Anthropogenic disturbance of aquatic biodiversity and water quality of an urban river in Penang, Malaysia

Malaysia's rapid economic and demographic development have placed negative pressure on its water supplies and the quality of the Juru River, which is close to the nation's capital and its major source of water. Healthy aquatic ecosystems are supported by physicochemical properties and biological diversity. This study evaluated the anthropogenic impacts on aquatic biodiversity, especially plankton, fish, and macrobenthos, as well as the water quality of the Juru River in the Penang area. Aquatic biodiversity and river water parameters were collected from ten sampling stations along the Juru River. Seven variables were used to assess the physicochemical environment: pH, temperature, total suspended solids (TSS), salinity, dissolved oxygen (DO), biochemical oxygen demand (BOD), and chemical oxygen demand. At each sampling station, the total number of plankton, fish, and macrobenthic taxa were counted and analyzed. The relationships between the physicochemical parameters and aquatic biodiversity were investigated with biotypological analysis, principal component analysis, hierarchical cluster analysis, and linear regression analysis. These analyses showed that the richness and diversity indices were generally influenced by salinity, temperature, TSS, BOD, and pH. The data obtained in this study supported the bioindicator concept. The findings, as they related to scientifically informed conservation, could serve as a model for Juru River management, as well as for river management throughout Malaysia and other tropical Asian countries.

Biodiversity of Duckweeds in Eastern China and Their Potential for Bioremediation of Municipal and Industrial Wastewater

Duckweed is a group of aquatic plants with the potential of wastewater remediation and fast accumulation of biomass. The accumulated biomass, rich in cellulose, starch and protein, can be used for biofuel, bio-fertilizer, animal feed and human food. Characterization of natural biodiversity of duckweed species is essential for the germplasm preservation and various practical applications. We have collected samples of duckweed in eastern China and characterized species biodiversity by genotyping, using chloroplast (atpF-atpH and psbK-psbI spacers). Spirodela polyrhiza was revealed as a clear dominant duckweed species in all locations of the area. Other duckweed species were identified as Landoltia punctata, Lemna aequinoctialis and Lemna turionifera. Selected isolates of these four species were used in the experiments to estimate their potential in removing nitrogen and phosphorus nutrients from municipal and industrial wastewater sampled at the local sewage plants. Duckweed was able to reduce the concentration of nitrogen up to 98% and phosphorus up to 96%. The presented data demonstrates high efficiency of the local duckweed isolates for bioremediation of different types of wastewater and the great potential of duckweed for wastewater treatment when incorporated into the purification chain.

Succession and biodiversity indices in eutrophication process of static landscaping water body in northern China

Many biodiversity indices were used to indicate the biological contamination degree in studies of lake water or seawater. Some were studied on biodiversity comparison for different areas at the same time, or initial structure succession of some aerial lake water systems. The phytoplankton changed with the development of various dominant species. In this study, the dominant species at these stages were Chlorophyta in the beginning stage, Cyanophyta in the second stage, and Xanthophyta in the last stage. Seven of nine biodiversity indices (Margalef's, IE, Shannon-Wiener, Simpson's, McNaughton's, Species and Odds Measure of Diversity) showed their failure to represent the eutrophication trend, and the other two indices (Menhinick's and Monk) exhibited good efficiency to indicate the eutrophication trend for the static landscaping water body.

