Analyzing the Soil Fertility in Uttar Pradesh with Special Reference to Meerut District
Impacts of Soil Fertility on Agricultural Productivity and Environmental Sustainability
Keywords:
soil fertility, Uttar Pradesh, Meerut District, agricultural productivity, agro-financial situation, NPK, FYM, Azotobactor, Zn, Mn, Fe, sustainability, semi-parched, sub-tropical sandy topsoil, air temperatures, organic matter, soil processes, fertilizer use, environmental risk, plant nutrients, carbon, nitrogen, phosphorus, potassium, sulfur, greenhouse gas emissionsAbstract
Soil is the central vehicle of plant development for giving supplements in sufficient way. At the beginning of the human progress, agribusiness based sedentary civilizations have been experienced childhood in rich soil of the waterway. After some time, with the expansion of population and food request, strategies for agribusiness and weight on soil have been quicken at the same time as a result of mismanagement of soil fertility. Declining soil fertility has turned into a danger in agricultural productivity and agro-financial situation. Joining of 100 NPK + FYM + Azotobactor + Zn + Mn + Fe discovered greater productivity and remvaerative with the higher residual soil fertility status after wheat crop. In light of the examination, 100 NPK + FYM + Azotobactor + Zn+ Mn+ Fe could be recommend for accomplishing most extreme wheat crop productivity and sustainability of soil under semi-parched and sub-tropical sandy topsoil. Higher air temperatures will likewise be fell in the soil, where hotter conditions are probably going to speed the normal disintegration of natural issue and to expand the rates of other soil forms that influence fertility. Extra utilization of compost might be expect to neutralize these procedures and to exploit the potential for improved crop development that can result from expanded atmospheric CO2. This can come at the cost of environmental hazard, for extra utilization of synthetic substances may affect water and air quality. The ceaseless cycling of plant supplements – carbon, nitrogen, phosphorus, potassium, and sulfur – in the soil-plant-atmosphere framework is likewise liable to quicken in hotter conditions, upgrading CO2 and N2O greenhouse gas discharges.
Published
2018-05-01
How to Cite
[1]
“Analyzing the Soil Fertility in Uttar Pradesh with Special Reference to Meerut District: Impacts of Soil Fertility on Agricultural Productivity and Environmental Sustainability”, JASRAE, vol. 15, no. 3, pp. 389–394, May 2018, Accessed: Jul. 17, 2024. [Online]. Available: https://ignited.in/jasrae/article/view/8104
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Articles
How to Cite
[1]
“Analyzing the Soil Fertility in Uttar Pradesh with Special Reference to Meerut District: Impacts of Soil Fertility on Agricultural Productivity and Environmental Sustainability”, JASRAE, vol. 15, no. 3, pp. 389–394, May 2018, Accessed: Jul. 17, 2024. [Online]. Available: https://ignited.in/jasrae/article/view/8104
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