%0 Journal Article
%T Chronic fertilization and irrigation gradually and increasingly restructure grassland communities
%A David Tilman
%A Forest Isbell
%A Gerhard Boenisch
%A Isabelle Aubin
%A Jane A. Catford
%A Jens Kattge
%A Kaitlin Kimmel
%A Laura Dee
%J Ecosphere - Wiley Online Library
%D 2019
%R https://doi.org/10.1002/ecs2.2625
%X Scientists have known for over a century that resource addition can lead to species loss from plant communities. Recent studies have also shown that resource addition can substantially restructure communities by altering their functional and taxonomic composition¡ªeven when species richness remains unchanged. Understanding which aspects of community structure are impacted by different resources and over which timescales will provide insight for management decisions and may also elucidate which measures can act as early warning indicators for subsequent changes in the community. Here, we take advantage of a long©\term factorial experiment to understand how grassland plant communities respond to a decade of nitrogen fertilization (14 g N¡¤m£¿2¡¤yr£¿1) and irrigation (25 mm water/week during the growing season). After 10 yr, fertilization and irrigation decreased species richness by 22% and 9%, while functional richness decreased by 31% and 41%. Abundance©\weighted functional distance between treatments and controls increased by 55% and 24%, respectively. We expected that abundance©\weighted measures would shift before presence¨Cabsence©\based measures, but found limited evidence for this. Instead, our results suggest that species gains, which can occur quickly because they require the addition of only one individual, may serve as early indicators for subsequent community restructuring in the opposite direction. Overall, both chronic nitrogen fertilization and irrigation tended to have gradual and increasing impacts on community structure, but the magnitude of these effects varied greatly depending on the aspect of community structure investigated. Further study will be needed to determine the extent to which our results can be generalized to other resources or sites in order to develop management strategies to maintain both taxonomic and functional trait diversity in the face of chronic resource changes. Ecosystems are continually confronted with many long©\term and directional changes in the supply of the major resources required by plants, including various nutrients (Galloway et al. 2004, IPCC 2014), water (Huntington 2006, Zhang et al. 2007), and CO2 (IPCC 2014). Increased resource supply can restructure terrestrial plant communities (Lawes et al. 1882, Suding et al. 2005, Harpole et al. 2016) by altering functional and taxonomic richness, abundance, dominance, and composition. This community restructuring often occurs at the expense of species that would otherwise be dominant under low©\resource conditions, where they are able to drive resources down to levels
%U https://esajournals.onlinelibrary.wiley.com/doi/full/10.1002/ecs2.2625