Niche width and overlap of benthic invertebrates in surf zones increase with distance from the estuarine source of organic matter

• Published in: Estuarine, coastal and shelf science Vol. 298; p. 108620
• Main Authors: Carcedo, M. Cecilia, Scotti, Marco, Ito, Maysa, Blasina, Gabriela, Molina, J. Manuel, Martínez, Ana, Garzón Cardona, John E., Moyano, Jessica, Menéndez, M Clara, Dutto, M. Sofía, Lopez Cazorla, Andrea, Fiori, Sandra M.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.03.2024
• Subjects: Epibenthos; Fatty acids; Hyperbenthos; Sandy beaches; Stable isotopes; Trophic position; Hyperbenthos; Sandy beaches; Trophic position; Epibenthos; Fatty acids; Stable isotopes
• ISSN: 0272-7714; 1096-0015
• DOI: 10.1016/j.ecss.2024.108620

Benthic invertebrates in the surf zone of exposed sandy beaches represent important links for energy circulation between benthic and pelagic food webs. This work assesses the trophic ecology of co-occurring epi- and hyper-benthic invertebrates inhabiting the surf zone of sandy beaches located close to an estuarine mouth. It illustrates that different sources of organic matter induce changes in resource utilization. The trophic positions, and the niche width and overlap of species were described using δ13C and δ15N stable isotope analysis. The contribution of different sources to the particulate organic matter was quantified through stable isotopes analysis and fatty acids profiles. Shifts in the trophic niches of dominant species reflected a decrease in the contribution of estuarine carbon to the diets along the coast. This change in contribution of estuarine carbon also influenced trophic niche properties: more diverse resources availability resulted in narrower niches without overlap while less diverse resources resulted in broad isotopic niches and a highest overlap. Results show that spatial variations in the availability of resources can modify carbon pathways and trophic interactions in coastal food webs. Whenever resources are abundant, species display a more specialized diet while food scarcity leads to broader diets, a pattern consistent with the optimal foraging theory. This resource maximization behavior commonly observed in nature is also occurring in surf zone ecosystems. •Microphytobenthos contributed to the particulate organic matter in both beaches.•Allochthonous materials provide relevant contributions to the POM in surf zones.•Estuarine subsidies' availability determines changes in consumers' isotopic niches.•Higher estuarine trophic subsidies resulted in narrower niches of dominant species.