Eutrophication weakens stabilizing effects of diversity in natural grasslands

Hautier, Yann, Seabloom, Eric W., Borer, Elizabeth T., Adler, Peter B., Harpole, W. Stanley, Hillebrand, Helmut, Lind, Eric M., MacDougall, Andrew S., Stevens, Carly J., Bakker, Jonathan D., Buckley, Yvonne M., Chu, Chengjin, Collins, Scott L., Daleo, Pedro, Damschen, Ellen I., Davies, Kendi F., Fay, Philip A., Firn, Jennifer, Gruner, Daniel S., Jin, Virginia L., Klein, Julia A., Knops, Johannes M. H., La Pierre, Kimberly J., Li, Wei, McCulley, Rebecca L., Melbourne, Brett A., Moore, Joslin L., O’Halloran, Lydia R., Prober, Suzanne M., Risch, Anita C., Sankaran, Mahesh, Schuetz, Martin, & Hector, Andy (2014) Eutrophication weakens stabilizing effects of diversity in natural grasslands. Nature, 508(7497), pp. 521-525.

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Studies of experimental grassland communities have demonstrated that plant diversity can stabilize productivity through species asynchrony, in which decreases in the biomass of some species are compensated for by increases in others. However, it remains unknown whether these findings are relevant to natural ecosystems, especially those for which species diversity is threatened by anthropogenic global change. Here we analyse diversity-stability relationships from 41 grasslands on five continents and examine how these relationships are affected by chronic fertilization, one of the strongest drivers of species loss globally. Unmanipulated communities with more species had greater species asynchrony, resulting in more stable biomass production, generalizing a result from biodiversity experiments to real-world grasslands. However, fertilization weakened the positive effect of diversity on stability. Contrary to expectations, this was not due to species loss after eutrophication but rather to an increase in the temporal variation of productivity in combination with a decrease in species asynchrony in diverse communities. Our results demonstrate separate and synergistic effects of diversity and eutrophication on stability, emphasizing the need to understand how drivers of global change interactively affect the reliable provisioning of ecosystem services in real-world systems.

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56 citations in Scopus
53 citations in Web of Science®
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ID Code: 69945
Item Type: Journal Article
Refereed: Yes
Keywords: Plant Diversity, Productivity, Species Asynchrony, Anthropogenic Global Change, Grasslands
DOI: 10.1038/nature13014
ISSN: 1476-4687
Divisions: Current > Schools > School of Earth, Environmental & Biological Sciences
Current > QUT Faculties and Divisions > Science & Engineering Faculty
Deposited On: 08 Apr 2014 02:02
Last Modified: 15 May 2014 01:49

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