城镇化背景下河流生境评价——以深圳市为例

城镇化背景下，河流生态系统退化趋势明显，有效评价河流生境状况是修复和保护河流生态系统健康的重要基础。深圳市作为全国经济发展的窗口城市，河流生境的调查研究十分匮乏。因此，为阐明深圳市不同城镇化程度的流域河流生境的差异与主要影响因素，对深圳市两个代表性流域的河流生境展开了研究。针对深圳市河流的生境特点，于2019年丰水期（8月）和枯水期（11月）对城镇化程度较高的深圳河流域的13个样点和城镇化程度较低的坪山河流域12个样点河段的生境状况进行定量调查与评价。采用综合评价法，从河床、河道和河岸带3个方面选取10个生境指标，构建深圳市河流生境评价指标体系和评价方法。结果表明：深圳河流域河流生境质量总体较差，生境评价等级为"良"、"中"、"差"的样点河段分别占7.7%、38.5%、53.8%；坪山河流域河流生境质量总体较好，生境评价等级为"优"、"良"、"中"、"差"的样点河段分别占8.3%、41.7%、41.7%、8.3%。方差分析结果表明两次调查河流生境状况无显著性差异，短时间跨度内河流生境状况变化较小；两个流域河流生境状况差异显著，城镇化程度较低的坪山河流域河流生境质量显著好于城镇化程度较高的深圳河流域。河流生境评估指标主成分分析结果表明人类活动强度、河岸稳定性、河道变化、底质、河岸土地利用及植被多样性是影响深圳市河流生境变化的主要因子。本文对河床、河道、河岸带3个方面分别提出针对性的修复建议，对深圳市河流的生境修复和保护具有重要的指导作用。     

我国伊犁河鱼类群落结构及外来鱼类适生性

2012-2019年,在我国伊犁河流域的6个断面开展了鱼类群落结构调查,结果显示我国伊犁河流域现有鱼类共计29种,大多属于鲤形目。鱼类群落组成与20世纪末期相比发生了变化,银色裂腹鱼、短头鲃、银鲫、鲢、北方泥鳅在本研究中未出现,尤其是银色裂腹鱼,截至目前为止的鱼类资源调查中,均无捕获记录。历史研究中未见的乌鳢与大口鲇在本研究中有捕获。外来鱼类的出现率和数量均有所增加。对鱼类群落结构特征进行分析,显示伊犁河流域鱼类群落多样性较低,下游干流和上游支流的鱼类群落结构差异较大。现阶段,我国伊犁河流域主要的优势种外来鱼类有鲤、和鲫。利用最大熵生态位模型（MaxEnt）对鲤、和鲫的适生区域进行预测,与鱼类资源调查获得的鱼类实际分布区对比,显示鲤和在我国伊犁河流域的分布范围与预测结果是吻合的,而鲫在进入伊犁河流域之后开始向上游支流河段扩散。由于这几种外来鱼类在一开始引入的时候未采取管控措施,又具有极强的适应能力,且伊犁河流域的鱼类多样性较小,因此极易形成规模并扩散。外来鱼类的入侵,会对土著鱼类造成巨大的威胁。基于本论文研究结论,应当将已发生生态位漂变的鲫其作为重点关注种类,关注外来鱼类的生活史对策,深入研究外来鱼类的入侵机制和诱因;对上游支流河段的生境进行监测,关注气候和水文变化,尤其是土著鱼类产卵场、索饵场和越冬场的变化,尽可能减小人类活动干扰;对伊犁河流域的鱼类资源进行长期监测,关注鱼类群落结构变化,一旦发现异常及时采取措施;增加对土著鱼类的增殖放流;严格控制进出口贸易和增殖放流时夹带的外来鱼类。维护我国伊犁河流域的生态安全。     

