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辽河流域太子河大型底栖动物群落与水环境因子关联性的量化分析 总被引:1,自引:1,他引:0
大型底栖动物群落结构与水环境因子具有较强的响应关系,为了量化分析大型底栖动物群落水环境因子适宜状态以及响应关系,在太子河进行3次流域水生态调查,共获得136个站位的生态数据,通过筛选得到水环境驱动因子,并利用加权平均回归分析和临界点指示类群分析的方法,探究大型底栖动物群落物种、不同多样性水平以及功能摄食类群水环境驱动因子的最适值和阈值.结果显示,显著影响大型底栖动物群落结构的水环境因子是溶解氧、电导率、总氮.大型底栖动物敏感种的溶解氧最适值较高,耐污种较低;敏感种的电导率和总氮最适值较低,耐污种较高;大型底栖动物群落多样性水平Shannon-Wiener指数(0-1]区间的溶解氧最适值最低,(3-4]区间的溶解氧最适值最高,各Shannon-Wiener指数区间电导率和总氮最适值排序为:(0-1]区间(1-2]区间(2-3]区间(3-4]区间;在5个功能摄食类群中溶解氧最适值最高和最低分别为撕食者和直接收集者,电导率最适值最高和最低分别为直接收集者和过滤收集者,总氮最适值最高和最低分别为直接收集者和刮食者.大型底栖动物敏感种的溶解氧阈值高于耐污种类群与其他物种,而敏感种的电导率和总氮阈值低于耐污种和其他物种;大型底栖动物群落多样性水平Shannon-Wiener指数(0-1]区间与溶解氧阈值呈负响应关系,而与电导率和总氮阈值呈正响应关系,(1-2]区间、(2-3]区间、(3-4]区间与溶解氧阈值呈正响应关系,而与电导率和总氮阈值呈负响应关系;溶解氧指示的大型底栖动物功能摄食类群为撕食者,且呈正响应关系,而电导率和总氮指示的功能摄食类群都包括过滤收集者、刮食者、撕食者,且呈负响应关系,其中刮食者的电导率和总氮阈值均最高.研究表明,通过分析大型底栖动物群落水环境因子的最适值和阈值,能以数据的形式量化反映大型底栖动物群落与河流水环境因子的响应关系,对河流生态环境的保护和修复具有重要的指导意义. 相似文献
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为了解南四湖大型底栖动物群落结构特征及其与环境因子的关系,于2010年对南四湖15个采样点的底栖动物和生态环境进行4次调查研究.结果表明:共检出底栖动物23种,栖息密度和生物量为311.57 ind./m2和44.39 g/m2;群落物种优势度指数较高,优势种集中于羽摇蚊幼虫(Chironomus plumosus)和霍甫水丝蚓(Limnodrilus hoffmeisteri),分别占个体总数的77.45%和11.39%;水生植物生物量为1613 g/m2,盖度为33%,存在显著季节变化与空间差异,但底栖动物群落特征与之无显著相关性;南四湖水域主要污染物为氮,其次为磷,最后为高锰酸钾指数;2010年度除底栖动物物种数与水体CODMn含量呈显著负相关以及栖息密度与水体相关加权综合营养状态指数呈显著正相关外,其余底栖动物群落特征与水生植物、水质理化指标及营养状态间均未表现出显著相关性;依据底栖动物Goodnight-Whitley生物指数和水质相关加权综合营养状态指数评价结果,南四湖除局部区域受到严重的外源污染外,总体为清洁-中度营养类型. 相似文献
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从2010年10月开始在太湖梅梁湾围隔内实验区实施了改性当地土壤技术,在研究其对水体富营养化和蓝藻水华长效控制作用的同时,重点研究了底栖动物群落对此技术的响应.研究发现:经过11个月的处理,相比对照区,实验区内软体动物的平均密度和生物量分别增长了124%和33.8%,底栖动物Margalef和Shannon-Wiener多样性指数分别增长了41.1%和18.5%.环境因子和底栖动物群落的典范对应分析发现叶绿素a、温度、溶解氧和总磷对底栖动物群落有显著影响.本研究表明通过改性当地土壤技术降低水体营养盐含量和叶绿素a含量、增加底泥表层溶解氧含量,可以在一定程度上改善底栖动物生境,提高其物种多样性. 相似文献
