Abstract
BackgroundTo determine the presence and abundance of an aquatic species in large waterbodies, especially when populations are at low densities, is highly challenging for conservation biologists. Environmental DNA (eDNA) has the potential to offer a noninvasive and cost-effective method to complement traditional population monitoring, however, eDNA has not been extensively applied to study large migratory species. Chinese sturgeon (Acipenser sinensis), is the largest anadromous migratory fish in the Yangtze River, China, and in recent years its population has dramatically declined and spawning has failed, bringing this species to the brink of extinction. In this study, we aim to test the detectability of eDNA methods to determine the presence and relative abundance of reproductive stock of the species and whether eDNA can be used as a tool to reflect behavioral patterns. Chinese sturgeon eDNA was collected from four sites along the spawning ground across an eight month period, to investigate the temporal and spatial distribution using droplet digital PCR (ddPCR).ResultsWe designed a pair of specific primers for Chinese sturgeon and demonstrated the high sensitivity of ddPCR to detect and quantify the Chinese sturgeon eDNA concentration with the limit of detection 0.17 copies/μl, with Chinese sturgeon eDNA been intermittently detected at all sampling sites. There was a consistent temporal pattern among four of the sampling sites that could reflect the movement characteristics of the Chinese sturgeon in the spawning ground, but without a spatial pattern. The eDNA concentration declined by approximately 2–3 × between December 2018 and December 2019.ConclusionsThe results prove the efficacy of eDNA for monitoring reproductive stock of the Chinese sturgeon and the e decreased eDNA concentration reflect that Chinese sturgeon may survive with an extremely small number of reproductive stock in the Yangtze River. Accordingly, we suggest future conservation measures should focus on both habitat restoration and matured fish restocking to ensure successful spawning. Overall, this study provides encouraging support for the application of eDNA methods to monitor endangered aquatic species.
Highlights
To determine the presence and abundance of an aquatic species in large waterbodies, especially when populations are at low densities, is highly challenging for conservation biologists
The phylogenetic relationship showed that sequences of four Environmental DNA (eDNA) positive droplet digital Polymerase Chain Reaction (PCR) (ddPCR) product could be distinguished clearly from other species, even compared with the closest related species Acipenser dabryanus, a potential sympatric species in Yangtze River (Additional file 1: Appendix S2)
A significant linear relationship (R2 = 0.986, p < 0.01; Fig. 2) was tested between both the logarithmic transformations of ddPCR concentration and dilution fold. This relationship indicated that ddPCR was sensitive to quantify the Chinese sturgeon eDNA from water samples and those samples with ddPCR concentration > 0.17 copies/μl could be detected accurately
Summary
To determine the presence and abundance of an aquatic species in large waterbodies, especially when populations are at low densities, is highly challenging for conservation biologists. Environmental DNA (eDNA) has the potential to offer a noninvasive and cost-effective method to complement traditional population monitoring, eDNA has not been extensively applied to study large migratory species. We aim to test the detectability of eDNA methods to determine the presence and relative abundance of reproductive stock of the species and whether eDNA can be used as a tool to reflect behavioral patterns. Determining the presence and estimating the abundance of organisms is critical to the study and conservation of endangered species. The emergence of environmental DNA (eDNA) has greatly improved detection of aquatic organisms, for rare or endangered species [1,2,3,4,5]. Development of eDNA to estimate species’ abundance, will greatly expand the applicability of this technology for future conservation and management [27, 28]
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