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Plant Size And Competitive Dynamics Along Nutrient Gradients, Deborah E. Goldberg, Jason P. Martina, Kenneth J. Elgersma, William S. Currie
Plant Size And Competitive Dynamics Along Nutrient Gradients, Deborah E. Goldberg, Jason P. Martina, Kenneth J. Elgersma, William S. Currie
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Resource competition theory in plants has focused largely on resource acquisition traits that are independent of size, such as traits of individual leaves or roots or proportional allocation to different functions. However, plants also differ in maximum potential size, which could outweigh differences in module-level traits. We used a community ecosystem model called mondrian to investigate whether larger size inevitably increases competitive ability and how size interacts with nitrogen supply. Contrary to the conventional wisdom that bigger is better, we found that invader success and competitive ability are unimodal functions of maximum potential size, such that plants that are too …