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Vertical eDNA distribution of cold-water fishes in response to environmental variables in stratified lake.

Kayoko FukumoriNatsuko I KondoAyato KohzuKenji TsuchiyaHiroshi C ItoTaku Kadoya
Published in: Ecology and evolution (2024)
In summer, the survival zones of cold-water species are predicted to narrow by both increasing water temperatures from the surface and by expanding hypoxic zones from the lake bottom. To examine how the abundance of cold-water fishes changes along environmental gradients, we assessed the vertical environmental DNA (eDNA) distributions of three salmonid species which may have different water temperature tolerances during both stratification and turnover periods using quantitative PCR (qPCR). In addition, we examined on the vertical distribution of diverse fish fauna using an eDNA metabarcoding assay. The results suggested that the kokanee salmon ( Oncorhynchus nerka ) eDNA were abundant in deep, cold waters. On the other hand, rainbow trout ( O. mykiss ) eDNA were distributed uniformly throughout the water column, suggesting that they may have high water-temperature tolerance compared with kokanee salmon. The eDNA concentrations of masu salmon ( O. masou ) were below the detection limit (i.e., <10 copies μL -1 ) at all stations and depths and hence could not be quantified during stratification. Together with the finding that the eDNA distributions of other prey fish species were also constrained vertically in species-specific ways, our results suggest that climate change will result in substantial changes in the vertical distributions of lake fish species and thus affect their populations and interactions.
Keyphrases
  • climate change
  • genetic diversity
  • high resolution
  • mass spectrometry
  • high throughput
  • microbial community
  • heat stress
  • loop mediated isothermal amplification
  • water quality