Abstract
Significant advances have been made towards surveying animal and plant communities using DNA isolated from environmental samples. Despite rapid progress, we lack a comprehensive understanding of the "ecology" of environmental DNA (eDNA), particularly its temporal and spatial distribution and how this is shaped by abiotic and biotic processes. Here, we tested how seasonal variation in thermal stratification and animal habitat preferences influences the distribution of eDNA in lakes. We sampled eDNA depth profiles of five dimictic lakes during both summer stratification and autumn turnover, each containing warm- and cool-water fishes as well as the cold-water stenotherm, lake trout (Salvelinus namaycush). Habitat use by S. namaycush was validated by acoustic telemetry and was significantly related to eDNA distribution during stratification. Fish eDNA became "stratified" into layers during summer months, reflecting lake stratification and the thermal niches of the species. During summer months, S. namaycush, which rarely ventured into shallow waters, could only be detected at the deepest layers of the lakes, whereas the eDNA of warm-water fishes was much more abundant above the thermocline. By contrast, during autumn lake turnover, the fish species assemblage as detected by eDNA was homogenous throughout the water column. These findings contribute to our overall understanding of the "ecology" of eDNA within lake ecosystems, illustrating how the strong interaction between seasonal thermal structure in lakes and thermal niches of species on very localized spatial scales influences our ability to detect species.
Highlights
Environmental DNA is increasingly being used to conduct biodiversity surveys, species occupancy studies, and detect endangered and invasive species (Deiner et al., 2017; Taberlet, Coissac, Pompanon, Brochmann, & Willerslev, 2012)
Our study was designed to test the influences of lake stratification and mixing on environmental DNA (eDNA)
Our results demonstrate that eDNA signals show very strong seasonal stratification during summer and mixing during autumn in a manner that closely reflects the thermal preference of fishes
Summary
Environmental DNA (eDNA) is increasingly being used to conduct biodiversity surveys, species occupancy studies, and detect endangered and invasive species (Deiner et al., 2017; Taberlet, Coissac, Pompanon, Brochmann, & Willerslev, 2012). Recent studies suggest that the spatio-temporal distribution of eDNA in field settings is shaped by the seasonal dynamics of the system and behaviour of organisms (Bista et al., 2016; Handley et al, 2019), but these processes are generally understudied owing to the large spatial and/or temporal scales involved and the difficulty of obtaining high levels of biological replication at the habitat scale in order to make accurate inferences. This knowledge is essential for adequate survey design and correct interpretation of results as we move into the genomic era of assessing eukaryotic biodiversity (Bohmann et al, 2014). These studies were essential for determining the relative contributions to the distribution and persistence of eDNA particles
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