Abstract
A thorough understanding of ecological networks relies on comprehensive information on trophic relationships among species. Since unpicking the diet of many organisms is unattainable using traditional morphology‐based approaches, the application of high‐throughput sequencing methods represents a rapid and powerful way forward. Here, we assessed the application of DNA metabarcoding with nearly universal primers for the mitochondrial marker cytochrome c oxidase I in defining the trophic ecology of adult brown shrimp, Crangon crangon, in six European estuaries. The exact trophic role of this abundant and widespread coastal benthic species is somewhat controversial, while information on geographical variation remains scant. Results revealed a highly opportunistic behaviour. Shrimp stomach contents contained hundreds of taxa (>1,000 molecular operational taxonomic units), of which 291 were identified as distinct species, belonging to 35 phyla. Only twenty ascertained species had a mean relative abundance of more than 0.5%. Predominant species included other abundant coastal and estuarine taxa, including the shore crab Carcinus maenas and the amphipod Corophium volutator. Jacobs’ selectivity index estimates based on DNA extracted from both shrimp stomachs and sediment samples were used to assess the shrimp's trophic niche indicating a generalist diet, dominated by crustaceans, polychaetes and fish. Spatial variation in diet composition, at regional and local scales, confirmed the highly flexible nature of this trophic opportunist. Furthermore, the detection of a prevalent, possibly endoparasitic fungus (Purpureocillium lilacinum) in the shrimp's stomach demonstrates the wide range of questions that can be addressed using metabarcoding, towards a more robust reconstruction of ecological networks.
Highlights
Trophic interactions provide important insights on a wide range of ecological dynamics, ranging from individual to ecosystem levels, which include animal behaviour, predator–prey interactions, food web structure and community ecology (e.g., Leray, Meyer, & Mills, 2015; Pinol, San Andres, Clare, Mir, & Symondson, 2014)
Crustaceans are a key component in marine/estuarine soft-bottom habitats (Evans, 1983, 1984), and evaluating their diet is very challenging due to the complexity of direct observations on predation rates and the limitations associated with the identification of partially digested food items (Asahida, Yamashita, & Kobayashi, 1997; Feller, 2006; Symondson, 2002)
Metabarcoding refers to the identification of multiple taxa based on the screening of bulk DNA extracted from community or environmental samples, by means of massive parallel sequencing of PCR amplicons (Barnes & Turner, 2016; Taberlet, Coissac, Pompanon, Brochmann, & Willerslev, 2012a)
Summary
Trophic interactions provide important insights on a wide range of ecological dynamics, ranging from individual to ecosystem levels, which include animal behaviour, predator–prey interactions, food web structure and community ecology (e.g., Leray, Meyer, & Mills, 2015; Pinol, San Andres, Clare, Mir, & Symondson, 2014). The trophic position of C. crangon is still being discussed, being described as trophic generalist (Evans, 1983), carnivorous opportunist (Pihl & Rosenberg, 1984) omnivorous (Ansell et al, 1999; Raffaelli, Conacher, McLachlan, & Emes, 1989; Tiews, 1970) and probable scavenger (Ansell et al, 1999) As a juvenile, it relies mostly on the consumption of meiofaunal prey items while it switches to larger demersal organisms as an adult, including conspecifics and juvenile stages of several commercially important teleosts and bivalves (Evans, 1984; Oh, Richard, & Richard, 2001; Pihl & Rosenberg, 1984; van der Veer & Bergman, 1987; van der Veer et al, 1998). We tested whether metabarcoding can (a) provide a detailed overview of C. crangon’s diet, including prey selectivity, using DNA extracted from stomach and environmental samples; (b) identify geographical patterns in its trophic ecology, at both local and regional scales; and (c) assess consistent and general trophic patterns in order to better define the ecological role of this widespread species
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