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1.
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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2006年4月至2007年3月对长江支流清江二级支流———胡家溪的大型底栖动物群落结构和生产量进行为期一周年的调查和研究.结果表明,主要蜉蝣优势种小裳蜉(Leptophlebia sp.)、扁蜉(Electrogena sp.)、四节蜉(Indobaetis sp.)的生活史为一年三代,细蜉(Caenis sp.)为一年两代;小裳蜉的年均密度和年均生物量分别为407 ind./m2、1.00 g/m2;扁蜉为150 ind./m2、0.37 g/m2,四节蜉为232 ind./m2、0.30 g/m2,细蜉为91 ind./m2、0.17 g/m2.采用龄期频率法测算的周年生产量和P/B分别为:小裳蜉为441.42 g/m2(WW),14.3;扁蜉为434.88 g/m2(WW),7.6;四节蜉为747.21 g/m2(WW),15.0;细蜉为40.52 g/m2(WW),7.2.四种蜉蝣生产量的时间重叠比例相似系数较高,均大于0.55,这可能与四种蜉蝣的生境及食物资源较为相似有关. 相似文献
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19882016年洞庭湖大型底栖动物群落变化及驱动因素分析 总被引:1,自引:0,他引:1
洞庭湖是我国第二大淡水湖泊,其水文条件对湖泊湿地生态系统健康的维系发挥着不可替代的作用.近年来,水环境恶化日益威胁湖区水生态系统健康.然而,有关底栖动物水生态健康评价的研究仍然停留在物种群落结构方面,缺乏底栖动物群落功能对水污染响应的研究,尤其在较长时间尺度上.因而,本研究分析了19882016年近30 a来洞庭湖的水质和底栖动物群落数据,探寻底栖动物群落功能对水环境恶化的响应规律.结果表明,洞庭湖水体总氮浓度是威胁底栖动物物种和功能群落变动的主要因素.此外,不断恶化的水环境驱动底栖动物物种和功能群落结构改变,表现为敏感水生昆虫的比例下降,寡毛类、小型软体动物比例的上升,并伴随着体长为1.00~1.99 cm、背扁型、侧扁型、不移动等功能性状类别比例的下降.同时,水环境恶化降低物种丰富度、功能丰富度和劳氏二次熵多样性.基于距离的冗余分析结果显示,水体氮营养盐、重金属离子和有机污染物共同驱动底栖动物物种群落结构的变异,而营养盐类与无/有机污染物决定着其功能群落结构的变异.鉴于洞庭湖水质不断恶化的状况,本研究建议采取一系列措施,包括合理管控湖区周边废水直排入湖、取缔湖区内的非法采砂以及调控枯水季洞庭湖水位等.生物监测和评价方面,建议将底栖动物物种和功能群落一并纳入评价体系,且优先选用物种丰富度、功能丰富度和劳氏二次熵指数评估换水周期较短的大型浅水湖泊水质变化对底栖动物物种和功能多样性的影响. 相似文献
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汉江上游是丹江口水库的水源区,其生态环境状况对保障汉江全流域及南水北调中线生态安全起着举足轻重的作用.本研究于2017年11月和2018年4月对汉江上游干流及源于秦岭南麓的5条典型支流开展了系统调查,旨在摸清汉江上游干支流的底栖动物群落特征,以及评价其水质状况.共采集到大型底栖动物240种,其中水生昆虫209种,软体动物13种,环节动物9种,其他类群9种.其中四节蜉Baetis sp.在各条河流中均为优势种,此外其他优势种还有拟细裳蜉Paraleptophlebia sp.、细蜉Caenis sp.、扁蜉Heptagenia sp.、花翅蜉Baetiella sp.、直突摇蚊Orthocladius sp.、纹石蛾Hydropsyche sp.、蜉蝣Ephemera sp.