Water consumption and biodiversity:Responses to global emergency events

Given that it was a once-in-a-century emergency event,the confinement measures related to the coronavirus disease 2019(COVID-19)pandemic caused diverse disruptions and changes in life and work patterns.These changes significantly affected water consumption both during and after the pandemic,with direct and indirect consequences on biodiversity.However,there has been a lack of holistic evaluation of these responses.Here,we propose a novel framework to study the impacts of this unique global emergency event by embedding an environmentally extended supply-constrained global multi-regional input-output model(MRIO)into the drivers-pressure-state-impact-response(DPSIR)framework.This framework allowed us to develop scenarios related to COVID-19 confinement measures to quantify country-sector-specific changes in freshwater consumption and the associated changes in biodiversity for the period of 2020-2025.The results suggest progressively diminishing impacts due to the implementation of COVID-19 vaccines and the socio-economic system’s self-adjustment to the new normal.In 2020,the confinement measures were estimated to decrease global water consumption by about 5.7% on average across all scenarios when compared with the baseline level with no confinement measures.Further,such a decrease is estimated to lead to a reduction of around 5% in the related pressure on biodiversity.Given the interdependencies and interactions across global supply chains,even those countries and sectors that were not directly affected by the COVID-19 shocks experienced significant impacts:Our results indicate that the supply chain propagations contributed to 79% of the total estimated decrease in water consumption and 84%of the reduction in biodiversity loss on average.Our study demonstrates that the MRIO-enhanced DSPIR framework can help quantify resource pressures and the resultant environmental impacts across supply chains when facing a global emergency event.Further,we recommend the development of more locally based water conservation measures—to mitigate the effects of trade disruptions—and the explicit inclusion of water resources in post-pandemic recovery schemes.In addition,innovations that help conserve natural resources are essential for maintaining environmental gains in the post-pandemic world.

Coupling interaction between biodiversity and aquatic habitat area in Western Route Project vicinity

The Western Route of the South-to-North Water Transfer Project will divert water from the upper Yangtze River and its tributaries, the Dadu River and Yalong River, to the upper Yellow River. The project may ease the water shortage in the Yellow River Basin. However, it may also have some effects on the ecosystem in the upper Yangtze River Basin. Benthic invertebrates play an important role in the river ecosystem, particularly in the circulation of materials and nutrition. Benthic invertebrates are widely used to quickly assess river ecosystems because of their rapid response to changes in the water environment. The diversity of benthic invertebrates is closely associated with the aquatic habitat area. This study examined this interaction by sampling the benthic invertebrates in an expanding area. The conclusions are that the diversity of benthic invertebrates begins to decrease when the aquatic habitat area is reduced to 45% of the original area, and decreases dramatically when the aquatic habitat area is reduced to 10% of the original area. The aquatic habitat area should be kept at more than 45% of the original area in order to maintain the significant diversity of benthic invertebrates.

Pilot Study on the Effects of Partially Restored Riparian Plant Communities on Habitat Quality and Biodiversity along First-Order Tributaries of the Lower St. Johns River

The St. Johns River is one of the premiere waterways in the southeastern United States, but it is increasingly affected by anthropogenic disturbances and influences such as excessive loading of nutrients. In the current pilot project, small native plant communities (“garden sites”) were established along sections of riparian corridors of five first-order tributaries in residential-commercial areas that drain into the lower St. Johns River in north Florida. In addition, four “non-garden” (control) tributaries were monitored for comparison. Garden sites included five species native to the area;20 plants of each species on both banks (200 total plants). These sites were used to assess the ability of partially restored riparian areas to ameliorate nutrient loading and water quality and determine their impact on local biodiversity in disturbed suburban drainage systems. Partially restored sites showed a significant reduction in both NO3- and P concentrations in both soil and water samples compared to control sites. For instance, soil NO3- levels were reduced by 14% in garden sites, while water samples were 30% lower. Moreover, both plant species richness and Shannon diversity (H’) were significantly higher at partially restored sites, 33 and 19% respectively, compared to control streams after two years. Garden sites also had significantly higher terrestrial and invertebrate diversity than non-restored tributaries. Intermittent patches of partially restored habitat along suburban riparian corridors may provide a practical cost-effective technique for improving ecosystem function, water quality and increasing biodiversity along these frequently disturbed lotic habitats. Trends detected in the current study may have general implications for riparian restoration and reduction of nutrient loading in these small tributaries and, ultimately, effect water quality of the lower St. Johns River basin.

Conservation of Aquatic Biodiversity in China

本文探讨了中国目前水生生物多样性的状况。人类活动已对水生物的生存环境造成严重影响 ,面对生物多样性的丧失 ,我们应设法保护它。本文在保护水生生物多样性方面提出了一个新的观点 。

