plant nutrition-macro n micro
TRANSCRIPT
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Plant Nutrition
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KONTRAK PEMBELAJARAN
Waktu kuliah tepat waktu toleransi keterlambatan untuk dosen 30’ dan mahasiswa 15’.
Selama perkuliahan, HP dan alat komunikasi lainnya bagi mahasiswa harus dimatikan/di’silent’.
Kehadiran minimal 75% apabila kurang tidak bisa mengikuti ujian akhir.
Tidak diperkenankan pakai kaos oblong dan sandal dalam kegiatan perkuliahan.
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SISTEM PENILAIAN
NILAI DIHITUNG BERDASARKAN:TUGAS TERSTRUKTUR 20%UJIAN TENGAH SEMESTER 25%UJIAN AKHIR SEMESTER 25%NILAI PRAKTIKUM 30%TOTAL 100%
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Angka Huruf 201380 A 6
66 – 79,9 B 3356 – 65,9 C 345 – 55,9 D 2
< 44 E 1
SISTEM PENILAIAN
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LINGKUP MATERII. Pendahuluan• Latar Belakang Perlunya Mempelajari Nutrisi• Tanaman• Ruang lingkup Bahasan Nutrisi Tanaman
2. Nutrisi Dan Fungsinya Bagi Tanaman, meliputi:• Sumber Nutrisi Tanaman• Jenis Nutrisi yang Dibutuhkan Tanaman• Peranan Nutrisi PadaTanaman• Gelaja Kekurangan dan Kelebihan Nutrisi• Mengukur Kecukupan Nutrisi
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Why study plant nutrition?
Plants require certain chemical elements to complete their life cycle.
More than 50 chemical elements have been identified among the inorganic substances in plants, but not all of these are essential.
ESSENTIAL VERSUS BENEFICIAL of nutrient.
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Essential mineral element (or mineral nutrient)
Three criteria must be met for an element to be consideredessential, they are:
A plant must be unable to complete its life cycle in theabsence of the mineral element.
The function of the element must not be replaceableby another mineral element (plays a specific role inthe plant).
Causes set back to growth of the plant showing visualsymptoms when the plant is deficient in it.
The element must be directly involved in plantmetabolism.
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Beneficial element
Beneficial elements are those thatcan compensate for toxic effects of other
elements.may replace mineral nutrients in some other less
specific function such as the maintenance ofosmotic pressure.
plants are not being grown to their optimumgenetic potential but are only produced at asurvival level.
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Essential elements
Essential elements are inorganic in nature andthey are grouped into:
Primary nutrients – Required in largerquantities.
Secondary nutrients – Needed in lesseramounts than primary nutrients
Micronutrients – Required in smallquantities
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Plant Nutrition1. Plant Nutrients
Macronutrients Micronutrients
2. Chemical Fertilizers Commercial Analysis Elemental Analysis
3. Fertilizer Concentration Calculations ppm mM Meq/liter
4. Fertilizer Application Preplant Application Top Dressing Liquid Feeding
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1. Essential Nutrietns of Plants
Chemical Atomic Ionic forms Approximate dryElement symbol weight Absorbed by plants__ concentration_____
MacronutrientsNitrogen N 14.01 NO3
-, NH4+ 4.0 %Phosphorus P 30.98 PO4
3-, HPO42-, H2PO4
- 0.5 %Potassium K 39.10 K+ 4.0 %Magnesium Mg 24.32 Mg2+ 0.5 %Sulfur S 32.07 SO4
2- 0.5 %Calcium Ca 40.08 Ca2+ 1.0 %
MicronutrientsIron Fe 55.85 Fe2+, Fe3+ 200 ppmManganese Mn 54.94 Mn2+ 200 ppmZinc Zn 65.38 Zn2+ 30 ppmCopper Cu 63.54 Cu2
+ 10 ppmBoron B 10.82 BO3
2-, B4O72- 60 ppm
Molybdenum Mo 95.95 MoO42- 2 ppm
Chlorine Cl 35.46 Cl- 3000 ppmEssential But Not Applied
Carbon C 12.01 CO2 40 %Hydrogen H 1.01 H2O 6 %Oxygen O 16.00 O2, H2O 40 %________________________________________________________________Plant tissues also contain other elements (Na, Se, Co, Si, Rb, Sr, F, I) which are notneeded for the normal growth and development.
