太湖五里湖生态修复示范区水质改善效果分析

鱼类清除和沉水植被恢复常是富营养化浅水湖泊生态系统修复的重要手段。为探讨这种生态系统修复方式对亚热带富营养化浅水湖泊太湖五里湖水质的改善效果,论文研究了五里湖生态修复区与未进行任何修复的对照湖区为期6个月(2010年7～12月)的水质监测数据。数据分析结果表明,生态修复区总氮(TN)、总磷(TP)、叶绿素-a(Chl-a)以及悬浮质(TSS)浓度显著降低,分别比对照区低43.4%、48.3%、65.5%和78.9%,透明度则明显升高,约为对照区的3倍。本研究表明以鱼类清除和沉水植被恢复为主要手段的生态系统修复措施能够有效改善亚热带富营养化浅水湖泊水体的水质。     

东湖围隔（栏）中的植被恢复对水中氮的影响

利用大型围隔研究自然水体的某些生态过程具有真实准确、易于控制等优点 ,2 0世纪 80年代以来 ,国内陆续开展了一些研究[1～ 4 ] 。水体富营养化是目前我国湖泊存在的普遍问题 ,恢复水生植被可有效改善水质 ,减轻富营养化程度。武汉东湖(Ｅ114°2 3’ ,Ｎ30°33’)是一个典型的浅水城郊湖泊 ,已严重富营养化 ,为重建其水生植被 ,恢复其良性生态系统 ,在东湖建立了两个大型围隔和一个围栏 ,对其中的水生植被恢复及水质变化等方面进行了定位研究 ,旨在为重建和优化东湖水生植被 ,改善其水质提供借鉴。1　研究方法实验区位于东湖的汤林湖区。设…     

梁子湖、牛山湖和保安湖沉水植被资源现状

在长江中下游浅水湖泊的水生植被中,沉水植被是最重要的植被类型。研究沉水植被资源量对湖泊生态系统及渔业管理都具有重要意义。本工作调查梁子湖、牛山湖和保安湖沉水植被的种类、生物量及覆盖度,并与以前研究相比较,以了解三个湖泊沉水植被资源现状以及变动趋势。       

长江中下游浅水湖泊水生植被生态恢复种的筛选与应用研究

湖泊富营养化是全球性的生态学问题。长江中下游浅水湖泊群作为我国八大湖泊群之一, 近30年来水体富营养化以及生态系统功能退化极为严重, 亟待系统性修复。水生植物生态修复技术则是面向富营养化浅水湖泊生态治理的重要技术。然而, 选择合适的水生植物恢复种来保证恢复效果以及长期的生态安全与稳定性仍是目前恢复工程中的重要且薄弱环节。结合长江中下游湖泊中水生植物的生长、分布、繁殖、来源及污染耐受性等提出了以乡土物种操控为理念适合该区域湖泊的生态恢复先锋物种建议名录, 并依据所筛选的物种特性和淡水生态学相关理论, 提出不同的优化组合方案来指导长江中下游不同类型湖泊的水生植物生态恢复。     

长江中下游浅水湖泊水生植被生态修复种的筛选与应用研究

湖泊富营养化是全球性的生态学问题。长江中下游浅水湖泊群作为我国八大湖泊群之一,近30年来水体富营养化以及生态系统功能退化极为严重,亟待系统性修复。水生植物生态修复技术则是面向富营养化浅水湖泊生态治理的重要技术。然而,选择合适的水生植物恢复种来保证恢复效果以及长期的生态安全与稳定性仍是目前恢复工程中的重要且薄弱环节。结合长江中下游湖泊中水生植物的生长、分布、繁殖、来源及污染耐受性等提出了以乡土物种操控为理念适合该区域湖泊的生态恢复先锋物种建议名录,并依据所筛选的物种特性和淡水生态学相关理论,提出不同的优化组合方案来指导长江中下游不同类型湖泊的水生植物生态恢复。     