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底栖动物作为湖泊生态修复中常用的淡水生物类群,对维持和稳定湖泊生态系统结构与功能具有重要作用,探明底栖动物群落演变特征对湖泊生态修复实践具有重要的指导意义.本研究于2007—2017年对太湖五里湖底栖动物群落结构开展了11年的长期调查,结合底栖动物历史数据以及水体、沉积物和浮游植物等相关资料的分析,探讨了五里湖底栖动物群落结构演变特征及潜在的影响因素.在综合分析底栖动物及环境因子变化特征的基础上,结合五里湖开发与修复工程的特点和发生时间,发现五里湖底栖动物群落演变过程总体可划分为自然演变、快速退化、生境修复和缓慢恢复4个阶段.在自然演变阶段,生境特征为底栖动物群落演变的直接影响因素,如水深、溶解氧和底质类型等;在快速退化阶段,人类活动干扰(如围湖造田)剧烈成为此阶段底栖动物群落演变的主要影响因素;在生境修复阶段,五里湖内开展的综合整治(包括生态清淤、污水截流、退渔还湖、动力换水、生态修复、湖岸整治和环湖林带建设等工程)等各项生态修复工程成为群落演变的主要影响因素,但在此阶段底栖动物优势种仍为耐污种;自2014年以来进入缓慢恢复期,软体动物投放成为底栖动物群落演变的一个重要影响因素,铜锈环棱螺等软体动物成为优势种.综合以上分析结果及底栖动物在生态修复中的应用实践,今后应加强对底栖动物生态修复投放过程及之后的维护管理等方面的研究. 相似文献
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为了解河流大型底栖动物对环境压力的响应关系,以人类干扰程度不同的太湖流域和巢湖流域为研究区,系统调查区域内河流大型底栖动物,结合水体、沉积物理化数据及生境质量状况,运用空间分析和多元统计分析等方法,探讨了大型底栖动物多样性及典型物种对关键环境因素的响应规律.结果表明,太湖流域和巢湖流域的环境质量和大型底栖动物群落结构均差异较大,巢湖流域的生境质量优于太湖流域,巢湖流域平原区部分点位的水体营养盐(特别是氮浓度)高于太湖流域平原区.巢湖流域丘陵区的敏感型物种(主要为水生昆虫)密度远高于太湖流域丘陵区,太湖流域丘陵区的耐污型物种(寡毛纲)平均密度稍高于巢湖流域丘陵区,而巢湖流域平原区的寡毛纲霍甫水丝蚓(Limnodrilus hoffmeisteri)和苏氏尾鳃蚓(Branchiura sowerbyi)平均密度远高于太湖流域平原区.广义加性模型建立的响应关系曲线表明,栖境多样性和总氮浓度可以作为生物多样性的指示因子.铜锈环棱螺(Bellamya aeruginosa)、椭圆萝卜螺(Radix swinhoei)、河蚬(Corbicula fluminea)、霍甫水丝蚓、苏氏尾鳃蚓、黄色羽摇蚊(Chironomus flaviplumus)等特征物种与特定环境因子的响应关系显著,这些物种也可以作为环境监测的指示物种.底栖动物环境梯度的响应曲线能够定量地描述底栖动物群落对环境因子的响应关系,有利于深入了解水体水质、营养状态及生境质量与大型底栖动物群落结构的相关关系,进而预测不同人为干扰下大型底栖动物群落结构的变化趋势和演替过程. 相似文献
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蒙新高原湖泊高等水生植物和大型底栖无脊椎动物调查 总被引:2,自引:2,他引:0
2008年7月和9月调查了我国蒙新高原12个湖泊的高等水生植物和大型底栖无脊椎动物,除阜康天池外皆采集到了水生植物和底栖动物.水生植物共有8科12种,优势种为芦苇和蓖齿眼子菜.底栖动物共鉴定出4门8纲26科64种(属),优势类群为摇蚊和水丝蚓.乌梁素海的水生植物和底栖动物种类最丰富,分别为9种和35种(属).乌梁素海和哈素海全湖都有水生植物分布,但其它湖泊仅分布在个别湖湾.不同湖泊间的底栖动物群落相似性很低.将蒙新地区湖泊湖区分为敞水区、沿岸带水生植物区和强劲湖流区.底栖动物在沿岸带水生植物区的多样性比敞水区高,优势集中性比敞水区低,而强劲湖流区无底栖动物.沿岸带水生植物区不同类型生境中的底栖动物群落相似性分析表明沉水植物密布、风生湖流微弱生境中的底栖动物最丰富,风生湖流强劲生境中无底栖动物.总体上,蒙新高原湖泊水生植物和底栖动物群落相似性较低,要保护湖泊生物多样性,建议对每个湖泊进行适当保护,重点保护风生湖流较弱的沉水植物区. 相似文献
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梅梁湾是太湖北部最大湖湾,也是太湖生态环境问题最严重的区域之一,近年来对太湖治理力度不断加大,然而对其生态状况演变的认识尚不清晰。本文基于长期监测及文献资料,获得1980s以来太湖梅梁湾底栖动物及环境因子数据,分析底栖动物种类组成、优势种、丰度的时空变化,应用非度量多维尺度分析(NMDS)和随机森林(RF)分析群落结构演变及其与环境因子的关系。结果表明,梅梁湾1980—2019年共记录到44属(种)底栖动物,以摇蚊幼虫和软体动物为主,总丰度年际变化显著,40年来底栖群落结构发生显著变化,优势种经历了由较敏感的软体类为主到以耐污寡毛类、摇蚊幼虫等为主的转变。综合NMDS和随机森林分析结果,梅梁湾底栖动物群落演变大致可分为4个阶段:1980s及以前,物种多样性丰富,以河蚬(Corbicula fluminea)等大型软体动物为优势种;1990s—2007年,底栖动物群落快速退化,以耐污种占优;2008—2016年,水生态略有恢复,河蚬等清洁种略有回升;2017—2019年,耐污种优势度和丰度反弹。近40年来梅梁湾底栖动物群落变化主要受底质氮磷、有机质和水体营养盐、蓝藻水华等环境因子变化的影... 相似文献
