ√߮塒§à“‡©≈’ˬ¢Õß —¥ à«π TSS: TA Ÿß ÿ¥‡∑à“°—∫ 18 ®÷ß¡’√ ™“µ‘¢ÕßπÈ” â¡¥’∑’Ë ÿ¥
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6.40
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5.64
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6.79
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6.29
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6.23
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7.0
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5.75
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4.69
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15.5
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ies
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-24
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151
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ogun
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: TA
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Songklanakarin J. Sci. Technol.
Vol.28 No.3 May - Jun. 2006 526
Influence of some citrus rootstock species of Necked orange & Shogun
Lim, M. and Te-chato, S.
1) â¡®ÿ°
µâπµÕ à«π„À≠à “¡“√∂‡¢â“°—∫°‘Ëßæ—π∏ÿ奒 â¡®ÿ°‰¥â¥’ ‡¡◊ËÕµ√«® Õ∫√Ÿª·∫∫‡Õπ‰´¡å‡Õ ‡µÕ‡√ °‘Ëßæ—π∏ÿ奒 â¡®ÿ° (J) ∫πµâπµÕ∑√Õ¬‡¬Õ√å´‘·µ√ß®å (Tr) ·µ°µà“߉ª®“°‡¥‘¡°àÕπ°“√µàÕ°‘Ëß (Figure 5A ‡≈π∑’Ë 3 Sc »√™’È)· ¥ß„Àâ‡ÀÁπ«à“µâπµÕ™π‘¥π’È¡’º≈≈¥°‘®°√√¡¢Õß√Ÿª·∫∫‡Õπ‰´¡å‡Õ ‡∑Õ‡√ â¡®ÿ° „π∑“ßµ√ߢⓡ°‘Ëßæ—π∏ÿ奒 â¡®ÿ° àߺ≈≈¥°‘®°√√¡‡Õ ‡µÕ‡√ ¢ÕßµâπµÕ (Figure 5A ‡≈π∑’Ë4 St »√™’È) â¡‚Õ∑’Ë„™â‡ªìπµâπµÕ‰¡à¡’º≈µàÕ°‘®°√√¡¢Õ߇Õπ‰´¡å¥—ß°≈à“«¢Õß â¡®ÿ° „π∑“ßµ√ߢⓡ â¡®ÿ°¡’º≈‡æ‘Ë¡°‘®°√√¡¢Õ߇Õπ‰´¡å¢Õß â¡‚Õ (Figure 5A ‡≈π∑’Ë 7 »√™’È) à«πµâπµÕ «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ ·≈–∑√Õ¬‡¬Õ√å´‘·µ√߮剡ࡒº≈µàÕ°“√‡ª≈’ˬπ·ª≈ß°‘®°√√¡¢Õ߇Õπ‰´¡å„πµâπµÕ â¡®ÿ°(Figure 5B) ‡¡◊ËÕæ‘®“√≥“µâπµÕæ◊Èπ‡¡◊Õß∑’ˇÀ¡“– ¡‚¥¬„™â°‘®°√√¡‡Õπ‰´¡å‡Õ ‡µÕ‡√ æ∫«à“ µâπµÕ®—π°√– ¡–ß—Ë« “¡“√∂‡¢â“°—π‰¥â¥’ ·≈–∑—ÈßµâπµÕ°—∫°‘Ëßæ—π∏ÿ奒‰¡à¡’º≈ ÷Ëß°—π·≈–°—π
2) â¡‚™°ÿπ
µâπµÕ â¡∑ÿ°™π‘¥∑’Ë∑¥ Õ∫„™âµàÕ°‘Ëß°—∫ â¡‚™°ÿπ àߺ≈µàÕ°‘®°√√¡¢Õ߇Õπ‰´¡å‡Õ ‡∑Õ‡√ ‚¥¬µâπµÕ¡’º≈≈¥°‘®°√√¡∑’ˇ¥àπ™—¥¡“°¢Õ߇Õπ‰´¡å‡Õ ‡∑Õ‡√ (Figure
6 »√™’È) ·≈–°‘Ëßæ—π∏ÿ奒 â¡‚™°ÿπ°Á àߺ≈≈¥°‘®°√√¡‡Õπ‰´¡å¥—ß°≈à“«„πµâπµÕ‡™àπ‡¥’¬«°—π ¬°‡«âπµâπµÕ ⡧≈’‚Õæ—µ√“·¡π¥“√‘π·≈–¡–𓫧«“¬ à«πµâπµÕæ◊Èπ‡¡◊Õßπ—Èπæ∫«à“‚¥¬ à«π„À≠à‰¡à “¡“√∂‡¢â“°—π‰¥â°—∫°‘Ëßæ—π∏ÿ奒 â¡‚™°ÿπ∑—Èß¡–ß—Ë« ¡–𓫧«“¬ ·≈– â¡‚Õ
«‘®“√≥å
°“√ª√–‡¡‘𧫓¡·¢Áß·√ߢÕß°‘Ëßæ—π∏ÿ奒∑—Èß â¡®ÿ°·≈– â¡‚™°ÿπ®“°°“√‡®√‘≠‡µ‘∫‚µ ¡’§«“¡ ”§—≠µàÕª√‘¡“≥·≈–§ÿ≥¿“æº≈º≈‘µ º≈°“√»÷°…“∑¥≈Õßæ∫«à“µâπ â¡®ÿ°∫πµâπµÕ∑ÿ°™π‘¥¡’°“√‡®√‘≠‡√Á«°«à“µâπ â¡‚™°ÿπ µ—Èß·µà¢π“¥≈”µâπ à«π‡Àπ◊Õ·≈–„µâ√Õ¬µàÕ §«“¡ Ÿß ·≈–æ◊Èπ∑’Ë„∫´÷Ëß √ÿª‰¥â«à“‡ªìπ≈—°…≥–π‘ —¬¢Õß â¡®ÿ° °“√‡ª√’¬∫‡∑’¬∫√–À«à“ß™π‘¥µâπµÕ æ∫«à“√—ø‡≈¡Õπ‡ªìπµâπµÕ∑’Ë¡’§«“¡·¢Áß·√ß “¡“√∂∑”„Àâ¢π“¥≈”µâπ æ◊Èπ∑’Ë„∫ ·≈–ª√‘¡“µ√∑√ßæÿà¡¢Õß∑—Èßµâπ â¡®ÿ°·≈–‚™°ÿπ Ÿß ÿ¥ ·≈–µâπµÕ‚«§“-
‡¡Õ√å‡≈¡Õπ∑”„Àâ°‘Ëßæ—π∏ÿ奒¡’§«“¡·¢Áß·√ß√Õß≈ß¡“ ·≈–µâπµÕ¡–𓫧«“¬∑”„Àâ°‘Ëßæ—π∏ÿ奒¡’°“√‡®√‘≠µË” ÿ¥ (Table
1) ´÷Ëߺ≈°“√∑¥≈ÕߢÕß ¡ß§≈ ·≈–§≥– (2546) æ∫«à“µâπµÕ â¡‚«§“‡¡Õ√å‡≈¡Õπ ·≈–√—ø‡≈¡Õπ ™à«¬ à߇ √‘¡°“√‡®√‘≠∑“ß≈”µâπ·≈–°‘Ëß„∫‰¥â¥’∑’Ë ÿ¥‡™àπ‡¥’¬«°—π Davies