水生植物对富营养水体水质净化作用研究

利用富营养浅水湖泊武汉东湖中所建立的大型实验围隔系统,对沉水植物的水质净化作用作了现场实验研究。重建后的沉水植物可以显著改善水质,水体透明度显著提高,水色降低。在研究期间,水生植物围隔CODcr和BOD5一般分别为20和5mg/L左右;对照围隔和大湖水体则分别约为40和10mg/L。水生植物围隔水体中检出的有机污染种类也较对照围和大湖水体柢。实验结果表明恢复以沉水植物为主的水生植被是改善营养湖泊水质和重建生态系统的有效措施。     

不同水生动植物组合对富营养化水体的净化效应

随着城市经济的快速发展,湖泊、水库等水生生态系统的富营养化已成为世界普遍存在的环境问题之一。水体富营养化源于流入水体中的过量营养物质(如N、P等)。在温度和光照作用下,富营养化水体中的藻类大量繁殖,致使水质下降,水体功能退化,甚至失去资源和景观价     

富营养化水体中光照对沉水植物的影响研究进展

恢复沉水植物是修复富营养化水体和维持水体生态系统健康的关键,其中光照是主要的限制因子.本文系统总结了影响水下光强衰减变化的因素和光强对沉水植物生理的影响机制,重点阐述了常见沉水植物在低光胁迫下体内碳、氮、磷的生理代谢机理,抗氧化酶系统的响应机制以及色素组成和浓度的变化反馈.此外,本文还列举了常用的恢复沉水植物的工程措施,提出了恢复富营养化水体中沉水植物群落的思路.并针对目前研究中存在的不足,就今后该领域的研究方向和侧重点提出建议,为理论研究与工程实践提供参考.     

富营养化水体生物净化效应的研究进展

水体富营养化治理已成为当今世界性难题,解决水体富营养化问题的关键是调控水生生态系统结构,使其恢复自然、健康和稳定的水生生态系统功能,提高水生生态系统的生物净化能力,水生高等植物及水生植被是水生生态系统中最重要的初级生产者,它们个体大、生长周期长、吸取和储存营养物质的能力强,保持和恢复一定数量的水生植物种群可抑制浮游植物的生长,提高系统的生物多样性,使水生生态系统结构更加稳定,水生动物在水生生态系统物质和能量循环中处于十分重要的地位,浮游动物和底栖动物可直接捕食浮游植物,控制浮游植物的数量;而改变鱼类种群结构可提高浮游动物的生物量,从而间接控制浮游植物的大量繁殖,达到治理水体富营养化的目的,我国的生物净化研究还处于起步阶段,今后在水生高等植物及水生植被生物净化的关键技术及优化水产养殖新模式技术研究方面有待提高,这将对我国水体富营养化治理及水体可持续利用有着重要的意义。     

湖滨带退化生态系统的恢复与重建

湖滨带是水陆生态交错带的一种类型,在湖泊流域生态系统中发挥着重要作用,具有较高的生态、社会和经济价值.湖滨带的功能包括:缓冲带功能、保持生物多样性及生境保护功能、护岸功能和经济美学价值.湖滨带退化的原因主要是人为因素引起的生物群落结构的逆向演替及生态功能下降,退化湖滨带生态恢复与重建的理论基础是恢复生态学,其生态恢复技术可划分为三大类:湖滨带生境恢复与重建技术、湖滨带生物恢复与重建技术、湖滨带生态系统结构与功能恢复技术.云南洱海湖滨带近3年的生态恢复与重建试验的生态调查结果表明,试验区水生植被得到恢复,水质净化作用明显,藻类得到抑制,浮游动物的构成和数量发生变化,湖滨带湿地生态系统的生物多样性和稳定性增加.     

