Environmental variation, vegetation distribution, carbon dynamics and water/energy exchange at high latitudes

A. D. McGuire; C. Wirth; M. Apps; J. Beringer; J. Clein; H. Epstein; D. W. Kicklighter; J. Bhatti; F. S. Chapin III; B. de Groot; D. Efremov; W. Eugster; M. Fukuda; T. Gower; L. Hinzman; B. Huntley; G. J. Jia; E. Kasischke; J. Melillo; V. Romanovsky; A. Shvidenko; E. Vaganov; D. Walker

doi:10.1658/1100-9233(2002)013[0301:EVVDCD]2.0.CO;2

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1 June 2002 Environmental variation, vegetation distribution, carbon dynamics and water/energy exchange at high latitudes

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A. D. McGuire,^1,2 C. Wirth,³ M. Apps,⁴ J. Beringer,⁵ J. Clein,⁶ H. Epstein,⁷ D. W. Kicklighter,⁸ J. Bhatti,⁴ F. S. Chapin III,⁶ B. de Groot,⁴ D. Efremov,⁹ W. Eugster,¹⁰ M. Fukuda,¹¹ T. Gower,¹² L. Hinzman,¹³ B. Huntley,¹⁴ G. J. Jia,⁷ E. Kasischke,¹⁵ J. Melillo,⁸ V. Romanovsky,¹⁶ A. Shvidenko,¹⁷ E. Vaganov,¹⁸ D. Walker⁶

¹U.S. Geological Survey, Alaska Cooperative Fish and Wildlife Research Unit, University of Alaska Fairbanks, Fairbanks, AK 99775, USA
²ffadm@uaf.edu
³Max-Plank Institut für Biogeochemie, Postfach 100164, D-07701 Jena, Germany
⁴Canadian Forest Service, Northern Forestry Center, Edmonton, Alb., T6H 3S5, Canada
⁵School of Geography and Environmental Science, Monash University, Clayton, Vic 3800, Australia
⁶Institute of Arctic Biology, University of Alaska Fairbanks, Fairbanks, AK, 99775, USA
⁷Dept. of Environmental Sciences, University of Virginia, Charlottesville, VA 22904, USA
⁸The Ecosystems Center, Marine Biological Laboratory, 7 MBL Street, Woods Hole, MA 02543, USA
⁹Far Eastern Forestry Research Institute Khaborovsk, 680030, Russia
¹⁰University of Bern, Geographical Institute, Hallerstrasse 12, 3012 Bern, Switzerland
¹¹Institute of Low Temperature, Hokkaido University, N 19 W8 Sapporo, 060 Japan
¹²Dept. of Forest Ecology and Management, University of Wisconsin, Madison, WI 53706, USA
¹³Institute of Northern Engineering, University of Alaska Fairbanks, Fairbanks, AK 99775, USA
¹⁴Environmental Research Centre, University of Durham, Durham DH1 3LE, United Kingdom
¹⁵Dept. of Geography, University of Maryland, College Park, MD 20742, USA
¹⁶Geophysical Institute, University of Alaska Fairbanks, Fairbanks, AK 99775, USA
¹⁷International Institute for Applied Systems Analysis, A-2361 Laxenburg, Austria
¹⁸Institute of Forestry, Russian Academy of Sciences, Krasnoyarsk, 660036, Russia

J. of Vegetation Science, 13(3):301-314 (2002). https://doi.org/10.1658/1100-9233(2002)013[0301:EVVDCD]2.0.CO;2

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Abstract

The responses of high latitude ecosystems to global change involve complex interactions among environmental variables, vegetation distribution, carbon dynamics, and water and energy exchange. These responses may have important consequences for the earth system. In this study, we evaluated how vegetation distribution, carbon stocks and turnover, and water and energy exchange are related to environmental variation spanned by the network of the IGBP high latitude transects. While the most notable feature of the high latitude transects is that they generally span temperature gradients from southern to northern latitudes, there are substantial differences in temperature among the transects. Also, along each transect temperature co-varies with precipitation and photosynthetically active radiation, which are also variable among the transects. Both climate and disturbance interact to influence latitudinal patterns of vegetation and soil carbon storage among the transects, and vegetation distribution appears to interact with climate to determine exchanges of heat and moisture in high latitudes. Despite limitations imposed by the data we assembled, the analyses in this study have taken an important step toward clarifying the complexity of interactions among environmental variables, vegetation distribution, carbon stocks and turnover, and water and energy exchange in high latitude regions. This study reveals the need to conduct coordinated global change studies in high latitudes to further elucidate how interactions among climate, disturbance, and vegetation distribution influence carbon dynamics and water and energy exchange in high latitudes.

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A. D. McGuire, C. Wirth, M. Apps, J. Beringer, J. Clein, H. Epstein, D. W. Kicklighter, J. Bhatti, F. S. Chapin III, B. de Groot, D. Efremov, W. Eugster, M. Fukuda, T. Gower, L. Hinzman, B. Huntley, G. J. Jia, E. Kasischke, J. Melillo, V. Romanovsky, A. Shvidenko, E. Vaganov, and D. Walker "Environmental variation, vegetation distribution, carbon dynamics and water/energy exchange at high latitudes," Journal of Vegetation Science 13(3), 301-314, (1 June 2002). https://doi.org/10.1658/1100-9233(2002)013[0301:EVVDCD]2.0.CO;2

Received: 9 February 2001; Accepted: 4 April 2002; Published: 1 June 2002

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Journal of Vegetation Science

Journal of Vegetation Science
Vol. 13 • No. 3
June 2002

KEYWORDS

boreal

Climate

disturbance

energy

gradient

Tundra

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A. D. McGuire, C. Wirth, M. Apps, J. Beringer, J. Clein, H. Epstein, D. W. Kicklighter, J. Bhatti, F. S. Chapin III, B. de Groot, D. Efremov, W. Eugster, M. Fukuda, T. Gower, L. Hinzman, B. Huntley, G. J. Jia, E. Kasischke, J. Melillo, V. Romanovsky, A. Shvidenko, E. Vaganov, D. Walker "Environmental variation, vegetation distribution, carbon dynamics and water/energy exchange at high latitudes," Journal of Vegetation Science, 13(3), 301-314, (1 June 2002)

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