·≈– Albrigo (1994) °≈à“«∂÷ߧÿ≥ ¡∫—µ‘¢ÕßµâπµÕ‚«§“-‡¡Õ√å‡≈¡Õπ‡ªìπ≈Ÿ°º ¡¢Õ߇≈¡Õπ∑’Ë¡’§«“¡·¢Áß·√ß∑√ßæÿà¡ Ÿß„À≠à ∑π‚√§√“°‡πà“·≈–‚§π‡πà“ ·µàÕàÕπ·ÕµàÕ‚√§„∫®ÿ¥·≈–„∫‰À¡â ∑√’ ‡∑´à“‰«√— ·≈–‰ ⇥◊ÕπΩÕ¬ à«π√—ø‡≈¡Õπ‡ªìπµâπµÕ∑’Ëπ‘¬¡„™â¡“π“π ¡’√–∫∫√“°µ◊Èπ‡À¡“–µàÕ°“√ª≈Ÿ°„π¥‘π∑√“¬·≈–∑πµàÕÕ“°“»À𓫇¬ÁπPrice (2004) ‰¥â·π–π”µâπµÕ 5 ™π‘¥ ∑’Ë¡’§«“¡·¢Áß·√ß·≈–‰¡à¡’º≈°√–∑∫µàÕº≈º≈‘µ §◊Õ ´“«ÕÕ‡√π´å §“√‘‚´à-´‘·µ√ß®å «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ §≈’‚Õæ—µ√“·¡π¥“√‘π ·≈– â¡ “¡„∫ ·µà´“«ÕÕ‡√π´åÕàÕπ·ÕµàÕ‚√§∑√’ ‡µ´“‰«√— °“√„™â‡≈¡Õπ‡ªìπµâπµÕ®–∑”„Àâ°‘Ëßæ—π∏ÿ奒‡®√‘≠‡µ‘∫‚µ‡√Á«·≈–·¢Áß·√ß·µà‰¥â§ÿ≥¿“æº≈º≈‘µµË” Castle (1992) √“¬ß“π«à“µâπµÕ·µà≈–™π‘¥¡’§ÿ≥ ¡∫—µ‘‡©æ“–∑’Ë¡’∑—ÈߢâÕ‰¥â‡ª√’¬∫·≈–‡ ’¬‡ª√’¬∫Õ¬Ÿà¥â«¬ ‰¡à¡’µâπµÕ∑’Ë¡’ ¡∫—µ‘¥’‡¥àπ∑ÿ°Õ¬à“ßRichardson ·≈–§≥– (1994) ‡ª√’¬∫‡∑’¬∫°“√‡®√‘≠¢Õß â¡æ—π∏ÿå´‘≈‡«Õ√匑≈´—∑´Ÿ¡à“·¡π¥“√‘π∫πµâπµÕ â¡ “¡„∫∑’ˇªìπ â¡æ—π∏ÿåæ◊Èπ‡¡◊Õß°—∫µâπµÕ∑√Õ¬‡¬Õ√å ‘·µ√ß®å∑’ˇªìπæ—π∏ÿå≈Ÿ°º ¡ º≈ª√“°Ø«à“µâπµÕ â¡ “¡„∫„Àâº≈º≈‘µ∑—Èߪ√‘¡“≥·≈–§ÿ≥¿“æµË”°«à“µâπµÕ∑√Õ¬‡¬Õ√å ‘·µ√ß®å ®÷ß √ÿª«à“°“√„™âµâπµÕæ◊Èπ‡¡◊Õß„Àâº≈º≈‘µµË”°«à“°“√„™âµâπµÕ≈Ÿ°º ¡
º≈°“√»÷°…“‡ªÕ√凴Áπµå°“√µ‘¥º≈¢Õß â¡®ÿ°·≈– â¡‚™°ÿπ∑’˵àÕ°‘Ëß∫πµâπµÕ∑—Èß 11 ™π‘¥ ‡ªìπ√–¬–‡«≈“ 9
‡¥◊Õπ æ∫«à“°“√ÕÕ°¥Õ°µ‘¥º≈¢Õßµâπ â¡„π™ÿ¥∑¥≈Õ߇ªìπÕ‘∑∏‘æ≈®“° ¿“æ·«¥≈âÕ¡¥â«¬ à«πÀπ÷Ëß ·≈–¡’™à«ßƒ¥Ÿ°“≈∑’ËÕÕ°¥Õ°µ‘¥º≈¡’ 2 ™à«ß ´÷Ëß·µ°µà“ß®“° â¡‚™°ÿπ∑’Ë¡’≈—°…≥–π‘ —¬ÕÕ°¥Õ°µ‘¥º≈µ≈Õ¥ªï ∑—Èßπ’ÈÕ“®‡ªìπº≈®“°°“√∑¥≈Õß„π°√–∂“ß∑’Ë¡’ ¿“æ®”°—¥¥‘πª≈Ÿ° ∑”„Àâ√“°æ◊™Õ¬Ÿà„π ¿“æ∑’Ë®”°—¥·≈–‡°‘¥§«“¡‡§√’¬¥‰¥âßà“¬À“°¡’°“√ߥπÈ” ®÷ß∑”„Àâµâπ â¡ ‚™°ÿπ„π°√–∂“ßÕÕ°¥Õ°µ‘¥º≈‰¥âµ≈Õ¥∑ÿ°‡¥◊Õπ â¡®ÿ°¡’≈—°…≥–π‘ —¬ÕÕ°¥Õ°µ‘¥º≈‰¥â¬“°°«à“ â¡‚™°ÿπ Õ‘∑∏‘æ≈Õ’° à«πÀπ÷Ëß®“°≈—°…≥–π‘ —¬¢Õßµâπ â¡®ÿ°·≈– â¡‚™°ÿπ∑’˵Õ∫ πÕßµàÕ ¿“æ·Àâß·≈âß
«. ߢ≈“π§√‘π∑√å «∑∑.
