环境评估在加强水电建设项目生态保护中的作用——以安谷水电站为例

随着水电开发强度增大,公众环保意识增强,水电建设项目环境管理要求不断提高,水电工程建设和运营中生态保护措施也得到不断加强,在此过程中,环境影响技术评估工作发挥了积极的推动作用。以安谷水电站为例,阐述了两次技术评估时安谷水电站所采取的主要生态保护措施及环保投资内容,通过对措施及水电站建设投资的对比,说明了水电建设项目环境影响技术评估严格把关的作用。     

多元因子分析模型在河流健康评价中的应用——以苏子河水质特性研究为例

为顺应河流生态可持续发展,提出健康河流、生命河流等概念,维持河流生态系统健康已经成为流域综合管理的必然趋势。综合运用水文学、水力学、泥沙地貌学和水生生态学的基本理论和方法研究河流生态健康的表征因子,确定各因子的阈值,建立流域性水体水质可续发展评价体系。以河流可持续发展为基础,引用代表性的相关指标进行筛选,对流域水质指标进行数值化分析,以苏子河流域水质特性为研究对象,选取出评估河流健康状况的环境因子,客观反映出中小河流域健康状况,为河流的可持续管理和生态环境建设提供参考。     

闸坝对河流水质水量影响评估及调控能力识别研究框架

针对重污染河流闸坝众多、水污染事故多发、防洪防污矛盾突出等问题,评估闸坝对河流水质水量影响,识别闸坝调控能力,是解决河流突发性水污染事故的科学基础和前提条件。探讨了当前闸坝对河流水质水量影响评估及调控能力识别技术研究面临的关键科学问题,包括闸坝对河流水质水量影响评估技术方法,闸坝调控、入河污染负荷和河流水质变化之间量化关系模拟技术方法,闸坝对河流水质水量调控能力识别技术;并以淮河流域为例,结合淮河重大水专项国家需求和科技需求,初步提出闸坝对河流水质水量影响评估及调控能力识别技术研究框架,旨在为闸坝水质水量联合调度提供理论支持。     

水生态文明的内涵及评价体系探讨

阐述了水生态文明的概念和内涵,提出了由两个系统（水生态系统及社会经济系统）、6个对象类型及20个指标共3层构成的水生态文明多层评价指标体系。在评价方法方面,引入了弹性分级评分系统。分级评价标准考虑了我国不同地区的自然和经济社会特点,将水生态文明状况划分为五级,以体现不同地区水生态文明的差异性。     

绥化市地下水水化学特征及水质现状评价

为了查明绥化市的地下水环境状况,运用描述性统计、地统计学理论、相关分析、Piper三线图法等对绥化市的地下水水化学特征进行全面分析。在此基础上采用了基于综合赋权的五元联系数法对研究区水质现状进行评价,并且利用秩相关系数法进行水质变化趋势分析。结果表明,研究区地下水略偏酸性,部分水样的水质指标存在超标现象。地下水中Ca 2＋为优势阳离子,HCO 3－为优势阴离子。研究区的铁、锰、氟超标是受原生污染影响,地下水中的Cl－与SO 2－4,Na＋与Mg 2＋存在同一来源。将基于综合赋权的五元联系数法的评价结果与模糊综合评判法相比较,结果表明其评价结果是合理可靠的,符合客观实际。通过秩相关系数法表明研究区地下水水质状况在一定程度上有所改善。     

Multi‐objective risk assessment of freshwater inflow on ecosystem sustainability in San Antonio bay,Texas

Abstract:

San Antonio Bay is located on the coast of Texas between Galveston Bay and Corpus Christi Bay and is the primary bay in the Guadalupe Estuary. Three rivers feed San Antonio Bay from two river basins, including the Blanco and Guadalupe Rivers in the Guadalupe River Basin and the San Antonio River in the San Antonio River Basin. The Canyon Reservoir regulates the flow of fresh water in the middle and lower reaches of the Guadalupe River. These inflows are a primary regulator of salinity and, thus, the productivity of commercially important estuarine species. Increasing demand for water has prompted plans for an increased diversion of 49.3 million m³ (40,000 acre‐feet) from the reservoir. An additional amount of 61.6 million m³ (50,000 acre‐feet) from the mouth of the river is to be pumped back to San Antonio to relieve over‐pumping of the Edwards Aquifer. Because the Guadalupe River Basin contributes 58.1 percent of the freshwater inflow to the estuary, it is not known what the impact of these actions will have on the ecological integrity of the San Antonio Bay. Water resource management in the San Antonio Basin consists of decision making under risk and uncertainty related to randomness in the critical parameters such as the salinity in the bay, biological productivity, and total flow into the bay. The aim of this study is to investigate the trade‐offs between the competing objectives of maximizing biological productivity in the bay and minimizing flow using Stochastic Compromise Programming (SCP). The SCP model solves a multi‐objective function subject to constraints that must be maintained at three different prescribed levels of probability providing a global set of solutions for the water resource management problem under input uncertainty. The SCP model provides information on the trade‐offs among the objective function value, tolerance values of the constraint at the prescribed levels of probability, which could be valuable to policy makers in risk assessment. Solutions were found using three distance functions. Model outputs may suggest the minimum amount of freshwater needed to maximize biological productivity of the bay at specified risk level for assessing the impact of upcoming diversion program. Results indicate that current flows in the Guadalupe River are of sufficient volume to satisfy harvest requirements.     

Assessment of Water Quality Management in Turkey

Abstract

There has been a noticeable increase in the amount of pollution in water resources in Turkey in recent years. Negative environmental developments, such as industrialization, increasing urbanization, improper pesticide and fertilizer applications in agricultural lands, and the drainage of domestic and industrial wastewater into water resources without any waste treatment applications, cause rapid pollution of both surface and groundwater resources. Therefore, it is necessary to allocate more attention to water resources monitoring and evaluation studies to prevent the pollution of water resources, and to reclaim these resources.     

安阳市地下水应急供水水源评估研究

以安阳市平原区为例,根据水均衡原理,利用当年汛期末浅层地下水位埋深和汛期降雨量以及汛期前地下水补给量等信息,建立安阳市平原区基于数值模拟模型的枯季地下水可开采量（可供水量）实时预报模型。研究结果可为区域地下水水源评估提供参考。     

水的生态服务功能内涵与 评价方法初探

从水的生态服务功能的机理出发,深入剖析了其内涵与水的两层次生态服务结构,并在此基础上构建评价水的生态服务功能的指标体系,介绍了评价流域水的生态服务功能的主要方法;最后提出了维系流域水的生态服务功能主要思路与手段,为水的生态服务功能研究提供了新思路与新方法。     

水电站日调节对河流生境条件影响的 生态水文评价方法研究

从表征水电站日调峰特征出发,参照生态水文参数中的频率、大小、变化率、时间等生态角度的概念,建立了由发电水流脉冲的频率、大小、历时等指标组成的评价指标体系,并运用该指标体系对长江重要支流水阳江上港口湾水库日调节的水位过程影响进行了实例分析。研究成果对于水利工程生态环境影响评价具有一定参考价值。