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湖滨带是湖泊与陆地生态系统间非常重要的生态过渡带,能够保障周围生态系统结构的完整以及功能的正常发挥.随着湖滨带被持续开发与利用,人为干扰对湖滨带的影响逐渐增强.大型底栖动物是淡水生态系统的重要生物类群之一,也是物质循环和能量流动的主要环节,起着承上启下的关键作用.为了解湖滨带开发利用对大型底栖动物群落结构的影响,2020年8月对洪泽湖湖滨带49个样点的大型底栖动物进行调查.共采集到大型底栖动物49种,隶属3门7纲17目26科44属,各样点大型底栖动物的密度差别较大,介于6.67~1386.67 ind./m2之间,整体上呈现西北高,东南低的趋势.相似性分析结果表明,河口型湖滨带和大堤型湖滨带与其他类型湖滨带差异显著,而围网型、圈圩型和光滩型3种湖滨带类型之间的大型底栖动物群落差异均不显著.相似性百分比分析结果表明,腹足纲的环棱螺属是造成不同湖滨带类型差异的主要物种.典范对应分析结果表明,悬浮物(SS)、溶解态总氮、pH、透明度(SD)、浊度、水生植物盖度和扰动指数对大型底栖动物群落有显著影响.考虑不同湖滨带宽度的开发利用情况,发现湖滨带开发利用200 m范围内,物种-环境解释率最高,说明200 m湖滨带范围内的开发利用情况对大型底栖动物的影响最大,对湖滨带200 m范围内的开发利用应该加强管控.结构方程模型表明湖滨带开发利用主要通过影响水生植物盖度、总氮、硝态氮、叶绿素a、SS、SD等进而影响大型底栖动物,且围网也会直接影响大型底栖动物群落结构. 相似文献
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太湖大型底栖动物群落结构与水环境生物评价 总被引:3,自引:3,他引:0
于2014年冬季和夏季调查太湖全湖116个样点的大型底栖动物,分析其群落结构及与环境因子的关系.共记录底栖动物55种,隶属3门7纲18目27科52属,底栖动物的平均密度和生物量分别为405.5 ind./m2和146.6 g/m2.优势度分析表明,河蚬(Corbicula fluminea)、铜锈环棱螺(Bellamya aeruginosa)、霍甫水丝蚓(Limnodrilus hoffmeisteri)、太湖大螯蜚(Grandidierella aihuensis)、寡鳃齿吻沙蚕(Nephtys oligobranchia)和拟背尾水虱属一种(Paranthura sp.)是太湖大型底栖动物的优势种.基于环境因子聚类分析,可将全湖分为3个区:敞水区、水生植被区和富营养区.方差分析表明各湖区间环境因子差异显著.统计分析表明,3个区底栖动物群落结构相似性低,差异显著.典范对应分析表明,水深、总氮、总磷、铵态氮、水生植物、溶解性有机碳和沉积物中值粒径与大型底栖动物群落结构显著相关.K-优势曲线、物种多样性指数显示,从水生植被区→敞水区→富营养区,营养水平增加,底栖动物多样性逐渐降低,生物量逐渐升高.研究结果表明营养水平、底质类型以及水生植被的分布是决定太湖大型底栖动物群落结构及多样性的关键因子. 相似文献
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富营养深水水库底栖动物群落与浮游生物相关性分析 总被引:1,自引:0,他引:1
底栖动物和浮游生物通过食物网发生复杂的交互作用,是水库生态系统物质循环的重要组分.南湾水库和汤浦水库均为存在富营养化现象的深水水库,具有较长时间的水温分层期.本文选取这两座供水水库为对象,比较其水体营养状态、底栖动物的群落结构、现存量和多样性.通过群落状态指数(IICS)定量评估底栖动物群落状态,并采用PLS模型、Spearman秩相关以及回归图探讨浮游生物各类群密度与IICS的关系.研究结果显示,南湾水库富营养程度高于汤浦水库,寡毛类在南湾水库占据优势地位,摇蚊类在汤浦水库数量上占优.南湾水库以收集者为主,其数量占比远高于汤浦水库.深水水库通常存在较强的热分层,富营养化会加重水库底部的缺氧或厌氧状态,导致底栖动物遭受周期性的缺氧扰动,影响种类多样性和现存量,改变浮游生物类群与底栖动物群落的相关性,因此底栖动物群落与浮游生物的相关性能够提供判断水库富营养化程度的重要信号,进而为水库管理方提供更多有价值的参考信息. 相似文献
