Land Use and Agri-Production Analysis: A Case Study in Western Uttar Pradesh

D. Chakraborty, K.H. Kamble, R.N. Garg, Ravender Singh, P. Aggarwal, Ranjeet Kaur
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Abstract

The study pertains to the characterization of Meerut, Muzaffarnagar and Saharanpur district of western Uttar Pradesh in terms of soil, climate and land use. Based on soil and climate, homogeneous agro-ecological units were developed for these regions and the agri-technical possibilities of improving the productivity of major crops were studied. For land use, IIRS-1D LISS III and IRS P6 LISS III of both rabi and kharif season of 1998 and 2008 were used and the homogenous units were developed by using ArcGIS. Seventy eight agro-ecological units were identified. Satellite data shows an overall 5.31% decrease in double cropped area with increase in permanent fallow by 2.57% . Shift of land from agricultural to non-agricultural uses were 4.41% in which conversion of agricultural land to built-up areas has been estimated as 2.89 per cent. The yield gaps (potential-current) of rice, wheat, maize and sugarcane for each agro-ecological units (AAU) were calculated. Water and NPK fertilizer requirement for bridging these gaps were estimated.
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土地利用与农业生产分析:以北方邦西部为例
该研究涉及北方邦西部密鲁特、穆扎法纳格尔和萨哈兰普尔地区在土壤、气候和土地利用方面的特征。根据土壤和气候,为这些地区开发了同质的农业生态单元,并研究了提高主要作物生产力的农业技术可能性。土地利用利用了1998年和2008年旱季和秋季的IIRS-1D LISS III和IRS P6 LISS III,并利用ArcGIS开发了同质单元。确定了78个农业生态单元。卫星数据显示,两季种植面积总体减少5.31%,永久休耕面积增加2.57%。从农业用地向非农业用地的转移占4.41%,其中农业用地向建成区的转化估计为2.89%。计算了每个农业生态单位(AAU)的水稻、小麦、玉米和甘蔗的产量缺口(潜在电流)。估计了填补这些缺口所需的水分和氮磷钾肥料。
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来源期刊
Journal of Water and Environmental Nanotechnology
Journal of Water and Environmental Nanotechnology Materials Science-Materials Science (miscellaneous)
CiteScore
2.40
自引率
0.00%
发文量
0
审稿时长
8 weeks
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