北京市潮白河流域鱼类物种组成的历史演变和多样性现状

本研究结合历史鱼类标本和研究资料,整理了密云水库建成前潮白河流域的鱼类物种组成,并与2017年在潮白河流域23个调查点的采集数据进行了分析对比。结果显示,潮白河流域的土著鱼类由密云水库建成之前的至少48种减少为现阶段的35种;此外现阶段另有8种鱼类为外来种。目前潮白河流域内鲤科鱼类占物种总数的67%,且大多数为小型低营养级鱼类,流域内占比最高的优势种是宽鳍(Zacco platypus)。本研究还以Margalef丰富度指数、Shannon-Wiener多样性指数、Pielou′s均匀性指数分析评估了潮白河流域内6条河流的鱼类多样性程度和空间变化,结果显示,流域内干流的多样性程度明显高于支流,密云水库上游河流明显高于下游河流,此外白河是本区域内多样性程度最高的河流,应加以重点保护。潮白河流域的密云水库是南水北调中线工程的受水水库,在这样的背景下,还应持续关注潮白河流域可能出现的外来物种问题。     

拉萨河流域外来鱼类的分布、群落结构及其与环境的关系

为揭示当前拉萨河流域外来鱼类的现状及其主要影响因素,于2010、2012及2014年对该流域的鱼类群落结构及水体环境进行了调查。共捕获4目6科17属25种鱼类,包括13种外来鱼类和12种土著鱼类。在42个采样点中的19个发现了外来鱼类,包括12处的湿地、6处的河流及1处水库采样点。外来鱼类基本都分布在下游,除了鲫（Carassius auratus）分布到了上游,鲤（Cyprinus carpio）、鳙（Aristichthys nobilis）和泥鳅（Misgurnus anguillicaudatus）分布到了中游。分布最广、数量最多的土著鱼类是拉萨裸裂尻鱼（Schizopygopsis younghusbandi younghusbandi）、东方高原鳅（Triplophysa orientalis）和西藏高原鳅（Triplophysa tibetana）,最常见的外来鱼类为泥鳅、鲫和麦穗鱼（Pseudorasbora parva）。典范对应分析表明,该流域的鱼类群落同时受局域和区域环境因素的作用,二者对鱼类群落变异的总解释量为33.9%。海拔、圆石的比例和沙的比例与鱼类群落结构的关系最为紧密。今后应当开展外来鱼类的监控和清除工作,减少人为活动对河流生态系统的干扰,以促进该地区外来鱼类的防控工作及土著鱼类的保护。     

新疆阿勒泰地区额尔齐斯河和乌伦古河流域鱼类多样性演变和流域健康评价

为了解阿勒泰地区额尔齐斯河和乌伦古河流域的鱼类多样性现状和历史演变, 本研究于2013-2016年间在该流域的鱼类多样性进行了连续调查, 并结合历史资料和标本, 以Margalef丰富度指数、Shannon-Wiener多样性指数、Pielou均匀度指数分析评估了流域内鱼类的多样性水平和时空变化。该流域历史上分布有土著鱼类23种, 当前记录到19种, 流域内还有外来鱼类15种。阿勒泰鱼类的区系组成以鲤科种类为主, 其中特有和珍稀濒危物种占比高, 具有重要的保护价值。多样性指数计算结果显示, 2013-2016年鱼类多样性情况整体稳定, 额尔齐斯河鱼类物种数多于乌伦古河。研究还基于鱼类生物完整性指数(Fish Index of Biological Integrity, F-IBI)对34个采集点的河流健康状况进行了评价, 结果显示额尔齐斯河流域大多数调查点的健康状况处于“亚健康”或“一般”水平, 乌伦古河流域多数调查点的健康状况处于“健康”水平。水利工程、外来物种、过度捕捞是影响阿勒泰地区鱼类多样性的重要因素。未来应通过水利工程的联合调度、下泄合理生态流量、布设鱼类通道、规范养殖渔业、严控外来物种、本地土著鱼类的人工增殖放流, 以及合理的就地保护措施对阿勒泰地区的鱼类多样性加以保护, 提升水体健康程度。     

