1. Global patterns of allochthony in stream–riparian meta‐ecosystems
- Author
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Allen, Daniel C, Larson, James, Murphy, Christina A, Garcia, Erica A, Anderson, Kurt E, Busch, Michelle H, Argerich, Alba, Belskis, Alice M, Higgins, Kierstyn T, Penaluna, Brooke E, Saenz, Veronica, Jones, Jay, and Whiles, Matt R
- Subjects
Environmental Sciences ,Biological Sciences ,Ecology ,Animals ,Humans ,Ecosystem ,Rivers ,Food Chain ,Invertebrates ,Fishes ,allochthonous ,aquatic-terrestrial linkage ,consumer ,diet ,food web ,meta-ecosystem ,resource subsidy ,riparian ,stream ,Ecological Applications ,Evolutionary Biology ,Ecological applications ,Environmental management - Abstract
Ecosystems that are coupled by reciprocal flows of energy and nutrient subsidies can be viewed as a single "meta-ecosystem." Despite these connections, the reciprocal flow of subsidies is greatly asymmetrical and seasonally pulsed. Here, we synthesize existing literature on stream-riparian meta-ecosystems to quantify global patterns of the amount of subsidy consumption by organisms, known as "allochthony." These resource flows are important since they can comprise a large portion of consumer diets, but can be disrupted by human modification of streams and riparian zones. Despite asymmetrical subsidy flows, we found stream and riparian consumer allochthony to be equivalent. Although both fish and stream invertebrates rely on seasonally pulsed allochthonous resources, we find allochthony varies seasonally only for fish, being nearly three times greater during the summer and fall than during the winter and spring. We also find that consumer allochthony varies with feeding traits for aquatic invertebrates, fish, and terrestrial arthropods, but not for terrestrial vertebrates. Finally, we find that allochthony varies by climate for aquatic invertebrates, being nearly twice as great in arid climates than in tropical climates, but not for fish. These findings are critical to understanding the consequences of global change, as ecosystem connections are being increasingly disrupted.
- Published
- 2024