The Effects of Atmospheric Nitrogen Deposition on Terrestrial and Freshwater Biodiversity

Jill S. Baron; Mary Barber; Mark Adams; Julius I. Agboola; Edith B. Allen; William J. Bealey; Roland Bobbink; Maxim V. Bobrovsky; William D. Bowman; Cristina Branquinho; Mercedes M.C. Bustamente; Christopher M. Clark; Edward C. Cocking; Cristina Cruz; Eric Davidson; O. Tom Denmead; Teresa Dias; Nancy B. Dise; Alan Feest; James N. Galloway; Linda H. Geiser; Frank S. Gilliam; Ian J. Harrison; Larisa G. Khanina; Xiankai Lu; Esteban Manrique; Raúl Ochoa-Hueso; Jean P.H.B. Ometto; Richard Payne; Thomas Scheuschner; Lucy J. Sheppard; Gavin L. Simpson; Y. V. Singh; Carly J. Stevens; Ian Strachan; Harald Sverdrup; Naoko Tokuchi; Hans Van Dobben; Sarah Woodin

doi:10.1007/978-94-007-7939-6_49

The Effects of Atmospheric Nitrogen Deposition on Terrestrial and Freshwater Biodiversity

Jill S. Baron^*, Mary Barber, Mark Adams, Julius I. Agboola, Edith B. Allen, William J. Bealey, Roland Bobbink, Maxim V. Bobrovsky, William D. Bowman, Cristina Branquinho, Mercedes M.C. Bustamente, Christopher M. Clark, Edward C. Cocking, Cristina Cruz, Eric Davidson, O. Tom Denmead, Teresa Dias, Nancy B. Dise, Alan Feest, James N. GallowayLinda H. Geiser, Frank S. Gilliam, Ian J. Harrison, Larisa G. Khanina, Xiankai Lu, Esteban Manrique, Raúl Ochoa-Hueso, Jean P.H.B. Ometto, Richard Payne, Thomas Scheuschner, Lucy J. Sheppard, Gavin L. Simpson, Y. V. Singh, Carly J. Stevens, Ian Strachan, Harald Sverdrup, Naoko Tokuchi, Hans Van Dobben, Sarah Woodin

^*Corresponding author for this work

Aberdeen Centre For Environmental Sustainability

Research output: Chapter in Book/Report/Conference proceeding › Chapter

16 Citations (Scopus)

Abstract

This chapter reports the findings of a Working Group on how atmospheric nitrogen (N) deposition affects both terrestrial and freshwater biodiversity. Regional and global scale impacts on biodiversity are addressed, together with potential indicators. Key conclusions are that: the rates of loss in biodiversity are greatest at the lowest and initial stages of N deposition increase; changes in species compositions are related to the relative amounts of N, carbon (C) and phosphorus (P) in the plant soil system; enhanced N inputs have implications for C cycling; N deposition is known to be having adverse effects on European and North American vegetation composition; very little is known about tropical ecosystem responses, while tropical ecosystems are major biodiversity hotspots and are increasingly recipients of very high N deposition rates; N deposition alters forest fungi and mycorrhyzal relations with plants; the rapid response of forest fungi and arthropods makes them good indicators of change; predictive tools (models) that address ecosystem scale processes are necessary to address complex drivers and responses, including the integration of N deposition, climate change and land use effects; criteria can be identified for projecting sensitivity of terrestrial and aquatic ecosystems to N deposition. Future research and policy-relevant recommendations are identified.

Original language	English
Title of host publication	Nitrogen Deposition, Critical Loads and Biodiversity
Subtitle of host publication	Proceedings of the International Nitrogen Initiative Workshop, Linking Experts of the Convention on Long-Range Transboundary Air Pollution and the Convention on Biological Diversity
Editors	Mark A. Sutton, Kate E. Mason, Lucy J. Sheppard, Harald Sverdrup, Richard Haeuber, W. Kevin Hicks
Publisher	Springer
Chapter	49
Pages	465-480
Number of pages	16
ISBN (Electronic)	9789400779396
ISBN (Print)	9789400779389
DOIs	https://doi.org/10.1007/978-94-007-7939-6_49
Publication status	Published - 2014

Bibliographical note

The authors thank the COST 729 and NinE programmes of the European Science Foundation (ESF), the Packard Foundation, INI and many other organizations for travel support to attend the workshop.

Keywords

Biodiversity
Ecosystems
Fauna
Flora
Nitrogen effects
Policy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/978-94-007-7939-6_49Licence: Unspecified

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Baron, J. S., Barber, M., Adams, M., Agboola, J. I., Allen, E. B., Bealey, W. J., Bobbink, R., Bobrovsky, M. V., Bowman, W. D., Branquinho, C., Bustamente, M. M. C., Clark, C. M., Cocking, E. C., Cruz, C., Davidson, E., Denmead, O. T., Dias, T., Dise, N. B., Feest, A., ... Woodin, S. (2014). The Effects of Atmospheric Nitrogen Deposition on Terrestrial and Freshwater Biodiversity. In M. A. Sutton, K. E. Mason, L. J. Sheppard, H. Sverdrup, R. Haeuber, & W. K. Hicks (Eds.), Nitrogen Deposition, Critical Loads and Biodiversity: Proceedings of the International Nitrogen Initiative Workshop, Linking Experts of the Convention on Long-Range Transboundary Air Pollution and the Convention on Biological Diversity (pp. 465-480). Springer . https://doi.org/10.1007/978-94-007-7939-6_49

