期刊
AQUACULTURE
卷 531, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.aquaculture.2020.735868
关键词
Picophytoplankton; Isotopic labelling; Aquaculture; Feces; Carbon cycling; Blue mussel; Tunicate
资金
- Fisheries and Oceans Canada Program for Regulatory Research (PARR) [2012-G-05]
- Natural Sciences and Engineering Research Council of Canada (NSERC) [299100]
- Ressources Aquatiques Quebec (RAQ) - Fonds de Recherche du Quebec (FRQNT) [2014-RS-171172]
- ISMER
- Institut Environnement Ecologie (CNRS, France)
The study found that blue mussels and clubbed tunicates can effectively utilize carbon from Picophytoplankton (PPP) in nutrient-rich marine ecosystems. They assimilate PPP carbon by ingesting PPP cells from water and recycling it through pseudofeces and feces, providing an ecological service in removing excess PPP in aquaculture settings.
Picophytoplankton (PPP) may contribute to the bulk of primary production in nutrient-rich marine ecosystems. In this study, we quantified the capacity of blue mussels (Mytilus edulis) and clubbed tunicates (Styela clava) to exploit PPP. In the water, we introduced PPP cells that were isotopically labelled with C-13 and using the same enrichment approach, we measured the secondary transfer (recycling) of carbon via the assimilation of pseudofeces and feces. Results show that both M. edulis and S. clava assimilate PPP carbon by ingesting PPP cells directly from water. In addition, PPP assimilation rates were similar in both species. Most interesting was our observation that both species assimilated PPP carbon contained in pseudofeces and feces, including large fecal pellets produced by S. clava. We conclude that within cultured and invasive filter feeders, PPP carbon is recycled via ingestion of feces and pseudofeces among individuals growing in close proximity. In aquaculture settings, cultured bivalves and fouling tunicates may provide an ecological service by removing excess PPP in nutrientrich systems via direct and secondary ingestion.
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