CONICET | Buscador de Institutos y Recursos Humanos

Climate change and nutrient enrichment are two main stressors of rivers in Andean ecosystems. As temperatures increase globally, species are expected to be afected in various ways, including growth and survival. Here, we performed a novel, 15-day microcosm experiment to test the impact of multiple stressors on algae biomass (measured as chlorophyll-a biomass), the main food supply of two aquatic insect grazers, and its efect on their survival and growth rates. We used Andesiops peruvianus (Ephemeroptera) and Anomalocosmoecus illiesi (Trichoptera), two abundant species in Andean rivers in Ecuador. The experiment tested the addition of nitrogen (N) and phosphorus (P) using nutrient-difusing substrates (NDS) in three Intergovernmental Panel on Climate Change (IPCC) temperature scenarios (ambient, +2.5 °C, and +5 °C). The single efect of increasing temperature produced an increase in algal biomass. Positive synergistic efects on chlorophyll-abiomass resulted in ambient chambers with a mix of N+P addition and a combination of +2.5 °C with +P and N+P. The single and interactive efects of nutrient addition and warming water produced high mortality for Andesiops peruvianus but did not impact the survival of Anomalocosmoecus illiesi larvae. The growth rates of Andesiops peruvianus larvae showed no signifcant efect in any treatments except for the ambient NP treatment, in which we observed a marginal impact on body mass. In turn, the growth rates of Anomalocosmoecus illiesi larvae increased signifcantly only at +2.5 °C with +P addition. Based on our results, we posit that phosphorus is an important nutrient in Andean streams that mediates the growth of larval insects. This multiple-stressor experiment suggests that global warming and nutrient enrichment could critically alter the rivers primary productivity and the metabolism of Andean aquatic insects.

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