Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/interplay-between-nitrogen-deposition-and-grazing-causes-habitat-PQPLWwE0T0
References (36)
-
B. Wilsey, Gabrielle Parent, N. Roulet, T. Moore, C. Potvin (2002)
Tropical pasture carbon cycling: relationships between C source/sink strength, above‐ground biomass and grazingEcology Letters, 5
-
P. Adler, J. Morales (1999)
Influence of environmental factors and sheep grazing on an Andean grassland.Journal of Range Management, 52
-
J. Spence, R. Longton (1988)
The biology of polar bryophytes and lichens: Contents -
W. Oechel, G. Vourlitis, S. Hastings, R. Zulueta, L. Hinzman, D. Kane (2000)
Acclimation of ecosystem CO2 exchange in the Alaskan Arctic in response to decadal climate warmingNature, 406
-
J. Olofsson, Heidi Kitti, P. Rautiainen, S. Stark, L. Oksanen (2001)
Effects of summer grazing by reindeer on composition of vegetation, productivity and nitrogen cyclingEcography, 24
-
W. Oechel, S. Hastings, George Vourlrtis, M. Jenkins, G. Riechers, N. Grulke (1993)
Recent change of Arctic tundra ecosystems from a net carbon dioxide sink to a sourceNature, 361
-
P. Matson, W. McDowell, A. Townsend, P. Vitousek (1999)
The globalization of N deposition: ecosystem consequences in tropical environmentsBiogeochemistry, 46
-
R. Bobbink, M. Hornung, J. Roelofs (1998)
The effects of air‐borne nitrogen pollutants on species diversity in natural and semi‐natural European vegetationJournal of Ecology, 86
-
D. Thompson, Alan Brown (1992)
Biodiversity in montane Britain: habitat variation, vegetation diversity and some objectives for conservationBiodiversity & Conservation, 1
-
C. Gordon, J. Wynn, S. Woodin (2001)
Impacts of increased nitrogen supply on high Arctic heath: the importance of bryophytes and phosphorus availability.The New phytologist, 149 3
-
Herbivore impact on soil temperature and the abundance of grasses in arctic ecosystems -
Galbraith Galbraith, Murray Murray, Duncan Duncan, Smith Smith, Whitfield Whitfield, Thompson Thompson (1993)
Diet and habitat use of the Dotterel Charadrius‐Morinellus in ScotlandIbis, 135
-
J. Strengbom, A. Nordin, T. Näsholm, L. Ericson (2002)
Parasitic fungus mediates change in nitrogen‐exposed boreal forest vegetationJournal of Ecology, 90
-
R. Bunce, S. Smart, H. Poll, J. Watkins, W. Scott (1999)
Measuring change in British vegetation. ECOFACT Volume 2 -
M. Press, J. Potter, M. Burke, T. Callaghan, John Lee (1998)
Responses of a subarctic dwarf shrub heath community to simulated environmental changeJournal of Ecology, 86
-
M. Jones, E. Oxley, T. Ashenden (2002)
The influence of nitrogen deposition, competition and desiccation on growth and regeneration of Racomitrium lanuginosum (Hedw.) brid.Environmental pollution, 120 2
-
R. Turkington, E. John, S. Watson, P. Seccombe-Hett (2002)
The effects of fertilization and herbivory on the herbaceous vegetation of the boreal forest in north‐western Canada: a 10‐year studyJournal of Ecology, 90
-
M. Press, S. Woodin, John Lee (1986)
THE POTENTIAL IMPORTANCE OF AN INCREASED ATMOSPHERIC NITROGEN SUPPLY TO THE GROWTH OF OMBROTROPHIC SPHAGNUM SPECIESNew Phytologist, 103
-
V. Nams, Nicholas Folkard, James Smith (1996)
Nitrogen fertilization stimulates herbivory by snowshoe hares in the boreal forestCanadian Journal of Zoology, 74
-
I. Pearce, R. Wal (2002)
Effects of nitrogen deposition on growth and survival of montane Racomitrium lanuginosum heathBiological Conservation, 104
-
G. Asner, A. Townsend, W. Riley, P. Matson, J. Neff, C. Cleveland (2001)
Physical and biogeochemical controls over terrestrial ecosystem responses to nitrogen depositionBiogeochemistry, 54
-
R. Jefferies, J. Maron (1997)
The embarrassment of riches: atmospheric deposition of nitrogen and community and ecosystem processes.Trends in ecology & evolution, 12 2
-
