机译:在再生水灌溉下发现最佳肥料类型和平衡产量和土壤温室气体排放量
College of Water Resources & Civil Engineering China Agricultural University No. 17 Tsinghua East Road Haidian District 100083 Beijing China;
College of Water Resources & Civil Engineering China Agricultural University No. 17 Tsinghua East Road Haidian District 100083 Beijing China;
College of Water Resources & Civil Engineering China Agricultural University No. 17 Tsinghua East Road Haidian District 100083 Beijing China;
College of Water Resources & Civil Engineering China Agricultural University No. 17 Tsinghua East Road Haidian District 100083 Beijing China;
Reclaimed water; Fertilizer; GHG; Yield; DNDC;
机译:不同灌溉水类型,氮肥类型和土壤水分含量对土壤N2O排放和氮肥转化的影响
机译:水分状况影响不同肥料类型下土壤N2O排放和番茄产量
机译:规定您的水量:可变灌溉率适用于土壤类型,地形和产量目标
机译:再生水灌溉不同氮肥对土壤温室气体排放的影响
机译:评估土壤型和流动路径,以植被雨水控制措施中渗透和蒸散的最佳平衡,实现最大体积和污染物去除
机译:土壤水分缺陷和肥料放置对根生物质分布土壤水萃取用水产量和大豆产量组分的影响
机译:水分状况影响不同类型肥料下土壤N2O排放和番茄产量