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W2884378001 abstract "Abstract Metabolism shapes the ecosystem role of organisms by dictating their energy demand and nutrient recycling potential. Metabolic theory ( MTE ) predicts consumer metabolic and recycling rates will rise with warming, especially if body size declines, but it ignores potential for adaptation. We measured metabolic and nutrient excretion rates of individuals from populations of a globally invasive fish that colonized sites spanning a wide temperature range (19–37°C) on two continents within the last 100 yr. Fish body size declined across our temperature gradient and MTE predicted large rises in population energy demand and nutrient recycling. However, we found that the allometry and temperature dependency of metabolism varied in a countergradient pattern with local temperature in a way that offset predictions of MTE . Scaling of nutrient excretion was more variable and did not track temperature. Our results suggest that adaptation can reduce the metabolic cost of warming, increasing the prospects for population persistence under extreme warming scenarios." @default.
W2884378001 created "2018-08-03" @default.
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W2884378001 date "2018-08-22" @default.
W2884378001 modified "2023-10-16" @default.
W2884378001 title "Local adaptation reduces the metabolic cost of environmental warming" @default.
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W2884378001 doi "https://doi.org/10.1002/ecy.2463" @default.
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