珠江水系鱼类群落多样性空间分布格局

珠江是我国南方第一大河,是我国重要淡水渔业生产基地和水生生物资源基因库。珠江鱼类在维持生物多样性、提供鱼类种质资源方面举足轻重。但是到目前为止,关于其鱼类空间分布格局的研究甚少。特别是近几十年来各种水工建设和过度捕捞使得渔业资源急剧衰退,鱼类空间分布的研究显得尤为重要。2015年对珠江全流域13个站位进行了全面调查,共采集渔获物10119尾,隶属于94种72属17科。鲤科鱼类占显著优势,其次种类较多的依次为鲿科、鳅科。采用非度量多维标度排序(NMDS)方法对鱼类群落空间分布特征进行了分析,结果表明珠江鱼类被划分为3个类群,即以餐、南方拟餐、黄颡鱼等小型鱼类为主的中上游类群、以赤眼鳟、鲮鱼、广东鲂等中型鱼类为主的中下游类群和以罗非鱼为主的重要支流类群。同时发现中下游物种多样性高,上游及河口江段多样性低的格局。采用冗余分析方法(RDA)分析了鱼类多样性与环境因子的关系,发现年均气温、降雨量、年均径流量、河流宽度与透明度是珠江水系河流鱼类群落结构差异的主要影响因子,其中年均气温是影响鱼类群落分布的最关键因子之一。与历史资料对比后发现,珠江鱼类种类明显减少、空间分布也发生了巨大改变。研究是珠江水系野生渔业资源长期调查的一部分,研究结果将对渔业资源的多样性保护和可持续利用具有指导意义。     

珠江水系广西江段鱼类多样性空间分布特征

研究对珠江水系广西江段15个站位的鱼类群落展开了调查, 共采集渔获物67985尾, 隶属于23科134种, 鲤形目种类(92种)最多, 占总数69%。采集到外来生物11种, 其中, 罗非鱼几乎遍布整个广西水域, 说明广西江段外来水生生物入侵严重。各江段以小型鱼类居多, 鱼类小型化严重。空间分布呈现一级河流物种多样性指数高, 均匀度高; 二级河流多样性指数低, 均匀度低的趋势。特别是经过十级水电开发后的红水河江段, 渔业资源量最低, 鱼类群落结构与其他江段具有显著的差异(P<0.05)。研究结果是珠江水系自然渔业资源长期调查的一部分, 将对广西渔业资源多样性的保护管理和可持续利用提供科学依据。     

海南岛陵水河流域淡水鱼类群落结构及历史变化研究

根据2019年4月至2021年3月的调查数据,对海南岛陵水河流域淡水鱼类群落结构、多样性及其历史变化进行了研究。共调查到鱼类47种,隶属于6目19科,其中海南特有种7种,陵水河流域历史未记录种21种。鲤形目（Cypriniformes）鱼类种类最多,为23种,占物种总数的49%。Shannon-Wiener多样性指数（H′）为3.12、物种丰富度（D）为6.10、均匀度指数（J''）为0.81、优势度（λ）为0.06。与历史资料相比陵水河流域土著鱼类缺失种类达16种,其中受威胁鱼类种类锐减明显,同时外来鱼类种类显著增加。本研究结果为陵水河流域淡水鱼类多样性保护策略制定提供科技支撑,同时为海南省热带淡水鱼类多样性保护研究积累基础数据。     

新疆伊犁河不同河段鱼类的物种多样性和优势种

为了了解伊犁河鱼类群落结构和多样性特征, 于2012—2014年连续3年对我国境内新疆伊犁河上、中和下游不同河段进行鱼类资源调查。获得27种鱼类样本, 隶属于6目9科23属。伊犁河中、上游河段主要以斯氏高原鳅、新疆裸重唇鱼、新疆高原鳅和伊犁裂腹鱼等土著鱼类为优势种, 下游河段的优势种主要有鲤、草鱼和鲫等外来种。伊犁河中、上游河段鱼类种类稀少, 大中型鱼类资源稀少, 鱼类群落多样性低。梯级水电站的开发、过度捕捞以及外来种入侵对伊犁河鱼类鱼类群落造成了很大的影响。     

