Hamer Andrew J, Czeglédi István, Gál Blanka, Sály Péter, Szalóky Zoltán, Preiszner Bálint, Erős Tibor
Balaton Limnological Research Institute Eötvös Loránd Research Network (ELKH) Tihany Hungary.
Institute of Aquatic Ecology, Centre for Ecological Research Budapest Hungary.
Freshw Biol. 2023 Aug;68(8):1303-1318. doi: 10.1111/fwb.14104. Epub 2023 May 17.
River-floodplain ecosystems play a crucial role in connecting landscape patches through hydrological connectivity, but they are among the most threatened ecosystems. Floodplains provide important habitat for amphibians by connecting aquatic and terrestrial habitats. Modifications to floodplain hydrology can impact amphibian communities, yet few studies have examined amphibian metacommunities in floodplain wetlands.In this study, we assessed patterns in amphibian breeding abundance in one of the largest floodplains of the Danube River, Hungary, relative to hydrological connectivity and multi-scale variables at 30 waterbody sites. Our aim was to determine whether these patterns aligned with the pond-permanence gradient hypothesis, where breeding amphibian abundance is predicted to be highest in ephemeral ponds without large predatory fish. We used Bayesian hierarchical modelling to estimate multi-species abundance from repeated survey (count) data collected over one breeding season.We detected the eggs and larvae of four amphibian species. The best model of abundance included covariates describing two principal component axes associated with waterbody hydrology and landscape composition within a 500-m radius of a site. There was a positive relationship between mean community abundance at a site and hydrological disconnection from the main river channel; however, the common toad () was associated with hydrologically connected waterbodies. There was a positive relationship between mean community abundance and a high proportion of forest cover and low cover of agricultural land within a 500-m radius around a site, although this relationship was clear for only two species. There was no support for models containing the number of large predatory fish species detected at a site.Although our results showed that amphibian abundance declined with hydrological connectivity, based on model selection we could not ascribe this relationship to an increased number of large predatory fish species detected in waterbodies close to the main river channel. Differences in life history and habitat requirements are likely to have explained interspecific responses to hydrological connectivity. Our results underscore the importance of addressing amphibian abundance at multiple spatial scales in floodplain wetlands, as landscape composition partly explained patterns in abundance.Application of multi-species abundance modelling allowed us to investigate environmental relationships for common and infrequently detected species. Habitat restoration programmes in floodplains should provide waterbodies disconnected from main river channels as potential amphibian breeding sites and protect or restore forest as terrestrial habitat.
河漫滩生态系统在通过水文连通性连接景观斑块方面发挥着关键作用,但它们是受威胁最严重的生态系统之一。河漫滩通过连接水生和陆地栖息地,为两栖动物提供了重要的栖息地。河漫滩水文状况的改变会影响两栖动物群落,但很少有研究调查过河漫滩湿地中的两栖动物集合群落。在本研究中,我们评估了匈牙利多瑙河最大的河漫滩之一中两栖动物繁殖丰度的模式,该模式与30个水体地点的水文连通性和多尺度变量相关。我们的目的是确定这些模式是否符合池塘永久性梯度假说,即预计在没有大型掠食性鱼类的临时性池塘中,繁殖两栖动物的丰度最高。我们使用贝叶斯层次模型,根据在一个繁殖季节收集的重复调查(计数)数据来估计多物种丰度。我们检测到了四种两栖动物的卵和幼体。最佳丰度模型包括描述与水体水文和站点半径500米范围内景观组成相关的两个主成分轴的协变量。站点平均群落丰度与与主河道的水文断开之间存在正相关关系;然而,普通蟾蜍(Bufo bufo)与水文连通的水体有关。站点周围半径500米范围内森林覆盖率高且农业用地覆盖率低时,平均群落丰度与之呈正相关关系,不过这种关系仅对两个物种较为明显。对于包含在站点检测到的大型掠食性鱼类物种数量的模型,没有得到支持。尽管我们的结果表明两栖动物丰度随水文连通性下降,但基于模型选择,我们无法将这种关系归因于在靠近主河道的水体中检测到的大型掠食性鱼类物种数量增加。生活史和栖息地需求的差异可能解释了物种间对水文连通性的不同反应。我们的结果强调了在河漫滩湿地的多个空间尺度上解决两栖动物丰度问题的重要性,因为景观组成部分解释了丰度模式。多物种丰度建模的应用使我们能够研究常见和不常检测到的物种与环境的关系。河漫滩的栖息地恢复计划应提供与主河道断开连接的水体作为潜在的两栖动物繁殖场所,并保护或恢复森林作为陆地栖息地。