、带肋蜉Cincticostella sp.、高翔蜉Epeorus sp.、似波摇蚊Sympotthastia sp.和真开摇蚊Eukiefferiella sp..从各类群的密度来看,水生昆虫在汉江及五条支流中均占有绝对优势,占总密度的90.8%~98.9%,而在生物量上,除汉江干流中软体动物占绝对优势外,水生昆虫在各支流中均占绝对优势,占总生物量的47.0%~98.9%.就功能摄食类群的密度而言,直接收集者在汉江干支流中均为最主要功能摄食类群,而从生物量方面来看则表现出差异性,捕食者是金水河和旬河中最主要功能摄食类群,刮食者为汉江干流和月河中最主要功能摄食类群,直接收集者是金钱河中最主要功能摄食类群,滤食者为湑水河中最主要功能摄食类群.冗余分析结果表明,流速、总磷和电导率为影响汉江干支流底栖动物分布的关键环境因子.采用底栖动物生物指数(BI)和Shannon-Wiener指数进行水质生物评价,结果显示除汉江的极个别断面、湑水河和月河下游及旬河的中下游河段处于轻-中度污染状态外,其他调查河段均处于清洁状态.本研究结果可为汉江上游流域生态管理和科学保护提供依据. 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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为全面了解北运河水系的底栖动物群落结构和水环境质量,于2015年5月对北运河水系33个样点的底栖动物和水体理化性质进行了调查,分别采用综合水质标识指数法和底栖动物BI指数法对北运河水系进行水质评价,并通过Kolmogorov-Smirnov检验判断正态性,用Pearson相关分析方法对两种评价结果进行比较和分析.结果表明:北运河水系共采集到底栖动物23种,隶属于3门4纲6目11科11属,以水生昆虫和软体动物为主,整个水系底栖动物群落结构单一;底栖动物BI指数法的评价结果显示,72%的采样点水质为中污染(Ⅳ)或重污染(Ⅴ);综合水质标识指数法的评价结果显示,超过57%的采样点水质为Ⅳ类及以下;根据K-S检验,两组评价得分均符合正态分布;Pearson相关分析显示两种评价结果呈显著正相关.两种评价结果总体上呈现出相同的趋势,均显示北运河水系整体水质状况较差,干流水质状况优于支流,上游水质状况优于下游,温榆河上游、坝河下游、通惠河上游和凉水河的水质状况较差,温榆河源头和坝河上游的水质状况较好.两种评价结果在个别点位存在一定差异,具体表现为基于水体理化因子的评价结果稍优于水质生物评价结果,造成这种差异的原因是两种评价方法在时空尺度上存在差异.针对城市化水平较高、人类活动干扰较强的北运河水系,同时采用这两种评价方法有助于全面了解其复杂的水环境质量. 相似文献
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为摸清渭河干流及源于秦岭北麓典型支流的大型底栖动物群落特征,本研究于2017年10月和2018年5月对渭河干流及秦岭北麓5条典型支流共40个样点的大型底栖动物进行调查,并利用Margalef丰富度指数和生物指数BI生物指数对河流水质进行评价.共鉴定大型底栖动物210种,属于5门8纲75科187属.水生昆虫为优势类群,其物种数占总物种数的89.0%,且四节蜉属一种(Baetis sp.)作为绝对优势的物种出现在所有调查河流中.源于秦岭北麓的支流石头河底栖动物总密度最高(616.3 ind./m2),总生物量最大(5.265 g/m2);而渭河干流底栖动物总密度最低(125.6 ind./m2),总生物量最小(0.289 g/m2).水质较好的秦岭北麓典型支流底栖动物的Shannon-Wiener多样性指数、Margalef丰富度指数显著高于渭河干流,而Pielou均匀度指数在干支流间的差异性不大.通过Pearson相关分析和多元逐步回归分析得出,淤泥型底质、电导率、pH和硝酸盐氮是影响调查河流底栖动物群落特征的主导因子.丰富度指数法和生物指数法水质评价结果分别显示,渭河干流有73.3%和80.0%的采样点呈中度-重度污染状态,秦岭北麓典型支流有80.0%和68.0%的采样点呈无污染-轻度污染状态.本研究可为渭河流域生态管理与保护提供基础的数据支撑. 相似文献