浮游生物对渭河水环境的响应机理及生态效应

【目的】为探究浮游生物对渭河陕西段水环境的响应机理及生态效应,【方法】以渭河陕西段为研究区,于2021年4月共设置14个采样点,采集14份水样,分析浮游生物群落结构空间分布特征;评估浮游生物群落的均匀性、物种丰富度和多样性时,常用Pielou指数、Margalef指数和Shannon-Weiner指数,并评价断面水环境质量;利用典范对应分析(CCA)和冗余分析(RDA)识别环境因子对浮游植物和浮游动物群落空间分布的影响程度。【结果】结果表明:渭河陕西段浮游植物共有7门55种,硅藻门种类数最多(49.09%),优势种有6种;浮游动物共3门22种,轮虫占比最高(68.18%),优势种有4种;浮游植物的H′、J及d变化范围分别为1.017~4.025、0.267~0.890、0.446~1.099,浮游动物其指数变化范围分别为0.811~2.459、0.754~1.000、0.126~0.542;CCA分析显示,影响浮游植物群落空间分布变化的环境因子主要有TP、NH_(3)-N和pH;根据RDA分析结果显示,对于浮游动物群落结构的主要影响因子,化学需氧量(COD)和水温(WT)起到了关键作用。【结论】结论显示:渭河陕西段浮游生物指数变化显示研究区域呈现清洁—中污染状态;根据《中国淡水藻类—系统、分类及生态》《环境和指示生物(水域分册)》中浮游植物和浮游动物的水污染指示物种判断水环境状况,对比本研究浮游植物和浮游动物的多样性指数评价水环境质量,得出浮游动物对水质评价的响应结果更加准确。通过构建水环境-浮游生物对比判断模型,选择区域更加准确的评价指标,有助于提高浮游生物对水生态环境指示作用的准确性,进而揭示浮游生物对水生态环境的响应机理。以上结果可为渭河流域水生态环境保护提供理论参考。

长江流域青海区域水生生物完整性评价

依据《长江流域水生生物完整性指数评价办法(试行)》的要求和指标,通过梳理历史记录和文献,厘清了长江流域青海区域水生生物完整性评价的基准值;于2022年开展全面系统地野外调查,并对研究区域的水生生物完整性进行了评价。结果显示:长江流域青海区域鱼类种类基准值为20种,鱼类种类现状值为19种;长江在青海省境内的长江源河段、大渡河源河段,以及长江流域青海区域整体的水生生物完整性得分分别为88.22,82.67分和81.56分,完整性等级均为“良”。其中,长江源河段历史有记录以来的15种鱼类在此次调查中均被发现,反映长江源流域水生生物群落受人类干扰较少,重点保护物种完整。研究区域鱼类栖息地生境良好,但主要制约完整性的因素是水电站对河流的阻隔、外来物种入侵和关键物种川陕哲罗鲑的缺失。研究结果可为全面评估长江水生态完整性提供青海区域的基础数据,还可为科学评估长江十年禁捕成效、针对性开展水域生态修复提供科学依据。

森林火烧迹地林下植物多样性与土壤理化性质变化格局

为探究森林火烧迹地中的植物多样性和土壤理化性质的变化规律,试验选取广东西江烂柯山省级自然保护区和肇庆市国有北岭山林场内不同火烧恢复年限(2.5~16.0年)的样地和未被火烧过的森林公园(对照样地)样地进行调查和研究,详细记录样方内林下植物种类名称、数量和覆盖度等,并计算植物多样性指数。同时,测定了表层土壤(0~10 cm)的理化性质,大团聚体湿筛和微团聚体粒径质量分布。结果表明,(1)火烧后,林下植物种类、数量,Margalef丰富度指数和Shannon-Wiener指数都低于对照样地。火烧后的样地林下植被种类、数量、Shannon-Wiener指数、Pielou均匀度指数和枯落物厚度随恢复时间变长总体表现出先增加后减少的趋势。而Margalef丰富度指数和Fish-er′sα指数都呈现总体增加的趋势;所测的对植物生长有主要影响的土壤理化性质多与植物的Simpson优势度指数和生境Fisher′sα指数呈正相关,而与其他多样性指数负相关。(2)随着火烧样地恢复年限的增加,土壤pH值、全钾、全磷和有效磷含量都总体上呈现出先升高再下降的趋势,而速效钾、全氮、水解氮含量、阳离子交换量都呈现先降低后升高的趋势。(3)随着火烧后恢复年限的增加,湿筛后土壤水稳性大团聚体粒径>0.50 mm和≤0.25 mm粒径百分比呈现出先升高后下降的趋势,火烧有助于短期提高表层土壤的大团聚体含量和稳定性。火烧后微团聚体≤0.25 mm的5个粒径级别,其百分比随恢复时间的延长都有先降低后升高的趋势,火烧后短期的生态恢复增强了微团聚体的稳定性和抗侵蚀能力。

