Effect of Crop Rotation, Soil Temperature and Soil Moisture on CO 2 Emission Rate in Indo-Gangetic Plains of India

M. Srivastava, Shashank Sharma, M. Kudrat
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引用次数: 3

Abstract

Carbon dioxide (CO2) efflux from soil is one of the very important components of global carbon cycle and climate change. Land use and climate are the major factors that influence the rate of CO2 efflux. The present study was undertaken to evaluate the monthly variation in rate of CO2 efflux and its correlation with soil temperature and soil moisture in agricultural lands under different crops and crop rotations in part of Indo-Gangetic plain in India. The Indo-Gangetic plain covers 13% geographical area of the country and produces 50% of the total food grain of the country. The agricultural lands are cultivated for variety of crops including, Oryza sativa (Paddy), Triticum aestivum (Wheat), Zea mays (Maize), Brassica herta (Mustard), Trifolium alexamdrinum (Barseem), Sorghum bicolor (Jowar), Sachharum officinarum (Sugarcane) and several pulses and vegetables. The average annual CO2 emission rate ranged between 0.56 g m -2 h -1 (wheat -fallow- paddy) and 0.75 g m -2 h -1 (jowar-barseem) with a mean value of 0.64 g m -2 h -1 . The standard deviation varied from 0.06 to 0.25 and the standard error varied from 0.02 to 0.03. Wheat crop combinations (wheat-fallow-paddy, wheat-fallow, wheat-maize, wheat-pulses, wheat-sugarcane, wheat-jowar, and wheat-vegetable) showed relatively lower values of average annual CO2 emission rate whereas highest emission rates were found in vegetable crops. During monsoon months the rate of CO2 emis- sion from soil was higher due to favorable moisture and temperature conditions, while in winter the same was observed minimum in all the crops. The study leads to infer that crop, crop rotation and soil temperature and moisture have significant effect on soil CO2 emission.
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轮作、土壤温度和土壤湿度对印度恒河平原co2排放速率的影响
土壤排放的二氧化碳是全球碳循环和气候变化的重要组成部分之一。土地利用和气候是影响CO2外排速率的主要因素。本研究旨在评估印度部分印度河-恒河平原不同作物和作物轮作下农业用地CO2外排速率的月变化及其与土壤温度和土壤湿度的相关性。印度恒河平原占全国13%的地理面积,生产全国50%的粮食。农业用地种植各种作物,包括稻谷、小麦、玉米、芥菜、三叶草、高粱、甘蔗和几种豆类和蔬菜。年平均CO2排放量在0.56 g m -2 h -1(小麦-休耕-水稻)和0.75 g m -2 h -1(小麦-休耕-水稻)之间,平均值为0.64 g m -2 h -1。标准偏差为0.06 ~ 0.25,标准误差为0.02 ~ 0.03。小麦组合(小麦-休耕-稻谷、小麦-休耕、小麦-玉米、小麦-豆类、小麦-甘蔗、小麦-玉米和小麦-蔬菜)的年平均CO2排放量相对较低,而蔬菜作物的年平均CO2排放量最高。在季风月份,由于有利的湿度和温度条件,土壤的二氧化碳排放率较高,而在冬季,所有作物的二氧化碳排放率都最低。研究表明,作物、作物轮作和土壤温湿度对土壤CO2排放有显著影响。
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