机译:生物炭增加土壤有机碳,鳄梨产量和经济返回超过4年的种植
School of Materials Science and Engineering University of New South Wales Sydney 2052 Australia;
Marron Brook Farm Manjimup 6258 Australia;
Warren Catchments Council 52 Bath St Manjimup 6258 Australia;
Wollongbar Primary Industries Institute NSW Department of Primary Industries 1243 Bruxner Highway Wollongbar 2477 Australia;
School of Materials Science and Engineering University of New South Wales Sydney 2052 Australia;
School of Materials Science and Engineering University of New South Wales Sydney 2052 Australia;
Electron Microscopy Centre Australian Institute for Advanced Materials Innovation Campus University of Wollongong North Wollongong NSW Australia;
School of Earth and Environmental Sciences University of Queensland St Lucia Brisbane Australia;
UWA School of Agriculture and Environment and The UWA Institute of Agriculture The University of Western Australia Perth WA 6009 Australia;
Avocado; Fruits; Growth; Mallee wood; Soil carbon; Profit;
机译:3.5年后生物炭,新鲜低分子量碳和土壤有机碳的相互作用 - 生物炭孵化
机译:申请后五年后生物炭增加了现场土壤无机碳含量
机译:Biochar和秸秆返回对2年来繁殖土壤和大豆生长的关键培养局限的影响
机译:烟气脱硫石膏在土地上的施用增加了作物的产量和经济效益并改善了土壤质量
机译:耕作,耕作制度和作物残茬对土壤中氮形态含量(有机组分,碳,培养,矿化-固定化,密歇根州)的含量和分布的影响。
机译:冬季覆盖作物很容易增加可分解的土壤碳但是在加利福尼亚州进行了八年的密集有机蔬菜生产后堆肥推动了土壤总碳
机译:6年后,土壤碳增加了两倍的生物炭碳的量:消极引发的现场证据