基于划分强度的巢湖流域河流鱼类群落的空间格局

确定河流鱼类群落的空间分布特点是保护和管理鱼类多样性的科学基础。基于2013年10月对巢湖流域66个河道样点的调查数据,本文研究了水系、河流级别、生态亚区3个空间体系和鱼类分类聚类支系对鱼类群落空间分布的划分强度,解析了巢湖流域河流鱼类群落的空间分布特征。结果表明:河流鱼类群落与水系和河流级别无显著相关,但随生态亚区间显著变化;水系和河流级别对鱼类群落的划分强度较低,其组内相似性与组间相似性无显著差异;生态亚区的划分强度较高,组内相似性显著高于组间相似性;但同鱼类的分类聚类支系相比,生态亚区的划分强度却相对较低;巢湖流域河流鱼类群落的空间分布在一定程度上取决于陆地景观条件,也受景观因子以外的局域环境因素的影响。在未来的相关研究中,有必要进一步理清影响巢湖流域河流鱼类群落空间分布的关键环境因子,并探明这些关键因子的空间分布特征,从而为巢湖流域河流鱼类多样性的保护和管理提供科学基础。     

Regional and longitudinal patterns of fish community structure in the Seine River basin, France

The fish communities of 371 sites from 4 natural regions of the Seine River basin were studied. The sites were located from small to medium size rivers (catchment area : 5 to 3895 km²). We examined the differences between local communities according to river size (estimated by catchment area) and region. In the Seine River basin, fish communities follow a general organisation rule: total species richness increases with river size and importance of limnophilic species versus rheophilic ones increases from upstream to downstream. However, fish communities show differences of total species richness, species richness of reproductive groups and species composition between the four natural regions of the basin. Particularly, river size and regional organisation of environmental factors interact on species composition of communities and several regional patterns of longitudinal changes of fish communities are identified. The origin and range of regional differences of fish communities are discussed according to historical and environmental factors.     

Evaluating the relationship between basin‐scale fish species richness and ecologically relevant flow characteristics in rivers worldwide

1. River flow alterations due to climate change and increasing water usage affect freshwater biodiversity including fish species richness. Here, we statistically explored the relationships of fish species richness to 14 ecologically relevant flow metrics as well as basin area and latitude in 72 rivers worldwide. 2. The statistical models best supported by the data included three variables with positive coefficients (mean river discharge, basin area and the maximum proportion of no‐flooding period) and three variables with negative coefficients (latitude, coefficients of variation in the frequency of low flow and the Julian date of annual minimum flow). 3. The model outputs have provided the first empirical indication that specific low‐ and high‐flow characteristics may be important in explaining variations in basin‐scale fish species richness. Our findings can be useful in identifying high‐risk basins for conservation of fish species diversity. 4. The results not only support the adoption of mean discharge as a predictor, but also suggest the importance of basin area in predicting basin‐scale fish species richness around the world.     

南水北调中线工程对海河流域鱼类入侵风险分析

海河流域是南水北调中线工程的受水区之一, 为评估中线工程引发海河流域鱼类入侵的风险, 本研究统计了南水北调引水区和受水区海河流域鱼类物种多样性差异, 采用水生生物入侵能力筛查系统(aquatic species invasiveness screening kit, AS-ISK)和外来鱼类入侵风险评估体系筛选引水区有入侵风险的鱼类物种, 并用MaxEnt模型预测有入侵风险的鱼类物种在海河流域的潜在适生区。结果表明, 丁鱥(Tinca tinca)、陈氏新银鱼(Neosalanx tangkahkeii)和大口鲇(Silurus meridionalis)是具有高入侵风险的鱼类, 另有3种鱼类具有中入侵风险, 均需重点监控; 而具入侵风险鱼类的适生区预测结果表明, 海河流域南部的徒骇马颊河水系、海河水系的漳卫南运河以及环渤海地区的河流是极易发生鱼类入侵的水域。因此在海河流域高入侵风险水域应开展持续性的水生生物监测, 针对具有高入侵风险的鱼类应进行早期筛查, 此外在水资源利用和分配上应加强管理, 从源头上杜绝鱼类入侵的发生, 还应尽快开展针对东线工程的鱼类资源调查和入侵风险评估工作。     

River networks as biodiversity hotlines

For several years, measures to insure healthy river functions and to protect biodiversity have focused on management at the scale of drainage basins. Indeed, rivers bear witness to the health of their drainage basins, which justifies integrated basin management. However, this vision should not mask two other aspects of the protection of aquatic and riparian biodiversity as well as services provided by rivers. First, although largely depending on the ecological properties of the surrounding terrestrial environment, rivers are ecological systems by themselves, characterized by their linearity: they are organized in connected networks, complex and ever changing, open to the sea. Second, the structure and functions of river networks respond to manipulations of their hydrology, and are particularly vulnerable to climatic variations. Whatever the scale considered, river networks represent "hotlines" for sharing water between ecological and societal systems, as well as for preserving both systems in the face of global change. River hotlines are characterized by spatial as well as temporal legacies: every human impact to a river network may be transmitted far downstream from its point of origin, and may produce effects only after a more or less prolonged latency period. Here, I review some of the current issues of river ecology in light of the linear character of river networks.     

