Lake size, macrophytes, and omnivory contribute to food web linkage in temperate shallow eutrophic lakes

MINOTTI, P.; RODRÍGUEZ GOLPE, D.; MINOTTI, P.; RODRÍGUEZ GOLPE, D.; PANARELLO, H. O.; LA SALA, L.; PANARELLO, H. O.; LA SALA, L.; SÁNCHEZ VUICHARD, G.; GONZÁLEZ SAGRARIO, M. A.; SÁNCHEZ VUICHARD, G.; GONZÁLEZ SAGRARIO, M. A.

HYDROBIOLOGIA

SPRINGER

Lugar: Berlin; Año: 2018 vol. 818 p. 87 - 103

0018-8158

Physical, chemical and biological processes facilitate cross-habitat connections in lakes, prompting food webs to be supported by different subsidies. We tested the hypothesis that the pelagic food web is subsidized by littoral resources and fish foraging behaviour plays a major role in carbon flux and on food web structure in shallow hypereutrophic lakes. We performed a fish diet and carbon and nitrogen isotope analyses to predict the linkage between littoral and pelagic habitats in three shallow hypereutrophic lakes. Lakes differed in morphology, fetch, macrophyte composition and width of the littoral zone. δ13C signals of seston differed among lakes, but were similar to other producers. Macroinvertebrates and fish carbon signatures were more enriched in the lake co-dominated by emergent and submerged vegetation. Fish foraging behaviour indicates that more than the 80% of the carbon that sustain adult fish was channelled from the littoral. In conclusion, littoral carbon were relevant and sustain, in part, food web in these shallow lakes. Factors like the extension of the littoral zone, lake morphometry, and the dominance of multi-chain omnivorous fish facilitate the connection among lake compartments and the transference of littoral carbon to lake food web.