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2. Macronutrientsa. Nitrogen (N)
1) Soil Nitrogen Cycle
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A. Nitrogen (N)1) Soil Nitrogen Cycle
a) Nitrogen Fixation
-Transformation of atmospheric N to nitrogen forms available to plants
- Mediated by N-fixing bacteria:
Rhizobium (symbiotic) found in legumes (bean, soybean) Azotobacter (non-symbiotic bacteria)
b) Soil Nitrification
- Decomposition of organic matter into ammonium and nitrate
- Mediated by ammonifying and nitrifying bacteria
Ammonifying bacteria Nitrifying bacteria
(Actinomycetes) (Nitrosomonas) (Nitrobacter)
Plant residue → NH4+ → NO2 → NO3
-
(Protein, aa, etc) Ammonium Nitrite Nitrate
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2) N Functions in Plants
- Component of proteins, enzymes, amino acids, nucleic
acids, chlorophyll.
- C/N ratio (Carbohydrate: Nitrogen ratio)
High C/N ratio → Plants become more reproductive
Low C/N ratio → Plants become more vegetative
- Transamination
NO3- → NH2 → Glutamic acid → Other amino acids
(a.a.) → Protein
- Essential for fast growth, green color
3) Deficiency and Toxicity Symptoms
Deficiency: - Reduced growth
- Yellowing of old leaves
Toxicity (excess):- Shoot elongation, Dark leaves & succulence
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4) Fertilizers- Ammonium nitrate (NH4NO3) (33-34.5%)
Ammonium sulphate ((NH4)2SO4) (21%) Calcium nitrate [Ca(NO3)2] (20-26%)Ammonium sulphate nitrate (NH4NO3-(NH4)2SO4) (26%)Urea [CO(NH2)2] (45-46%)
- Most plants prefer 50:50 NH4+ : NO3
-
NH4+-form of N → lowers soil pH
NO3--form of N → raises soil pH
- Organic fertilizers (manure, plant residue) – slow acting
- N can be applied foliarly
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Nitrogen (N) Deficiency Symptoms
Yellowing of mature lower leaves- nitrogen is highly mobile in plants
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B. Phosphorus (P)1) Soil Relations
- Mineral apatite [Ca5F(PO4)3]- Relatively stable in soil- Has a low mobility (top dressing not
effective)
2) Plant Functions- Component of nucleic acid (DNA, RNA),
phospholipids, coenzymes, high-energy phosphate bonds (ADP, ATP)
- Seeds are high in P
3) Deficiency and Toxicity- P is mobile in plant tissues (Deficiency
occurs in older leaves)- Deficiency: dark, purplish color on older
leaves- Excess P: causes deficiency symptoms of
Zn, Cu, Fe, Mn
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Phosphorus4) Fertilizers
- Superphosphates (may contain F)
Single superphosphate (16-20% P2O5) :Ca(H2PO4)2+CaSO4
Triple superphosphate (46% P2O5):CaH4(PO4)2
- Bone meal
- Available forms: PO43-, HPO4
2-, H2PO4-
- P absorption influenced by pH
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Influence of pH on different forms of phosphorus (P)
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C. Potassium (K)
1) Soil Relations- Present in large amounts in mineral soil- Low in organic soils
2) Plant Functions- Activator of many enzymes- Regulation of water movement across membranes and through
stomata (Guard cell functions)
3) Deficiency and Toxicity- Deficiency:Leaf margin necrosis and browning
Older leaves are more affected- Toxicity: Leaf tip and marginal necrosis
4) Fertilizers- Potassium chloride (KCl)- murate of potash- Potassium sulfate (K2SO4)
- Potassium nitrate (KNO3)
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Leaf Margin Necrosis in Poinsettia Potassium (K) Deficiency
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Macronutrients N, P, K Deficiencies Leaf Lettuce
Control
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Macronutrient Deficiencies Beans
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D. Calcium (Ca)
1) Soil Relations
- Present in large quantities in earth’s surface (~1% in US top soils)
- Influences availability of other ions from soil
2) Plant Functions
- Component of cell wall
- Involved in cell membrane function
- Largely present as calcium pectate in meddle lamela
Calcium pectate is immobile in plant tissues
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D. Calcium (Ca)3) Deficiency and Toxicity
- Deficiency symptoms in young leaves and new shoots (Ca is immobile)
Stunted growth, leaf distortion, necrotic spots, shoot tip death