ªï∑’Ë 28 ©∫—∫∑’Ë 3 æ.§.
-
¡‘.¬. 2549Õ‘∑∏‘æ≈¢ÕßµâπµÕ â¡∫“ß™π‘¥„π â¡®ÿ°·≈– â¡‚™°ÿπ
¡ß§≈ ·´àÀ≈‘¡ ·≈– ¡ªÕß ‡µ™–‚µ527
Figure 4. Esterase enzyme pattern of Necked orange, Shogun and rootstock species before
grafting.
J = Necked orange Sh = Shogun
Cle = Cleopatra mandarin Sa = Somsa
Sw = Swingle citrumelo Tr = Troyer citrange
Li = Manaao khwaai R = Rough lemon
Volk = Volkamer lemon Car = Carrizo citrange
Pu = Pummelo Mh = Ma_wo
Figure 5. Est zymogram pattern of Necked orange and rootstock species before and after
being grafted.
J = Necked orange Sw = Swingle citrumelo Tr = Troyer citrange
Pu = Pummelo Jan = Chan_kra Mh = Ma_wo
Li = Manaao-khwaai Rou = Rough lemon Volk = Volkamer lemon
Car = Carrizo citrange Sc = scion St = rootstock
<——> = Scion and rootstock zymogram pattern changed
<—— = Scion zymogram pattern changed
——> = Rootstock zymogram pattern changed
Songklanakarin J. Sci. Technol.
Vol.28 No.3 May - Jun. 2006 528
Influence of some citrus rootstock species of Necked orange & Shogun
Lim, M. and Te-chato, S.
·µ°µà“ß°—π §◊Õµâπ â¡‚™°ÿπµÕ∫ πÕßµàÕ ¿“æ·Àâß·≈â߉¥â¥’°«à“ ®÷ß¡’°“√ÕÕ°¥Õ°µ‘¥º≈∑ÿ°‡¥◊Õπ à«πÕ‘∑∏‘æ≈∑’ˇ°‘¥®“°™π‘¥¢ÕßµâπµÕª√–‡¡‘π‰¥â®“°§«“¡∂’Ë¢Õß°“√ÕÕ°¥Õ°¢ÕßµâπµÕ·µà≈–™π‘¥ ‚¥¬æ∫«à“µâπµÕ¡–ß—Ë« §≈’‚Õæ—µ√“·¡π¥“√‘π ‚«§“‡¡Õ√å‡≈¡Õπ ·≈– «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ ∑”„Àâ â¡®ÿ°ÕÕ°¥Õ°‰¥â∂÷ß 5 §√—Èß ·≈–µâπµÕ â¡´à“ √—ø‡≈¡Õπ‚«§“‡¡Õ√å‡≈¡Õπ ∑√Õ¬‡¬Õ√å´‘·µ√ß®å ·≈– «‘߇°‘≈´‘µ√Ÿ¡‘‚≈∑”„Àâ â¡‚™°ÿπÕÕ°¥Õ°‰¥â∂÷ß 6 §√—Èß ¡’§«“¡∂’Ë Ÿß ÿ¥‡¡◊ËÕ‡∑’¬∫°—∫µâπµÕ™π‘¥Õ◊ËπÊ
