Responses to Projected Changes in Climate and UV-B at the Species Level

Environmental manipulation experiments showed that species respond individualistically to each environmental-change variable. The greatest responses of plants were generally to nutrient, particularly nitrogen, addition. Summer warming experiments showed that woody plant responses were dominant and t...

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Published in:AMBIO: A Journal of the Human Environment
Main Authors: Terry V. Callaghan, Lars Olof Björn, Yuri Chernov, Terry Chapin, Torben R. Christensen, Brian Huntley, Rolf A. Ims, Margareta Johansson, Dyanna Jolly, Sven Jonasson, Nadya Matveyeva, Nicolai Panikov, Walter Oechel, Gus Shaver, Josef Elster, Ingibjörg S. Jónsdóttir, Kari Laine, Kari Taulavuori, Erja Taulavuori, Christoph Zöckler
Format: Text
Language:English
Published: Royal Swedish Academy of Sciences 2004
Subjects:
Arctic
caribou
Climate change
Tundra
Online Access:https://doi.org/10.1579/0044-7447-33.7.418
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spelling ftbioone:10.1579/0044-7447-33.7.418 2023-07-30T04:01:41+02:00 Responses to Projected Changes in Climate and UV-B at the Species Level Terry V. Callaghan Lars Olof Björn Yuri Chernov Terry Chapin Torben R. Christensen Brian Huntley Rolf A. Ims Margareta Johansson Dyanna Jolly Sven Jonasson Nadya Matveyeva Nicolai Panikov Walter Oechel Gus Shaver Josef Elster Ingibjörg S. Jónsdóttir Kari Laine Kari Taulavuori Erja Taulavuori Christoph Zöckler Terry V. Callaghan Lars Olof Björn Yuri Chernov Terry Chapin Torben R. Christensen Brian Huntley Rolf A. Ims Margareta Johansson Dyanna Jolly Sven Jonasson Nadya Matveyeva Nicolai Panikov Walter Oechel Gus Shaver Josef Elster Ingibjörg S. Jónsdóttir Kari Laine Kari Taulavuori Erja Taulavuori Christoph Zöckler world 2004-11-01 text/HTML https://doi.org/10.1579/0044-7447-33.7.418 en eng Royal Swedish Academy of Sciences doi:10.1579/0044-7447-33.7.418 All rights reserved. https://doi.org/10.1579/0044-7447-33.7.418 Text 2004 ftbioone https://doi.org/10.1579/0044-7447-33.7.418 2023-07-09T09:35:12Z Environmental manipulation experiments showed that species respond individualistically to each environmental-change variable. The greatest responses of plants were generally to nutrient, particularly nitrogen, addition. Summer warming experiments showed that woody plant responses were dominant and that mosses and lichens became less abundant. Responses to warming were controlled by moisture availability and snow cover. Many invertebrates increased population growth in response to summer warming, as long as desiccation was not induced. CO2 and UV-B enrichment experiments showed that plant and animal responses were small. However, some microorganisms and species of fungi were sensitive to increased UV-B and some intensive mutagenic actions could, perhaps, lead to unexpected epidemic outbreaks. Tundra soil heating, CO2 enrichment and amendment with mineral nutrients generally accelerated microbial activity. Algae are likely to dominate cyanobacteria in milder climates. Expected increases in winter freeze-thaw cycles leading to ice-crust formation are likely to severely reduce winter survival rate and disrupt the population dynamics of many terrestrial animals. A deeper snow cover is likely to restrict access to winter pastures by reindeer/caribou and their ability to fiee from predators while any earlier onset of the snow-free period is likely to stimulate increased plant growth. Initial species responses to climate change might occur at the sub-species level: an Arctic plant or animal species with high genetic/racial diversity has proved an ability to adapt to different environmental conditions in the past and is likely to do so also in the future. Indigenous knowledge, air photographs, satellite images and monitoring show that changes in the distributions of some species are already occurring: Arctic vegetation is becoming more shrubby and more productive, there have been recent changes in the ranges of caribou, and “new” species of insects and birds previously associated with areas south of the treeline have ... Text Arctic caribou Climate change Tundra BioOne Online Journals Arctic AMBIO: A Journal of the Human Environment 33 7 418 435
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language English
description Environmental manipulation experiments showed that species respond individualistically to each environmental-change variable. The greatest responses of plants were generally to nutrient, particularly nitrogen, addition. Summer warming experiments showed that woody plant responses were dominant and that mosses and lichens became less abundant. Responses to warming were controlled by moisture availability and snow cover. Many invertebrates increased population growth in response to summer warming, as long as desiccation was not induced. CO2 and UV-B enrichment experiments showed that plant and animal responses were small. However, some microorganisms and species of fungi were sensitive to increased UV-B and some intensive mutagenic actions could, perhaps, lead to unexpected epidemic outbreaks. Tundra soil heating, CO2 enrichment and amendment with mineral nutrients generally accelerated microbial activity. Algae are likely to dominate cyanobacteria in milder climates. Expected increases in winter freeze-thaw cycles leading to ice-crust formation are likely to severely reduce winter survival rate and disrupt the population dynamics of many terrestrial animals. A deeper snow cover is likely to restrict access to winter pastures by reindeer/caribou and their ability to fiee from predators while any earlier onset of the snow-free period is likely to stimulate increased plant growth. Initial species responses to climate change might occur at the sub-species level: an Arctic plant or animal species with high genetic/racial diversity has proved an ability to adapt to different environmental conditions in the past and is likely to do so also in the future. Indigenous knowledge, air photographs, satellite images and monitoring show that changes in the distributions of some species are already occurring: Arctic vegetation is becoming more shrubby and more productive, there have been recent changes in the ranges of caribou, and “new” species of insects and birds previously associated with areas south of the treeline have ...