Blossom-end rot in tomato
- No Ca toxicity symptoms have been observed
4) Fertilizers
- Agricultural meal (finely ground CaCO3·MgCO3)
- Lime (CaCO3), Gypsum (CaSO4)
- Superphosphate
- Bone meal-organic P source
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Blossom End Rot of Tomato Calcium Deficiency
Right-Hydroponic tomatoes grown in the greenhouse, Left-Blossom end rot of tomato fruits induced by calcium (Ca++) deficiency
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Influence of Calcium on Root Induction on Rose Cuttings
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E. Sulfur (S)
1) Soil Relations
- Present in mineral pyrite (FeS2, fool’s gold), sulfides (S-mineral complex), sulfates (involving SO4
-2)
- Mostly contained in organic matter
- Acid rain provides sulfur
2) Plant Functions
- Component of amino acids (methionine, cysteine)
- Constituent of coenzymes and vitamins
- Responsible for pungency and flavbor (onion, garlic, mustard)
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3) Deficiency and Toxicity
- Deficiency: light green or yellowing on new growth (S is immobile)
- Toxicity: not commonly seen
4) Fertilizers
- Gypsum (CaSO4)
- Magnesium sulfate (MgSO4)
- Ammonium sulfate [(NH4)2SO4]
- Elemental sulfur (S)
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F. Magnesium (Mg)
1) Soil Relations
- Present in soil as an exchangeable cation (Mg2+)
- Similar to Ca2+ as a cation
2) Plant Functions
- Core component of chlorophyll molecule
- Catalyst for certain enzyme activity
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3) Deficiency and Toxicity
- Deficiency: Interveinal chlorosis on mature leaves (Mg is highly mobile)
- Excess: Causes deficiency symptoms of Ca, K
4) Fertilizers
- Dolomite (mixture of CaCO3·MgCO3)
- Epsom salt (MgSO4) (20% Mg)
- Magnesium nitrate [Mg(NO3)2]
- Magnesium sulfate (MgSO4)
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Magnesium (Mg) Deficiency on Poinsettia
Interveinal Chlorosis on Mature Leaves
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Micronutrients• Micronutrient elements
– Iron (Fe)– Manganese (Mn)– Boron (B)– Zinc (Zn)– Molybdenum (Mo)– Copper (Cu)– Chlorine (Cl)
• Usually supplied by irrigation water and soil
• Deficiency and toxicity occur at pH extremes
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Influence of pH on Nutrient Availability
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3. MicronutrientsA. Iron (Fe)
- Component of cytochromes (needed forphotosynthesis)
- Essential for N fixation (nitrate reductase) andrespiration
- Deficiency
Symptom: Interveinal chlorosis on new growth
Fe is immobile
Iron chlorosis develops when soil pH is high
Remedy for iron chlorosis:
1) Use iron chelates
FeEDTA (Fe 330) – Stable at pH < 7.0
FeEDDHA (Fe 138) – Stable even when pH > 7.0
2) Lower soil pH
Iron is in more useful form (Fe2+)
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Iron (Fe) Deficiency Symptoms
1 2
43
1-Piggyback Plant, 2- Petunia, 3-Silver Maple, 4-Rose (A-normal, B-Fe-deficient)
A B
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Iron Chelates
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Iron (Fe) Absorption by Plants
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B. Manganese (Mn)- Required for chlorophyll synthesis, O2
evolution during photoshynthesis
- Activates some enzyme systems
- Deficiency: Mottled chlorsis between main veins of new leaves
- (Mn is immobile), similar to Fe chlorosis
- Toxicity: Chlorosis on new growth with small, numerous dark spots
Deficiency occurs at high pH
Toxicity occurs at low pH
- Fertilizers: Manganese sulfate (MnSO4)
Mn EDTA (chelate) for high pH soils
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C. Boron (B)
- Involved in carbohydrate metabolism
- Essential for flowering, pollen germination, N metabolism
- Deficiency: New growth distorted and malformed, flowering and fruitset depressed, roots tubers distorted
- Toxicity: Twig die back, fruit splitting, leaf edge burns
- Fertilizers: Borax (Na2B4O7.10H2O), calcium borate (NaB4O7.4H2O)
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D. Zinc (Zn)- Involved in protein synthesis, IAA
synthesis
- Deficiency: (occurs in high pH)
- Growth suppression, reduced internode lengths, rosetting, interveinal chlorosis on young leaves (Zn is immobile in tissues)