°“√∑¥ Õ∫Õ‘∑∏‘æ≈¢ÕßµâπµÕ„π‡√◊ËÕߢÕß·√à∏“µÿÕ“À“√¥â«¬°“√«‘‡§√“–Àå„∫ â¡∑’ˇ®√‘≠∫πµâπµÕ™π‘¥µà“ß°—πæ∫«à“ µâπµÕ â¡´à“ §≈’‚Õæ—µ√“·¡π¥“√‘π ∑√Õ¬‡¬Õ√å-´‘·µ√ß®å «‘߇°‘≈´‘µ√Ÿ¡‘‚≈ ·≈–¡–ß—Ë« Õ¬Ÿà„π°≈ÿà¡∑’Ë¡’ª√‘¡“≥N „π„∫‡©≈’ˬ Ÿß µâπµÕ√—ø‡≈¡Õπ ‚«§“‡¡Õ√å‡≈¡Õ𠧓√‘-
‚´à´‘·µ√ß®å ®—π°√– ·≈– â¡‚Õ Õ¬Ÿà„π°≈ÿà¡∑’Ë¡’ª√‘¡“≥ N „π„∫‡©≈’ˬª“π°≈“ß ·≈–µâπµÕ¡–𓫧«“¬ ®—¥Õ¬Ÿà„π°≈ÿà¡∑’˪√‘¡“≥ N „π„∫‡©≈’ˬµË” ÿ¥ (Table 2) °“√‡ª√’¬∫‡∑’¬∫ª√‘¡“≥ TNC ·≈– —¥ à«π C/N „π„∫¢Õßµâπ â¡®ÿ°·≈– â¡‚™°ÿπ∫πµâπµÕ™π‘¥µà“ßÊ æ∫«à“¡–𓫧«“¬¡’ª√‘¡“≥TNC „π„∫ Ÿß ÿ¥ · ¥ß∂÷ßÕ‘∑∏‘æ≈¢ÕßµâπµÕ„π°≈ÿà¡¡–π“«Õ¬à“ß™—¥‡®π à«πµâπµÕ√—ø‡≈¡Õ𠧓√‘‚´à´‘·µ√ß®å·≈–¡–ß—Ë« ¡’ª√‘¡“≥ TNC „π„∫Õ¬Ÿà„π√–¥—∫ Ÿß√Õß≈ß¡“÷Ëߪ√‘¡“≥·√à∏“µÿÕ“À“√‡À≈à“π’È¡’ à«π —¡æ—π∏å°—∫ª√‘¡“≥
°√¥·≈–ª√‘¡“≥πÈ”µ“≈„πº≈ Õ¬à“߉√°Áµ“¡ Zekri ·≈–§≥– (2003) °≈à“««à“∏“µÿ N ¡’º≈∑”„Àâ‡æ‘Ë¡ ’·≈–ª√‘¡“≥πÈ”„πº≈ â¡ (juice content) ª√‘¡“≥°√¥·≈–πÈ”µ“≈§«“¡À𓇪≈◊Õ°º≈ ∑”„Àâ¢π“¥·≈–πÈ”Àπ—°º≈≈¥≈ß∏“µÿ P ≈¥ª√‘¡“≥°√¥·≈–‡æ‘Ë¡ª√‘¡“≥πÈ”µ“≈ ·≈–≈¥
Figure 6. Est zymogram pattern of Shogun and rootstock species before and after being
grafted.
Sho = Shogun Sw = Swingle citrumelo Tr = Troyer citrange
Cle = Cleopatra mandarin Volk = Volkamer lemon Car = Carrizo citrange
Pu = Pummelo Mh = Ma_wo Li = Manaao-khwaai
Rou = Rough lemon Jan = Chan_kra Car = Carrizo citrange
Sc = scion St = rootstock
<——> = Scion and rootstock zymogram pattern changed
<—— = Scion zymogram pattern changed
——> = Rootstock zymogram pattern changed
«. ߢ≈“π§√‘π∑√å «∑∑.