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Natural riparian forest wetlands are known to be effective in their ability to remove nitrate by denitrification and sediments with attached phosphorus via sedimentation. On the other hand, litter input and decomposition is a process of crucial importance in cycling of nitrogen and phosphorus in a forest ecosystem.In this study we investigated the amount of nitrogen and phosphorus entering the alder fen ecosystem through leaf litter and its decomposition and the removal capacity of nitrogen and phosphorus by measuring denitrification and sedimentation in the alder fen.We found an average input of leaf litter during fall 1998 of 226 g m−2 yr−1 DW with nutrient concentration of 0.17% P and 1.6% N. This means a yearly input of 0.4 g m−2 yr−1 P and 3.6 g m−2 yr−1 N. The decomposition of leaf litter using litter bags with small and large mesh size resulted in bags with macroinvertebrates (large mesh size) and without macroinvertebrates (small mesh size). After 57 days the litter bags with macroinvertebrates had a decomposition rate of 79%.Denitrification was measured in May and June of 1997 using the acetylene inhibition technique on intact soil cores and slurry-experiments. The average annual denitrification rate was 0.2 g m−2 yr−1 N using data from the core experiments. The denitrification rate was higher after addition of nitrate, indicating that denitrification in the riparian alder fen is mainly controlled by nitrate supply.The sedimentation rate in the investigated alder fen ranged from 0.47 kg m−2 yr−1 DW to 4.46 kg m−2 yr−1 DW in 1998 depending on the study site and method we used. Sedimentation rates were lower in newly designed plate traps than in cylinder traps. The alder fen also showed lower rates than the adjacent creek Briese. Average phosphorus removal rate was 0.33 g m−2 yr−1 P.Input sources for the surface water of the alder fen are sediment mineralization and decomposition of leaf litter; output sources are sedimentation and denitrification. This study showed that a nutrient input of 24.58 kg ha−1 yr−1 N, 8.8 kg ha−1 yr−1 P and 419 kg ha−1 yr−1 DOC into the surface water of the alder fen is possible. Alder fens cannot improve water quality of an adjacent river system. This is only true for a nearly pristine alder fen with the hydrology of 10 months flooded conditions and 2 months non-flooding conditions a year. 相似文献