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2003年6月至2004年6月,对汉江流域上游支流--黑竹冲河的大型底栖动物群落结构与生物多样性进行了深入研究,结果表明:河流生物群落结构和生物多样性比较复杂,河流功能状况良好.在采集到的85种大型底栖动物中,昆虫占71种;群落表现出明显的时空特点,具边缘效应的第4采样点物种最丰富,2月份物种最多,达50种;生物多样性指数周年动态显示,第1采样点的物种多样性变动最为平稳,第5采样点变动最大,其它各点居中;各微生境中共有种占据优势,物种相似性均大于60%;群落春季的多样性高于夏季,夏季高于秋季;功能摄食群则以收集者占优,共计达68种.群落密度在1月份达到最大,为1843 ind/m2;而生物量则在10月份达到最大,为228.7393 g/m2. 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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为探明现阶段太湖流域江苏片区底栖大型无脊椎动物群落结构及物种多样性,于2013年1—3、7—8和10—11月对120个样点开展了调查.共记录6门124科280种,各点位物种数(4~51种)、个体密度(5.5~23363.4 ind./m~2)和生物量(0.1~6269.2 g/m~2)差异较大.不同水体类型的群落结构存在显著差异,其中溪流以蜉蝣目和毛翅目等水生昆虫为优势,水库以摇蚊为优势,河流以寡毛纲为绝对优势,湖荡以寡毛纲、摇蚊幼虫和软体动物为优势.聚类结果显示,同水体类型点位的群落结构也呈现不同程度的空间差异.结合丰度/生物量曲线、特征种及多样性分析,各聚类组受胁迫程度从轻到重依次为溪流(组Ⅸ),太湖敞水区(组Ⅱ)和东部水草区(组Ⅲ),太湖下游湖荡(组Ⅳ)、河流(组Ⅵ)和水库(组Ⅶ),太湖上游湖荡(组Ⅰ)、其他河流(组Ⅴ)和水库(组Ⅷ)点位.底栖大型无脊椎动物的分布与物理生境和水质条件呈较好的空间一致性,生境的多样性和良好的水质条件是保护和恢复物种多样性的关键因素. 相似文献
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2013年4月对巢湖流域8个水系147个样点的大型底栖动物进行调查,分析其群落结构及与环境因子的关系.共采集到大型底栖动物213种,隶属于3门7纲22目76科177属.8个水系大型底栖动物物种数差异较大,在杭埠河发现172种,而在十五里河仅发现10种.大型底栖动物密度组成呈现出显著的空间差异.南淝河和十五里河的寡毛纲相对密度均超过96%,派河的寡毛纲和摇蚊幼虫的相对密度分别为47.8%和41.1%.裕溪河、白石天河、柘皋河和杭埠河的腹足纲相对密度最大.杭埠河的水生昆虫相对密度达30.6%,是水生昆虫相对密度最大的水系.相似性分析结果表明,8个水系特征种差异明显,霍甫水丝蚓(Limnodrilus hoffmeisteri)是十五里河和派河的最主要优势种,而铜锈环棱螺(Bellamya aeruginosa)是兆河、裕溪河、杭埠河、白石天河和柘皋河的最主要优势种,铜锈环棱螺和霍甫水丝蚓是南淝河贡献率较大的两种优势种.生物多样性结果表明,Shannon-Wiener、Simpson及Margalef指数在8个水系间具有显著差异,Pielou指数在8个水系间差异不明显.典范对应分析结果表明,影响大型底栖动物群落结构的主要因素为水体营养状态和底质异质性.高营养盐浓度导致南淝河、派河和十五里河的耐污种密度高、生物多样性低,而相对较高的底质异质性维持了杭埠河大型底栖动物的高多样性和敏感型物种的生存. 相似文献
12.
