Climate modifies response of non-native and native species richness to nutrient enrichment

Habacuc Flores-Moreno*, Peter B. Reich, Eric M. Lind, Lauren L. Sullivan, Eric W. Seabloom, Laura Yahdjian, Andrew S. MacDougall, Lara G. Reichmann, Juan Alberti, Selene Báez, Jonathan D. Bakker, Marc W. Cadotte, Maria C. Caldeira, Enrique J. Chaneton, Carla M. D’Antonio, Philip A. Fay, Jennifer Firn, Nicole Hagenah, W. Stanley Harpole, Oscar IribarneKevin P. Kirkman, Johannes M.H. Knops, Kimberly J. La Pierre, Ramesh Laungani, Andrew D.B. Leakey, Rebecca L. McCulley, Joslin L. Moore, Jesus Pascual, Elizabeth T. Borer

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

37 Citations (Scopus)

Abstract

Ecosystem eutrophication often increases domination by non-natives and causes displacement of native taxa. However, variation in environmental conditions may affect the outcome of interactions between native and non-native taxa in environments where nutrient supply is elevated. We examined the interactive effects of eutrophication, climate variability and climate average conditions on the success of native and non-native plant species using experimental nutrient manipulations replicated at 32 grassland sites on four continents. We hypothesized that effects of nutrient addition would be greatest where climate was stable and benign, owing to reduced niche partitioning. We found that the abundance of non-native species increased with nutrient addition independent of climate; however, nutrient addition increased nonnative species richness and decreased native species richness, with these effects dampened in warmer or wetter sites. Eutrophication also altered the time scale in which grassland invasion responded to climate, decreasing the importance of long-term climate and increasing that of annual climate. Thus, climatic conditions mediate the responses of native and non-native flora to nutrient enrichment. Our results suggest that the negative effect of nutrient addition on native abundance is decoupled from its effect on richness, and reduces the time scale of the links between climate and compositional change.

Original languageEnglish
Article number20150273
JournalPhilosophical Transactions of the Royal Society B: Biological Sciences
Volume371
Issue number1694
DOIs
Publication statusPublished - 19 May 2016
Externally publishedYes

Keywords

  • Climate variability
  • Non-native species
  • NutNet
  • Nutrient enrichment
  • Species abundance
  • Species richness

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