机译:空气增温和CO_2富集提高了中国双季稻种植系统中的氮素利用效率并减少了氮素过剩。
Institute of Environment and Sustainable Development in Agriculture Chinese Academy of Agricultural Sciences/Key Laboratory of Agricultural Environment Ministry of Agriculture and Rural Affairs Beijing 100081 China;
Plant Protection Institute Inner Mongolia Academy of Agricultural and Animal Husbandry Sciences Hohhot Inner Mongolia 010031 China;
South China Botanical Garden Chinese Academy of Sciences Guangzhou 510650 China;
College of Resources and Environmental Sciences China Agricultural University. Beijing 100193 China;
College of Agriculture Yangtze University Jingzhou 434025 China;
Warming; CO_2 enrichment; N uptake; N translocation; N surplus; N use efficiency;
机译:豆科覆盖作物黄芪石霉通过在中国南方密集的双种植水稻系统中增加分蘖来增强谷物产量和氮气利用效率
机译:中国双稻作物系统升高[CO2]升高屈服形成2摄氏度的可变效应
机译:南方双稻田种植制度中优化的氮气管理降低氮剩余和环境损失
机译:空气中CO_2富集(FACE)刺激水稻生长并降低稻草质量
机译:单一中期排水事件减少加州水稻系统中的全球变暖潜力,而不会牺牲谷物产量
机译:中国双季稻田不同水管理策略对全球净增温潜势和温室气体强度的影响
机译:实验升温降低了双稻田种植系统中的肥料氮利用效率