@article {7215, title = {Trophic niche of the invasive gregarious species Crepidula fornicata, in relation to ontogenic changes}, journal = {bioRxiv}, year = {2021}, pages = {2020.07.30.229021}, type = {ver. 4 peer-reviewed and recommended by Peer Community In Ecology}, abstract = {Crepidula fornicata\ is a common and widespread invasive gregarious species along the European coast. Among its life-history traits, well documented ontogenic changes in behavior (i.e., motile male to sessile female) suggest a potential shift in feeding strategy across its life stages. Considering the ecological significance of this species in colonized areas, understanding how conspecifics share the trophic resource is crucial. Using fatty acids (FA) and stable isotopes (SI) as complementary trophic markers, we conducted a field survey between late winter and spring to investigate the trophic niche of three ontogenic stages of\ C. fornicata\ that bear different sexual (male/female) and motility (motile/sessile) traits. Potential trophic sources were characterized by their pigment, FA and SI compositions and showed well discriminated compositions over the studied period. We showed that the biofilm covering\ C. fornicata\ shells harbored a higher biomass of primary producers (i.e., chlorophytes and diatoms) than the surrounding sediment. Over the studied period, we observed a covariation between the three ontogenic stages for both FA and SI compositions which suggest that the trophic niche of\ C. fornicata\ does not change significantly across its benthic life. During periods of low food availability, slipper limpets displayed an opportunistic suspension-feeding behaviour, relying on both fresh and detrital organic matter, likely coming from superficial sedimentary organic matter. However, during high food availability (i.e., spring phytoplankton bloom), all ontogenic stages largely benefited from this fresh supply of organic matter (pelagic diatoms in this case). The three ontogenic stages showed consistent differences in FA composition, and to a lesser extent in SI composition. These differences persist over time, as they originate from ontogenic physiological changes (differential growth rates, metabolic rate or gametogenesis) rather than diet discrepancies. This study revealed that multiple trophic markers allow high complementary to characterize organic matter as well as food partitioning between conspecific organisms.
Recommended by PCI Ecology : https://ecology.peercommunityin.org/articles/rec?id=140}, doi = {10.1101/2020.07.30.229021}, url = {https://www.biorxiv.org/content/10.1101/2020.07.30.229021v1.abstract}, author = {Androuin, Thibault and Stanislas Dubois and C{\'e}dric Hubas and Lefebvre, Gwendoline and Le Grand, Fabienne and Gauthier Schaal and Carlier, Antoine} }