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机译:硫封存在营养限制期间促进多细胞性
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Univ Freiburg Fac Med Inst Biochem & Mol Biol ZMBZ Freiburg Germany|Univ Freiburg Fac Biol Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Univ Bonn Fac Med Inst Biochem & Mol Biol Bonn Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany;
Max Planck Inst Immunobiol & Epigenet Freiburg Germany|Johns Hopkins Univ Bloomberg Kimmel Inst Canc Immunotherapy Johns Ho Baltimore MD 21218 USA;
机译:木质侵蚀减少了养分限制并促进了土壤固碳
机译:模拟1900-2050年间欧洲的氮沉降,气候变化和养分限制对树木固碳的影响
机译:共限制和化学计量捕获氮和硫对玉米产量和营养利用效率的相互作用
机译:硫封存的工程选择:副产品副产能
机译:有管理和无管理森林生态系统中养分限制和养分获取的机制。
机译:木质侵蚀减少了养分限制并促进了土壤碳固存
机译:营养限制或家庭领域优势:微生物群落适应是否克服热带泥炭地垃圾分解的养分限制?