Abstract
While considerable insights on the ecological consequences of climate change have been gained from studies conducted on remote lakes, little has been done on lakes under direct human exposure. Ecosystem vulnerability and responses to climate warming might yet largely depend on the ecological state and thus on local anthropogenic pressures. We tested this hypothesis through a paleolimnological approach on three temperate large lakes submitted to rather similar climate warming but varying intensities of analogous local forcings (changes in nutrient inputs and fisheries management practices). Changes in the structure of the cladoceran community were considered as revealing for alterations, over the time, of the pelagic food web. Trajectories of the cladoceran communities were compared among the three study lakes (Lakes Geneva, Bourget, and Annecy) over the last 70-150 years. Generalized additive models were used to develop a hierarchical understanding of the respective roles of local stressors and climate warming in structuring cladoceran communities. The cladoceran communities were not equally affected by climate warming between lakes. In Lake Annecy, which is the most nutrient-limited, the cladoceran community was essentially controlled by local stressors, with very limited impact of climate. In contrast, the more nutrient-loaded Lakes Geneva and Bourget were more sensitive to climate warming, although the magnitude of their responses and the pathways under which climate warming affected the communities varied between the two lakes. Finally, our results demonstrated that lake vulnerability and responses to climate warming are modulated by lake trophic status but can also be altered by fisheries management practices through changes in fish predation pressure.
Highlights
While climate change is increasingly acknowledged as an important driver of lake ecosystems (George and Harris 1985, Adrian et al 1995, IPCC 2001), our understanding of the mechanisms by which climate affects lakes is still patchy (Keller 2007)
Since no trend was observed for mean annual precipitation on the three lakes (Mann Kendall’s tau test, P . 0.05), only mean air temperature was used in the following to account for climate change
Our study intended to evaluate and hierarchize the effects of local forcings vs. climate warming on the trajectory of cladoceran communities in three temperate, peri-alpine lakes submitted to similar climate change
Summary
While climate change is increasingly acknowledged as an important driver of lake ecosystems (George and Harris 1985, Adrian et al 1995, IPCC 2001), our understanding of the mechanisms by which climate affects lakes is still patchy (Keller 2007). The relative importance and potential interactions of these different pathways may vary, depending on the nature and magnitude of climate variability, and according to lake characteristics (Pham et al 2008, Cardille et al 2009). Understanding and potentially forecasting the impact of climate variability on lakes require that we order and scale up these different pathways (Leavitt et al 2009).
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