- Toxicity: (occurs at low pH) Growth reduction, leaf chlorosis
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Micronutrient Toxicity on Geranium
B
Cu
Fe
Mn
Mo
Zn
Concentration (mM)
Cont 0.25 0.5 1 2 3 4 5 6
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E. Molybdenum (Mo)- Required for nitrate reductase activity, vitamin synthesis
Nitrate reductase
NO3- —————————————NH2
Mo
Root-nodule bacteria also requires Mo
- Deficiency: Pale green, cupped young leaves (Mo is immobile)
- Strap leaves in broad leaf plants
Occurs at low pH
- Toxicity: Chlorosis with orange color pigmentation
- Fertilizer: Sodium molybdate
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F. Copper (Cu)
- Essential component of several enzymes of chlorophyll synthesis, carbohydrate metabolism
- Deficiency: Rosette or ‘witch’s broom’
- Toxicity: Chlorosis
- Fertilizers: Copper sulfate (CuSO4)
G. Chlorine (Cl)- Involved for photosynthetic oxygen revolution
- Deficiency: Normally not existing (Only experimentally induced)
- Toxicity: Leaf margin chlorosis, necrosis on all leaves
- Fertilizer: Never applied
(Cl- is ubiquitous!)
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Molybdenum Deficiency on Poinsettia
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Five types of micronutrient deficiency symptoms
• Chlorosis – yellowing due to reduction of chlorophyll, uniform or interveinal – Fe, Zn, Mn, Mo.
• Necrosis – death of plant tissue – Mn, Cu.
• Lack of new growth or terminal growth resulting and rosetting – B
• Anthocyanin accumulation resulting in reddish color (phosphorus) – sometimes Zn, B
• Stunting with either normal or dark green color or yellowing – Mo, Zn.
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Fertilizer Analysis
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Commercial Analysis vs Elemental Analysis
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Fertilizer Rates and Concentrations
• British System
- lb/1000 ft2 (solid, field application)
- 1b/acre (solid, field application)
- oz/100 gallon (=75 ppm)
- pint/gallon
• Metric System
- kg/ha (solid, field application)
- parts per million (ppm)
- milli-molar (mM)
- Milli-equivalent per liter (meq/L)
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Molar (M) ConcentrationsWeight
mole = molecular weight (g)
mmole = 0.001 mole = molecular wt (mg)
µmole = 0.000,001 mole = molecular wt (µg)
Concentration
molar (M) = mole/liter
milli-molar (mM) = mmole/liter
micro-molar (µM) = µmole/liter
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To Make 50 gallon of 200 ppm N Solution
Concentration
1 ppm = 1 mg/liter
200 ppm = 200 mg/liter
Fertilizer Solution
Fertilizer: 20-20-20 N-P2O5-K2O
Amount/liter = 200 mg x 1/0.2 =1,000 mg = 1g
Amount/50 gal
1 g/liter x 3.8 liter/gal x 50 gal = 190 g
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Fertilizer Application
1. Preplant Application
-Lime, sulfur, superphosphate, gypsum,dolomite
2. Dry Application
- Fertilizers with solubility <20 g/100 ml
- Top dressing
- Do not apply lime with phosphorus
3. Liquid Feeding
- Use soluble fertilizers
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Fertilizer Application
Plant growth in influenced by a nutrient at lowest concentration as a denominator
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Amounts of Fertilizer Applied
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Fertilizer Application
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Liquid Feeding of Greenhouse Crops
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Use of Soluble Fertilizers
Peter’s 20-20-20 soluble fertilizer
Lack of soluble fertilizer in Mexico lowers the quality of crops grown in greenhouses
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Fertilizer Injector
A two-head Injector (proportioner) used for greenhouse crops
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Purification of Water
- Filtration
- Reverse Osmosis (RO water)
- Distillation (DI water)
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The Ebb-and-Flow System
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The Floor Irrigation System (Sub-irrigation)
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Crops Grown with Sub-Irrigation System