The invasive freshwater mussel Limnoperna fortunei (Dunker, 1857) has spread widely throughout Asia and South America, especially via interbasin water diversion and navigation. The middle route of the South-to-North Water Transfer Project (SNWTP), whose terminal is Beijing, has diverted more than 60 billion m3 of water from the Yangtze River Basin to Northern China since December 2014. L. fortunei has spread north to Beijing along the SNWTP, biofouling its channels and tunnels. To determine the status of L. fortunei's invasion in Beijing, we systematically inspected the water bodies receiving southern water, including all branches of the SNWTP, water treatment plants, lakes, reservoirs, and rivers. We measured the densities of adults and veligers of L. fortunei and conducted eDNA analyses of water samples. A generalized linear model and canonical correspondence analysis were adopted to investigate the correlations between environmental (e.g., water temperature, conductivity, pH, total nitrogen, and phosphorus) and biological (e.g., chlorophyll a, plankton density, and community composition) variables and the densities of adults and veligers of L. fortunei. Water temperature is the most important factor in determining the densities of D-shaped and pediveliger veligers, with explanatory variable contributions of 56.2% and 43.9%, respectively. The pH affects the densities of D-shaped, umbonated, and pediveliger veligers. The density of plantigrade veligers is negatively correlated with the conductivity and positively correlated with the concentration of chlorophyll a. Canonical correspondence analysis shows a weak correlation between the dominant phytoplankton taxa and the density of veligers. The densities of D-shaped, umbonated, and pediveliger veligers are positively correlated with the density of small phytoplankton (12.54 ± 4.33 μm), and the density of plantigrade veligers is positively correlated with the density of large (16.12 ± 5.96 μm) phytoplankton. The density of planktonic veligers is well correlated with local abiotic variables, and that of plantigrade veligers is less correlated with local abiotic variables. This finding implies that controlling early-stage veligers by altering water temperature, pH, and food size might effectively control the establishment of further L. fortunei colonies.
淡水壳菜Limnoperna fortunei (Dunker, 1857)是一种入侵性的污损生物,已通过跨流域调水和航运等方式广泛传播至亚洲和南美洲。自2014年12月以来,南水北调中线工程已经从长江流域向我国北方引水超过600亿立方米,淡水壳菜也沿着工程向北扩散到了北京,并对工程沿线的渠道和管道造成了生物污损。为了明确淡水壳菜在北京的入侵现状,我们对南水北调北京配套工程中所有分支上的水厂、湖泊、水库和河流进行了系统调查。我们系统量化了淡水壳菜成贝和幼虫的密度,并对水体中淡水壳菜的eDNA进行了分析。我们用广义线性模型(GLM)和典范对应分析(CCA)研究了环境因子(如水温、电导率、pH、总氮和总磷)和生物因子(如叶绿素a、浮游植物密度和群落组成)与淡水壳菜成贝和幼虫密度之间的相关性。GLM结果表明,水温是影响D型幼虫和后期幼虫密度最重要的因素,其解释变量的贡献率分别为56.2%和43.9%;pH也影响了D型幼虫、前期幼虫和后期幼虫的密度;踯行幼虫密度与电导率呈负相关,与叶绿素a的浓度呈正相关。CCA结果显示,优势浮游植物类群与幼虫密度呈弱相关;D型幼虫、前期幼虫和后期幼虫的密度与小型浮游植物(12.54 ± 4.33 μm)呈正相关;踯行幼虫的密度与大型浮游植物(16.12 ± 5.96 μm)呈正相关。总体上,非生物因子与浮游幼虫的相关性较强,而与踯行幼虫的相关性较弱。这些发现意味着,通过改变水温、pH和食物大小来控制早期阶段的幼虫,可能是控制淡水壳菜进一步扩散的有效办法。.
Keywords: aquatic environment; freshwater mussel; high latitude; invasion adaptability; invasive species; veliger.
© 2023 The Ecological Society of America.