%AFitzgerald, Daniel [Department of Wildlife and Fisheries Sciences, Interdisciplinary Program in Ecology and Evolutionary Biology and Applied Biodiversity Sciences Program Texas A&,M University College Station Texas 77843 USA]%AFitzgerald, Daniel [Department of Wildlife and Fisheries Sciences, Interdisciplinary Program in Ecology and Evolutionary Biology and Applied Biodiversity Sciences Program; Texas A&M University; College Station Texas 77843 USA]%AWinemiller, Kirk [Department of Wildlife and Fisheries Sciences, Interdisciplinary Program in Ecology and Evolutionary Biology and Applied Biodiversity Sciences Program; Texas A&M University; College Station Texas 77843 USA]%AWinemiller, Kirk [Department of Wildlife and Fisheries Sciences, Interdisciplinary Program in Ecology and Evolutionary Biology and Applied Biodiversity Sciences Program Texas A&,M University College Station Texas 77843 USA]%ASabaj Pérez, Mark [Academy of Natural Sciences of Philadelphia and Drexel University 1900 Benjamin Franklin Parkway Philadelphia Pennsylvania 19103 USA]%ASabaj Pérez, Mark [Academy of Natural Sciences of Philadelphia and Drexel University; 1900 Benjamin Franklin Parkway Philadelphia Pennsylvania 19103 USA]%ASousa, Leandro [Faculdade de Ciências Biológicas Laboratório de Ictiologia Universidade Federal do Pará Campus Universitário de Altamira Altamira Pará Brazil]%ASousa, Leandro [Faculdade de Ciências Biológicas; Laboratório de Ictiologia; Universidade Federal do Pará; Campus Universitário de Altamira Altamira Pará Brazil]%BJournal Name: Ecology; Journal Volume: 98; Journal Issue: 1; Related Information: CHORUS Timestamp: 2023-09-16 03:50:56 %D2016%IWiley Blackwell (John Wiley & Sons) %JJournal Name: Ecology; Journal Volume: 98; Journal Issue: 1; Related Information: CHORUS Timestamp: 2023-09-16 03:50:56 %K %MOSTI ID: 10045767 %PMedium: X %TSeasonal changes in the assembly mechanisms structuring tropical fish communities %XAbstract

Despite growing interest in trait‐based approaches to community assembly, little attention has been given to seasonal variation in trait distribution patterns. Mobile animals can rapidly mediate influences of environmental factors and species interactions through dispersal, suggesting that the relative importance of different assembly mechanisms can vary over short time scales. This study analyzes seasonal changes in functional trait distributions of tropical fishes in the Xingu River, a major tributary of the Amazon with large predictable temporal variation in hydrologic conditions and species density. Comparison of observed functional diversity revealed that species within wet‐season assemblages were more functionally similar than those in dry‐season assemblages. Further, species within wet‐season assemblages were more similar than random expectations based on null model predictions. Higher functional richness within dry season communities is consistent with increased niche complementarity during the period when fish densities are highest and biotic interactions should be stronger; however, null model tests suggest that stochastic factors or a combination of assembly mechanisms influence dry‐season assemblages. These results demonstrate that the relative influence of community assembly mechanisms can vary seasonally in response to changing abiotic conditions, and suggest that studies attempting to infer a single dominant mechanism from functional patterns may overlook important aspects of the assembly process. During the prolonged flood pulse of the wet season, expanded habitat and lower densities of aquatic organisms likely reduce the influence of competition and predation. This temporal shift in the influence of different assembly mechanisms, rather than any single mechanism, may play a large role in maintaining the structure and diversity of tropical rivers and perhaps other dynamic and biodiverse systems.

%0Journal Article