Nitrogen Deposition and Terrestrial Biodiversity

Christopher M. Clark; Yongfei Bai; William D. Bowman; Jane M. Cowles; Mark E. Fenn; Frank S. Gilliam; Gareth K. Phoenix; Ilyas Siddique; Carly J. Stevens; Harald U. Sverdrup; Heather L. Throop

doi:10.1016/B978-0-12-384719-5.00366-X

Book chapter

Nitrogen Deposition and Terrestrial Biodiversity

Christopher M. Clark, Yongfei Bai, William D. Bowman, Jane M. Cowles, Mark E. Fenn, Frank S. Gilliam, Gareth K. Phoenix, Ilyas Siddique, Carly J. Stevens, Harald U. Sverdrup, …

Encyclopedia of Biodiversity, pp.519-536

Elsevier Inc, Second Edition

2013

DOI: https://doi.org/10.1016/B978-0-12-384719-5.00366-X

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Abstract

Nitrogen deposition, along with habitat loss and climate change, constitute a major threat to Earth’s biodiversity. Fossil fuel combustion and modern agriculture add more nitrogen to terrestrial and aquatic ecosystems than all natural processes combined. Because nitrogen often limits productivity, this enrichment it likely to have major ecological impacts. In terrestrial ecosystems, nitrogen deposition can lead to increased growth of often weedy species, cation depletion in the soil, nutrient imbalances in plant tissue, and soil acidification among other effects. These processes often reduce plant biodiversity and homogenize communities, which can propagate through food webs and impact entire ecosystems.

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Title: Nitrogen Deposition and Terrestrial Biodiversity
Edition: Second Edition
Publication Details: Encyclopedia of Biodiversity, pp.519-536
Resource Type: Book chapter
Publisher: Elsevier Inc
Identifiers: 99380167754106600
Academic Unit: Hal Marcus College of Science and Engineering ; Biology
Language: English

Nitrogen Deposition and Terrestrial Biodiversity

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