中文摘要：

湿地是世界上具有独特结构与功能的生态系统，图们江流域湿地生态系统的健康对该区乃至东北亚地区综合生态系统网络的建设具有重要意义。选择图们江流域下游为研究区，基于压力．状态一响应（PSR）模型，在压力系统、状态系统、响应系统三个层面选取30个指标构建了图们江下游湿地生态系统健康评价指标体系，运用层次分析法和多级模糊综合评判法对研究区湿地生态健康状况进行综合评价，其结果为0．5878，处于亚健康状态。其中，压力系统的健康指数为0．5292，响应系统的健康指数为0．6866，状态系统的健康指数为0．5116，各等级隶属度S=（16．83％，25．37％，16．76％，16．97％，24．07％）。主要表现在研究区域湿地的补水水质差，导致湿地水质污染加重，富营养化现象严重；并且由于人为因素，湿地大面积退化，景观破碎化加剧，功能逐渐丧失，生产力水平下降；急需对本区域湿地进行保护与管理。

英文摘要：

Wetlands, forests and oceans form the three global ecosystems. Wetlands are the natural integration of aquatic and semi-aquatic organisms in a wet environment, and they have a unique structure and function. Wetlands are an important natural resource and one of the most important environments for humans. They not only offer the resources necessary for human survival but also play an important role in ameliorating weather conditions, flood storage, and the control and reduction of environmental pollution. Wetlands have thus been called the ＂kidney of the earth＂. However, due to increased human activities and lack of understanding of the functions and values of wetlands, most wetlands have been unsustainably exploited and/or destroyed in the last few decades. From the start of human civilization, wetlands have been targets of land development. Reclaiming land from lakes and large-scale agricultural development in wetlands causes tremendous change in wetland landscapes and results in serious environmental problems. Such problems have finally drawn our attention to the value of these ecosystems. Increasingly, research has investigated the relationships between human activities and changes in wetland landscape patterns and the climate. The health of the Tumen River region wetland ecosystem is locally and regionally important in Northeast Asia. In this paper, we summarize the current health conditions of national and international wetland eco-systems, and establish an evaluation system for ecological health, suitable for the wetland ecosystem of the lower reaches of the Tumen River. In this system, a health assessment index for wetland ecosystems is constructed based on five health stage criteria： primary health; health; secondary health; general sickness and disease, and by combining wetland characteristics using pressure-status-response models. The system is divided into three item layers and eight factor layers, with 30 indicators in total, and provides quantitative standard values for each indicator. The inde