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Jonathan A. Foley,1*Ruth DeFries,2Gregory P. Asner,3Carol Barford,1Gordon Bonan,4Stephen R. Carpenter,5F. Stuart Chapin,6Michael T. Coe,1Gretchen C. Daily,7Holly K. Gibbs,1Joseph H. Helkowski,1Tracey Holloway,1Erica A. Howard,1Christopher J. Kucharik,1Chad Monfreda,1Jonathan A. Patz,1I. Colin Prentice,8Navin Ramankutty,1Peter K. Snyder9
Land use has generally been considered a local environmentalissue, but it is becoming a force of global importance. Worldwidechanges to forests, farmlands, waterways, and air are beingdriven by the need to provide food, fiber, water, and shelterto more than six billion people. Global croplands, pastures,plantations, and urban areas have expanded in recent decades,accompanied by large increases in energy, water, and fertilizerconsumption, along with considerable losses of biodiversity.Such changes in land use have enabled humans to appropriatean increasing share of the planet's resources, but they alsopotentially undermine the capacity of ecosystems to sustainfood production, maintain freshwater and forest resources, regulateclimate and air quality, and ameliorate infectious diseases.We face the challenge of managing trade-offs between immediatehuman needs and maintaining the capacity of the biosphere toprovide goods and services in the long term.
1 Center for Sustainability and the Global Environment (SAGE), University of Wisconsin, 1710 University Avenue, Madison, WI 53726, USA. 2 Department of Geography and Earth System Science Interdisciplinary Center, University of Maryland, College Park, College Park, MD 20742, USA. 3 Department of Global Ecology, Carnegie Institution of Washington, Stanford, CA 94305, USA. 4 National Center for Atmospheric Research (NCAR), Post Office Box 3000, Boulder, CO 803073000, USA. 5 Center for Limnology, University of Wisconsin, 680 North Park Street, Madison, WI 53706, USA. 6 Institute of Arctic Biology, University of Alaska, Fairbanks, AK 99775, USA. 7 Center for Conservation Biology, Department of Biological Sciences, 371 Serra Mall, Stanford University, Stanford, CA 94305, USA. 8 QUEST, Department of Earth Sciences, University of Bristol, Wills Memorial Building, Bristol BS8 1RJ, UK. 9 Department of Atmospheric Sciences, University of Illinois, 105 South Gregory Street, Urbana, IL 61801, USA.
Present address: Woods Hole Research Center, Woods Hole, MA02543, USA.
* To whom correspondence should be addressed: jfoley{at}wisc.edu
P. Smith, D. Martino, Z. Cai, D. Gwary, H. Janzen, P. Kumar, B. McCarl, S. Ogle, F. O'Mara, C. Rice, et al. (2008)
Phil Trans R Soc B
363, 789-813
|Abstract »|Full Text »|PDF »
The debt of nations and the distribution of ecological impacts from human activities.
U. T. Srinivasan, S. P. Carey, E. Hallstein, P. A. T. Higgins, A. C. Kerr, L. E. Koteen, A. B. Smith, R. Watson, J. Harte, and R. B. Norgaard (2008)
PNAS
105, 1768-1773
|Abstract »|Full Text »|PDF »
Land Change Science Special Feature: The emergence of land change science for global environmental change and sustainability.
B. L. Turner II, E. F. Lambin, and A. Reenberg (2007)
PNAS
104, 20666-20671
|Abstract »|Full Text »|PDF »
Changes in climate and land use have a larger direct impact than rising CO2 on global river runoff trends.
S. Piao, P. Friedlingstein, P. Ciais, N. de Noblet-Ducoudre, D. Labat, and S. Zaehle (2007)
PNAS
104, 15242-15247
|Abstract »|Full Text »|PDF »
Empirical evidence for a recent slowdown in irrigation-induced cooling.
From the Cover: Quantifying and mapping the human appropriation of net primary production in earth's terrestrial ecosystems.
H. Haberl, K. H. Erb, F. Krausmann, V. Gaube, A. Bondeau, C. Plutzar, S. Gingrich, W. Lucht, and M. Fischer-Kowalski (2007)
PNAS
104, 12942-12947
|Abstract »|Full Text »|PDF »
Our share of the planetary pie.
J. A. Foley, C. Monfreda, N. Ramankutty, and D. Zaks (2007)
PNAS
104, 12585-12586
|Full Text »|PDF »
A climate-change risk analysis for world ecosystems.
M. Scholze, W. Knorr, N. W. Arnell, and I. C. Prentice (2006)
PNAS
103, 13116-13120
|Abstract »|Full Text »|PDF »
Parallel declines in pollinators and insect-pollinated plants in britain and the Netherlands..
J. C. Biesmeijer, S. P. M. Roberts, M. Reemer, R. Ohlemuller, M. Edwards, T. Peeters, A. P. Schaffers, S. G. Potts, R. Kleukers, C. D. Thomas, et al. (2006)
Science
313, 351-354
|Abstract »|Full Text »|PDF »
Malaria risk and temperature: Influences from global climate change and local land use practices.
J. A. Patz and S. H. Olson (2006)
PNAS
103, 5635-5636
|Full Text »|PDF »
Ecosystem Service Supply and Vulnerability to Global Change in Europe.
D. Schroter, W. Cramer, R. Leemans, I. C. Prentice, M. B. Araujo, N. W. Arnell, A. Bondeau, H. Bugmann, T. R. Carter, C. A. Gracia, et al. (2005)
Science
310, 1333-1337
|Abstract »|Full Text »|PDF »