沉水植被的重建与消失对原生动物群落结构和生物多样性的影响

利用建在武汉东湖的中型围隔来研究沉水植被的重建一消失对原生动物群落的影响。结果表明：沉水植被重建后,一些原已消失的种类重又出现,原生动物种类增加,密度降低,多样性指数增高,优势种类由固着种类取代浮游种类。沉水植被的消失引起原生动物优势种类的明显变化,周丛种类大量丧失,但密度显著增高。     

Fish community assemblages changed but biomass remained similar after lake restoration by biomanipulation in a Chinese tropical eutrophic lake

While the effects of lake restoration by fish manipulation are well-studied in the temperate zone, comparatively little information is available on this issue from tropical lakes. It may be expected that fish removal leads to faster recovery of the fish stock here than in temperate lakes due to more frequent and earlier reproduction, which may, in turn, delay positive effects of the restoration. We studied the community composition, feeding type and abundance of fish in three basins of a tropical shallow lake: one unrestored basin (UR) and two basins restored by fish manipulation and transplantation of submerged macrophytes. While omni-benthivorous fish dominated the biomass in the restored basins 3 and 5 years after restoration, planktivores were most abundant in the UR, although total fish biomass remained similar. One-way analyses of similarities based on fish species presence/absence, abundance and biomass data revealed significant differences in fish community composition among the restored basins and UR, and redundancy analyses further indicated that submerged macrophytes were a key driver behind this difference. Our results indicate that active implantation of submerged macrophytes to stabilise the fish community is a tool to consider when planning lake restoration by biomanipulation in the tropics.     

Epiphyton as a niche for ammonia-oxidizing bacteria: detailed comparison with benthic and pelagic compartments in shallow freshwater lakes

Next to the benthic and pelagic compartments, the epiphyton of submerged macrophytes may offer an additional niche for ammonia-oxidizing bacteria in shallow freshwater lakes. In this study, we explored the potential activities and community compositions of ammonia-oxidizing bacteria of the epiphytic, benthic, and pelagic compartments of seven shallow freshwater lakes which differed in their trophic status, distribution of submerged macrophytes, and restoration history. PCR-denaturing gradient gel electrophoresis analyses demonstrated that the epiphytic compartment was inhabited by species belonging to cluster 3 of the Nitrosospira lineage and to the Nitrosomonas oligotropha lineage. Both the ammonia-oxidizing bacterial community compositions and the potential activities differed significantly between compartments. Interestingly, both the ammonia-oxidizing bacterial community composition and potential activity were influenced by the restoration status of the different lakes investigated.     

湖泊水动力变化对沉水植物的影响研究综述

随着全球气候变化加剧及水利工程的快速发展,湖泊水动力状况发生了显著变化。通过影响湖泊水体和沉积物理化性质,水动力变化可以作用于沉水植物生存、生长与分布等方面。在长期适应进化过程中,沉水植物演化出了一系列有效的适应策略,能一定程度上克服水动力变化的负面影响。但当前湖泊水动力变化程度远超沉水植物适应上限,湖泊沉水植物消退已成为全球普遍现象。了解沉水植物适应水动力条件的过程有助于揭示湖泊沉水植被退化机制,为未来沉水植物的保护和恢复提供借鉴。因此,本文系统综述当前湖泊水动力变化成因,水动力变化对沉水植物的不利影响及沉水植物适应策略,包括：繁殖对策、形态学对策、生理对策等。同时,综述当前研究进展,今后还需大力加强沉水植物解剖学及物种忍耐力差异方面的研究。     

