Yellow River Institute of Hydraulic Research,YRCC,Zhengzhou 450003, China;
Department of Hydraulic and Hydropower Engineering, Tsinghua University , Beijing 100084 , China;
Department of Hydraulic and Hydropower Engineering, Tsinghua University , Beijing 100084 , China;
Department of Hydraulic and Hydropower Engineering, Tsinghua University , Beijing 100084 , China;
Department of Hydraulic and Hydropower Engineering, Tsinghua University , Beijing 100084 , China;
Department of Hydraulic and Hydropower Engineering, Tsinghua University , Beijing 100084 , China;
plantation; community structure; plant diversity; erosion control ability;
机译:整合生态与生物工程技术以控制山区严重侵蚀的指南-以中国小江流域为例
机译:自上次冰消期以来三个内陆流域千禧年规模的侵蚀率及其控制因素
机译:致密储层微孔结构对渗流能力的控制作用-以鄂尔多斯东部盆地上古生界为例
机译:小江排水盆地不同种植园社区结构及侵蚀控制能力研究
机译:西伊利湖流域农业地下排水水质特征及控制排水
机译:程序性因素与依维菌素社区定向治疗对西南喀麦隆三个流域控制盘尾丝虫病影响有限
机译:整合生态和生物工程技术控制山区严重侵蚀的指南 - 以中国小江流域为例
机译:侵蚀控制结构对沉积物和养分迁移的影响,Edgewood Creek排水,内华达州太浩湖盆地,1981-83