Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system

Biological and physical processes in the Arctic system operate at various temporal and spatial scales to impact large-scale feedbacks and interactions with the earth system. There are four main potential feedback mechanisms between the impacts of climate change on the Arctic and the global climate s...

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Main Authors: Callaghan, Terry V., Björn, Lars Olof, Chernov, Yuri, Chapin, Terry, Christensen, Torben, Huntley, Brian, Ims, Rolf A., Johansson, Margareta, Jolly, Dyanna, Jonasson, Sven, Matveyeva, Nadya, Panikov, Nicolai, Oechel, Walter, Shaver, Gus, Schaphoff, Sibyll, Sitch, Stephen
Format: Article in Journal/Newspaper
Language:English
Published: Springer 2004
Subjects:
Physical Geography
Biological Sciences
Arctic
albedo
Climate change
permafrost
polar desert
Tundra
Online Access:https://lup.lub.lu.se/record/132549
https://portal.research.lu.se/files/4854975/624319.pdf
id ftulundlup:oai:lup.lub.lu.se:4f6c7788-c8dd-49bb-a19b-9d6fb96ef409
record_format openpolar
spelling ftulundlup:oai:lup.lub.lu.se:4f6c7788-c8dd-49bb-a19b-9d6fb96ef409 2023-05-15T13:11:15+02:00 Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system Callaghan, Terry V. Björn, Lars Olof Chernov, Yuri Chapin, Terry Christensen, Torben Huntley, Brian Ims, Rolf A. Johansson, Margareta Jolly, Dyanna Jonasson, Sven Matveyeva, Nadya Panikov, Nicolai Oechel, Walter Shaver, Gus Schaphoff, Sibyll Sitch, Stephen 2004 application/pdf https://lup.lub.lu.se/record/132549 https://portal.research.lu.se/files/4854975/624319.pdf eng eng Springer https://lup.lub.lu.se/record/132549 https://portal.research.lu.se/files/4854975/624319.pdf wos:000225006300008 pmid:15573573 scopus:8844259543 info:eu-repo/semantics/openAccess Ambio: a Journal of Human Environment; 33(7), pp 459-468 (2004) ISSN: 0044-7447 Physical Geography Biological Sciences contributiontojournal/systematicreview info:eu-repo/semantics/article text 2004 ftulundlup 2023-02-01T23:27:20Z Biological and physical processes in the Arctic system operate at various temporal and spatial scales to impact large-scale feedbacks and interactions with the earth system. There are four main potential feedback mechanisms between the impacts of climate change on the Arctic and the global climate system: albedo, greenhouse gas emissions or uptake by ecosystems, greenhouse gas emissions from methane hydrates, and increased freshwater fluxes that could affect the thermohaline circulation. All these feedbacks are controlled to some extent by changes in ecosystem distribution and character and particularly by large-scale movement of vegetation zones. Indications from a few, full annual measurements of CO2 fluxes are that currently the source areas exceed sink areas in geographical distribution. The little available information on CH4 sources indicates that emissions at the landscape level are of great importance for the total greenhouse balance of the circumpolar North. Energy and water balances of Arctic landscapes are also important feedback mechanisms in a changing climate. Increasing density and spatial expansion of vegetation will cause a lowering of the albedo and more energy to be absorbed on the ground. This effect is likely to exceed the negative feedback of increased C sequestration in greater primary productivity resulting from the displacements of areas of polar desert by tundra, and areas of tundra by forest. The degradation of permafrost has complex consequences for trace gas dynamics. In areas of discontinuous permafrost, warming, will lead to a complete loss of the permafrost. Depending on local hydrological conditions this may in turn lead to a wetting or drying of the environment with subsequent implications for greenhouse gas fluxes. Overall, the complex interactions between processes contributing to feedbacks, variability over time and space in these processes, and insufficient data have generated considerable uncertainties in estimating the net effects of climate change on terrestrial feedbacks ... Article in Journal/Newspaper albedo Arctic Climate change permafrost polar desert Tundra Lund University Publications (LUP) Arctic
institution Open Polar
collection Lund University Publications (LUP)
op_collection_id ftulundlup
language English