六种沉水植物的克隆生长特征

为构建种群动态模型以指导沉水植被修复工程实践, 研究采用同质园实验方法对6种常见沉水植物(竹叶眼子菜(Potamogeton wrightii)、眼子菜(P. distinctus)、光叶眼子菜(P. lucens)、穿叶眼子菜(P. perfoliatus)、扭叶眼子菜(P. intortifolius)和苦草(Vallisneria natans)的克隆生长模式进行了连续观测研究, 获取了分株形成速率、空间扩张速率、株高增加速率等种群扩张动态参数,及分株数、间隔子长度、分株高度等克隆构件特征参数。结果表明, 6种沉水植物的分株数从28d开始增长, 其中苦草的分株形成速率最高, 平均为1.09株/d, 分株形成最大速率出现在55d之后; 穿叶眼子菜和扭叶眼子菜的分株形成速率低于苦草, 但是高于竹叶眼子菜、眼子菜和光叶眼子菜, 最大速率出现在41d之后。虽然苦草的分株最多, 但是分株的株高最低, 其株高增长速率均值为0.2 cm/d。眼子菜属物种中竹叶眼子菜和眼子菜株高增长速率最高, 光叶眼子菜的株高增长速率和分株形成速率都最低。克隆系占据面积随时间的扩张速率为穿叶眼子菜(113.22 cm2/d)>扭叶眼子菜(71.70 cm2/d)>苦草(35.48 cm2/d)>竹叶眼子菜(12.09 cm2/d)>眼子菜(3.07 cm2/d)>光叶眼子菜(0.53 cm2/d)。此外, 研究还发现眼子菜属植物普遍表现出匍匐茎上“节”的形成, 而苦草则不具备这种特性, 匍匐茎“节”的形成及随之形成的不定根在眼子菜属植物空间扩张过程中具有重要的生态功能, 并在种群构建方面与苦草等其他物种发生分异。基于眼子菜属植物匍匐茎上的“节”可以形成跳跃性的分株, 在种群面积扩张方面更具优势; 而苦草形成分株的数量更多、速度更快, 在提高种群密度保障种群稳定方面更有优势。     

Community collocation of four submerged macrophytes on two kinds of sediments in Lake Taihu, China

To explore a method for rapid restoration and artificial regulation of submerged macrophytes in large-scale restoration of eutrophic lakes, the succession and the biodiversity changes of four communities composed of four native, common submerged macrophytes, Hydrilla verticillata, Potamogeton malaianus, Vallisneria spiralis and Najas marina, on two kinds of sediments were investigated. Under low light intensity (reduced by 99%), the plant biomass changed with seasonal changes, plant competition, and environmental stress. The competitive capability for light differed in the four species due to different shoot height and tiller number. After 405 days of transplantation, H. verticillata became dominant in all communities. The biomass of H. verticillata, with strong ability to endure low water light environment, accounted for more than 90% of the total community biomass, and P. malaianus had only weak growth, while V. spiralis and N. marina almost disappeared. Based on livability and biomass of submerged macrophytes on two sediment types, brown clay sediment appeared to be more favorable for the settlement of the plants, while fertile sludge sediment was suitable for vegetative growth. In conclusion, the improvement of habitats and the selection of appropriate plant species are of the greatest importance for ecological restoration of the aquatic ecosystem.     

Invasive Crayfish Threaten the Development of Submerged Macrophytes in Lake Restoration

Submerged macrophytes enhance water transparency and aquatic biodiversity in shallow water ecosystems. Therefore, the return of submerged macrophytes is the target of many lake restoration projects. However, at present, north-western European aquatic ecosystems are increasingly invaded by omnivorous exotic crayfish. We hypothesize that invasive crayfish pose a novel constraint on the regeneration of submerged macrophytes in restored lakes and may jeopardize restoration efforts. We experimentally investigated whether the invasive crayfish (Procambarus clarkii Girard) affects submerged macrophyte development in a Dutch peat lake where these crayfish are expanding rapidly. Seemingly favourable abiotic conditions for macrophyte growth existed in two 0.5 ha lake enclosures, which provided shelter and reduced turbidity, and in one lake enclosure iron was added to reduce internal nutrient loading, but macrophytes did not emerge. We transplanted three submerged macrophyte species in a full factorial exclosure experiment, where we separated the effect of crayfish from large vertebrates using different mesh sizes combined with a caging treatment stocked with crayfish only. The three transplanted macrophytes grew rapidly when protected from grazing in both lake enclosures, demonstrating that abiotic conditions for growth were suitable. Crayfish strongly reduced biomass and survival of all three macrophyte species while waterfowl and fish had no additive effects. Gut contents showed that crayfish were mostly carnivorous, but also consumed macrophytes. We show that P. clarkii strongly inhibit macrophyte development once favourable abiotic conditions for macrophyte growth are restored. Therefore, expansion of invasive crayfish poses a novel threat to the restoration of shallow water bodies in north-western Europe. Prevention of introduction and spread of crayfish is urgent, as management of invasive crayfish populations is very difficult.     