The Effects of Atmospheric Nitrogen Deposition on Terrestrial and Freshwater Biodiversity. / Baron, Jill S.; Barber, Mary; Adams, Mark et al.
Nitrogen Deposition, Critical Loads and Biodiversity: Proceedings of the International Nitrogen Initiative Workshop, Linking Experts of the Convention on Long-Range Transboundary Air Pollution and the Convention on Biological Diversity. ed. / Mark A. Sutton; Kate E. Mason; Lucy J. Sheppard; Harald Sverdrup; Richard Haeuber; W. Kevin Hicks. Springer , 2014. p. 465-480.

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Baron, JS, Barber, M, Adams, M, Agboola, JI, Allen, EB, Bealey, WJ, Bobbink, R, Bobrovsky, MV, Bowman, WD, Branquinho, C, Bustamente, MMC, Clark, CM, Cocking, EC, Cruz, C, Davidson, E, Denmead, OT, Dias, T, Dise, NB, Feest, A, Galloway, JN, Geiser, LH, Gilliam, FS, Harrison, IJ, Khanina, LG, Lu, X, Manrique, E, Ochoa-Hueso, R, Ometto, JPHB, Payne, R, Scheuschner, T, Sheppard, LJ, Simpson, GL, Singh, YV, Stevens, CJ, Strachan, I, Sverdrup, H, Tokuchi, N, Van Dobben, H & Woodin, S 2014, The Effects of Atmospheric Nitrogen Deposition on Terrestrial and Freshwater Biodiversity. in MA Sutton, KE Mason, LJ Sheppard, H Sverdrup, R Haeuber & WK Hicks (eds), Nitrogen Deposition, Critical Loads and Biodiversity: Proceedings of the International Nitrogen Initiative Workshop, Linking Experts of the Convention on Long-Range Transboundary Air Pollution and the Convention on Biological Diversity. Springer , pp. 465-480. https://doi.org/10.1007/978-94-007-7939-6_49

Baron JS, Barber M, Adams M, Agboola JI, Allen EB, Bealey WJ et al. The Effects of Atmospheric Nitrogen Deposition on Terrestrial and Freshwater Biodiversity. In Sutton MA, Mason KE, Sheppard LJ, Sverdrup H, Haeuber R, Hicks WK, editors, Nitrogen Deposition, Critical Loads and Biodiversity: Proceedings of the International Nitrogen Initiative Workshop, Linking Experts of the Convention on Long-Range Transboundary Air Pollution and the Convention on Biological Diversity. Springer . 2014. p. 465-480 Epub 2014 Apr 11. doi: 10.1007/978-94-007-7939-6_49

Baron, Jill S. ; Barber, Mary ; Adams, Mark et al. / The Effects of Atmospheric Nitrogen Deposition on Terrestrial and Freshwater Biodiversity. Nitrogen Deposition, Critical Loads and Biodiversity: Proceedings of the International Nitrogen Initiative Workshop, Linking Experts of the Convention on Long-Range Transboundary Air Pollution and the Convention on Biological Diversity. editor / Mark A. Sutton ; Kate E. Mason ; Lucy J. Sheppard ; Harald Sverdrup ; Richard Haeuber ; W. Kevin Hicks. Springer , 2014. pp. 465-480

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abstract = "This chapter reports the findings of a Working Group on how atmospheric nitrogen (N) deposition affects both terrestrial and freshwater biodiversity. Regional and global scale impacts on biodiversity are addressed, together with potential indicators. Key conclusions are that: the rates of loss in biodiversity are greatest at the lowest and initial stages of N deposition increase; changes in species compositions are related to the relative amounts of N, carbon (C) and phosphorus (P) in the plant soil system; enhanced N inputs have implications for C cycling; N deposition is known to be having adverse effects on European and North American vegetation composition; very little is known about tropical ecosystem responses, while tropical ecosystems are major biodiversity hotspots and are increasingly recipients of very high N deposition rates; N deposition alters forest fungi and mycorrhyzal relations with plants; the rapid response of forest fungi and arthropods makes them good indicators of change; predictive tools (models) that address ecosystem scale processes are necessary to address complex drivers and responses, including the integration of N deposition, climate change and land use effects; criteria can be identified for projecting sensitivity of terrestrial and aquatic ecosystems to N deposition. Future research and policy-relevant recommendations are identified.",

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AU - Bobrovsky, Maxim V.

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AU - Branquinho, Cristina

AU - Bustamente, Mercedes M.C.

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AU - Galloway, James N.

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AU - Harrison, Ian J.

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AU - Ochoa-Hueso, Raúl

AU - Ometto, Jean P.H.B.

AU - Payne, Richard

AU - Scheuschner, Thomas

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The Effects of Atmospheric Nitrogen Deposition on Terrestrial and Freshwater Biodiversity

Abstract

Bibliographical note

Keywords

UN SDGs

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