密云水库集水区水源涵养林生态价值计算的一种新方法

密云水库为北京市的主要水源,水库周边的水源涵养林对水库的水量和水质有巨大影响。通过新的计算公式V=Pa.Qa-Pb.Qb计算,每年由于水源林耗水带来经济损失为5 230.77万元,而因为PI=∑Ci/Coi,水源林净水作用节约的水处理费为94 302.9万元,两者相减得出其生态价值为89 072.13万元。     

Photosynthetic physio-response of Taxodium ascendens seedlings to different soil water gradients

Four different kinds of water treatments were applied to study the photosynthetic eco-physiological characteristics of Taxodium ascendens seedlings in the environment of the Three Gorges hydro-fluctuation belt. The four kinds of water treatments were: normal growth water condition (CK), light drought stress (T1), soil water saturation (T2), and soil submersion (T3). The results showed that different water treatments could effectively influence the content of the photosynthetic pigment, leaf gas exchange and apparent resources use efficiency of T. ascendens seedlings. It was also demonstrated that the T. ascendens seedlings could not only tolerate water submersion and wet conditions but also endure a certain degree of drought. To establish a protection forest system in the hydro-fluctuation belt in the Three Gorges Reservoir Area, the species T. ascendens is suitable for planting in conditions of root submersion or water-saturated soil. In case it is planted in drought conditions, this tree species should be watered appropriately in order to keep its normal net photosynthetic rate. Translated from Forest Research, 2006, 19(1): 54–60 [译自: 林业科学研究]     

Optimizing competitive uses of water for irrigation and fisheries

Choosing the appropriate reservoir water management strategy can be difficult when the water has multiple uses. This study examines this problem for reservoir managers where water use involves irrigation and fisheries. A stochastic dynamic programming (SDP) model is developed to facilitate reservoir management, using a case study illustration for southern Vietnam. The model includes the response of rice and fish yields to key factors including reservoir water levels, the timing and quantity of water release, and climatic conditions. The model also accounts for variation in rainfall patterns, irrigation requirements, and the demand for low water levels during the fish harvest season. Three production scenarios are examined where the reservoir's water is used for: only producing rice (scenario 1), only producing fish (scenario 2), and producing rice and fish (scenario 3). Key findings are: (1) for scenario 1, adequate water should be released to meet rice growing water requirements and residual water should be stored as a source of water in case of low rainfall, (2) for scenario 2, sufficient water needs to be released prior to the fish harvest to maximize this harvest; and (3) for scenario 3, water should be released prior to fish harvest, but sufficient water should remain to satisfy the water requirements of rice. When the reservoir is managed for joint production of rice and fish, net benefits are 6% greater than when the reservoir is managed solely for rice production. The SDP model developed in this paper could be adapted and applied to other multiple-use resources such as forests, river basins, and land.     

Salinity, drainage and selenium problems in the Western San Joaquin Valley of California

Highly productive, irrigated agriculturecan be found in California's Central Valleymade up of the Sacramento, San Joaquin, andTulare Lake basins. High water tablesthroughout much of the San Joaquin andTulare Lake portions of the Valley threatenthis highly productive region. Due totopographic and environmental constraintsmuch of the region is currently withoutdrainage. In 1990 State and Federalgovernment agencies combined to produce areport that outlined possible steps to dealwith the drainage issue. These stepsincluded: 1) Source control (practices toreduce the amount of drainage water); 2)Drainage reuse; 3) Evaporation systems; 4)Land retirement (cease irrigation); 5)Groundwater management; and 6) Discharge tothe San Joaquin River. General backgroundinformation to the history and hydrology ofthe Valley as well as a discussion of thefeasibility and constraints of providingdrainage by discharging drain water to theSan Joaquin River are presented. Inaddition a general discussion of thetechnical and political limitations ofproviding drainage in the River arediscussed.     

受上游水库溃坝影响的德泽水库安全风险分析

首先基于水库瞬时全渍的假设,采用简算法对上游水库的渍坝洪水进行计算,并计算出上游水库至德泽水库的区间洪水,然后研究了上述2个分区洪水的组合遭遇,最终得到受上游水库渍坝影响的德泽水库坝址断面的洪水过程。结果表明：上游水库的溃坝,一般情况下不会对德泽水库构成威胁。进行的研究为德泽水库的安全设计提供了重要依据。     

妫水河流域不同植被覆盖条件下土壤入渗及模型的比较分析

 为恢复官厅水库库区植被提供科学依据,在官厅库区妫水河流域内延庆县大榆树镇上辛庄小流域试验区,进行了不同植被覆盖条件下的土壤积水入渗试验,并用4种入渗公式进行了拟合。通过分析比较,得出了不同植被覆盖条件下的土壤入渗规律,并对采用考斯恰可夫、Horton、通用经验公式以及Philip入渗模型时的适用性和准确性进行了评价。     

长江三峡库区土壤动物群落结构初步研究

于长江三峡大坝工程开工前的1998年,对三峡库区几个地点（秭归、万县、神农架）不同海拔和生境下的土壤动物群落进行了调查研究.研究表明,整个地区不同生境中土壤动物的优势类群为线虫;常见类群有螨、弹尾目、线蚓、熊虫和猛水蚤目等;同一地点不同植被下,土壤动物类群之间存在着一定的相似性和差异.相关性检验表明：土壤节肢动物类群数与个体数之间的相关性受海拔、植被影响不大.研究还发现,生境条件（海拔、植被类型等）越优越,土壤动物的多样性指数越高.不同群落相似性比较显示,海拔相同、植被相近的群落相似性指数高.对线虫、螨类和弹尾目的数量差异分析表明,秭归地区三个类群受植被、海拔影响不大;万县地区海拔对蜱螨、弹尾目影响较大;神农架地区线虫分布受植被影响较大,螨类和弹尾目在不同植被和土层广布,而该地区枯枝落叶层中螨类数量随植被、海拔变化显著.     

南水北调中线工程丹江口库区南阳市域移民环境容量研究

丹江口水库是南水北调中线工程的水源工程 ,库区移民中南阳市占 5 3.2 %。在对南阳市域移民环境容量整体分析的基础上 ,确定了拟安置区 ,并对拟安置区的环境容量进行了计算 ,并进而提出了扩大环境容量的措施。确定的拟安置区为邓州、唐河、社旗 3县市 ,设计水平年可安置 7.32× 10 4人 ,另有约 7.0 0× 10 4 人需要出市安置     

农村改革试验区下的水库移民脱贫致富研究——以温州10个水库移民安置村为例

2012年中央经济会议上，在国家力推发展新型城镇化的背景下，选取比较具有代表性的温州市为研究对象，对该地区部分移民脱贫致富情况进行实地调查研究，发现移民在脱贫致富中存在的问题及困难，文章进而提出相应的脱贫致富的对策与建议，促进移民脱贫致富，为推进社会主义新农村建设和新型城镇化进一步发展提供有益的借鉴。     

汤河水库分期汛限水位方案效益分析

水库汛期的蓄水担负着城市供水、工农业供水、发电等兴利任务。科学合理地优化水库分期汛限水位,是保障水库供水量和防洪安全的有效手段。以汤河水库为研究对象,提出水库分期汛限水位优化方案,并对调整分期汛限水位后水库增容产生的效益进行分析。