1 / 15

Micronutrient Chemistry and Management

Micronutrient Chemistry and Management. Introduction Role of Micronutrients Cycling of Micronutrients Sources of Micronutrients Deficiency versus Toxicity Management of Micronutrients. Introduction.

meghana
Télécharger la présentation

Micronutrient Chemistry and Management

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Micronutrient Chemistry and Management Introduction Role of Micronutrients Cycling of Micronutrients Sources of Micronutrients Deficiency versus Toxicity Management of Micronutrients

  2. Introduction • Of the 18 elements known to be essential for plant growth, nine are required in such small quantities that they are called micronutrients • Iron (Fe), manganese (Mn), zinc (Zn), nickel (Ni), copper (Cu), boron (B), molybdenum (Mo), cobalt (Co), and chlorine (Cl). • Animals including humans also require most of these elements in their diets.

  3. Introduction • The term micronutrient or trace elements do not imply that these elements are somehow less important than the macronutrients • In fact, the effects of micronutrients deficiency can be very severe in terms of stunted growth, low yields, etc. • When micronutrients are needed, small quantities produce dramatic results • Most micronutrients come from soil parent materials. All micronutrients are found in varying quantities in igneous rocks.

  4. Interest in Micronutrient Chemistry • Intensive plant production practices have increased crop yields, resulting in more removal of micronutrients from soil. • Use of high analysis fertilizers has reduced use of impure salts and organic manures which formally supplied some micronutrients. • Better analytical methods of plant nutrition are helping to diagnose micronutrient deficiencies that may have been unnoticed. • In some cases, food grown on soils with low levels of trace elements provide insufficient human dietary levels of certain elements that the crops show no signs of. • Problems of toxicity due to oversupply of elements.

  5. Role of Micronutrients • Micronutrients play very complex roles in plant nutrition • E.g., Participate in the functioning of several enzyme systems • But their specific functions in plant & microbial growth processes varies. (See Table) • Cu, Fe, Mo, act as electron carriers in enzyme systems • Zn, Mn act as bridges between enzymes and their substrates • Mo, Mn, are needed for N transformations • Ni is a component of urease • Zn is needed in protein synthesis • See Table for details

  6. Deficiency & Toxicity of Micronutrients • At low levels of a nutrient, deficiency and reduced plant growth may occur (deficiency range). • As the level of nutrient is increased, plants respond by taking more of the nutrients and increasing their growth. • If the level of nutrients is sufficient to meet plant needs (sufficiency range), raising the level further will have little effect in plant growth. • At some level of availability, the plant will take up too much of the nutrient for its own good (toxicity range) causing adverse physiological reactions to occur (see graph)

  7. Deficiency Versus Toxicity

  8. Micronutrients Cycling in Soils Plant and animal residues/wastes Minerals and precipitates (oxides, silicates, sulfides, etc) Ions in soil solution Chelates in soil solution Soil organisms Soil organic matter Adsorbed on clay and humus colloids Drainage water

  9. Source of Micronutrients • Parent materials influence the micronutrient content of soils • Deficiencies and toxicities of micronutrients may be related to: • The total contents of the elements in the parent rocks • The chemical forms of the elements in the rock • Solubility and availability of the elements • Forms of Micronutrients • Inorganic forms –silicates, oxides, sulfides, etc • Organic forms –complexes of humus and the elements

  10. Conditions under which micronutrients my be limiting: • Highly leached acid sandy soils • Organic soils • Soils that have been intensively cropped and fertilized with macronutrients • Soils very high in pH (except for Mo) • Eroded soils • Parent materials

  11. Conditions under which micronutrients may be toxic: • soils low in pH (except for Mo) • soils with freshly exposed 1° minerals containing these or other heavy metals • mine tailings (because of a & b) • Other inorganic reactions

  12. Soil Management and Micronutrient Needs

  13. Soil Management and Micronutrient Needs • Always keep in mind the conditions under which micronutrient deficiencies and toxicities are likely to occur • Changes in soil acidity • Soil moisture • Fertilizer applications • Plant selection and breeding

More Related