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TA Ÿß ÿ¥°“√æ‘®“√≥“√Ÿª·∫∫‡Õπ‰´¡å‡Õ ‡∑Õ‡√ ¢Õß â¡®ÿ°
·≈–‚™°ÿπ∫πµâπµÕ∫“ß™π‘¥ æ∫«à“¡’§«“¡‡®◊Õ®“ߢÕß·∂∫®π∂÷߉¡àæ∫·∂∫‡≈¬ ∑—Èßπ’ÈÕ“®‡π◊ËÕß¡“®“°‡Õπ‰´¡å∑’Ë·¬°‰¥â¡’°‘®°√√¡πâÕ¬‡°‘π‰ª À√◊Õª√‘¡“µ√¢Õß∫—ø‡øÕ√å °—¥¡“°‡°‘π‰ª àߺ≈µàÕ§«“¡‡®◊Õ®“ߢÕ߇Õπ‰´¡å
®“°º≈°“√ª√–‡¡‘π∑—Èߪ√‘¡“≥·≈–§ÿ≥¿“æº≈º≈‘µ¢Õß â¡®ÿ°·≈– â¡‚™°ÿπ∫πµâπµÕ 11 ™π‘¥ √ÿª‰¥â«à“‚«§“‡¡Õ√å‡≈¡Õπ‡ªìπµâπµÕ∑’Ë¡’°“√‡®√‘≠‡µ‘∫‚µ‡√Á« (Table
1) ‡À¡“–°—∫ â¡®ÿ°∑’Ë¡’°“√‡®√‘≠‡µ‘∫‚µ‡√Á«‡™àπ‡¥’¬«°—π ·≈–§ÿ≥¿“æº≈º≈‘µ‰¡à·µ°µà“ß°—π°—∫µâπµÕ™π‘¥Õ◊ËπÊ (Table
3) ‚¥¬‡©æ“–§à“ TSS °—∫ TA ∑’ˇªìπ§ÿ≥¿“æº≈º≈‘µ∑’Ë
”§—≠ (Table 4) ·≈–µâπµÕ∑√Õ¬‡¬Õ√å´‘·µ√ß®å â¡®ÿ°·≈– â¡‚™°ÿπ¡’°“√‡®√‘≠∑“ߥâ“π≈”µâπ·≈–°‘Ëß„∫ª“π°≈“ß ·µà„Àâª√‘¡“≥·≈–§ÿ≥¿“æº≈º≈‘µ Ÿß à«πµâπµÕ√—ø‡≈¡Õπ·≈–‚«§“‡¡Õ√å‡≈¡Õπ®–∑”„Àâµâπ â¡‚™°ÿπÕ¬Ÿà à«π∫π (Top)
‡®√‘≠‡µ‘∫‚µ·¢Áß·√ß ¡’ª√‘¡“≥∏“µÿ N ®—¥Õ¬Ÿà„π√–¥—∫ Ÿß·≈–∑”„Àâº≈ â¡‚™°ÿπ¡’‡ª≈◊Õ°Àπ“ ·≈–¡’§à“ TSS µË”§à“ TA Ÿß°«à“µâπµÕ™π‘¥Õ◊ËπÊ µ√ß°—∫∑’Ë Zekri ·≈–§≥–(2003) √“¬ß“π«à“µâπµÕ â¡∑’Ë¡’ª√‘¡“≥∏“µÿ N „π„∫ Ÿß®–∑”„Àâº≈ â¡¡’§à“ TSS µË” ®“°º≈°“√»÷°…“„π§√—Èßπ’È µâπµÕ∑’Ë∑”„Àâº≈ â¡‚™°ÿπ¡’§à“ TSS Ÿß·≈–¡’§à“ TA ª“π°≈“߉¥â·°à ∑√Õ¬‡¬Õ√å´‘·µ√ß®å ‚«§“‡¡Õ√å‡≈¡Õπ â¡´à“ ·≈–¡–ß—Ë« ª√–°Õ∫°—∫ ¿“æ·«¥≈âÕ¡∑’Ë¡’Ωπµ°Àπ—°·≈–≈—°…≥–¥‘π∑“ß¿“§„µâ¢Õߪ√–‡∑»‰∑¬¡’ ¿“懪ìπ¥‘π°√¥∑”„Àâµâπ â¡‚™°ÿπ∑√ÿ¥‚∑√¡‰¥âßà“¬ À“°¡’°“√„™âµâπµÕ∑’ËÕàÕπ·ÕÕ“®∑”„À⇰‘¥‚√§√–∫“¥√ÿπ·√߉¥âßà“¬¢÷Èπ °“√„™âµâπµÕ∑√Õ¬‡¬Õ√å ‘·µ√ß®å À√◊Õ‚«§“‡¡Õ√å‡≈¡Õπ À√◊Õ¡–ß—Ë«∑’Ë à߇ √‘¡„Àâµâπ â¡‚™°ÿπ¡’°“√‡®√‘≠‡µ‘∫‚µ‡√Á«·≈–·¢Áß·√ßµ≈Õ¥®π‰¡à¡’º≈°√–∑∫µàÕ§ÿ≥¿“æº≈º≈‘µ ®–™à«¬¬◊¥Õ“¬ÿ™à«ß°“√„Àâº≈º≈‘µ„π‡™‘ßæ“≥‘™¬å¢Õßµâπ â¡‚™°ÿπ‰¥â ·µà°“√µ—¥ ‘π„®„™âµâπµÕ™π‘¥„¥™π‘¥Àπ÷Ë߬—ߧߵâÕßæ‘®“√≥“∂÷ß ¿“æ·«¥≈âÕ¡¢Õß·µà≈–∑âÕß∂‘Ëπ √«¡∂÷ߧÿ≥ ¡∫—µ‘¢Õߧ«“¡∑π‚√§À√◊ÕÕàÕπ·ÕµàÕ‚√§™π‘¥µà“ßÊ ∑’Ë¡’Õ¬Ÿà„π·µà≈–∑âÕß∂‘Ëπ¥â«¬ ´÷ËßµâπµÕ‚«§“‡¡Õ√å‡≈¡Õπ‡ªìπµâπµÕ≈Ÿ°º ¡¢Õ߇≈¡Õπ·¡â«à“®–∑”„Àâµâπ â¡‚™°ÿπ‡®√‘≠¥’ ·µà¡’§ÿ≥ ¡∫—µ‘ÕàÕπ·ÕµàÕ‚√§·§ß‡§Õ√å (Turner, 2004) ®÷ߧ«√√–¡—¥√–«—ß°“√√–∫“¥¢Õß‚√§π’ÈÀ“°„™â‚«§“‡¡Õ√å‡≈¡Õπ‡ªìπµâπµÕ„π∑âÕß∑’Ë∑’ˇªìπ·À≈àߪ≈Ÿ°¡–π“« À√◊Õæ◊Èπ∑’Ë∑’Ë¡’‚√§·§ß‡§Õ√å√–∫“¥ ‡ªìπµâπ
‡Õ° “√Õâ“ßÕ‘ß
®”‡ªìπ ÕàÕπ∑Õß. 2545. §Ÿà¡◊Õ°“√«‘‡§√“–À契π·≈–æ◊™. ¿“§«‘™“∏√≥’»“ µ√å §≥–∑√—欓°√∏√√¡™“µ‘. ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å «‘∑¬“‡¢µÀ“¥„À≠à.
‰æ‚√®πå º≈ª√– ‘∑∏‘Ï. 2516. ⡵√“∫πµâπµÕ¡–¢«‘¥. «.° ‘°√46: 167-171.