基于生物多样性保护的泵型研究与探讨

泵站工程建设的同时必须考虑生物多样性,适于鱼类的洄游和迁徙,保证鱼类自然生态系统的可持续性。以某低扬程泵站为工程案例研发灯泡贯流泵的水力模型,通过分析影响鱼类友好型水泵研发的机械结构、流体动力学和生物学三大因素,提出基于生物多样性保护的鱼类友好型水泵优化设计的两类目标函数。

南水北调西线工程上线水源区大型底栖动物群落结构及环境驱动因子

为评估南水北调西线工程上线水源区大型底栖动物群落结构及环境驱动因子,于2022年7月(汛期)和11月(非汛期)开展监测采样工作。采用生物多样性指数和丰度-生物量比较曲线(ABC曲线)作为大型底栖动物群落特征参数,分析大型底栖动物群落在水源区的结构,并对其进行多元排序和Pearson相关性分析。结果表明:共采集45种大型底栖动物,隶属于4门5纲10目32科44属,其中优势种8种,所有优势物种出现频率均大于50%,水源区大型底栖动物群落结构一致性较高;水源区Margalef丰富度指数、Shannon-Wiener多样性指数和Pielou均匀度指数均值分别为4.01、1.68、0.61;多数采样区域大型底栖动物的ABC曲线呈纠缠态势,其丰度和生物量累积百分比的差值面积在0附近波动,群落以小个头物种为主;优势种以耐污值低的敏感种类为主,说明河流几乎不受污染,水体清洁;pH值是影响水源区大型底栖动物群落结构的主要环境驱动因子。

城市水体水生生物群落结构分析——以苏州工业园区为例

为评价苏州工业园区水生生物多样性及水生态环境现状,于2022年11月(秋季)与2023年5月(春季)开展苏州工业园区辖区内阳澄湖及周边河湖春、秋季水生生物种群结构和资源状况调查。结果表明,该区域共鉴定出浮游植物7门89种,浮游动物4大类95种,底栖动物3大类59种;春季各调查点位浮游植物、浮游动物和底栖动物密度平均值分别为11.48×10^(6) cell/L,2505.98 ind./L,566.95 ind./m^(2),均大于秋季(5.13×10^(6) cell/L,1237.74 ind./L,382.48 ind./m^(2));春季各调查点位浮游植物、浮游动物和底栖动物生物量均值分别为5.48,1.11 mg/L,461.31 g/m^(2),同样均高于秋季(1.27,0.99 mg/L,190.21 g/m^(2))。香农维纳(Shannon-Wiener)多样性指数(H′)和皮耶罗(Pielou)均匀度指数(J)结果表明,园区水生生物多样性处于较好至丰富,种间个体分布均匀度处于良好至优秀水平,其中秋季浮游植物和底栖动物的多样性指数较春季有较大降低。总体而言,由于沉水植物分布、温度差异等原因,园区水生生物分布呈现出一定的时空差异;部分水域呈现出一定程度的富营养化,仍需进一步强化监测预警。

全域土地综合整治区域生态基底调查研究

生态基底调查是科学评估全域土地综合整治项目区域生态环境状况的基础性工作,可精准掌握整治区域整体生态状况,科学指导规划设计与生态工程实施,有助于大都市郊野空间整体保护修复和综合治理。以上海市松江区泖港镇的全域土地综合整治试点项目为例,开展试点区域景观格局、生态系统生物要素和环境要素等生态基底状况研究,准确识别并诊断现存生态问题,并针对性提出生态修复措施。结果显示:试点区域整体生境连通性良好,但在水源涵养林等地区存在生态障碍点,且项目区生物多样性较低。通过优化调整用地布局、连通生态廊道、设置生态缓冲带、增种乡土植物等措施,可进一步提升生态系统服务功能,改善生境质量。本研究可为上海乃至全国郊野地区生态保护修复实践提供借鉴。

