Abstract
In order to predict the effects of climate change on polar ecosystems, disentangling mechanisms of nutrient transfer in food webs is crucial. We investigated sources of nutrients in tundra lakes, tracing their transfer through the food web and relating the observed patterns to runoff, snow coverage, and the presence of migratory geese in lake catchments. C and N content (elemental and isotopic) of several food web components including Lepidurus arcticus (Notostraca, at the top of the lake food webs) in 18 shallow Arctic lakes was compared. Terrestrial productivity and geese abundance were key biotic factors that interacted with abiotic variables (snow coverage, lake and catchment size) in determining the amount and origin of nutrient inputs, affecting the trophic interactions among aquatic species, food chain length and nutrient flow in Arctic lake food webs. Decreasing snow coverage, increasing abundance and expansion of the geese’s range are expected across the Arctic due to climate warming. By relating nutrient inputs and food web structure to snow coverage, vegetation and geese, this study contributes to our mechanistic understanding of the cascade effects of climate change in tundra ecosystems, and may help predict the response of lakes to changes in nutrient inputs at lower latitudes.
Highlights
In order to predict the effects of climate change on polar ecosystems, disentangling mechanisms of nutrient transfer in food webs is crucial
In order to predict the effects of climate change on biodiversity and functioning in Arctic ecosystems, disentangling the mechanisms of nutrient transfer in food webs is crucial
Multispectral satellite images and the integrated analysis of snow and vegetation indexes proved useful for studying the effects of seasonal climatic variations on tundra lake ecosystems, as previously shown in the A rctic[63,64,65,66,67,68,69,70]
Summary
In order to predict the effects of climate change on polar ecosystems, disentangling mechanisms of nutrient transfer in food webs is crucial. Shallow Arctic lake ecosystems represent hotspots of biodiversity and productivity[6,13] and provide ecosystem services both at the local and the global scale (e.g. they are important carbon sinks)[14,15] They occupy less than 2% of the tundra, numerous aquatic and terrestrial species depend on these systems. Consumers’ trophic niches are affected by resource availability and play an important role in nutrient transfer and food web structure[30,31,32,33,34] They have the potential to modulate the effects of climate change and other stressors on ecosystems[22,35].
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