Effects of phytoplankton on the distribution of submerged macrophytes in a small canal

Submerged macrophytes have been disappearing from the Kanto Plain, Japan since the 1960s. This disappearance is usually attributable to the interaction between macrophytes and phytoplankton. Phytoplankton contributes to shading of the available light and changes the availability of inorganic carbon from free CO₂ to HCO ₃ ^? for use in photosynthesis. However, limited information is available about the interaction between carbon fraction and submerged macrophytes through phytoplankton abundance. In this short note, we observe the distribution of submerged macrophytes and phytoplankton in a small canal. We found that, despite high photosynthetically active radiation (PAR) in the downstream region, low free CO₂ concentration through phytoplankton abundance can deplete free CO₂ for submerged macrophytes. In contrast, the upstream region exhibited macrophytes in an environment with high free CO₂ concentration. The stable carbon isotope ratio of submerged macrophytes follows this pattern, with more positive values occurring in the downstream region and more negative values in the upstream region. It has been reported that phytoplankton limits light availability for submerged macrophytes, but carbon availability could also be a factor in the distribution of submerged macrophytes. Because the source of water for submerged macrophytes is groundwater, its preservation possibly plays a key role for the restoration of submerged macrophytes.     

Evaluation of Restoration Measures in a Shallow Lake through a Comparison of Present Day Zooplankton Communities with Historical Samples

Many shallow lakes have lost a large part of their ecological value during the past decades. Human-induced factors such as eutrophication and inappropriate fish stock management are generally the main causes for this loss. To restore such degraded habitats, several measures are taken, typically involving a reduction of nutrient loading and interventions in the aquatic food web functioning (biomanipulation). In this study, we report on the joint effects of a series of restoration measures in a shallow lake (Lake Kraenepoel, Belgium, 22 ha) and evaluate these effects via three different criteria. The first criterion is that the target condition, being a clearwater phase with submerged macrophytes, was successfully achieved and persisted for a period of at least 5 years after restoration. Second, we detected a substantial change in community structure of cladoceran zooplankton and an associated increase in species richness and conservation value following restoration measures. Finally, we observed that the general structure of the present day cladoceran zooplankton community resembles well that of the preeutrophication period (1929–1931). Current species richness, however, tends to be lower than in the reference period, and some rare species are still lacking. It is conceivable that, when submerged macrophytes develop further, a subset of specialist species may reappear. Overall, the use of historical habitat-specific samples offers a major opportunity for evaluating restoration success in great detail. Community structures may directly be compared, the gain or loss of specific species can accurately be documented, and more insights in the observed patterns be obtained.     

沉水植物功能性状研究的思考

植物的功能性状是指植物体具有的与生长、存活和繁殖紧密相关的一系列核心植物属性,这些性状通常有非常重要的生态学意义。目前,基于植物功能性状的研究已经快速扩展到生态学研究的众多领域。沉水植物是一类与水环境关系密切的生态类群,对浅水湖泊生态系统的结构和功能有重要的意义。之前对功能性状研究主要集中在陆生木本植物,尚无对沉水植物（沉水草本）功能性状的综述。本研究根据沉水草本与陆生植物功能性状的差异,基于陆生植物功能性状研究中的几个重要问题对现有沉水草本植物功能性状的研究进行归纳和梳理。最后对未来沉水植物功能性状的研究方向进行了展望,提出在当前全球气候变化背景下,功能性状研究也可用于指导淡水生态系统的修复。