北部湾北部海域大型底栖动物的群落结构特征

【目的】探明北部湾北部海域大型底栖动物的物种组成、群落结构、多样性及其与环境因子的相关性,为北部湾北部海域生态监测、环境评价和大型底栖动物多样性保护提供数据支撑,也为北部湾北部海域海洋资源的可持续开发利用提供科学依据。【方法】于2020年10—11月(秋季)和2021年4—5月(春季)对北部湾北部海域共20个调查站位进行大型底栖动物取样,统计底栖动物丰度、生物量、优势度(Y)和种类更替率,并计算Shannon-Wiener多样性指数(H')、Margalef丰富度指数(D)和Pielou均匀度指数(J'),通过相似性百分比分析(SIMPER)确定划分群落时的主要物种,以ABC曲线(丰度/生物量)分析大型底栖动物群落受干扰情况,并利用SPSS 24.0分析环境因子与大型底栖动物多样性(H'、J'和D)的Pearson相关性。【结果】春季调查共鉴定出50种大型底栖动物,隶属于9个门类,优势种有12种;秋季调查共鉴定出40种,隶属于5个门类,优势种有10种;春、秋两季大型底栖动物的共有优势种为光亮倍棘蛇尾、疣吻沙蚕和日本文昌鱼。春季大型底栖动物平均丰度为143.11 ind/m^(2),秋季为186.38 ind/m^(2);春季大型底栖动物平均生物量为18.92 g/m^(2),秋季为24.15 g/m^(2);春季大型底栖动物多样性明显高于秋季,具体表现为:春季H'(1.566)>秋季H'(1.126),春季J'(0.780)>秋季J'(0.613),春季D(0.694)>秋季D(0.548)。在春季,北部湾北部海域各站位的大型底栖动物群落结构可划分为五大类群,在秋季可划分为四大类群,两季均存在的特征种为光亮倍棘蛇尾和日本文昌鱼。Pearson相关分析结果表明:春季大型底栖动物的H'、J'和D与各环境因子均无显著相关性(P>0.05),结合ABC曲线分析可知北部湾北部海域春季大型底栖动物群落受到的干扰较小;在秋季,H'与溶解氧呈显著正相关(P<0.05,下同),与水温、硝酸盐及溶解态无机氮呈显著负相关;J'与溶解氧和pH呈显著正相关,与磷酸盐、硝酸盐及溶解态无机氮显著负相关;D与溶解氧呈极显著正相关(P<0.01),与水温、磷酸盐、硝酸盐及溶解态无机氮呈显著负相关。【结论】北部湾北部海域可能存在中度污染或干扰,尤其是秋季的生物群落结构稳定性较差;水温、溶解氧、磷酸盐、硝酸盐及溶解态无机氮等环境因子是影响秋季大型底栖动物群落的主要环境因子,即控制氮、磷输入是维持北部湾海域生态平衡的重要举措。

生态流量泄放对小水电坝下河段底栖动物群落的影响

泄放生态流量是修复小水电坝下减水河段生态系统的重要手段。大型底栖动物对环境变化敏感,是水生生态系统修复效果的重要指示生物类群。2021年,在重庆市巴南区一品河、五布河上共选择8座典型小水电,调查减水河段前端浅滩(评估点)的流量、河流生境、水质、底栖动物,并与近自然河段浅滩(参照点)对比,以评价生态流量泄放后减水河段的生态修复效果,探究影响底栖动物群落恢复的生态机制。结果显示:只有1座小水电的泄放量完全达到设计值。未达标泄放量的达成度平均值为41.0%。评估点河道湿润率平均值为47.6%。评估点和参照点的水质并无明显差异。底栖动物密度、大多数评估点的水生昆虫生物量和丰富度指数均显著低于参照点,平均值分别为参照点的25.8%、24.5%、43.2%。Shannon-Wiener多样性指数、Pielou指数与参照点无显著差异。评估点底栖动物以EPT昆虫(蜉蝣目、襀翅目、毛翅目昆虫)为优势,功能摄食类群以收集者和刮食者为优势,与参照点一致,但评估点各功能摄食类群密度普遍显著低于参照点。评估点底栖动物密度、丰富度、EPT昆虫密度与河道湿润率呈显著线性正相关。研究表明:泄放生态流量后,小水电近坝浅滩生境水质、底栖动物群落多样性、群落结构、功能摄食类群等与参照点无显著差异。底栖动物密度、水生昆虫生物量和丰富度、EPT昆虫密度等指标的恢复效果并不显著。减水河段的生态修复效果整体尚未达到预期。泄放量不足是阻碍底栖动物群落恢复的重要原因。

