35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic

High-latitude regions are a hot spot of global warming, but the scarce availability of observations often limits the investigation of climate change impacts over these regions. However, the utilization of satellite-based remote sensing data offers new possibilities for such investigations. In the pr...

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Published in:Remote Sensing
Main Authors: Chetan, M., Dornik, A., Ardelean, F., Georgievski, G., Hagemann, S., Romanovsky, V., Onaca, A., Drozdov, D.
Format: Article in Journal/Newspaper
Language:English
Published: MDPI 2020
Subjects:
Arctic
Climate change
Global warming
Pechora
Pechora Delta
permafrost
taiga
Tundra
Online Access:https://publications.hereon.de/id/38572
https://publications.hzg.de/id/38572
https://doi.org/10.3390/rs12111863
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spelling fthzgzmk:oai:publications.hereon.de:38572 2023-06-11T04:07:39+02:00 35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic Chetan, M. Dornik, A. Ardelean, F. Georgievski, G. Hagemann, S. Romanovsky, V. Onaca, A. Drozdov, D. 2020 https://publications.hereon.de/id/38572 https://publications.hzg.de/id/38572 https://doi.org/10.3390/rs12111863 en eng MDPI https://dx.doi.org/10.3390/rs12111863 urn:issn:2072-4292 https://publications.hereon.de/id/38572 https://publications.hzg.de/id/38572 info:eu-repo/semantics/openAccess open_access oa_gold issn:2072-4292 Chetan, M.; Dornik, A.; Ardelean, F.; Georgievski, G.; Hagemann, S.; Romanovsky, V.; Onaca, A.; Drozdov, D.: 35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic . In: Remote Sensing. Vol. 12 (2020) 11, 1836. (DOI: /10.3390/rs12111863) info:eu-repo/semantics/article Zeitschrift Artikel 2020 fthzgzmk https://doi.org/10.3390/rs12111863 2023-05-28T23:24:58Z High-latitude regions are a hot spot of global warming, but the scarce availability of observations often limits the investigation of climate change impacts over these regions. However, the utilization of satellite-based remote sensing data offers new possibilities for such investigations. In the present study, vegetation greening, vegetation moisture and lake distribution derived from medium-resolution satellite imagery were analyzed over the Pechora catchment for the last 35 years. Here, we considered the entire Pechora catchment and the Pechora Delta region, located in the northern part of European Russia, and we investigated the vegetation and lake dynamics over different permafrost zones and across the two major biomes, taiga, and tundra. We also evaluated climate data records from meteorological stations and re-analysis data to find relations between these dynamics and climatic behavior. Considering the Normalized Difference Vegetation Index (NDVI) and the Normalized Difference Moisture Index (NDMI) in the summer, we found a general greening and moistening of the vegetation. While vegetation greenness follows the evolution of summer air temperature with a delay of one year, the vegetation moisture dynamics seems to better concur with annual total precipitation rather than summer precipitation, and also with annual snow water equivalent without lag. Both NDVI and NDMI show a much higher variability across discontinuous permafrost terrain compared to other types. Moreover, the analyses yielded an overall decrease in the area of permanent lakes and a noticeable increase in the area of seasonal lakes. While the first might be related to permafrost thawing, the latter seems to be connected to an increase of annual snow water equivalent. The general consistency between the indices of vegetation greenness and moisture based on satellite imagery and the climate data highlights the efficacy and reliability of combining Landsat satellite data, ERA-Interim reanalysis and meteorological data to monitor temporal ... Article in Journal/Newspaper Arctic Arctic Climate change Global warming Pechora Pechora Delta permafrost taiga Tundra Hereon Publications (Helmholtz-Zentrum) Arctic Remote Sensing 12 11 1863
institution Open Polar
collection Hereon Publications (Helmholtz-Zentrum)
op_collection_id fthzgzmk
language English
description High-latitude regions are a hot spot of global warming, but the scarce availability of observations often limits the investigation of climate change impacts over these regions. However, the utilization of satellite-based remote sensing data offers new possibilities for such investigations. In the present study, vegetation greening, vegetation moisture and lake distribution derived from medium-resolution satellite imagery were analyzed over the Pechora catchment for the last 35 years. Here, we considered the entire Pechora catchment and the Pechora Delta region, located in the northern part of European Russia, and we investigated the vegetation and lake dynamics over different permafrost zones and across the two major biomes, taiga, and tundra. We also evaluated climate data records from meteorological stations and re-analysis data to find relations between these dynamics and climatic behavior. Considering the Normalized Difference Vegetation Index (NDVI) and the Normalized Difference Moisture Index (NDMI) in the summer, we found a general greening and moistening of the vegetation. While vegetation greenness follows the evolution of summer air temperature with a delay of one year, the vegetation moisture dynamics seems to better concur with annual total precipitation rather than summer precipitation, and also with annual snow water equivalent without lag. Both NDVI and NDMI show a much higher variability across discontinuous permafrost terrain compared to other types. Moreover, the analyses yielded an overall decrease in the area of permanent lakes and a noticeable increase in the area of seasonal lakes. While the first might be related to permafrost thawing, the latter seems to be connected to an increase of annual snow water equivalent. The general consistency between the indices of vegetation greenness and moisture based on satellite imagery and the climate data highlights the efficacy and reliability of combining Landsat satellite data, ERA-Interim reanalysis and meteorological data to monitor temporal ...
format Article in Journal/Newspaper
author Chetan, M.
Dornik, A.
Ardelean, F.
Georgievski, G.
Hagemann, S.
Romanovsky, V.
Onaca, A.
Drozdov, D.
spellingShingle Chetan, M.
Dornik, A.
Ardelean, F.
Georgievski, G.
Hagemann, S.
Romanovsky, V.
Onaca, A.
Drozdov, D.
35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic
author_facet Chetan, M.
Dornik, A.
Ardelean, F.
Georgievski, G.
Hagemann, S.
Romanovsky, V.
Onaca, A.
Drozdov, D.
author_sort Chetan, M.
title 35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic
title_short 35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic
title_full 35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic
title_fullStr 35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic
title_full_unstemmed 35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic
title_sort 35 years of vegetation and lake dynamics in the pechora catchment, russian european arctic
publisher MDPI
publishDate 2020
url https://publications.hereon.de/id/38572
https://publications.hzg.de/id/38572
https://doi.org/10.3390/rs12111863
geographic Arctic
geographic_facet Arctic
genre Arctic
Arctic
Climate change
Global warming
Pechora
Pechora Delta
permafrost
taiga
Tundra
genre_facet Arctic
Arctic
Climate change
Global warming
Pechora
Pechora Delta
permafrost
taiga
Tundra
op_source issn:2072-4292
Chetan, M.; Dornik, A.; Ardelean, F.; Georgievski, G.; Hagemann, S.; Romanovsky, V.; Onaca, A.; Drozdov, D.: 35 Years of Vegetation and Lake Dynamics in the Pechora Catchment, Russian European Arctic . In: Remote Sensing. Vol. 12 (2020) 11, 1836. (DOI: /10.3390/rs12111863)
op_relation https://dx.doi.org/10.3390/rs12111863
urn:issn:2072-4292
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op_doi https://doi.org/10.3390/rs12111863
container_title Remote Sensing
container_volume 12
container_issue 11
container_start_page 1863
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