Climate Change and UV-B Impacts on Arctic Tundra and Polar Desert Ecosystems: Key Findings and Extended Summaries

Terry V. Callaghan; Lars Olof Björn; Yuri Chernov; Terry Chapin; Torben Christensen; Brian Huntley; Rolf A. Ims; Margareta Johansson; Dyanna Jolly; Sven Jonasson; Nadya Matveyeva; Nicolai Panikov; Walter Oechel; Gus Shaver; Sibyll Schaphoff; Stephen Sitch; Christoph Zöckler

doi:10.1639/0044-7447%282004%29033%5B0386%3AKFAES%5D2.0.CO%3B2

Climate Change and UV-B Impacts on Arctic Tundra and Polar Desert Ecosystems: Key Findings and Extended Summaries

Terry V. Callaghan, Lars Olof Björn, Yuri Chernov, Terry Chapin, Torben Christensen, Brian Huntley, Rolf A. Ims, Margareta Johansson, Dyanna Jolly, Sven Jonasson, Nadya Matveyeva, Nicolai Panikov, Walter Oechel, Gus Shaver, Sibyll Schaphoff, Stephen Sitch, Christoph Zöckler

Dept of Physical Geography and Ecosystem Science

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Abstract

The Arctic has become an important region in which to assess
the impacts of current climate variability and ampliﬁcation of projected global warming. This is because i) the Arctic has experienced considerable warming in recent decades (an average of about 3°C and between 4° and 5°C over much of the landmass);
i) climate projections suggest a continuation of the warming
trend with an increase in mean annual temperatures of 4–5°C by 2080;
ii) recent warming is already impacting the environment
and economy of the Arctic and these impacts are expected to increase and affect also life style, culture and ecosystems; and iv) changes occurring in the Arctic are likely to affect other regions of the Earth, for example changes in snow, vegetation and sea ice are likely to affect the energy balance and ocean circulation at regional and even global scales (Chapter 1 in ref. 1). Responding to the urgent need to understand and project impacts of changes in climate and UV-B radiation on many facets of the Arctic, the Arctic Climate Impact Assessment (ACIA) (1) undertook a four-year study. Part of this study (1–10) assessed the impacts of
changes in climate and UV-B radiation on Arctic terrestrial ecosystems, both those changes already occurring and those likely to occur in the future. Here, we present the key ﬁndings of the assessment of climate change impacts on tundra and polar desert ecosystems, and xtended summaries of its components.

Original language	English
Pages (from-to)	386-392
Journal	Ambio: a Journal of the Human Environment
Volume	33
Issue number	7
DOIs	https://doi.org/10.1639/0044-7447%282004%29033%5B0386%3AKFAES%5D2.0.CO%3B2
Publication status	Published - 2004

Subject classification (UKÄ)

Physical Geography
Biological Sciences

UN SDGs

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

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10.1639/0044-7447%282004%29033%5B0386%3AKFAES%5D2.0.CO%3B2

callahan_etal_AMBIO_2004

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Callaghan, T. V., Björn, L. O., Chernov, Y., Chapin, T., Christensen, T., Huntley, B., Ims, R. A., Johansson, M., Jolly, D., Jonasson, S., Matveyeva, N., Panikov, N., Oechel, W., Shaver, G., Schaphoff, S., Sitch, S., & Zöckler, C. (2004). Climate Change and UV-B Impacts on Arctic Tundra and Polar Desert Ecosystems: Key Findings and Extended Summaries. Ambio: a Journal of the Human Environment, 33(7), 386-392. https://doi.org/10.1639/0044-7447%282004%29033%5B0386%3AKFAES%5D2.0.CO%3B2

@article{79f7982b68a644c08447193728604c99,

title = "Climate Change and UV-B Impacts on Arctic Tundra and Polar Desert Ecosystems: Key Findings and Extended Summaries",

abstract = "The Arctic has become an important region in which to assess the impacts of current climate variability and ampliﬁcation of projected global warming. This is because i) the Arctic has experienced considerable warming in recent decades (an average of about 3°C and between 4° and 5°C over much of the landmass); i) climate projections suggest a continuation of the warming trend with an increase in mean annual temperatures of 4–5°C by 2080; ii) recent warming is already impacting the environment and economy of the Arctic and these impacts are expected to increase and affect also life style, culture and ecosystems; and iv) changes occurring in the Arctic are likely to affect other regions of the Earth, for example changes in snow, vegetation and sea ice are likely to affect the energy balance and ocean circulation at regional and even global scales (Chapter 1 in ref. 1). Responding to the urgent need to understand and project impacts of changes in climate and UV-B radiation on many facets of the Arctic, the Arctic Climate Impact Assessment (ACIA) (1) undertook a four-year study. Part of this study (1–10) assessed the impacts of changes in climate and UV-B radiation on Arctic terrestrial ecosystems, both those changes already occurring and those likely to occur in the future. Here, we present the key ﬁndings of the assessment of climate change impacts on tundra and polar desert ecosystems, and xtended summaries of its components.",

