基于陆地-水生态系统耦合的海河流域水生态功能分区

Abstract

PDF HTML阅读 XML下载 导出引用 引用提醒 基于陆地-水生态系统耦合的海河流域水生态功能分区 DOI: 10.5846/stxb201705190925 作者: 作者单位: 作者简介: 通讯作者: 中图分类号: 基金项目: 科技部国家重点研发计划项目（2016YFC0503001）；国家重点实验室自主项目（SKLURE2017-1-3） Coupling terrestrial and aquatic ecosystems to regionalize eco-regions in the Haihe River Basin, China Author: Affiliation: Fund Project: 摘要 | 图/表 | 访问统计 | 参考文献 | 相似文献 | 引证文献 | 资源附件 | 文章评论 摘要:水生态功能分区是针对水生态系统特征的陆地生态系统划分，是为流域水生态管理提供生态背景和基本单元。陆地-水生态系统的耦合是水生态功能分区的核心，但多停留在个别小流域进行理论探讨，大型流域的实际案例较少。针对海河流域独特的气候、地貌、水文和人类活动特征，提出了水生态功能分区的三级指标体系。一级二级区针对气候、地貌、水文背景进行"自上而下"的分区，三级区针对人类活动对水资源、水环境、生境影响，采用"自下而上"的分区方法。最终，海河流域划分了6个一级区、16个二级区和73个三级区。研究充分体现了"以水定陆、以陆控水"的基本原则，以及"自下而上"和"自上而下"分区方法的优点，结果可为海河流域水生态管理提供科学依据，为水资源空间调配与合理利用、产业结构布局与区域协调等服务。 Abstract:It is important to assess the aquatic ecosystem in large-scale basins when considering complicated influential factors of anthropogenic activities on these ecosystems. Watershed management needs more information on ecological function and services in large regions. Spatial units are particularly important for the watershed management. Eco-regions are effective solutions to integrate the terrestrial and aquatic ecosystems. Many studies have been focused on several local watersheds. However, few studies have been implemented on the correlations between the terrestrial and aquatic ecosystems in large-scale watersheds. For a case study, we selected the Haihe River Basin to investigate the methods and indicators of the aquatic eco-regions. This study was conducted to assess the river ecosystem in the Haihe River Basin by sampling 249 river sites during the pre-and post-rainy seasons from 2013 to 2015. Water sampling and sample preservation were conducted in accordance with Chinese national experimental standards. Macroinvertebrates were collected from each sampling site at the same time as water sampling. The sampling method for macroinvertebrates was based on rapid bioassessment protocols. After identifying the spatial characteristics of terrestrial and fluvial landscapes, we proposed some guidelines and criteria for regionalizing the terrestrial and aquatic ecosystems in the Haihe River Basin. Three levels of eco-regions were used to differentiate the terrestrial and aquatic ecosystems. The first and second levels of eco-regions were identified using "top-down" methods. The regionalization indicators included climate, topography, vegetation, and soil. Six first-level and 16 second-level eco-regions were regionalized in this region. These eco-regions could be used to guide land use planning and ecological management. The third-level eco-regions were identified using "bottom-up" methods. The regionalization indicators included water consumption of production and living, pollutant discharge, watershed geometry, landscape pattern, land use, and river types. The resulting 73 eco-regions were obtained by coupling the administrative boundaries and second-level eco-regions. Finally, the eco-regions were evaluated by field survey data including water quality, aquatic vegetation, and aquatic communities. The significance level of the correlations exhibited the influence of terrestrial indicators on the aquatic ecosystem. The third-level eco-regions can be used to direct the land use planning for specific socioeconomic activities, water resources, and pollutant loads. These eco-regions identify priority areas for ecological restoration and aquatic life protection. This study shows how different data sets can be used to regionalize eco-regions and what specific factors should be included in the indicator system. The results can potentially be used to improve the ecological management in the Haihe River Basin and can be useful to regionalize the ecosystems in other large watersheds. 参考文献 相似文献 引证文献