月湖底栖动物的空间格局及其对水草可恢复区的指示

底质适宜是富营养湖泊恢复沉水植物(水草)的重要前提。大型底栖动物可综合指示底质的污染程度,于2002~2003年在武汉月湖开展了底栖动物水平分布对水草可恢复区指示作用的研究。首先通过月湖底栖动物与环境的相关分析,选择颤蚓科寡毛类作为底质营养状况的指示类群,然后利用同类湖泊群颤蚓与水草数据分析阈值,初步确定颤蚓密度≤100 ind/m2的底质适合水草生长,最后绘制月湖颤蚓分布的水平等值线,显示水草恢复的合适区域。在此基础上构建了应用底栖动物空间格局指示水草恢复区的技术原理框架。     

三峡库区森林植被恢复与可持续经营研究

系统的野外调查数据和历史资料分析结果表明,三峡库区森林植被在空间上发展不均匀,无明显垂直分带,且分布分散,人为干扰严重。目前,在70多个植被类型中,森林类型占25个,江岸两侧海拔800 m以下地区森林已经很少。森林类型中,马尾松、柏木林的分布面积最大,并在许多疏林中成为主要树种,主要是飞播或人工种植。库区大于25°的坡耕地占耕地面积的17.5％。库区薪炭林仅能满足农村用能总需求量的10.78％。不合理的土地利用方式和对森林的不合理砍伐导致脆弱的土壤系统和森林生态系统的严重退化、生产力下降和严重的水土流失。库区土壤年侵蚀量达到2.9亿t。三峡工程建设和移民安置对库区森林生态系统的压力和影响将是长期的。调查结果同时表明,库区植物生物多样性丰富,植物种类在5 032种以上,而且乡土树种多。分析认为,只要抓住三峡工程建设的契机,紧密结合国家天然林保护和退耕还林工程建设,充分利用良好的生物学基础,科学地封山育林,分带逐步恢复,同时,因地制宜,退耕还林,发展森林能源,建设多目标复合和多种模式并存的林业经营体系,发展经济,就能从根本上改善森林经营环境,实现森林恢复,形成合理布局的水库森林防护系统,促进三峡库区生态环境建设和可持续发展。     

温榆河氨氮污染控制措施的效果模拟

以城市退水为主要补给水源的北京市温榆河呈现以氨氮(18.68 mg·L-1)污染为主的特征.针对温榆河的水质改善需求,本研究以氨氮为目标污染物,采用QUAL2K河流水质模型和情景分析方法,对温榆河污染防治与水质改善措施的效果进行量化评估.模拟结果表明,提高污水厂的处理量和排放标准是改善温榆河水质的关键,可降低温榆河北关闸断面氨氮浓度29.66％;建设旁路离线河流净化器可削减5.57％的氨氮污染,是温榆河水质改善的有效措施.本研究提出的包括改善上游来水水质、干流截污、支流污染控制、污水厂提标改造、建设旁路离线河流净化器和生态河道等措施在内的综合实施方案,可使得温榆河的水质全程达到地表水V类标准.     

干旱荒漠区植被恢复与重建的探讨

西北干旱荒漠区生境严酷，物种贫乏，植被稀疏低矮，加上不合理的开发利用，致生境恶化。利用当地有限的水源来实现干旱荒漠区的植被恢复，防止流沙蔓延，可以从以下两方面入手：一方面，以裸地为立地条件，利用当地的关键种(keystone specics)或优势种(dominant species)，选择合适的生境，采用人工种子库和幼苗移植等方法，促使已缺失的植物种在目的地重新定居；另一方面，利用灌丛效应选择合适物种加以配合，提高干旱荒漠区的植被盖度。研究表明：以上两种途径对实现干旱荒漠区的植被恢复和重建是可行的。     

石油污染土壤的生物修复技术

石油污染土壤的生物修复技术具有高效、无二次污染和操作管理简便的优点，正逐步成为石油污染治理研究的一个重要领域。本从土壤中石油类物质降解了基本原理出发，总结了近年发展起来的强化生物降解效率的各种技术措施和工程方案及其适用条件，并在此基础上进一步分析了生物修复技术的发展方向和应用前景。中首先详细介绍了土壤中降解石油类物质的生物相组成及降解过程的基本生化原理，并指出影响微生物降解速率的因素主要有土壤pH值，温度、湿度、充氧量和各种营养物质及微量元素含量等。接着，重点重点阐述了石油污染土壤的非原位修复技术和原位修复技术并深入探讨了土地处理、生物堆积处理、堆肥处理等非原位修复技术和所采取的技术措施，主要包括应用高效降解微生物、投加氧化剂和表面活性剂等。最后，本还展望了石油类污染土壤生物治理的未来发展趋势。     

