皖南低山丘陵地区流域氮磷径流输出特征

通过对安徽南部宣城地区梅村小流域的定位监测,研究了该小流域地表径流中氮磷输出特征。结果表明:氮输出以NO-3N为主,占氮素输出总量的60%,磷输出以悬浮颗粒结合态磷(PAP)为主,占磷输出总量的92%;各类形态氮素输出量间存在极显著线性正相关关系;PAP随悬浮颗粒输出量的增加而增加,PAP与水溶性磷(DP)输出量间存在着极显著的对数关系;氮磷输出具有明显的季节性变化规律,夏季输出量最大,其次是春季,再次是秋季,冬季最少,这是由降雨量的季节性变化所引起的。而且暴雨对氮磷输出的贡献率极大,因此控制雨季土壤侵蚀是有效控制氮磷通过径流输出的最重要方式。     

流域环境系统不确定性多目标规划方法及应用——不确定性模糊多目标规划模型

提出一种新的不确定性模糊多目标规划（IFMOP）模型。该模型将不确定性信息直接引入优化过程,从而得到以区间数表示的优化解;在模型优化解的解译过程中,将各个变量在区间内进行适当组合就能得到各种决策方案;模型能够与决策者直接进行交互,充分考虑决策者的反馈意见,以便获得最终满意的决策方案。该模型计算方便,其求解过程中不会生成复杂的中间模型。该模型已被成功地应用于云南洱海流域可持续发展环境规划研究     

美国的流域保护方法(WPA)

本文简要介绍了美国许多州正在实施的流域保护方法,并就流域保护方法的作用、流域保护规划以及流域保护的计算机支持等方面提出了自己的看法。     

基于能值拓展的流域生态外溢价值补偿研究——以渭河流域上游为例

流域上、下游间环境保护成本和收益的区域错配问题严重影响我国流域整体发展的公平与效率,下游地区对上游地区给予适当的经济补偿已成为解决流域区域间经济发展失衡、实现流域水资源可持续发展的重要手段。文章首先构建基于能值拓展的流域生态外溢价值计量模型,从能量投入和能级转化的角度,以能值的形式反映流域客观存在的社会、经济和生态的功能服务价值,利用能值分析法测算流域生态系统服务能值与水足迹法确定流域自身消费的生态能值,通过比较流域生态系统服务能值和流域生态能值自身消费情况,判断流域的生态盈亏状态,并进一步利用能值-货币比率将生态外溢能值转化为生态外溢价值,得到相对客观和稳健的补偿标准。然后以渭河流域上游为例,测算得到2013年渭河流域上游的生态外溢能值为1.16×1022sej,可知流域上游在扣除自身消费的生态能值后还为流域下游提供生态服务,处于生态盈余的状态。为激励上游地区加大流域生态环境保护力度,同时也为实现区域发展的公平与效率和流域水资源的可持续发展,下游地区应对上游地区支付水资源生态环境补偿,根据能值-货币比率得到上游应获得16.31亿元的补偿金额,并根据水资源可利用量进一步分配,得到定西市和天水市应分别获得7.50亿元和8.81亿元的补偿金额。基于该研究结果,建议通过扩大对流域上游地区的转移支付、完善水资源市场构建、健全流域生态补偿立法等政策提高上游地方政府的生态保护努力水平,优化水资源配置,实现流域整体的可持续发展。     

典型喀斯特流域地表产流输出特征

由于喀斯特区域表层岩溶带的结构和构造表现为高度的异质性,以及大量缺失定位观测资料,使得该区域目前还没有较为完善的产汇流模型。对特定小流域地表产流输出过程的分析,有利于对流域内部各种水文过程的认识。本研究正是基于这一背景,通过对一完整自然年的地表产流输出进行分析发现,流域地表径流输出主要发生在5~10月份;受雨强和壤中流向地表径流转化过程的影响,5月份的地表径流产流输出为突发衰弱型伴有明显的迟滞效应,其他月份主要为渐进增强衰弱型,迟滞效应较5月份明显减弱;如去除5月份的影响,6~10月份流域地表径流输出量与降雨量呈显著正相关关系(p0.05,r=0.99);壤中流向地表径流径流转化具有明显的季节性差异;就全年而言,经由卡口站地表径流输出的量占全年降雨总量的23.1%。     

Nitrogen Subsidies from Hillslope Alder Stands to Streamside Wetlands and Headwater Streams,Kenai Peninsula,Alaska

We examined nitrogen transport and wetland primary production along hydrologic flow paths that link nitrogen‐fixing alder (Alnus spp.) stands to downslope wetlands and streams in the Kenai Lowlands, Alaska. We expected that nitrate concentrations in surface water and groundwater would be higher on flow paths below alder. We further expected that nitrate concentrations would be higher in surface water and groundwater at the base of short flow paths with alder and that streamside wetlands at the base of alder‐near flow paths would be less nitrogen limited than wetlands at the base of long flow paths with alder. Our results showed that groundwater nitrate‐N concentrations were significantly higher at alder‐near sites than at no‐alder sites, but did not differ significantly between alder‐far sites and no‐alder sites or between alder‐far sites and alder‐near sites. A survey of ¹⁵N stable isotope signatures in soils and foliage in alder‐near and no‐alder flow paths indicated the alder‐derived nitrogen evident in soils below alder is quickly integrated downslope. Additionally, there was a significant difference in the relative increase in plant biomass after nitrogen fertilization, with the greatest increase occurring in the no‐alder sites. This study demonstrates that streamside wetlands and streams are connected to the surrounding landscapes through hydrologic flow paths, and flow paths with alder stands are potential “hot spots” for nitrogen subsidies at the hillslope scale.     