¡“≈’ – ¡»—°¥‘Ï. 2541. °“√‡®√‘≠‡µ‘∫‚µ·≈–æ—≤π“°“√¢Õß â¡‚™°ÿπ (Citrus reticulata Blanco cv. Shogun) ∫πµâπµÕ â¡∫“ß™π‘¥ «‘∑¬“π‘æπ∏å«‘∑¬“»“ µ√¡À“∫—≥±‘µ “¢“«‘™“æ◊™»“ µ√å ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å.
Songklanakarin J. Sci. Technol.
Vol.28 No.3 May - Jun. 2006 530
Influence of some citrus rootstock species of Necked orange & Shogun
Lim, M. and Te-chato, S.
¡ß§≈ ·´àÀ≈‘¡ ¡ªÕß ‡µ™–‚µ ·≈– ÿ∏’√“ ∂“«√√—µπå. 2546.°“√‡®√‘≠‡µ‘∫‚µ¢Õß â¡·≈– â¡‚™°ÿπ∫πµâπµÕ â¡∫“ß™π‘¥. «. «‘∑¬.°…. 34: 1-3 (摇»…): 156-159.
¡ß§≈ ·´àÀ≈‘¡ ·≈– ¡ªÕß ‡µ™–‚µ. 2545°. °“√»÷°…“§«“¡‡¢â“°—π‰¥â¢Õß â¡®ÿ°·≈– â¡‚™°ÿπ∫πµâπµÕ â¡∫“ß™π‘¥.√“¬ß“π«‘®—¬©∫—∫ ¡∫Ÿ√≥å ¿“§«‘™“æ◊™»“ µ√å §≥–∑√—欓°√∏√√¡™“µ‘ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å.
¡ß§≈ ·´àÀ≈‘¡ ·≈– ¡ªÕß ‡µ™–‚µ. 2545¢. °“√»÷°…“§«“¡‡¢â“°—π‰¥â¢Õß â¡®ÿ°∫πµâπµÕ â¡∫“ß™π‘¥‚¥¬„™â‰Õ‚´-‰´¡å·≈–≈—°…≥–∑“ß —≥∞“π«‘∑¬“. √“¬ß“π«‘®—¬©∫—∫ ¡∫Ÿ√≥å ¿“§«‘™“æ◊™»“ µ√å §≥–∑√—欓°√∏√√¡™“µ‘¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å.
¡ß§≈ ·´àÀ≈‘¡ ¡ªÕß ‡µ™–‚µ ·≈– ÿ¿“≥’ ™π–«’√«√√≥.2542. °“√‡®√‘≠‡µ‘∫‚µ¢Õß â¡®ÿ° (Citrus reticulata
Blanco) ·≈– â¡‚™°ÿπ (Citrus reticulata Blanco)
∫πµâπµÕ â¡∫“ß™π‘¥. «. ߢ≈“π§√‘π∑√å «∑∑ 21:
415-423.≈—°¢π“ «√‚¿§‘π. 2547. °“√»÷°…“Õ“°“√º≈·µ°„π â¡‚™°ÿπ
(Citrus reticulata Blanco cv. Shogun). «‘∑¬“-π‘æπ∏å«‘∑¬“»“ µ√¡À“∫—≥±‘µ “¢“æ◊™»“ µ√å §≥–∑√—欓°√∏√√¡™“µ‘ ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å.
π—Ëπ ¢”‡≈‘». 2522. À≈—°·≈–«‘∏’°“√¢¬“¬æ—π∏ÿåæ◊™. °√ÿ߇∑æœ:¿“§«‘™“æ◊™ «π §≥–‡°…µ√ ¡À“«‘∑¬“≈—¬‡°…µ√»“ µ√å.
ÿ∏’√“ ∂“«√√—µπå. 2542. °“√µ√«® Õ∫√Ÿª·∫∫¢Õ߇Õπ‰´¡å„π â¡‚™°ÿπ (Citrus reticulata Blanco.) ∑’˵àÕ°‘Ëß∫πµâπµÕ â¡∫“ß™π‘¥. «‘∑¬“π‘æπ∏å«‘∑¬“»“ µ√¡À“∫—≥±‘µ “¢“«‘™“æ◊™»“ µ√å ¡À“«‘∑¬“≈—¬ ߢ≈“π§√‘π∑√å.
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