author = "Callaghan, {Terry V.} and Bj{\"o}rn, {Lars Olof} and Yuri Chernov and Terry Chapin and Torben Christensen and Brian Huntley and Ims, {Rolf A.} and Margareta Johansson and Dyanna Jolly and Sven Jonasson and Nadya Matveyeva and Nicolai Panikov and Walter Oechel and Gus Shaver and Sibyll Schaphoff and Stephen Sitch and Christoph Z{\"o}ckler",

year = "2004",

doi = "10.1639/0044-7447%282004%29033%5B0386%3AKFAES%5D2.0.CO%3B2",

language = "English",

volume = "33",

pages = "386--392",

journal = "Ambio: a Journal of the Human Environment",

issn = "0044-7447",

publisher = "Springer Science and Business Media B.V.",

number = "7",

}

Callaghan, TV, Björn, LO, Chernov, Y, Chapin, T, Christensen, T, Huntley, B, Ims, RA, Johansson, M, Jolly, D, Jonasson, S, Matveyeva, N, Panikov, N, Oechel, W, Shaver, G, Schaphoff, S, Sitch, S & Zöckler, C 2004, 'Climate Change and UV-B Impacts on Arctic Tundra and Polar Desert Ecosystems: Key Findings and Extended Summaries', Ambio: a Journal of the Human Environment, vol. 33, no. 7, pp. 386-392. https://doi.org/10.1639/0044-7447%282004%29033%5B0386%3AKFAES%5D2.0.CO%3B2

TY - JOUR

T1 - Climate Change and UV-B Impacts on Arctic Tundra and Polar Desert Ecosystems: Key Findings and Extended Summaries

AU - Callaghan, Terry V.

AU - Björn, Lars Olof

AU - Chernov, Yuri

AU - Chapin, Terry

AU - Christensen, Torben

AU - Huntley, Brian

AU - Ims, Rolf A.

AU - Johansson, Margareta

AU - Jolly, Dyanna

AU - Jonasson, Sven

AU - Matveyeva, Nadya

AU - Panikov, Nicolai

AU - Oechel, Walter

AU - Shaver, Gus

AU - Schaphoff, Sibyll

AU - Sitch, Stephen

AU - Zöckler, Christoph

PY - 2004

Y1 - 2004

N2 - The Arctic has become an important region in which to assess the impacts of current climate variability and ampliﬁcation of projected global warming. This is because i) the Arctic has experienced considerable warming in recent decades (an average of about 3°C and between 4° and 5°C over much of the landmass); i) climate projections suggest a continuation of the warming trend with an increase in mean annual temperatures of 4–5°C by 2080; ii) recent warming is already impacting the environment and economy of the Arctic and these impacts are expected to increase and affect also life style, culture and ecosystems; and iv) changes occurring in the Arctic are likely to affect other regions of the Earth, for example changes in snow, vegetation and sea ice are likely to affect the energy balance and ocean circulation at regional and even global scales (Chapter 1 in ref. 1). Responding to the urgent need to understand and project impacts of changes in climate and UV-B radiation on many facets of the Arctic, the Arctic Climate Impact Assessment (ACIA) (1) undertook a four-year study. Part of this study (1–10) assessed the impacts of changes in climate and UV-B radiation on Arctic terrestrial ecosystems, both those changes already occurring and those likely to occur in the future. Here, we present the key ﬁndings of the assessment of climate change impacts on tundra and polar desert ecosystems, and xtended summaries of its components.

AB - The Arctic has become an important region in which to assess the impacts of current climate variability and ampliﬁcation of projected global warming. This is because i) the Arctic has experienced considerable warming in recent decades (an average of about 3°C and between 4° and 5°C over much of the landmass); i) climate projections suggest a continuation of the warming trend with an increase in mean annual temperatures of 4–5°C by 2080; ii) recent warming is already impacting the environment and economy of the Arctic and these impacts are expected to increase and affect also life style, culture and ecosystems; and iv) changes occurring in the Arctic are likely to affect other regions of the Earth, for example changes in snow, vegetation and sea ice are likely to affect the energy balance and ocean circulation at regional and even global scales (Chapter 1 in ref. 1). Responding to the urgent need to understand and project impacts of changes in climate and UV-B radiation on many facets of the Arctic, the Arctic Climate Impact Assessment (ACIA) (1) undertook a four-year study. Part of this study (1–10) assessed the impacts of changes in climate and UV-B radiation on Arctic terrestrial ecosystems, both those changes already occurring and those likely to occur in the future. Here, we present the key ﬁndings of the assessment of climate change impacts on tundra and polar desert ecosystems, and xtended summaries of its components.

U2 - 10.1639/0044-7447%282004%29033%5B0386%3AKFAES%5D2.0.CO%3B2

DO - 10.1639/0044-7447%282004%29033%5B0386%3AKFAES%5D2.0.CO%3B2

M3 - Article

SN - 0044-7447

VL - 33

SP - 386

EP - 392

JO - Ambio: a Journal of the Human Environment

JF - Ambio: a Journal of the Human Environment

IS - 7

ER -

Climate Change and UV-B Impacts on Arctic Tundra and Polar Desert Ecosystems: Key Findings and Extended Summaries

Abstract

Subject classification (UKÄ)

UN SDGs

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