Influence of vegetation on permafrost

One terrain feature of great significance to the extent, thickness and thermal regime of permafrost is vegetation. Its thermal properties determine the amount of heat leaving or entering the underlying ground. Vegetation has an indirect effect on climate, which influences permafrost. Treeless vegeta...

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Main Author:	Brown, R. J. E.
Format:	Article in Journal/Newspaper
Language:	English
Published:	Building Research Advisory Board at Purdue University 1963
Subjects:	permafrost pergélisol soils sol (terre) vegetation végétation frost penetration pénétration du gel
Online Access:	https://nrc-publications.canada.ca/eng/view/ft/?id=4c989143-5d15-4404-9363-db1742108798 https://nrc-publications.canada.ca/eng/view/object/?id=4c989143-5d15-4404-9363-db1742108798 https://nrc-publications.canada.ca/fra/voir/objet/?id=4c989143-5d15-4404-9363-db1742108798

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record_format	openpolar
spelling	ftnrccanada:oai:cisti-icist.nrc-cnrc.ca:cistinparc:20375244 2024-02-04T10:03:48+01:00 Influence of vegetation on permafrost Brown, R. J. E. 1963-10-01 text https://nrc-publications.canada.ca/eng/view/ft/?id=4c989143-5d15-4404-9363-db1742108798 https://nrc-publications.canada.ca/eng/view/object/?id=4c989143-5d15-4404-9363-db1742108798 https://nrc-publications.canada.ca/fra/voir/objet/?id=4c989143-5d15-4404-9363-db1742108798 eng eng Building Research Advisory Board at Purdue University Proceedings: Permafrost International Conference, 1963, Permafrost International Conference, November 11, 1963, Lafayette, Indiana, United States, Publication date: 1963-10-01, Pages: 20–25 report_number:DBR-RP-298 permafrost pergélisol soils sol (terre) vegetation végétation frost penetration pénétration du gel article 1963 ftnrccanada 2024-01-07T00:02:19Z One terrain feature of great significance to the extent, thickness and thermal regime of permafrost is vegetation. Its thermal properties determine the amount of heat leaving or entering the underlying ground. Vegetation has an indirect effect on climate, which influences permafrost. Treeless vegetation such as lichen and mosses may have a different albedo. Net radiation is also an important factor. Direct measurement of the convection component is extremely difficult and it may be evaluated as the difference between the sum of the other measurements and the total. Bowen's ratio is also sometimes used. Evaporation, including evapotranspiration, withdraws heat from the surrounding atmosphere and from incident solar radiation. Vegetation draws water by transpiration thus depleting the soil of heat held by that water. There are great variations between species. Vegetative cover of dead material has a large insulating effect on the underlying permafrost. Depth of thaw increases where vegetation cover has been removed. The micro climate resulting from vegetation is probably most effective by influencing the wind speed. The density of the vegetation and height of tree cover influences are well known. Ground that permits the greatest degree of water penetration usually thaws to the greatest depths. The low thermal conductivity of snow and its double role as inhibitor of frost penetration during winter and soil thawing in the spring has been noted. Where strong winds prevail more snow accumulates under vegetative cover in open areas. The most easily observed and measured characteristic of permafrost is the depth of thaw and variations in types of vegetation are often readily noticeable. La végétation est un élément du milieu possédant une très grande importance en ce qui concerne l'étendue, l'épaisseir et le régime thermique du pergélisol. Ses propriétés thermiques déterminent la quantité de chaleur sortant du sous-sol ou y entrant. Peer reviewed: No NRC publication: Yes Article in Journal/Newspaper permafrost pergélisol National Research Council Canada: NRC Publications Archive
institution	Open Polar
collection	National Research Council Canada: NRC Publications Archive
op_collection_id	ftnrccanada
language	English
topic	permafrost pergélisol soils sol (terre) vegetation végétation frost penetration pénétration du gel
spellingShingle	permafrost pergélisol soils sol (terre) vegetation végétation frost penetration pénétration du gel Brown, R. J. E. Influence of vegetation on permafrost
topic_facet	permafrost pergélisol soils sol (terre) vegetation végétation frost penetration pénétration du gel
description	One terrain feature of great significance to the extent, thickness and thermal regime of permafrost is vegetation. Its thermal properties determine the amount of heat leaving or entering the underlying ground. Vegetation has an indirect effect on climate, which influences permafrost. Treeless vegetation such as lichen and mosses may have a different albedo. Net radiation is also an important factor. Direct measurement of the convection component is extremely difficult and it may be evaluated as the difference between the sum of the other measurements and the total. Bowen's ratio is also sometimes used. Evaporation, including evapotranspiration, withdraws heat from the surrounding atmosphere and from incident solar radiation. Vegetation draws water by transpiration thus depleting the soil of heat held by that water. There are great variations between species. Vegetative cover of dead material has a large insulating effect on the underlying permafrost. Depth of thaw increases where vegetation cover has been removed. The micro climate resulting from vegetation is probably most effective by influencing the wind speed. The density of the vegetation and height of tree cover influences are well known. Ground that permits the greatest degree of water penetration usually thaws to the greatest depths. The low thermal conductivity of snow and its double role as inhibitor of frost penetration during winter and soil thawing in the spring has been noted. Where strong winds prevail more snow accumulates under vegetative cover in open areas. The most easily observed and measured characteristic of permafrost is the depth of thaw and variations in types of vegetation are often readily noticeable. La végétation est un élément du milieu possédant une très grande importance en ce qui concerne l'étendue, l'épaisseir et le régime thermique du pergélisol. Ses propriétés thermiques déterminent la quantité de chaleur sortant du sous-sol ou y entrant. Peer reviewed: No NRC publication: Yes
format	Article in Journal/Newspaper
author	Brown, R. J. E.
author_facet	Brown, R. J. E.
author_sort	Brown, R. J. E.
title	Influence of vegetation on permafrost
title_short	Influence of vegetation on permafrost
title_full	Influence of vegetation on permafrost
title_fullStr	Influence of vegetation on permafrost
title_full_unstemmed	Influence of vegetation on permafrost
title_sort	influence of vegetation on permafrost
publisher	Building Research Advisory Board at Purdue University
publishDate	1963
url	https://nrc-publications.canada.ca/eng/view/ft/?id=4c989143-5d15-4404-9363-db1742108798 https://nrc-publications.canada.ca/eng/view/object/?id=4c989143-5d15-4404-9363-db1742108798 https://nrc-publications.canada.ca/fra/voir/objet/?id=4c989143-5d15-4404-9363-db1742108798
genre	permafrost pergélisol
genre_facet	permafrost pergélisol
op_relation	Proceedings: Permafrost International Conference, 1963, Permafrost International Conference, November 11, 1963, Lafayette, Indiana, United States, Publication date: 1963-10-01, Pages: 20–25 report_number:DBR-RP-298
_version_	1789971536769187840

Influence of vegetation on permafrost

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