Use of excess fertilizers tend to cause: (i) Mineral loading of underground water. (ii) Excess minerals in the crop plants. (iii) Salinization of soil. (iv) Run off from fertilizers rich soil, will cause eutrophication of water bodies
Use of excess fertilizers tend to cause:
(i) Mineral loading of underground water.
(ii) Excess minerals in the crop plants.
(iii) Salinization of soil.
(iv) Run off from fertilizers rich soil, will cause eutrophication of water bodies
Organic matter forms humus. It is essential for crop production because it makes the soil fertile. matter Organic has the following advantages: (i) It improves soil structure by forming soil crumbs. (ii) It increases water holding capacity of sandy soils. (iii) It improves aeration of clayey soils.Read more
Organic matter forms humus. It is essential for crop production because it makes the soil fertile. matter Organic has the following advantages:
(i) It improves soil structure by forming soil crumbs.
(ii) It increases water holding capacity of sandy soils.
(iii) It improves aeration of clayey soils.
(iv) During its decomposition, it liberates minerals (inorganic molecules) which enrich the soil.
(v) Biochemicals present in decaying organic matter improve growth of crop plants.
GM or genetically modified crop is the one which has been developed through introduction of some specific genes from other sources, e.g., insect resistant Bt cotton (being grown in India), vitamin A rich Golden rice.
GM or genetically modified crop is the one which has been developed through introduction of some specific genes from other sources, e.g., insect resistant Bt cotton (being grown in India), vitamin A rich Golden rice.
Why is use of excess fertilizers detrimental for environment?
Use of excess fertilizers tend to cause: (i) Mineral loading of underground water. (ii) Excess minerals in the crop plants. (iii) Salinization of soil. (iv) Run off from fertilizers rich soil, will cause eutrophication of water bodies
Use of excess fertilizers tend to cause:
See less(i) Mineral loading of underground water.
(ii) Excess minerals in the crop plants.
(iii) Salinization of soil.
(iv) Run off from fertilizers rich soil, will cause eutrophication of water bodies
Why is organic matter important for crop production?
Organic matter forms humus. It is essential for crop production because it makes the soil fertile. matter Organic has the following advantages: (i) It improves soil structure by forming soil crumbs. (ii) It increases water holding capacity of sandy soils. (iii) It improves aeration of clayey soils.Read more
Organic matter forms humus. It is essential for crop production because it makes the soil fertile. matter Organic has the following advantages:
See less(i) It improves soil structure by forming soil crumbs.
(ii) It increases water holding capacity of sandy soils.
(iii) It improves aeration of clayey soils.
(iv) During its decomposition, it liberates minerals (inorganic molecules) which enrich the soil.
(v) Biochemicals present in decaying organic matter improve growth of crop plants.
List out some useful traits in improved crop?
(i) Higher yield (ii) Improved quality; (iii) Resistance to biotic and abiotic stresses; (iv) Change in maturity; (v) Wider adaptability; (vi) Desirable agronomic trait.
(i) Higher yield
See less(ii) Improved quality;
(iii) Resistance to biotic and abiotic stresses;
(iv) Change in maturity;
(v) Wider adaptability;
(vi) Desirable agronomic trait.
What is GM crop? Name any one crop which is grown in India.
GM or genetically modified crop is the one which has been developed through introduction of some specific genes from other sources, e.g., insect resistant Bt cotton (being grown in India), vitamin A rich Golden rice.
GM or genetically modified crop is the one which has been developed through introduction of some specific genes from other sources, e.g., insect resistant Bt cotton (being grown in India), vitamin A rich Golden rice.
See lessFollowing are a few definitions of osmosis. Read carefully and select the correct definition.
(a) movement of water molecules from a region of higher concentration to a region of lower concentration through a semipermeable membrane.
(a) movement of water molecules from a region of higher concentration to a region of lower concentration through a semipermeable membrane.
See less