Counter intuitive effects of resource elemental content on the response of the detritivore, Gammarus fossarum, to metallic contamination

International audienc

High food quality increase the detrimental effects of cadmium on the detritivore, Gammarus fossarum

International audienc

Ionic silver can directly and indirectly impairs the functioning of detritus-based aquatic ecosystems

International audienc

Does phosphorus limitation increase the toxic effect of silver on aquatic fungi and litter decomposition?

International audienc

Interactive effects of ionic silver and phosphorus on aquatic fungi and leaf litter decomposition

International audienc

Interactions entre contamination anthropique et qualité des ressources alimentaires : cas des microorganismes de ruisseaux forestiers

International audienc

Effects of phosphorus content in detritus on life-history traits, behavior and physiology of a headwater stream detritivore

International audienc

Pivotal role of benthic algae in the survival and growth of a detritivorous invertebrate in detritus-based streams

International audienc

Phosphorus content in detritus controls life‐history traits of a detritivore

International audienceEcological stoichiometry, that is, the study of mass balance of multiple key chemical elements during ecological interactions, has recently been generalized to most ecosystems. Yet, effects of stoichiometric constraints on the life-history traits of detritivores, one of the most important trophic level through its importance in nutrient cycling, are still poorly documented. Forested headwater streams constitute representative detritus-based ecosystems, relying on leaf litter inputs as the main energy and nutrient source for their functioning. Leaf litter is quickly colonized by aquatic hyphomycetes, which are known to improve the quality of detritus, enabling nutrient and energy transfer to higher trophic levels. In this study, we manipulated leaf litter nutrient content of two common riparian tree species, differing in their initial biochemical composition, by short-term phosphorus addition to leaf litter precolonized by aquatic hyphomycetes. Then, we tested the impact of leaf litter phosphorus content on some key life-history traits, homeostasis and growth, of a common detritivorous invertebrate, Gammarus fossarum (Crustacea Amphipoda). G.fossarum fed individually for 5weeks with P-enriched leaf litter showed higher survival and growth rates than organisms fed with leaf litter colonized by fungi without P addition. Phosphorus content of resources did not alter G.fossarum elemental composition, suggesting that these detritivores are able to maintain their elemental homeostasis. This study sheds new light on the importance of phosphorus content of detritus for detritivores and paves the way for further studies aimed at transferring ecological stoichiometry concepts to detritus-based ecosystems