机译:提高土壤养分的利用率增加了玉米和大豆在Mollisols下的碳根际沉积
International Center for Ecology, Meteorology and Environment (IceMe), Nanjing University of Information Sciences & Technology, No. 219 Ningliu Road, Nanjing210044, China;
International Center for Ecology, Meteorology and Environment (IceMe), Nanjing University of Information Sciences & Technology, No. 219 Ningliu Road, Nanjing210044, China;
National Observation Station of Hailun Agro-ecology System, Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Harbin 150081, China;
International Center for Ecology, Meteorology and Environment (IceMe), Nanjing University of Information Sciences & Technology, No. 219 Ningliu Road, Nanjing210044, China;
Department of Animal Plant & Soil Sciences, Centre for AgriBioscience, la Trobe University (Melbourne Campus), Bundoora, Vic 3086, Australia;
Assimilates; C allocation; ~(13)C labelling; Long-term fertilization; Organic amendment; Soil organic carbon;
机译:树根状沉积对亚高山森林生态系统土壤外酶活性,溶解性有机碳和养分有效性的影响
机译:树状根除对亚高山森林生态系统土壤外酶活性,溶解性有机碳和养分有效性的影响
机译:在热带酸土壤上培养土壤秸秆堆肥,改善土壤秸秆堆肥的无机肥料,以改善土壤养分可用性,营养吸收和干物质生产
机译:南非夸祖鲁 - 南非普拉鲁 - 纳塔尔的三种对比土壤玉米生长的养分可用性
机译:玉米/大豆和玉米/水稻间作中的竞争和磷响应与不同环境中土壤磷有效性的关系分析。
机译:北极苔原土壤中养分利用率的提高刺激了碳降解酶的活性
机译:北极苔原土壤中养分有效性增加刺激碳降解酶活性。