Plant Nutrition Summary (Nutrients) PDF

Summary

This document provides a summary of plant nutrition, listing essential macro and micronutrients, their forms, percentages in plant tissue, major roles, and deficiency/toxicity symptoms. It may be useful for students of botany, agriculture, or related fields.

Full Transcript

Element Form Available % Mass in Major Function Deficiency symptoms
Macronutrients to Plants Dry Tissue

Carbon CO2 45% Major component of plant's -
organic compounds

Oxygen CO2 45% Major component of plant's -
organic compounds

Hydrogen H2O 6% Major component of plant's -
organic compounds

Nitrogen NO3- , NH4+ 1.5% Component of nucleic acids, -Reduced growth
(Nitrate) & (ammonia). proteins, hormones, -Yellowing of old leaves
chlorophyll, coenzymes
-Highly mobile

Potassium K+ 1.0% Cofactor that functions in protein -Leaf margin necrosis/
synthesis; major hard cracking and
solute functioning in water browning {Older
balance; operation of stomata leaves more effected }

Calcium Ca2+ 0.5% Important in formation and -Stunted growth, leaf
stability of cell walls and in distortion, necrotic
maintenance of membrane spots, shoot tip death
structure and permeability: -Blossom-end rot in
activates some enzymes; regulates tomato
many responses of
cells to stimuli
-Immobile
- needed during the formation of
mitotic spindle (chloroplast)
Magnesium Mg2+ 0.2% Component of chlorophyll; -Interveinal chlorosis
activates many enzymes on mature leaves
- Highly mobile

Phosphorus phosphate ions 0.2% Component of nucleic acids, - dark, purplish color
(either as H2PO4 − phospholipids, ATP, on older leaves
or HPO42− ). several coenzymes

Sulfur sulphate (SO42− ) 0.1% Component of proteins, light green or
coenzymes yellowing on new
-Immobile growth

If any plant gets less than the treshholed limit → effect deficiency
Element Form Available % Mass in Major Function Toxicity
Macronutrients to Plants Dry Tissue

Iron Fe3+, Fe2+ 0.01% Component of cytochromes; Iron chlorosis develops
activates some enzymes when soil pH is high

Manganese Mn2+ 0.005% Active in formation of amino - Chlorosis on new
(Mn) acids; activates some growth with small,
enzymes; required for water- numerous dark spots
splitting step of -Deficiency occurs at
photosynthesis high pH
-Toxicity occurs at low
pH

Boron H2BO3- 0.002% Cofactor in chlorophyll synthesis; - Twig die back, fruit
may be involved in splitting, leaf edge
carbohydrate transport and nucleic burns
acid synthesis; role
in cell wall function

Zn2+ 0.002% Active in formation of - (occurs at low pH)
Zinc chlorophyll; activates some Growth reduction, leaf
enzymes chlorosis

Molybdenum MoO4 2-