机译:通过有机耕种增强的根碳分配仅限于表土
Agroscope Agroecology and Environment Reckenholzstrasse 191 CH-8046 Zurich Switzerland;
Agroscope Agroecology and Environment Reckenholzstrasse 191 CH-8046 Zurich Switzerland;
Agroscope Agroecology and Environment Reckenholzstrasse 191 CH-8046 Zurich Switzerland;
Agroscope Plant Production Systems Route de Duillier 50 CH-1260 Nyon Switzerland University of Greenwich Natural Resources Institute Central Avenue UK-ME4 4TB Chatham United Kingdom of Great Britain and Northern Ireland;
Agroscope Agroecology and Environment Reckenholzstrasse 191 CH-8046 Zurich Switzerland Swedish University of Agricultural Sciences Department of Soil and Environment Box 7014 SE-750 07 Uppsala Sweden;
Agroscope Agroecology and Environment Reckenholzstrasse 191 CH-8046 Zurich Switzerland University of Zurich Department for Plant and Microbial Biology CH-8057 Zurich Switzerland Utrecht University Plant-Microbe Interactions Department of Biology NL-3508 TB Utrecht the Netherlands;
Agroscope Agroecology and Environment Reckenholzstrasse 191 CH-8046 Zurich Switzerland;
Root carbon inputs; Farming system; Agricultural management; On-farm study; Root biomass distribution; Subsoil;
机译:草根直接吸收有机衍生碳并分配在叶片和植石中: 13 sup> C标记证据
机译:草根直接吸收有机衍生碳并分配在叶片和植石中: 13 sup> C标记证据
机译:通过草根和叶片和植物分配直接摄取有机源性碳:C-13标记证据
机译:与有机养殖条件下的重要使用的砧木在梨上的梨树上的测试,特别关注火灾(E.Amylovora)
机译:与环境条件相关的树木碳分配到根,枝叶和防御系统的策略模型。
机译:对Leifeld等人的答复:有机耕作下增加的表层土壤碳储量并不等于减缓气候变化
机译:草根直接吸收有机衍生碳并分配在叶子和植石中:13C标记证据