Estimation of minimum area requirement of river‐connected lakes for fish diversity conservation in the Yangtze River floodplain

Aim Hydrological disconnection of floodplains from rivers is among the top factors threatening river‐floodplain ecosystems. To keep enough floodplain area is of great importance to biodiversity conservation. In the Yangtze River floodplain, most lakes were disconnected from the mainstream by dams in 1950–1970s. By analysing fish diversity data, we aim at determining the effects of river‐lake disconnection on fish diversity, at estimating the minimum protected area of river‐connected lakes and at proposing a holistic strategy for fish conservation in the mid‐lower reaches of the river. Location The Yangtze River floodplain, China. Methods We collected recorded data of fish diversity of 30 Yangtze floodplain lakes. Species–area relationships were analysed and compared between river‐connected and river‐disconnected lakes. Cumulative species–area models were constructed to estimate the minimum protected area of river‐connected lakes. Results River‐lake disconnection reduced fish diversity of Yangtze lakes by 38.1%, so that the river‐connected lakes play an important role in maintaining the floodplain biodiversity. The minimum protected area of river‐connected lakes was estimated to be 14,400 km². Therefore, we should not only protect the existent connected lakes of 5500 km², but also reconnect disconnected lakes of at least 8900 km² in the Yangtze basin. Main conclusions Species–area relationships are of importance in reserve design. We suggest that cumulative species–area model might be more suitable for ecosystems with high connectivity among regions such as floodplains. As the Yangtze River floodplain is an integrative ecosystem, we suggest establishing a holistic nature reserve in the mid‐lower basin for effective conservation of biodiversity.     

怒江流域鱼类多样性及空间分布格局

怒江是我国西南地区重要的国际河流, 也是全球生物多样性热点区域之一。受地理位置和地形条件限制, 目前尚缺乏怒江流域鱼类物种多样性及其分布格局的系统研究。本研究利用近5年的全流域实地采样数据, 结合文献资料, 系统整理了怒江流域鱼类物种组成信息; 利用聚类和排序方法分析了怒江流域鱼类空间分布格局。结果表明, 怒江流域共有土著鱼类85种, 隶属于5目12科47属; 外来鱼类18种, 隶属于3目8科16属, 另外实地调查发现新记录外来种2种。怒江流域鱼类多样性从上游至下游呈明显的递增趋势。根据土著鱼类组成的聚类和排序分析结果, 可以将怒江25个亚流域分为3个部分: (1)西藏自治区内的上游河段, 分布有鱼类15种, 组成以裂腹鱼类、高原鳅类为主, 具有明显青藏高原冷水性鱼类区系特征。(2)贡山至泸水的中游河段, 分布有鱼类36种, 组成兼有上游冷水性鱼类和下游喜温的鲃亚科、野鲮亚科鱼类。(3)泸水以下的下游河段, 分布有鱼类74种。下游河段干流广泛分布有喜温的鲃亚科、野鲮亚科和 亚科鱼类, 支流则分布有数量众多的南鳅属(Schistura)、纹胸鮡属(Glyptothorax)鱼类, 鱼类组成以适应流水、激流环境的热带亚热带鱼类为主。2017-2021年的多次调查仅发现土著鱼类43种(占历史记录的50.6%), 土著鱼类资源衰退明显。过度捕捞、支流小水电开发、外来鱼类入侵等是主要威胁因素。随着人类活动的急剧增多, 怒江流域鱼类将面临更大的威胁, 亟需从流域层面开展系统的鱼类资源管理和保护规划。     

