Invaded grassland communities have altered stability‐maintenance mechanisms but equal stability compared to native communities |
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Authors: | Brian J. Wilsey Pedram P. Daneshgar Kirsten Hofmockel H. Wayne Polley |
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Affiliation: | 1. Department of Ecology, Evolution and Organismal Biology, Iowa State University, , Ames, IA, 50011 USA;2. Department of Biology, Monmouth University, , West Long Branch, NJ, 07764 USA;3. Grassland, Soil and Water Research Laboratory, USDA‐ARS, , Temple, TX, 76502 USA |
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Abstract: | Theory predicts that stability should increase with diversity via several mechanisms. We tested predictions in a 5‐year experiment that compared low‐diversity exotic to high‐diversity native plant mixtures under two irrigation treatments. The study included both wet and dry years. Variation in biomass across years (CV) was 50% lower in mixtures than monocultures of both native and exotic species. Growth among species was more asynchronous and overyielding values were greater during and after a drought in native than exotic mixtures. Mean‐variance slopes indicated strong portfolio effects in both community types, but the intercept was higher for exotics than for natives, suggesting that exotics were inherently more variable than native species. However, this failed to result in higher CV's in exotic communities because species that heavily dominated plots tended to have lower than expected variance. Results indicate that diversity‐stability mechanisms are altered in invaded systems compared to native ones they replaced. |
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Keywords: | Diversity‐stability relationship dominant species evenness grassland invasive species overyielding population synchrony portfolio effect sampling effect |
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