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We assessed leaf breakdown of five native riparian species from Brazilian Cerrado (Myrcia guyanensis, Ocotea sp., Miconia chartacea, Protium brasiliense, and Protium heptaphyllum), incubated in single and mixed species packs in two headwater streams with different physico-chemical properties in the Espinhaço Mountain range (Southeastern Brazil). Leaves were placed in plastic litter bags (15 cm×20 cm, 10 mm mesh size) and the experiments were carried out during the dry seasons of 2003 and 2004. Leaf nitrogen and phosphorus contents were similar in all species, but polyphenolic contents were different (P<0.001). M. guyanensis showed higher polyphenolics content (8.48% g−1 dry mass) and leaf toughness. Individually, higher breakdown rates were found in M. guyanensis at Indaiá stream (k=0.0063±0.0005 d−1) and in Ocotea sp. at Garcia stream (k=0.0088±0.0006 d−1). However, P. brasiliense and P. heptaphyllum showed lower breakdown rates at Indaiá and Garcia streams (Indaiá: k=0.0020±0.0002 and 0.0019±0.0001 d−1; Garcia: k=0.0042±0.0001 and 0.0040±0.0002 d−1). Single and mixed breakdown processes of each species were not statistically different on both streams. However, all species showed higher breakdown rates at Garcia stream (P<0.01). These results suggest that leaf breakdown is not altered when litter benthic patches are composed by a mixture of species in the same proportions that they occur on riparian leaf falls. 相似文献
15.
铜绿微囊藻在竞争生长条件下对氧化还原电位降低的响应 总被引:10,自引:1,他引:9
在室内研究了有、无伊乐藻存在条件下,不同水平的氮及氮磷比(N/P)对实验体系中附着藻类和浮游藻类生长的影响,结果表明:1)在有沉水植物的体系中,当氮浓度较高时(5 mg/L),浮游藻类对N/P的变化比附着藻类更为敏感;而当氮浓度较低时(2 mg/L),浮游藻类与附着藻类对N/P的响应则没有显著的差异;2)在有沉水植物的体系中,当N/P为15时,随水体中氮浓度的升高,附着藻类的生物量显著增加,但浮游藻类的变化不显著.当N/P为25时,随水体中氮浓度的升高,浮游藻类及附着藻类的生物量均显著升高;3)附着藻类的生物量在无沉水植物(伊乐藻)存在的情况下要比有沉水植物(伊乐藻)存在时高得多,且随氮浓度升高,其生物量的增加量也远高于后者.而对浮游藻类而言,情况则完全相反. 相似文献
16.