author2 Terry V. Callaghan
Lars Olof Björn
Yuri Chernov
Terry Chapin
Torben R. Christensen
Brian Huntley
Rolf A. Ims
Margareta Johansson
Dyanna Jolly
Sven Jonasson
Nadya Matveyeva
Nicolai Panikov
Walter Oechel
Gus Shaver
Josef Elster
Ingibjörg S. Jónsdóttir
Kari Laine
Kari Taulavuori
Erja Taulavuori
Christoph Zöckler
format Text
author Terry V. Callaghan
Lars Olof Björn
Yuri Chernov
Terry Chapin
Torben R. Christensen
Brian Huntley
Rolf A. Ims
Margareta Johansson
Dyanna Jolly
Sven Jonasson
Nadya Matveyeva
Nicolai Panikov
Walter Oechel
Gus Shaver
Josef Elster
Ingibjörg S. Jónsdóttir
Kari Laine
Kari Taulavuori
Erja Taulavuori
Christoph Zöckler
spellingShingle Terry V. Callaghan
Lars Olof Björn
Yuri Chernov
Terry Chapin
Torben R. Christensen
Brian Huntley
Rolf A. Ims
Margareta Johansson
Dyanna Jolly
Sven Jonasson
Nadya Matveyeva
Nicolai Panikov
Walter Oechel
Gus Shaver
Josef Elster
Ingibjörg S. Jónsdóttir
Kari Laine
Kari Taulavuori
Erja Taulavuori
Christoph Zöckler
Responses to Projected Changes in Climate and UV-B at the Species Level
author_facet Terry V. Callaghan
Lars Olof Björn
Yuri Chernov
Terry Chapin
Torben R. Christensen
Brian Huntley
Rolf A. Ims
Margareta Johansson
Dyanna Jolly
Sven Jonasson
Nadya Matveyeva
Nicolai Panikov
Walter Oechel
Gus Shaver
Josef Elster
Ingibjörg S. Jónsdóttir
Kari Laine
Kari Taulavuori
Erja Taulavuori
Christoph Zöckler
author_sort Terry V. Callaghan
title Responses to Projected Changes in Climate and UV-B at the Species Level
title_short Responses to Projected Changes in Climate and UV-B at the Species Level
title_full Responses to Projected Changes in Climate and UV-B at the Species Level
title_fullStr Responses to Projected Changes in Climate and UV-B at the Species Level
title_full_unstemmed Responses to Projected Changes in Climate and UV-B at the Species Level
title_sort responses to projected changes in climate and uv-b at the species level
publisher Royal Swedish Academy of Sciences
publishDate 2004
url https://doi.org/10.1579/0044-7447-33.7.418
op_coverage world
geographic Arctic
geographic_facet Arctic
genre Arctic
caribou
Climate change
Tundra
genre_facet Arctic
caribou
Climate change
Tundra
op_source https://doi.org/10.1579/0044-7447-33.7.418
op_relation doi:10.1579/0044-7447-33.7.418
op_rights All rights reserved.
op_doi https://doi.org/10.1579/0044-7447-33.7.418
container_title AMBIO: A Journal of the Human Environment
container_volume 33
container_issue 7
container_start_page 418
op_container_end_page 435
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