S. Woodin, J. Lee (1987)
THE EFFECTS OF NITRATE, AMMONIUM AND TEMPERATURE ON NITRATE REDUCTASE ACTIVITY IN SPHAGNUM SPECIES.The New phytologist, 105 1
-
R. Aerts, R. Bobbink (1999)
The Impact of Atmospheric Nitrogen Deposition on Vegetation Processes in Terrestrial, Non-Forest Ecosystems -
R. Wal, S. Lieshout, M. Loonen (2001)
Herbivore impact on moss depth, soil temperature and arctic plant growthPolar Biology, 24
-
I. Alonso, S. Hartley, M. Thurlow (2001)
Competition between heather and grasses on Scottish moorlands: Interacting effects of nutrient enrichment and grazing regimeJournal of Vegetation Science, 12
-
A. Sansom (1999)
Upland vegetation management: The impacts of overstockingWater Science and Technology, 39
-
F. Krahulec, H. Skálová, T. Herben, Věra Hadincová, Radka Wildová, Sylvie Pecháčková (2001)
Vegetation changes following sheep grazing in abandoned mountain meadowsApplied Vegetation Science, 4
-
E. Cowling, J. Galloway, Cari Furiness, M. Barber, T. Bresser, K. Cassman, J. Erisman, R. Haeuber, R. Howarth, J. Melillo, W. Moomaw, A. Mosier, K. Sanders, S. Seitzinger, S. Smeulders, R. Socolow, D. Walters, F. West, Zhao-liang Zhu (2001)
Optimizing Nitrogen Management in Food and Energy Production and Environmental Protection: Summary Statement from the Second International Nitrogen ConferenceThe Scientific World Journal, 1
-
Mario Manzano, J. Návar, M. Pando-Moreno, Alfonso Martinei (2000)
Overgrazing and desertification in northern Mexico: highlights on north eastern region.Annals of Arid Zone, 39
-
Shi Peili, Li Wenhua, E. Kessler (1999)
REHABILITATION OF DEGRADED MOUNTAIN ECOSYSTEMS IN SOUTHWESTERN CHINA : AN INTEGRATED APPROACHAMBIO: A Journal of the Human Environment, 28
-
R. Wal, R. Brooker, E. Cooper, R. Langvatn (2001)
Differential effects of reindeer on high Arctic lichensJournal of Vegetation Science, 12
-
D. Welch, D. Scott (2000)
Seasonal and Spatial patterns in sheep grazing on a high‐level plateau in the Grampian Mountains, ScotlandScottish Geographical Journal, 116
-
Press Press, Woodin Woodin, Lee Lee (1986)
The potential importance of an increased nitrogen supply to the growth of ombrotrophic Sphagnum speciesNew Phytologist, 103
-
J. Lee (1998)
Unintentional experiments with terrestrial ecosystems: ecological effects of sulphur and nitrogen pollutantsJournal of Ecology, 86
-
G. Kashulina, C. Reimann, T. Finne, J. Halleraker, M. Äyräs, V. Chekushin (1997)
The state of the ecosystems in the central Barents Region: scale, factors and mechanism of disturbanceScience of The Total Environment, 206
- Publisher
- Wiley
- Copyright
- Copyright © 2003 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 1461-023X
- eISSN
- 1461-0248
- DOI
- 10.1046/j.1461-0248.2003.00407.x
- Publisher site
- See Article on Publisher Site
Abstract
Abstract Increased atmospheric nitrogen (N) deposition has been held responsible for the large‐scale invasion of graminoids (grasses, sedges and rushes) in a wide range of habitats from forests to upland heaths, causing dramatic changes in plant species composition. Concurrently with an increase in N deposition over the last century, livestock grazing has intensified in many parts of the world following policy reform, leading to large‐scale degradation of natural and seminatural ecosystems. On the basis of a series of experiments conducted in a Scottish montane ecosystem, we discovered that grazing and N deposition do not operate independently, and the interplay between them is leading to the replacement of valuable moss‐dominated habitat by grasses and sedges. Our study indicates that in setting ‘critical loads’ of N, widely used to minimize habitat degradation, it is necessary to account for substantial amplification of N‐deposition effects by grazing.
Journal
Ecology Letters – Wiley
Published: Feb 1, 2003