Active‐layer spatial and temporal variability at European Russian Circumpolar‐Active‐Layer‐Monitoring (CALM) sites

Three 100 × 100 m grids were established in European Russia in the framework of the Circumpolar‐Active‐Layer‐Monitoring (CALM) project. Records range from 4 to 7 years in length. The grids are in mineral soils with mean annual permafrost temperature from −0.5 to −2.5°C. The sites are known to be sen...

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Published in:Permafrost and Periglacial Processes
Main Authors: G. Mazhitova, G. Malkova (Ananjeva), O. Chestnykh, D. Zamolodchikov
Format: Article in Journal/Newspaper
Language:unknown
Subjects:
Active layer monitoring
permafrost
Online Access:https://doi.org/10.1002/ppp.484
id ftrepec:oai:RePEc:wly:perpro:v:15:y:2004:i:2:p:123-139
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spelling ftrepec:oai:RePEc:wly:perpro:v:15:y:2004:i:2:p:123-139 2023-05-15T13:02:36+02:00 Active‐layer spatial and temporal variability at European Russian Circumpolar‐Active‐Layer‐Monitoring (CALM) sites G. Mazhitova G. Malkova (Ananjeva) O. Chestnykh D. Zamolodchikov https://doi.org/10.1002/ppp.484 unknown https://doi.org/10.1002/ppp.484 article ftrepec https://doi.org/10.1002/ppp.484 2020-12-04T13:31:03Z Three 100 × 100 m grids were established in European Russia in the framework of the Circumpolar‐Active‐Layer‐Monitoring (CALM) project. Records range from 4 to 7 years in length. The grids are in mineral soils with mean annual permafrost temperature from −0.5 to −2.5°C. The sites are known to be sensitive to decadal‐scale climatic changes. The grids differ in mean annual air temperature, but have similar thawing indices (DDT). Two grids with deeper annual thaw, separated by 400 km, reveal remarkable similarity in thaw depths, seasonal dynamics and interannual variability. All grids respond to thermal forcing rather consistently, although thaw increments caused by similar increases in DDT are smaller at the grid with the shallowest annual thaw. Stepwise multiple regression and other statistical analyses identified organic‐layer thickness and some, but not all, topographic features as the variables having explanatory power with respect to thaw‐depth variability. These and other variables examined do not, however, explain all the variability in the thaw depth. The effects of organic‐layer thickness on thaw depth are shown to change during the warm season. Copyright © 2004 John Wiley & Sons, Ltd. Article in Journal/Newspaper Active layer monitoring permafrost RePEc (Research Papers in Economics) Permafrost and Periglacial Processes 15 2 123 139
institution Open Polar
collection RePEc (Research Papers in Economics)
op_collection_id ftrepec
language unknown
description Three 100 × 100 m grids were established in European Russia in the framework of the Circumpolar‐Active‐Layer‐Monitoring (CALM) project. Records range from 4 to 7 years in length. The grids are in mineral soils with mean annual permafrost temperature from −0.5 to −2.5°C. The sites are known to be sensitive to decadal‐scale climatic changes. The grids differ in mean annual air temperature, but have similar thawing indices (DDT). Two grids with deeper annual thaw, separated by 400 km, reveal remarkable similarity in thaw depths, seasonal dynamics and interannual variability. All grids respond to thermal forcing rather consistently, although thaw increments caused by similar increases in DDT are smaller at the grid with the shallowest annual thaw. Stepwise multiple regression and other statistical analyses identified organic‐layer thickness and some, but not all, topographic features as the variables having explanatory power with respect to thaw‐depth variability. These and other variables examined do not, however, explain all the variability in the thaw depth. The effects of organic‐layer thickness on thaw depth are shown to change during the warm season. Copyright © 2004 John Wiley & Sons, Ltd.
format Article in Journal/Newspaper
author G. Mazhitova
G. Malkova (Ananjeva)
O. Chestnykh
D. Zamolodchikov
spellingShingle G. Mazhitova
G. Malkova (Ananjeva)
O. Chestnykh
D. Zamolodchikov
Active‐layer spatial and temporal variability at European Russian Circumpolar‐Active‐Layer‐Monitoring (CALM) sites
author_facet G. Mazhitova
G. Malkova (Ananjeva)
O. Chestnykh
D. Zamolodchikov
author_sort G. Mazhitova
title Active‐layer spatial and temporal variability at European Russian Circumpolar‐Active‐Layer‐Monitoring (CALM) sites
title_short Active‐layer spatial and temporal variability at European Russian Circumpolar‐Active‐Layer‐Monitoring (CALM) sites
title_full Active‐layer spatial and temporal variability at European Russian Circumpolar‐Active‐Layer‐Monitoring (CALM) sites
title_fullStr Active‐layer spatial and temporal variability at European Russian Circumpolar‐Active‐Layer‐Monitoring (CALM) sites
title_full_unstemmed Active‐layer spatial and temporal variability at European Russian Circumpolar‐Active‐Layer‐Monitoring (CALM) sites
title_sort active‐layer spatial and temporal variability at european russian circumpolar‐active‐layer‐monitoring (calm) sites
url https://doi.org/10.1002/ppp.484
genre Active layer monitoring
permafrost
genre_facet Active layer monitoring
permafrost
op_relation https://doi.org/10.1002/ppp.484
op_doi https://doi.org/10.1002/ppp.484
container_title Permafrost and Periglacial Processes
container_volume 15
container_issue 2
container_start_page 123
op_container_end_page 139
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