Arctic and boreal ecosystems of western North America as components of the climate system

Summary Synthesis of results from several Arctic and boreal research programmes provides evidence for the strong role of high‐latitude ecosystems in the climate system. Average surface air temperature has increased 0.3 °C per decade during the twentieth century in the western North American Arctic a...

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Published in:Global Change Biology
Main Authors: Chapin, F. S., Mcguire, A. D., Randerson, J., Pielke, R., Baldocchi, D., Hobbie, S. E., Roulet, N., Eugster, W., Kasischke, E., Rastetter, E. B., Zimov, S. A., Running, S. W.
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2000
Subjects:
albedo
Thermokarst
Tundra
Online Access:http://dx.doi.org/10.1046/j.1365-2486.2000.06022.x
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spelling crwiley:10.1046/j.1365-2486.2000.06022.x 2024-09-15T17:35:48+00:00 Arctic and boreal ecosystems of western North America as components of the climate system Chapin, F. S. Mcguire, A. D. Randerson, J. Pielke, R. Baldocchi, D. Hobbie, S. E. Roulet, N. Eugster, W. Kasischke, E. Rastetter, E. B. Zimov, S. A. Running, S. W. 2000 http://dx.doi.org/10.1046/j.1365-2486.2000.06022.x https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1046%2Fj.1365-2486.2000.06022.x https://onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2486.2000.06022.x https://onlinelibrary.wiley.com/doi/full-xml/10.1046/j.1365-2486.2000.06022.x en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor Global Change Biology volume 6, issue S1, page 211-223 ISSN 1354-1013 1365-2486 journal-article 2000 crwiley https://doi.org/10.1046/j.1365-2486.2000.06022.x 2024-09-05T05:06:58Z Summary Synthesis of results from several Arctic and boreal research programmes provides evidence for the strong role of high‐latitude ecosystems in the climate system. Average surface air temperature has increased 0.3 °C per decade during the twentieth century in the western North American Arctic and boreal forest zones. Precipitation has also increased, but changes in soil moisture are uncertain. Disturbance rates have increased in the boreal forest; for example, there has been a doubling of the area burned in North America in the past 20 years. The disturbance regime in tundra may not have changed. Tundra has a 3–6‐fold higher winter albedo than boreal forest, but summer albedo and energy partitioning differ more strongly among ecosystems within either tundra or boreal forest than between these two biomes. This indicates a need to improve our understanding of vegetation dynamics within, as well as between, biomes. If regional surface warming were to continue, changes in albedo and energy absorption would likely act as a positive feedback to regional warming due to earlier melting of snow and, over the long term, the northward movement of treeline. Surface drying and a change in dominance from mosses to vascular plants would also enhance sensible heat flux and regional warming in tundra. In the boreal forest of western North America, deciduous forests have twice the albedo of conifer forests in both winter and summer, 50–80% higher evapotranspiration, and therefore only 30–50% of the sensible heat flux of conifers in summer. Therefore, a warming‐induced increase in fire frequency that increased the proportion of deciduous forests in the landscape, would act as a negative feedback to regional warming. Changes in thermokarst and the aerial extent of wetlands, lakes, and ponds would alter high‐latitude methane flux. There is currently a wide discrepancy among estimates of the size and direction of CO 2 flux between high‐latitude ecosystems and the atmosphere. These discrepancies relate more strongly to the ... Article in Journal/Newspaper albedo Thermokarst Tundra Wiley Online Library Global Change Biology 6 S1 211 223
institution Open Polar
collection Wiley Online Library
op_collection_id crwiley
language English
description Summary Synthesis of results from several Arctic and boreal research programmes provides evidence for the strong role of high‐latitude ecosystems in the climate system. Average surface air temperature has increased 0.3 °C per decade during the twentieth century in the western North American Arctic and boreal forest zones. Precipitation has also increased, but changes in soil moisture are uncertain. Disturbance rates have increased in the boreal forest; for example, there has been a doubling of the area burned in North America in the past 20 years. The disturbance regime in tundra may not have changed. Tundra has a 3–6‐fold higher winter albedo than boreal forest, but summer albedo and energy partitioning differ more strongly among ecosystems within either tundra or boreal forest than between these two biomes. This indicates a need to improve our understanding of vegetation dynamics within, as well as between, biomes. If regional surface warming were to continue, changes in albedo and energy absorption would likely act as a positive feedback to regional warming due to earlier melting of snow and, over the long term, the northward movement of treeline. Surface drying and a change in dominance from mosses to vascular plants would also enhance sensible heat flux and regional warming in tundra. In the boreal forest of western North America, deciduous forests have twice the albedo of conifer forests in both winter and summer, 50–80% higher evapotranspiration, and therefore only 30–50% of the sensible heat flux of conifers in summer. Therefore, a warming‐induced increase in fire frequency that increased the proportion of deciduous forests in the landscape, would act as a negative feedback to regional warming. Changes in thermokarst and the aerial extent of wetlands, lakes, and ponds would alter high‐latitude methane flux. There is currently a wide discrepancy among estimates of the size and direction of CO 2 flux between high‐latitude ecosystems and the atmosphere. These discrepancies relate more strongly to the ...
format Article in Journal/Newspaper
author Chapin, F. S.
Mcguire, A. D.
Randerson, J.
Pielke, R.
Baldocchi, D.
Hobbie, S. E.
Roulet, N.
Eugster, W.
Kasischke, E.
Rastetter, E. B.
Zimov, S. A.
Running, S. W.
spellingShingle Chapin, F. S.
Mcguire, A. D.
Randerson, J.
Pielke, R.
Baldocchi, D.
Hobbie, S. E.
Roulet, N.
Eugster, W.
Kasischke, E.
Rastetter, E. B.
Zimov, S. A.
Running, S. W.
Arctic and boreal ecosystems of western North America as components of the climate system
author_facet Chapin, F. S.
Mcguire, A. D.
Randerson, J.
Pielke, R.
Baldocchi, D.
Hobbie, S. E.
Roulet, N.
Eugster, W.
Kasischke, E.
Rastetter, E. B.
Zimov, S. A.
Running, S. W.
author_sort Chapin, F. S.
title Arctic and boreal ecosystems of western North America as components of the climate system
title_short Arctic and boreal ecosystems of western North America as components of the climate system
title_full Arctic and boreal ecosystems of western North America as components of the climate system
title_fullStr Arctic and boreal ecosystems of western North America as components of the climate system
title_full_unstemmed Arctic and boreal ecosystems of western North America as components of the climate system
title_sort arctic and boreal ecosystems of western north america as components of the climate system
publisher Wiley
publishDate 2000
url http://dx.doi.org/10.1046/j.1365-2486.2000.06022.x
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https://onlinelibrary.wiley.com/doi/full-xml/10.1046/j.1365-2486.2000.06022.x
genre albedo
Thermokarst
Tundra
genre_facet albedo
Thermokarst
Tundra
op_source Global Change Biology
volume 6, issue S1, page 211-223
ISSN 1354-1013 1365-2486
op_rights http://onlinelibrary.wiley.com/termsAndConditions#vor
op_doi https://doi.org/10.1046/j.1365-2486.2000.06022.x
container_title Global Change Biology
container_volume 6
container_issue S1
container_start_page 211
op_container_end_page 223
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