梯级筑坝对黑河水质时空分布特征的影响 总被引:1,自引:0,他引:1
为探究梯级大坝建设对河流水质变化规律的影响,将黑河上中游划分为坝上河段、坝下河段及自然河段,于2017年12月-2018年8月选取了24个主要控制断面进行水质调查,并采用多元统计的方法对比分析了不同时空尺度上的水质分布特征.结果表明:黑河上中游水质时空变化的主要影响因子为水温(WT)、pH值、溶解氧(DO)、电导率(EC)、总氮(TN)、总磷(TP)和五日生化需氧量(BOD_5).空间尺度上,WT、EC、BOD_5、高锰酸盐指数(CODMn)、TN等指标具有显著性差异,其中坝上河段受BOD_5、CODMn影响较大,自然河段WT、EC和TN为关键指标,而各个因子对坝下河段水质影响较小.时间尺度上,WT、EC、BOD_5、氨氮与季节变化存在明显相关性,是不同河段水质时间变化的控制因子,且大多数水质因子在非汛期变化最明显.降水、温度、水文条件等季节性影响因素和梯级水库联合运用模式是该区域水质时间差异的主要原因;空间差异主要受祁连、张掖地区外源性污染物排放以及筑坝环境下水动力条件改变而产生的沉积滞留效应和沿程累积效应影响.研究表明,外源性污染源依然是导致水质变差的主要因素,梯级筑坝则是导致水质变差的间接因素.因此控制该区域人类活动所造成的外源性污染源,并针对不同种类污染物的季节变化特征实施合理的水库运行方式是改善水电梯级开发河段水质状况的关键. 相似文献
13.
The Tongariro Power Development Scheme (TPDS) is used to regulate flow in the headwaters of the largest catchment on the North Island of New Zealand (the Waikato). Two small dams, the Rangipo Dam and the Poutu Intake Dam, were constructed in 1973 and 1983. The flow regime of the river is managed to divert freshes into the power scheme, but allows flows larger than 100 m3 s?1 to be released, to rework and transport sediment through the catchment. Analysis of aerial photos and maps spanning 1928 to 2007, alongside field measurements, show that there have been few hydrogeomorphic adjustments since dam construction. This includes limited changes to channel geometry, channel planform and bed material organization immediately downstream of the dams. In addition, offsite effects are minimal, both 500 m downstream of each dam, and in the more sensitive, less confined reaches in the lower catchment (11 km downstream of the Poutu Intake dam). The limited changes can be attributed to the locations of the dams within reaches characterised by bedrock gorges and confined within terraces. These locations act to flush sediments and impose margins that allow minimal adjustment of the channel. Bed material within this reach is characterised by the presence of a boulder lag. This is sourced from long-term incision into lahar deposits, and acts to limit the rate of incision, creating a steep and stable base upon which active fractions are transported. Just as importantly, significant storage in the low-relief volcanic plateau located in the upper catchment acts to disconnect and store the high sediment yields generated by active volcanic cones in the western sub-catchment upstream of the dams. This limits the rate of sediment supply to regulated reaches. Findings from this study show that analysis of reach-scale controls is essential in framing dam site locations in relation to the distribution of reaches and landscape units across the catchment. In this instance, tributary inputs downstream of the dams do not replenish the sediment and flow removed at the dam locations, as has been observed in other regulated systems. Rather, the river itself is resilient to change and flow variability is well managed allowing geomorphically effective floods to occur. Landscape setting is a key consideration in determining the hydrogeomorphic impact of flow regulation. 相似文献
14.
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
15.