topic Physical Geography
Biological Sciences
spellingShingle Physical Geography
Biological Sciences
Callaghan, Terry V.
Björn, Lars Olof
Chernov, Yuri
Chapin, Terry
Christensen, Torben
Huntley, Brian
Ims, Rolf A.
Johansson, Margareta
Jolly, Dyanna
Jonasson, Sven
Matveyeva, Nadya
Panikov, Nicolai
Oechel, Walter
Shaver, Gus
Schaphoff, Sibyll
Sitch, Stephen
Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system
topic_facet Physical Geography
Biological Sciences
description Biological and physical processes in the Arctic system operate at various temporal and spatial scales to impact large-scale feedbacks and interactions with the earth system. There are four main potential feedback mechanisms between the impacts of climate change on the Arctic and the global climate system: albedo, greenhouse gas emissions or uptake by ecosystems, greenhouse gas emissions from methane hydrates, and increased freshwater fluxes that could affect the thermohaline circulation. All these feedbacks are controlled to some extent by changes in ecosystem distribution and character and particularly by large-scale movement of vegetation zones. Indications from a few, full annual measurements of CO2 fluxes are that currently the source areas exceed sink areas in geographical distribution. The little available information on CH4 sources indicates that emissions at the landscape level are of great importance for the total greenhouse balance of the circumpolar North. Energy and water balances of Arctic landscapes are also important feedback mechanisms in a changing climate. Increasing density and spatial expansion of vegetation will cause a lowering of the albedo and more energy to be absorbed on the ground. This effect is likely to exceed the negative feedback of increased C sequestration in greater primary productivity resulting from the displacements of areas of polar desert by tundra, and areas of tundra by forest. The degradation of permafrost has complex consequences for trace gas dynamics. In areas of discontinuous permafrost, warming, will lead to a complete loss of the permafrost. Depending on local hydrological conditions this may in turn lead to a wetting or drying of the environment with subsequent implications for greenhouse gas fluxes. Overall, the complex interactions between processes contributing to feedbacks, variability over time and space in these processes, and insufficient data have generated considerable uncertainties in estimating the net effects of climate change on terrestrial feedbacks ...
format Article in Journal/Newspaper
author Callaghan, Terry V.
Björn, Lars Olof
Chernov, Yuri
Chapin, Terry
Christensen, Torben
Huntley, Brian
Ims, Rolf A.
Johansson, Margareta
Jolly, Dyanna
Jonasson, Sven
Matveyeva, Nadya
Panikov, Nicolai
Oechel, Walter
Shaver, Gus
Schaphoff, Sibyll
Sitch, Stephen
author_facet Callaghan, Terry V.
Björn, Lars Olof
Chernov, Yuri
Chapin, Terry
Christensen, Torben
Huntley, Brian
Ims, Rolf A.
Johansson, Margareta
Jolly, Dyanna
Jonasson, Sven
Matveyeva, Nadya
Panikov, Nicolai
Oechel, Walter
Shaver, Gus
Schaphoff, Sibyll
Sitch, Stephen
author_sort Callaghan, Terry V.
title Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system
title_short Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system
title_full Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system
title_fullStr Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system
title_full_unstemmed Effects of changes in climate on landscape and regional processes, and feedbacks to the climate system
title_sort effects of changes in climate on landscape and regional processes, and feedbacks to the climate system
publisher Springer
publishDate 2004
url https://lup.lub.lu.se/record/132549
https://portal.research.lu.se/files/4854975/624319.pdf
geographic Arctic
geographic_facet Arctic
genre albedo
Arctic
Climate change
permafrost
polar desert
Tundra
genre_facet albedo
Arctic
Climate change
permafrost
polar desert
Tundra
op_source Ambio: a Journal of Human Environment; 33(7), pp 459-468 (2004)
ISSN: 0044-7447
op_relation https://lup.lub.lu.se/record/132549
https://portal.research.lu.se/files/4854975/624319.pdf
wos:000225006300008
pmid:15573573
scopus:8844259543
op_rights info:eu-repo/semantics/openAccess
_version_ 1766246548833828864

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