基于“三生共赢”的小流域水环境综合治理对策研究

小流域是实现重点流域精准化治理的基本单元,"三生共赢"是指要把解决环境问题的目标定位于生活、生产与生态的协调发展,是实现小流域环境改善和可持续发展的根本路径。本研究立足于流域水环境质量改善,以"三生共赢"和可持续发展理念为指导,提出了基于"三生共赢"的小流域水环境综合治理理论架构,即立足于水环境质量改善和水资源的优化配置,强化流域水环境约束,以尽可能小的环境代价支撑流域经济结构优化、新型城镇化发展,以资源高效和循环利用为核心,大力发展循环经济体系和循环社会体系,并通过创新流域治理体制机制构建成本共担利益共享格局,最终实现小流域社会经济可持续发展。本研究基于以上理论架构设计了生态环境、绿色经济、优质宜居三大类指标体系24项具体指标,并重点从优化流域空间开发格局、构建产业绿色发展体系、改善城乡居民生活环境、提升流域生态系统功能、健全流域治理体制机制等方面分析了小流域水环境综合治理对策。本研究可为各级政府创新流域治理模式、制定小流域水环境综合治理规划提供较为可行的理论支撑和技术体系。     

Response of Nitrogen Loading to the Chesapeake Bay to Source Reduction and Land Use Change Scenarios: A SPARROW‐Informed Analysis

In response to concerns regarding the health of streams and receiving waters, the United States Environmental Protection Agency established a total maximum daily load for nitrogen in the Chesapeake Bay watershed for which practices must be in place by 2025 resulting in an expected 25% reduction in load from 2009 levels. The response of total nitrogen (TN) loads delivered to the Bay to nine source reduction and land use change scenarios was estimated using a Spatially Referenced Regression on Watershed Attributes model. The largest predicted reduction in TN load delivered to the Bay was associated with a scenario in which the mass of TN as fertilizer applied to agricultural lands was decreased. A 25% decrease in the mass of TN applied as fertilizer resulted in a predicted reduction in TN loading to the Bay of 11.3%, which was 2.5–5 times greater than the reductions predicted by other scenarios. Eliminating fertilizer application to all agricultural land in the watershed resulted in a predicted reduction in TN load to the Bay of 45%. It was estimated that an approximate 25% reduction in TN loading to the Bay could be achieved by eliminating fertilizer applied to the 7% of subwatersheds contributing the greatest fertilizer‐sourced TN loads to the Bay. These results indicate that management strategies aimed at decreasing loading from a small number of subwatersheds may be effective for reducing TN loads to the Bay, and similar analyses are possible in other watersheds.     

构建适应新国土空间规划的流域空间管控体系

优化空间格局、强化空间管控是我国新时期生态环境保护及资源开发利用顶层设计的一项重要战略任务。近年来,《生态文明体制改革总体方案》《关于建立国土空间规划体系并监督实施的若干意见》等一系列文件,明确提出在国土空间规划中强化生态文明建设理念传导、落实多规合一、突出用途管制等重大调整。流域水生态环境空间管控体系亟须转型,适应国土空间规划体系改革调整等带来的新形势、新要求。本文在详细梳理流域水生态环境空间管控体系演变历程的基础上,深入分析新时期形势和要求,进一步扩充完善了原有体系：创新水功能区、控制单元的功能定位,突出流域完整性与系统性,初步提出了包含全国—流域—水功能区—控制单元—行政区划的空间分区构想;细化设计了统筹水资源、水生态、水环境的目标指标体系;明确了突出功能用途的生态环境管控措施和责任落实体系,为下一步流域水生态环境空间管理政策顶层设计提供决策参考。     

The U.S. Flood Control Program at 75: Environmental Issues1

Black, Peter E., 2012. The U.S. Flood Control Program at 75: Environmental Issues. Journal of the American Water Resources Association (JAWRA) 48(2): 244‐255. DOI: 10.1111/j.1752‐1688.2011.00609.x Abstract: Recent, recurring, and increased magnitude floods adversely challenge long‐held and erroneous concepts of flood control. This article focuses on the environmental issues with comprehensively reviewed essentials of the United States (U.S.) riverine Flood Control Program, including news reports, scientific articles, books, and landmark treatises. For the past three‐quarters of a century, U.S. floods have continued (and will continue) to occur, causing increasing property damage with growing fiscal loss. Reasons include inattention to fundamental principles of physics, hydrology, and ecology. There are also important challenges involving environmental policy, economics, and common sense. Measures afforded by the existing program encourage and enable investment in floodplains while violating a variety of natural principles that make the situation worse. This detailed review includes the questionable (actually untrue) justification in the document‐setting policy for the 1936 Omnibus Flood Control Act. The well‐documented evidence is overwhelming. An alternative approach is presented that would enable and celebrate natural floods, managing their ecological and hydrological values, and not attempting to control them.