Adjustments in channel morphology due to land‐use changes and check dam installation in mountain torrents of Calabria (southern Italy) 
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下载免费PDF全文 Diego Fortugno Carolina Boix‐Fayos Giuseppe Bombino Pietro Denisi Juan Manuel Quiñonero Rubio Vincenzo Tamburino Demetrio Antonio Zema 《地球表面变化过程与地形》2017,42(14):2469-2483
In Mediterranean semi‐arid conditions, the availability of studies monitoring channel adjustments as a response to reforestation and check dams over representative observation periods, could help develop new management strategies. This investigation is an integrated approach assessing the adjustments of channel morphology in a typical torrent of southern Italy after land‐use changes and check dam construction across a period of about 60 years. A statistical analysis of historical rainfall records, an analysis of land‐use changes in the catchment area and a geomorphological mapping of channel adjustments were carried out and combined with field surveys of bed surface grain‐size over a 5‐km reach including 14 check dams. The analysis of the historical rainfall records showed a slight decrease in the amount and erosivity of precipitation. Mapping of land‐use changes highlighted a general increase of vegetal coverage on the slopes adjacent to the monitored reaches. Together with the check dam network installation, this increase could have induced a reduction in water and sediment supply. The different erosional and depositional forms and adjustments showed a general narrowing between consecutive check dams together with local modifications detected upstream (bed aggradation and cross‐section expansion together with low‐flow realignments) and downstream (local incision) of the installed check dams. Changes in the torrent bends were also detected as a response to erosional and depositional processes with different intensities. The study highlighted: the efficiency of check dams against the disrupting power of intense floods by stabilizing the active channel and the influence of reforestation in increasing hillslope protection from erosion and disconnectivity of water and sediment flows towards the active channel. Only slight management interventions (for instance, the conversion of the existing check dams into open structures) are suggested, in order to mobilize the residual sediment avoiding further generalized incision of the active channel and coast line erosion. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
16.
Concrete dams suffering from alkali-aggregate reaction (AAR) exhibit swelling and deterioration of concrete or even cracking over a long period. The deterioration of concrete may significantly affect the dynamic behavior of the structures, and it is necessary to estimate seismic safety of the deteriorated dams subjected to strong earthquakes. A unified approach is presented in this paper for long-term behavior and seismic response analysis of AAR-affected concrete dams by combining AAR kinetics, effects of creep and plastic-damage model in the finite element method. The proposed method is applied to a gravity dam and an arch dam. The long-term behavior of the AAR-affected dams is first predicted in terms of anisotropic swelling, spatially non-uniform deterioration of concrete, and cracking initiation and propagation with the development of AAR. The seismic response of the deteriorated dams is subsequently analyzed based on the state of the structures at the end of the long-term analysis. The AAR-induced expansion displacements obtained from the proposed method are in good agreement with the measured ones in the long-term operation. The simulated cracking patterns in the dams caused by the continuing AAR are also similar to the field observation. The results from the seismic analysis show that AAR-induced deterioration of concrete and cracking may lead to more severe damage cracking in the dams during earthquake. The dynamic displacements are also increased compared with the dams that are not suffering from AAR. The seismic safety of the AAR-affected concrete dams is significantly reduced because of the AAR-induced deterioration of concrete and cracking. 相似文献
17.
《Limnologica》2020
The seasonal nature of the stream thermal regime has been recognized as an important factor for the structure of benthic macroinvertebrate communities. In this study, we show the importance of temperature and the potential implications of global warming on the composition of benthic macroinvertebrate communities in Andean watersheds. Here we show that thermal factors (mean temperature and monthly range) partially explain the seasonal variability of macroinvertebrates in Andean streams. Different thermal requirements were observed for macroinvertebrate families. Optimal monthly mean temperatures estimated for Gripopterygidae (Plecoptera), Hydrobiidae (Gastropoda) and Helicophidae (Trichoptera) were lower than 7 °C, while temperatures for Ameletopsidae, Baetidae (Ephemeroptera), Ecnomidae, Limnephilidae, Hydropsychidae, Leptoceridae (Trichoptera), Elmidae (Coleoptera) and Notonemouridae (Plecoptera) were close to 9.5 °C.According to our estimations, future global warming could cause important changes in the macroinvertebrate composition of Andean watersheds. Gripopterygidae, Austroperlidae, Diamphipnoidae (Plecoptera), Hydrobiidae and Helicophidae (Trichoptera) would be the most vulnerable families under the 2090 temperature predictions due to their preference for low temperature. 相似文献
18.
