Year effects drive beta diversity, but unevenly across plant community types

Year of establishment can be a critical driver of plant communities with the establishment stage of community development particularly susceptible to factors including ambient rain, temperature, and other temporally variable drivers (e.g., seed and seedling predators). However, while year effects ha...

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Veröffentlicht in:	Ecology (Durham) 2024-01, Vol.105 (1), p.e4188-n/a
Hauptverfasser:	Werner, Chhaya M., Young, Truman P., Stuble, Katharine L.
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Sprache:	eng
Schlagworte:	assembly beta diversity Biodiversity Community composition Community development Community structure Composition Disturbance Grasslands heterogeneity Indigenous species Mesocosms Plant communities Predators Seedlings turnover year effects
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creator	Werner, Chhaya M. Young, Truman P. Stuble, Katharine L.
description	Year of establishment can be a critical driver of plant communities with the establishment stage of community development particularly susceptible to factors including ambient rain, temperature, and other temporally variable drivers (e.g., seed and seedling predators). However, while year effects have been shown to drive community structure at local (patch) scales, it is yet unexplored how these within‐patch effects scale up to drive landscape‐level patterns of biodiversity. These dynamics are likely to be critical but are overlooked in many systems including those with high‐frequency disturbance regimes or active management. Here we leveraged a series of field‐based grassland mesocosms established identically at three sites across 5 years, and each monitored for 4–8 years. We compared the strength of these temporal and spatial drivers (year effects and site effects) on consequent patterns of spatial and temporal variability (beta diversity and turnover) between plots seeded with native perennial species versus those seeded with nonnative annual species. The composition of plots seeded with perennial species showed strong effects of planting year and consequently exhibited higher beta diversity within sites (across mesocosms established in five different years within sites), while plots seeded with annual species had higher between‐site variation but low beta diversity within sites. Plots with annual species were also more temporally variable than plots with perennial species. These findings have important implications for our understanding of key drivers of biodiversity across landscapes. Specifically, we showed that variable trajectories in community composition generated by site and year effects during establishment can promote beta diversity across landscapes dominated by perennial species, but are considerably less impactful in annual‐dominated systems. These findings further our understanding of the importance of assembly dynamics on landscape‐scale patterns of diversity, and have important management implications for restoration efforts.
doi_str_mv	10.1002/ecy.4188
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The composition of plots seeded with perennial species showed strong effects of planting year and consequently exhibited higher beta diversity within sites (across mesocosms established in five different years within sites), while plots seeded with annual species had higher between‐site variation but low beta diversity within sites. Plots with annual species were also more temporally variable than plots with perennial species. These findings have important implications for our understanding of key drivers of biodiversity across landscapes. Specifically, we showed that variable trajectories in community composition generated by site and year effects during establishment can promote beta diversity across landscapes dominated by perennial species, but are considerably less impactful in annual‐dominated systems. 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subjects	assembly beta diversity Biodiversity Community composition Community development Community structure Composition Disturbance Grasslands heterogeneity Indigenous species Mesocosms Plant communities Predators Seedlings turnover year effects
title	Year effects drive beta diversity, but unevenly across plant community types
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