流域库坝工程开发的生物多样性敏感度分区

流域生态敏感性是流域生态系统遇到干扰时产生生态失衡与生态环境问题的难易程度和可能性大小,生物多样性是其影响最为重要的生态因子。主要考虑物种丰富度、珍稀程度、濒危程度、保护等级和生态系统类型等生物多样性敏感因子,借助GIS强大的空间数据采集和建模分析能力,在专家打分求取敏感因子权重基础上,通过空间模型计算生物多样性敏感度综合得分。基于二级流域综合得分最大值,采用ARCGIS自然间断点法实现敏感度分区,结果表明:极敏感区域主要分布在长江区的岷沱江、金沙江石鼓以下、金沙江石鼓以上、宜宾至宜昌、嘉陵江流域,珠江区的郁江、红柳河和西江流域,西南诸河区的澜沧江、红河和怒江及伊洛瓦底江流域,黄河区的龙羊峡以上流域等,这些区域水生生物特有种和受威胁物种丰度大,国家级自然保护区密集,是陆地生物多样性最丰富的地区。不敏感区域主要分布在松花江区除第二松花江以外流域,西北诸河区的塔里木盆地荒漠、古尔班通古特荒漠、中亚西亚内陆河、塔里木河干流等荒漠区,松花江区低温高寒,具有大森林、大草原、大湿地、大农田和大水域的特点,库坝工程对其生物多样性产生影响的可能性较小,西北诸河的荒漠区生境严酷,生物多样性贫乏,也不具备修建大型水库的条件,生物多样性敏感度也较低。其它区域介于二者之间,因其所处的生态系统类型、物种丰富度、珍稀程度、濒危程度和保护等级不一样,生物多样性敏感度各异。对流域库坝工程产生的生物多样性敏感度进行辨识,可为未来流域水资源合理和适度开发提供科学依据。     

Distribution of Masu Salmon <Emphasis Type="Italic">Oncorhynchus masou</Emphasis> (Salmonidae) in Amur River Basin

The presented data on the distribution of the masu salmon Oncorhynchus masou in the Amur River Basin are collected in 1976–2015. In the analyzed region the species’ spawning range includes the lower part of the Amur River basin from the rivers flowing into the Amur estuary to the basins of the Anyui and Amgun’ Rivers in their middle courses. The information on the catch of a masu salmon specimen in the Khor River Basin (approximately 1300 km from the Amur River mouth) in 2015 is presented. It is assumed that the total Amur population does not exceed several thousand of adult anadromous fish.     

Habitat fragmentation and extinction rates within freshwater fish communities: a faunal relaxation approach

Aim To estimate population extinction rates within freshwater fish communities since the fragmentation of palaeo‐rivers due to sea level rise at the end of the Pleistocene; to combine this information with rates estimated by other approaches (population surveys, fossil records); and to build an empirical extinction–area relationship. Location Temperate rivers from the Northern Hemisphere, with a special focus on rivers discharging into the English Channel, in north‐western France. Methods (1) French rivers. We used a faunal relaxation approach to estimate extinction rates in coastal rivers after they became isolated by the sea level rise. Tributaries within the Seine were used to build a species–area relationship for a non‐fragmented river system to predict species richness in coastal rivers before their fragmentation. (2) Other rivers. Extinction rates obtained for four other Holarctic river systems fragmented at the end of the Pleistocene, the fragmented populations of one salmonid species (Japan) and the fossil records from the Mississippi Basin were included in the study. Results (1) French rivers. Within strictly freshwater fish species, rare and/or habitat specialist species were the most affected by fragmentation. In contrast, euryhaline species were not affected. A negative relationship between extinction rate and river basin size was observed. (2) Other rivers. Our study established a common scaling relationship for freshwater fish population extinction rates that spans seven orders of magnitude in river basin size. Main conclusions This study strongly suggests that extinctions of fish populations occurred within French coastal rivers after they became isolated 8000 years ago. The patterns observed at regional and inter‐continental scales are consistent with the expectation that large populations are less prone to extinction than small ones, resulting in a strong extinction–area relationship coherent over a large spatio‐temporal scale. Our study is the first multi‐scale quantitative assessment of background extinction patterns for freshwater fishes.