赤水河威信段鱼类多样性及动态特征研究

近年来,赤水河鱼类资源经历了受损、保护、恢复的过程.目前研究与实践集中于赤水河云南段,而对威信境内鱼类多样性研究未见报道.因此,结合历史相关资料及近年调查数据,研究了赤水河威信段鱼类多样性动态特征.结果表明,赤水河威信段鱼类有5目10科46属51种,其干支流鱼类多样性相似度高,不同空间尺度鱼类优势种组成有所差异,且近年鱼类物种恢复成效明显,其中干流鱼类2023年物种数是2019年的2.72倍.

基于环境DNA metabarcoding的舟山及其邻近海域鱼类空间分布格局的初步研究

为了解舟山及其邻近海域主要鱼类群落的种类组成,监测和保护其多样性,本研究于2019年5月在舟山及其邻近海域9个站位共采集了27个水样,采用环境DNA(environmental DNA,eDNA)metabarcoding技术确定了各站位鱼类群落组成和生物多样性。结果显示,舟山及其邻近海域共检出52种鱼类,隶属于18目37科49属,有4种鱼类仅注释到属级分类阶元。其中,鲈形目和鲭形目占比最高,分别为28.85%和15.38%,不同海域优势种存在较大差异。多样性(Shannon指数、Simpson指数和Pielou指数)表现趋势基本相同,均表现为舟山近海海域>长江河口海域>舟山外海海域。各鱼种eDNA在不同水层变化趋势大致可以分为3种,且多数鱼种序列丰度在水层间的变化趋势与其栖息水层偏好高度吻合。此外,通过与其他学者的研究结果进行比较分析,发现同一时间相同海域的eDNA metabarcoding研究结果差异较大,表明目前eDNA技术仍不能完全替代传统调查方法。未来可以将eDNA metabarcoding技术作为一种辅助手段应用于渔业资源监测,提高检测效率并减少对生态系统的干扰。本研究可为岛礁海域的鱼类群落调研提供新的思路和方法。

玉溪市生态系统服务功能重要性评价及机理

以玉溪市为研究对象,结合其生态环境的实际情况及数据,对玉溪市生态系统服务功能重要性进行评价,并探究其形成重要性格局的内在机理。结果表明,玉溪市生态系统服务功能重要性主要是极重要,其面积为13556.94 km2,占玉溪市总面积的90.74%;一般重要地区分布较少,分布在玉溪市西南地区,主要分布在元江县;重要地区分布较离散,多分布在玉溪市东部地区,主要分布在红塔区、江川区、海通县、澄江市;极重要地区分布较广,涵盖了玉溪市各县区,主要分布在峨山县、易门县、新平县、华宁县;在不同重要性等级中,耕地和林地的总面积占比较大,耕地面积占比与生态系统服务功能重要性等级呈负相关,林地面积占比与生态系统服务功能重要性等级呈正相关,随着重要性等级的变化,二者呈此消彼长的规律。

云南省光伏电站对区域林地的生态影响研究

以实地走访和调查访谈的方式调查了解云南省光伏电站对区域林地的生态影响。结果表明,光伏电站建设会造成电站范围内乔木和灌木的砍伐以及草本植物的割除,但植物物种个体数量和生物量无显著减少,一些电站因光伏板遮阳保湿,物种略有增加。电站建设对基因多样性的影响不大,但对生态系统有一定的影响。光伏项目的实施使林地用途改变,破坏了一定数量的地表植被,一定程度上破坏了区域内景观潜在的美学价值,但范围较小,对自然景观风貌的影响不大。项目区域内水土流失可控,通过保护措施可恢复植被,施工和运行过程有切实可行的污染及影响防治措施,污染物产生量小,排放达标。项目对区域大气、地表水、声环境及生态环境的影响小,不会导致项目所在区域环境功能的明显改变。基于调查结果,提出加强林地、生物多样性保护的技术措施,并对云南省光伏电站的建设规模作出预警,实现光伏发电产业与生态环境协同发展。