02170nas a2200133 4500008004100000245009800041210006900139300001200208490000700220520164300227100002301870700001701893856012601910 2020 eng d00aDispersal drives temporal changes in fish community abundance in intermittent stream networks0 aDispersal drives temporal changes in fish community abundance in a797-8060 v363 a
Increasing trends in fragmentation and dewatering of streams warrants research on how populations and communities respond to varying water levels and barriers to movement. Although these responses are complicated by many spatial and temporal processes, long-term datasets might help reveal complex patterns and processes driving variability in species abundances. The objective of this study was to develop a predictive framework for fish community and population responses to varying levels of water availability across six sites in two intermittent stream networks sampled >10 years. We predicted that fishes would emigrate into intermittent reaches during wet conditions; thus, overall abundances within perennial source locations will decline. Accordingly, when intermittent reaches dry, fishes will contract to wetted habitats resulting in high abundance. Observed fish community abundances were highly variable within and among study sites, but four of six sites matched our predictions. A tagging study confirmed these results and demonstrated a substantial proportion of individuals moved away from perennial reaches and into newly wetted intermittent reaches. However, site and species-specific relationships were variable and likely depended on the habitat, metacommunity dynamics, and life history strategies. Findings suggest that species dispersal dynamics, in addition to recruitment and mortality, should be carefully considered when interpreting species responses to varying water levels, particularly in intermittent stream networks where access to habitat can change drastically with water availability.
1 aHedden, Skyler, C.1 aGido, K., B. uhttp://lter.konza.ksu.edu/content/dispersal-drives-temporal-changes-fish-community-abundance-intermittent-stream-networks