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机译:利用小麦玉米种植系统中的有源冠层传感器提高氮利用效率
International Center for Agro-Informatics and Sustainable Development College of Resources and Environmental Sciences China Agricultural University;
International Center for Agro-Informatics and Sustainable Development College of Resources and Environmental Sciences China Agricultural University;
Department of Agriculture Qingfeng Farm;
International Center for Agro-Informatics and Sustainable Development College of Resources and Environmental Sciences China Agricultural University;
International Center for Agro-Informatics and Sustainable Development College of Resources and Environmental Sciences China Agricultural University;
International Center for Agro-Informatics and Sustainable Development College of Resources and Environmental Sciences China Agricultural University;
College of Ecology and Environmental Science Inner Mongolia Agricultural University;
Department of Soil and Crop Sciences Colorado State University;
Precision Agriculture Center University of Minnesota;
International Center for Agro-Informatics and Sustainable Development College of Resources and Environmental Sciences China Agricultural University;
In-season nitrogen management; Precision agriculture; Nitrate leaching; Greenhouse gas emission; Sustainable development; Intensive agriculture;
机译:利用小麦玉米种植系统中的有源冠层传感器提高氮利用效率
机译:玉米-玉米双作体系下控释尿素与普通尿素结合提高氮素利用效率和产量
机译:集成的土壤-作物系统管理:在降低环境风险的同时提高作物的生产力并提高中国的养分利用效率
机译:基于Crop Circle主动冠层传感器的东北水稻精确氮素管理策略评估
机译:冬季大麦作为大西洋中部沿海平原的商品覆盖作物,并通过基因型评估了软红冬小麦的氮肥利用效率,并通过美国东部的冠层光谱反射率对氮肥利用效率进行了预测。
机译:基于遗传学的冠层光合作用动态系统模型:提高农作物光和资源利用效率的关键
机译:结束氮气利用效率差距,降低小麦玉米种植对大众,西北地区的小麦农场的环境影响