《国际泥沙研究》2022,37(5):687-700
Globally, between 1950 and 2011 nearly 80,000 debris flow fatalities occurred in densely populated regions in mountainous terrain. Mitigation of these hazards includes the construction of check dams, which limit coarse sediment transport and in the European Alps number in the 100,000s. Check dam functionality depends on periodic, costly maintenance, but maintenance is not always possible and check dams often fail. As such, there is a need to quantify the long-term (10–100 years) geomorphic response of rivers to check dam failures. Here, for the first time, a landscape evolution model (CAESAR-Lisflood) driven by a weather generator is used to replicate check dam failures due to the lack of maintenance, check dam age, and flood occurrence. The model is applied to the Guerbe River, Switzerland, a pre-Alpine catchment containing 73 check dams that undergo simulated failure. Also presented is a novel method to calibrate CAESAR-Lisflood's hydrological component on this ungauged catchment. Using 100-year scenarios of check dam failure, the model indicates that check dam failures can produce 8 m of channel erosion and a 322% increase in sediment yield. The model suggests that after check dam failure, channel erosion is the remobilization of deposits accumulated behind check dams, and, after a single check dam failure channel equilibrium occurs in five years, but after many check dam failures channel equilibrium may not occur until 15 years. Overall, these findings support the continued maintenance of check dams. 相似文献
19.
利用前人所编的历代(共四代)地震烈度(地震动)区划图,组合叠加后得到一个综合烈度(地震动)。这种叠加是一个集成的专家系统综合认识结果,以此作为坝体可能遭受地震破坏危险的因素。初步研究建立了混凝土大坝震害评估模型,此模型是考虑了坝体的结构类型、建设年代、使用现状、场地条件、抗震设防水平等因素,用逐步线性拟合方法进行回归分析得到的。用此模型对汶川地震破坏的坝体进行了实例分析,分析结果比较符合实际。最后,用这个模型对黄河上游10座重点混凝土大坝做了震害评估分析。 相似文献
20.
Konrad C. Hafen Joseph M. Wheaton Brett B. Roper Philip Bailey Nicolaas Bouwes 《地球表面变化过程与地形》2020,45(11):2664-2674
Stream ecosystems can be dramatically altered by dam-building activities of North American beaver (Castor canadensis). The extent to which beavers’ ecosystem engineering alters riverscapes is driven by the density, longevity, and size (i.e. height and length) of the dams constructed. In comparison to the relative ubiquity of beaver dams on the landscape, there is a scarcity of data describing dam heights. We collected data describing dam height and dam condition (i.e. damaged or intact) of 500 beaver dams via rapid field survey, differentiating between primary and secondary dams and associating each dam with a beaver dam complex. With these data, we examined the influence of beaver dam type (primary/secondary), drainage area, streamflow, stream power, valley bottom width, and HUC12 watershed on beaver dam height with linear regression and the probability that a beaver dam was damaged with logistic regression. On average, primary dams were 0.46 m taller than secondary dams; 15% of observed dams were primary and 85% secondary. Dam type accounted for 21% of dam height variation (p <0.0001). Slope (p = 0.0107), discharge (p = 0.0029), and drainage area (p = 0.0399) also affected dam height, but each accounted for less than 3% of dam height variation. The average number of dams in a dam complex was 6.1 (SD ± 4.5) and ranged from 1 to 21. The watershed a beaver dam was located in accounted for the most variability (17.8%) in the probability that a beaver dam was damaged, which was greater than the variability explained by any multiple logistic regression model. These results indicate that temporally dynamic variables are important influencers of dam longevity and that beaver dam ecology is a primary factor influencing beaver dam height. © 2020 John Wiley & Sons, Ltd. 相似文献