Effects of increased elevation and macro- and micronutrient additions onSpartina alterniflora transplant success in salt-marsh dieback areas in Louisiana

Spartina alterniflora was transplanted into dieback areas of a salt marsh in southeast Louisiana at two elevations (ambient and +30 cm) with and without macro- (N, P, and K) and micronutrient (Fe, Mn, Cu, and Zn) additions to determine if transplant success is dependent on increasing elevation or nutrients.Spartina alterniflora transplanted into elevated plots had more than twice the above- and belowground biomass as compared to nonelevated plots after three months of growth. Additionally, there was significantly more vegetative reproduction (greater culm density and number of newly produced culms) in elevated plots as compared to plots at ambient elevation. Macronutrient additions increased culm densities only in elevated plots.Spartina alterniflora transplanted into nonelevated plots had lower survival rates even when transplants received nutrient additions. These results suggest thatS. alterniflora may be transplanted successfully into degraded salt-marsh areas if elevation is increased. The addition of nutrients without a concomitant increase in elevation is not sufficient for transplant success.     

MULTICRITERIA EVALUATION IN A POLICY ANALYSIS OF A RHINE ESTUARY1

ABSTRACT: As part of a major project to provide the Rhine delta protection from North Sea floods, the Dutch installed sluices at Haringvliet in the late 1960s and converted the Haringvliet-Hollandsch Diep-Biesbosch (HHB) estuary into a tidally-damped, fresh-water system. Two decades later, the Dutch Rijkswaterstaat commissioned a study of alternative policies for managing the sluices and removing contaminated bottom sediments, including policies which would at least partially restore estuarine conditions to the HHB. This paper describes the public policy analysis comprising that study, focusing on the role played by formal mullicriteria evaluation (MCE), including the Analytic Hierarchy Process. Through the tasks of value-tree structuring, impact measurement, and criterion prioritization, the MCE influenced the entire structure of the analysis, became an integral part of it, and, despite initial skepticism among the participants about the utility of multicriteria analysis, was subsequently accepted and viewed favorably by the majority of them.     

植被快速修复技术研究

根据国内外对极度退化生态系统植被恢复基本理论及植被控制水土流失的原理,针对滇池流域台地区生态系统极度退化特征,提出以乔灌草立体生态系统构建为主的植被快速修复技术,并对示范效果进行了评估.     

Environmental effect of vegetation restoration on degraded ecosystem in low subtropical China

The environmental effect of degraded ecosystem‘ s vegetation restoration in low subtropical China was studied. Results indicated that the vegetation recovery on degraded lands slgnificantly ameliorates surrounding environment, increases species diversity, improves soil structure, raises soil fertility, enhances productivity, and promotes regional agricultural production and social economic development dramatically. Through the combining engineering and biological measures, the restoration of degraded ecosystem in low subtropical area is possible and economical. The restoration experience in Xiaoliang, Wnhua and other sites are valuable for other degraded subtropical area was introduced.     

澳门植被恢复过程土坑法的效应机制探讨

在澳门凼仔岛和路环岛两个离岛的植被成功恢复过程中,土坑法这一技术的应用起到了很好的作用。对土坑法在澳门植被恢复过程中的作用机制及其应用价值进行了初步的研究。对土坑区和无坑区的土壤理化性质测定的结果显示,土坑区土壤容重小于无坑区土壤容重,土坑区土壤含水量、土壤pH、有机质、全N等指标均比无坑区要高;对群落优势种台湾相思(Acacia confusa)生物特征的测量也发现,土坑区的植物生长优于无坑区。这表明土坑区的土壤物理结构和土壤肥力都有所改善,也有助于植被的生长。以上研究结果表明,土坑法是一项行之有效的植被恢复技术,对植被的恢复起到促进作用,可以在澳门进一步的生态恢复中继续应用并加以推广。