机译:评估水生宏观物质生物质的安全操作空间,以控制中国草型浅湖的陆百艺化
State Key Laboratory of Water Environment Simulation School of Environment Beijing Normal University Beijing 100875 China;
State Key Laboratory of Water Environment Simulation School of Environment Beijing Normal University Beijing 100875 China College of Chemistry and Material Science Heibei Normal University Shijiazhuang Hebei 050020 China;
State Key Laboratory of Water Environment Simulation School of Environment Beijing Normal University Beijing 100875 China;
State Key Laboratory of Water Environment Simulation School of Environment Beijing Normal University Beijing 100875 China;
State Key Laboratory of Water Environment Simulation School of Environment Beijing Normal University Beijing 100875 China;
State Key Laboratory of Water Environment Simulation School of Environment Beijing Normal University Beijing 100875 China;
State Key Laboratory of Water Environment Simulation School of Environment Beijing Normal University Beijing 100875 China;
Lake terrestrialization; Biomass; Aquatic macrophytes; Safe operating space; Shallow lakes;
机译:浅湖中富营养化控制活动的二次影响:2000年至2015年湖太湖水生宏观物质动力学的课程
机译:埋葬埋葬水生麦细胞(Vallisneria Natisss)在中国富营养浅湖中分解的微观
机译:中国大浅湖中水生麦细胞发展的水文和人为影响
机译:评估和预测Najas Flexilis(Willd.)Rostk的成功。 &Schmidt是一种罕见的欧洲水生宏观物质,与湖环境条件相关
机译:营养供应和放牧作为浅温带河口生态系统底栖大型植物生物量和群落结构的控制。
机译:富营养浅水湖泊中不同养分浓度下碎屑质量控制大型植物分解
机译:在中国北方富营养化的浅湖中,碎屑质量控制不同养分浓度下的大型植物分解。
机译:监测以评估实现马萨诸塞州阿萨贝特河磷的总日最大负荷 - 水生植物生物量和沉积物 - 磷通量的进展。