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机译:微塑料:异养活动的新基质有助于改变水生生态系统中的有机物质循环
Leibniz Institute of Freshwater Ecology and Inland Fisheries (IGB), Dept. Experimental Limnology,Potsdam University, Inst. of Biochemistry and Biology,Central American Institute for Studies on Toxic Substances (IRET), Universidad Nacional;
Leibniz Institute of Freshwater Ecology and Inland Fisheries (IGB), Dept. Experimental Limnology,Potsdam University, Inst. of Biochemistry and Biology;
Institute of Oceanography, National Taiwan University,Research Center for Environmental Changes, Academia Sinica;
Leibniz Institute of Freshwater Ecology and Inland Fisheries (IGB), Dept. Experimental Limnology,Potsdam University, Inst. of Biochemistry and Biology;
Microplastics; Microorganisms; Biofilms; Total biomass; Heterotrophic activity; Functional diversity; Multi-functionality index;
机译:土壤有机质研究的范式转变影响了水生碳循环的解释:超越学科和生态系统的界限。
机译:微型塑料改变水生生态系统的真菌社区组成
机译:溶解的有机物不会促进自异养水生微生物群落中的草甘膦降解
机译:汞络合汞与占用水生生态系统分离的溶解有机物
机译:水生生态系统生物可利用溶解有机物的分子探索
机译:土壤有机碳增加引起的氮循环对小麦农业生态系统中的生态系统服务有正负贡献。
机译:增加土壤有机碳的氮循环对小麦农业生态系统的生态系统服务有积极和消极作用