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机译:36岁以下的富有植物丰富的秸秆应用和地下水位管理影响了稻田的土壤植物硅循环
Tianjin Univ Sch Earth Syst Sci Inst Surface Earth Syst Sci Tianjin 300072 Peoples R China;
Tianjin Univ Sch Earth Syst Sci Inst Surface Earth Syst Sci Tianjin 300072 Peoples R China;
Hunan Normal Univ Fac Resource &
Environm Sci Changsha 410081 Peoples R China;
Tianjin Univ Sch Earth Syst Sci Inst Surface Earth Syst Sci Tianjin 300072 Peoples R China;
Hunan Agr Univ Coll Resources &
Environm Changsha 410128 Peoples R China;
New South Wales Dept Primary Ind 1243 Blunter Highway Wollongbar NSW 2477 Australia;
Chinese Acad Agr Sci Inst Agr Resources &
Reg Planning Key Lab Crop Nutr &
Fertilizat Beijing 100081 Peoples R China;
Minist Nat Resources Inst Oceanog 1 6 Xianxialing Rd Qingdao 266061 Peoples R China;
Linnaeus Univ Dept Biol &
Environm Sci S-39182 Kalmar Sweden;
Foshan Univ Sch Environm &
Chem Engn Foshan 528000 Guangdong Peoples R China;
Straw return; Hydragric Anthrosols; Rice; Phytolith; Silicon bioavailability; Subtropical China;
机译:36岁以下的富有植物丰富的秸秆应用和地下水位管理影响了稻田的土壤植物硅循环
机译:基于稻草秸秆还田和水管理措施的单作稻田土壤碳平衡基于土壤氧化还原势。
机译:稻田中的硅循环:表土中硅形态与植物硅吸收之间的关系提供了见解
机译:地下水管理对稻田地表水水质和水稻生长的综合影响
机译:沿海新英格兰化粪池系统排水领域:地下水位和温室气体循环动力学
机译:土壤植物系统中36CL建模:一种现象学方法及其在放射性废物深层储存场地地下水中排出36CL的应用