S. Kaul 《洁净——土壤、空气、水》1983,11(1):47-57
The mineral content was investigated in the below-ground biomass, the above-ground biomass and the litter of the macrophytes in five wetlands in the valley of the river Jehlum. In different seasons, the concentrations of calcium, magnesium, sodium, potassium, phosphorus and nitrogen in the dry matter were determined. Sodium, phosphorus, potassium and calcium showed decreasing concentraions from spring to autumn. The sodium and magnesium concentrations showed an irregular trend. As a whole, the incorporated mass of substances per unit of area increases, however, in the course of the period of vegatation for the below-ground biomass as well as the above-ground biomass. Due to washing-out, the litter always shows considerably reduced concentrations. 相似文献
17.
《Limnologica》2021
The decomposition of plant litter is a fundamental ecological process in small forest streams. Litter decomposition is mostly controlled by litter characteristics and environmental conditions, with shredders playing a critical role. The aim of this study was to evaluate the effect of leaf species (Maprounea guianensis and Inga laurina, which have contrasting physical and chemical characteristics) and water nutrient enrichment (three levels) on leaf litter chemical characteristics and fungal biomass, and subsequent litter preference and consumption by Phylloicus sp. (a typical shredder in tropical streams). Maprounea guianensis leaves had lower lignin and nitrogen (N) concentrations, higher polyphenols concentration and lower lignin:N ratio than I. laurina leaves. Phosphorus concentrations were higher for both leaf species incubated at the highest water nutrient level. Fungal biomass was higher on M. guianensis than on I. laurina leaves, but it did not differ among nutrient levels. Relative consumption rates were higher when shredders fed on M. guianensis than on I. laurina leaves, due to the lower lignin:N ratio and higher fungal biomass of M. guianensis. Consumption rates on M. guianensis leaves were higher for those exposed to low water nutrient levels than for those exposed to moderate water nutrient levels. Feeding preferences by shredders were not affected by leaf species or nutrient level. The low carbon quality on I. laurina leaves makes it a less attractive substrate for microbial decomposers and a less palatable resource for shredders. Changes in litter input characteristics may be more important than short-term nutrient enrichment of stream water on shredder performance and ecosystem functioning. 相似文献
18.
19.
20.
D. Dieter D. von Schiller E. M. García-Roger M. M. Sánchez-Montoya R. Gómez J. Mora-Gómez F. Sangiorgio J. Gelbrecht K. Tockner 《Aquatic Sciences - Research Across Boundaries》2011,73(4):599-609
Autumnal input of leaf litter is a pivotal energy source in most headwater streams. In temporary streams, however, water stress
may lead to a seasonal shift in leaf abscission. Leaves accumulate at the surface of the dry streambed or in residual pools
and are subject to physicochemical preconditioning before decomposition starts after flow recovery. In this study, we experimentally
tested the effect of photodegradation on sunlit streambeds and anaerobic fermentation in anoxic pools on leaf decomposition
during the subsequent flowing phase. To mimic field preconditioning, we exposed Populus tremula leaves to UV–VIS irradiation and wet-anoxic conditions in the laboratory. Subsequently, we quantified leaf mass loss of preconditioned
leaves and the associated decomposer community in five low-order temporary streams using coarse and fine mesh litter bags.
On average, mass loss after approximately 45 days was 4 and 7% lower when leaves were preconditioned by irradiation and anoxic
conditions, respectively. We found a lower chemical quality and lower ergosterol content (a proxy for living fungal biomass)
in leaves from the anoxic preconditioning, but no effects on macroinvertebrate assemblages were detected for any preconditioning
treatment. Overall, results from this study suggest a reduced processing efficiency of organic matter in temporary streams
due to preconditioning during intermittence of flow leading to reduced substrate quality and repressed decomposer activity.
These preconditioning effects may become more relevant in the future given the expected worldwide increase in the geographical
extent of intermittent flow as a consequence of global change. 相似文献