The role of nitrogen deposition in widespread plant community change across semi-natural habitats

Field, Chris D. and Dise, Nancy B. and Payne, Richard J. and Britton, Andrea J. and Emmett, Bridget A. and Helliwell, Rachel C. and Hughes, Steve and Jones, Laurence and Lees, Steven and Leake, Jonathan R. and Leith, Ian D. and Phoenix, Gareth K. and Power, Sally A. and Sheppard, Lucy J. and Southon, Georgina E. and Stevens, Carly J. and Caporn, Simon J. M. (2014) The role of nitrogen deposition in widespread plant community change across semi-natural habitats. Ecosystems, 17 (5). pp. 864-877. ISSN 1432-9840

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Abstract

Experimental studies have shown that deposition of reactive nitrogen is an important driver of plant community change, however, most of these experiments are of short duration with unrealistic treatments, and conducted in regions with elevated ambient deposition. Studies of spatial gradients of pollution can complement experimental data and indicate whether the potential impacts demonstrated by experiments are actually occurring in the 'real world'. However, targeted surveys exist for only a very few habitats and are not readily comparable. In a coordinated campaign, we determined the species richness and plant community composition of five widespread, semi-natural habitats across Great Britain in sites stratified along gradients of climate and pollution, and related these ecological parameters to major drivers of biodiversity, including climate, pollution deposition, and local edaphic factors. In every habitat, we found reduced species richness and changed species composition associated with higher nitrogen deposition, with remarkable consistency in relative species loss across ecosystem types. Whereas the diversity of mosses, lichens, forbs, and graminoids declines with N deposition in different habitats, the cover of graminoids generally increases. Considered alongside previous experimental studies and survey work, our results provide a compelling argument that nitrogen deposition is a widespread and pervasive threat to terrestrial ecosystems.

Item Type:
Journal Article
Journal or Publication Title:
Ecosystems
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/2300/2303
Subjects:
?? nitrogensulphurclimatepollution impactsatmospheric nitrogenspecies richnesscalluna-vulgarisregional trendsgrasslandssulfurvegetationheathlandgradientacidificationecologyecology, evolution, behavior and systematicsenvironmental chemistry ??
ID Code:
73664
Deposited By:
Deposited On:
18 Jun 2015 05:39
Refereed?:
Yes
Published?:
Published
Last Modified:
18 Sep 2024 09:20