美国州法中的内径流水权及其优先权日问题

美国水资源的所有权属于各州 ,是一种公有的资源。法律上的水权 ,是水的使用权 ,主要包括私人所有的先占权水权、岸边权水权。在美国西部各州的水权系统中 ,有一种水权现在可以在私法框架中协调环境保护目标、各种取水权人的取水需求 ,这两者之间的冲突。这就是现在美国学术界广泛关注的内径流水权。内径流水权可以在私法领域保护水流的天然禀赋 ,并且排除政府以环境法为理由介入水事争端。随着环境主义在美国的破产[1] ,美国西部开始了大规模的水权裁决活动 ,通过水法院或者行政机构确认私有水权的优先权日 ,从而确立水权的优先权序列。这样水权就会真正成为属于分散的个体的、排他性的财产权。优先权日在先的水权将在枯水季节排除他人的取水权或者其他种类的用水权。因此 ,确立内径流水权在这个优先权序列中的地位 ,是环境保护目标在私法体系中 ,而不是在效率低下的各种环境保护法中 ,长久地得到维护的关键。内径流水权优先权日有 (1)判例法认定的日期 ;(2 )法律规定的日期 ;(3)转化生成的日期。在先占原则框架中扩张这种财产权可以更大程度地排除环境法的适用范围。     

Negative Off‐Site Impacts of Ecological Restoration: Understanding and Addressing the Conflict

Abstract: Ecological restoration is a key component of biological conservation. Nevertheless, unlike protection of existing areas, restoration changes existing land use and can therefore be more controversial. Some restoration projects negatively affect surrounding landowners, creating social constraints to restoration success. Just as negative off‐site impacts (i.e., negative externalities) flow from industrial areas to natural areas, restoration projects can generate negative externalities for commercial land uses, such as agriculture. Negative externalities from industry have led to government regulation to prevent human health and environmental impacts. Negative externalities from restoration projects have elicited similar legal constraint on at least one large‐scale conservation project, riparian restoration in the Sacramento River Conservation Area. The negative externalities of restoration that are perceived to be the direct result of specific goals, such as endangered species management, are likely to be more contentious than externalities arising from unintended phenomena such as weed invasion. Restoration planners should give equal consideration to off‐site characteristics as to on‐site characteristics when choosing sites for restoration and designing projects. Efforts to control externalities can lead to off‐site ecological benefits.     

Spatial cost–benefit analysis of blue restoration and factors driving net benefits globally

Marine coastal ecosystems, commonly referred to as blue ecosystems, provide valuable services to society but are under increasing threat worldwide due to a variety of drivers, including eutrophication, development, land-use change, land reclamation, and climate change. Ecological restoration is sometimes necessary to facilitate recovery in coastal ecosystems. Blue restoration (i.e., in marine coastal systems) is a developing field, and projects to date have been small scale and expensive, leading to the perception that restoration may not be economically viable. We conducted a global cost–benefit analysis to determine the net benefits of restoring coral reef, mangrove, saltmarsh, and seagrass ecosystems, where the benefit is defined as the monetary value of ecosystem services. We estimated costs from published restoration case studies and used an adjusted-value-transfer method to assign benefit values to these case studies. Benefit values were estimated as the monetary value provided by ecosystem services of the restored habitats. Benefits outweighed costs (i.e., there were positive net benefits) for restoration of all blue ecosystems. Mean benefit:cost ratios for ecosystem restoration were eight to 10 times higher than prior studies of coral reef and seagrass restoration, most likely due to the more recent lower cost estimates we used. Among ecosystems, saltmarsh had the greatest net benefits followed by mangrove; coral reef and seagrass ecosystems had lower net benefits. In general, restoration in nations with middle incomes had higher (eight times higher in coral reefs and 40 times higher in mangroves) net benefits than those with high incomes. Within an ecosystem type, net benefit varied with restoration technique (coral reef and saltmarsh), ecosystem service produced (mangrove and saltmarsh), and project duration (seagrass). These results challenge the perceptions of the low economic viability of blue restoration and should encourage further targeted investment in this field.     

Diverging response patterns of terrestrial and aquatic species to hydromorphological restoration

Although experiences with ecological restoration continue to accumulate, the effectiveness of restoration for biota remains debated. We complemented a traditional taxonomic analysis approach with information on 56 species traits to uncover the responses of 3 aquatic (fish, macroinvertebrates, macrophytes) and 2 terrestrial (carabid beetles, floodplain vegetation) biotic groups to 43 hydromorphological river restoration projects in Germany. All taxonomic groups responded positively to restoration, as shown by increased taxonomic richness (10–164%) and trait diversity (habitat, dispersal and mobility, size, form, life history, and feeding groups) (15–120%). Responses, however, were stronger for terrestrial than aquatic biota, and, contrary to our expectation, taxonomic responses were stronger than those of traits. Nevertheless, trait analysis provided mechanistic insights into the drivers of community change following restoration. Trait analysis for terrestrial biota indicated restoration success was likely enhanced by lateral connectivity and reestablishment of dynamic processes in the floodplain. The weaker response of aquatic biota suggests recovery was hindered by the persistence of stressors in the aquatic environment, such as degraded water quality, dispersal constraints, and insufficient hydromorphological change. Therefore, river restoration requires combined local- and regional-scale approaches to maximize the response of both aquatic and terrestrial organisms. Due to the contrasting responses of aquatic and terrestrial biota, the planning and assessment of river restoration outcomes should consider effects on both components of riverine landscapes.     

快速监测评估废弃采石场生态恢复的研究

以北京门头沟区典型废弃石灰石矿山为例,通过野外调查、采样和实验室分析,计算得到废弃采石场植被与土壤自然演替之间关系.研究发现,TM影像中废弃采石矿场b3/b4波段比均值与废弃采石场综合恢复指数Irq之间具有较强的相关性,据其回归方程利用遥感手段快速评估计算得到研究区其他废弃采石矿场的综合恢复指数.可见,实地植被 - 土壤调查分析与空间遥感监测技术能够相互验证对采石场生态恢复状态的评估.     

悬挂链曝气技术应用于河流污染治理

在介绍了悬挂链曝气技术的特点和在复氧曝气方面的适用性的基础上,对该技术的局限性进行了阐述,并认为悬挂链技术为河流污染治理提供了一种新选择。     

海岸带生态恢复技术研究现状及存在问题

气候及其潜在的全球性变化所带来的影响，使海岸带受到严重威胁，人口的增加以及人类活动强度的增大给海岸带环境带来的负面影响越来越严重，对目前国内外海岸带生态恢复技术的现状作了较系统地介绍，并阐述了当前海岸带生态恢复中存在的主要问题。     

黄土高原沙棘灌丛资源保护和发展问题

沙棘适合于在干旱瘠溥的黄土高原地区生长，在黄土高原生态恢复、环境治理和经济发展中成效显著，近年来沙棘灌丛资源发展迅速。但由于在沙棘灌丛资源保护和发展中还存在不少问题，使黄土高原区域整体效益并不理想。文章研究了黄土高原地区沙棘灌丛资源的类型，共有6个群系；分析了黄土高原沙棘灌丛资源的现状和效益，其在工矿废弃地治理、砒砂岩区治理、沙化土地治理、水土保持等方面作用明显，对当地畜牧业、食品工业、医药业起到促进作用；探讨了存在的主要问题，一是资源发展问题，二是保护问题，三是管理问题，四是科学技术问题；最后从多个方面提出了黄土高原沙棘灌丛资源保护与发展的对策，     

Variation in populations of the coastal dune building grassLeymus arenarius in Iceland revealed by endospermal prolamins

Variation in the endospermal protein patterns of seeds amongst and between inland and coastal populations of the dune building grassLeymus arenarius was examined in Iceland. Seeds were collected from six coastal populations and five inland populations in Iceland. Endospermal proteins (prolamins) of seeds were extracted with Tris-buffered 2-propanol (50%) and β-mercaptoethanol (0.5% v/v). We used 8% and 12% sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) to separate the prolamin protein bands, which were stained with Coomassie Brilliant Blue R. Coastal populations were differentiated from inland populations on the basis of high frequency of high molar weight (HMW) (110–150 kg mol⁻¹) prolamins. Coastal populations had significantly higher proportions of their seed with more than two HMW prolamins, than those of inland populations. Subtle differences were found among the HMW prolamins of coastal and inland populations indicating limited intrapopulation variation. The dynamic environment of sand dunes probably influences the genetic composition of these populations. The results suggest that seeds of the inland and coastal populations should be treated separately in sand dune reclamation and restoration works     

水生态修复对莲花湖底栖动物群落的影响

武汉莲花湖是典型的富营养化城市浅水湖泊．通过对其进行16mo的监测后发现，治理后的小莲花湖比大莲花湖水质有明显改善．监测期间小莲花湖底栖动物密度和生物量均值明显高于大莲花湖，Shannon多样性指数与Margalef多样性指数也高于大莲花湖．将大、小莲花湖的10种环境因子和底栖动物密度进行典型相关分析后，发现总磷、温度、总氮、叶绿素a、氨离子是对底栖动物群落具有显著性影响的环境因子．图8表3参20.