Spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements

An extensive in situ data set of snow depth, snow water equivalent (SWE), and snow density collected in support of the European Space Agency (ESA) SnowSAR-2 airborne campaigns in northern Finland during the winter of 2011–2012 is presented (ESA Earth Observation Campaigns data 2000–2016). The suitab...

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Published in:Geoscientific Instrumentation, Methods and Data Systems
Main Authors: Hannula, Henna-Reetta, Lemmetyinen, Juha, Kontu, Anna, Derksen, Chris, Pulliainen, Jouni
Format: Text
Language:English
Published: 2018
Subjects:
Northern Finland
taiga
Tundra
Online Access:https://doi.org/10.5194/gi-5-347-2016
https://gi.copernicus.org/articles/5/347/2016/
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spelling ftcopernicus:oai:publications.copernicus.org:gi48648 2023-05-15T17:42:46+02:00 Spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements Hannula, Henna-Reetta Lemmetyinen, Juha Kontu, Anna Derksen, Chris Pulliainen, Jouni 2018-09-27 application/pdf https://doi.org/10.5194/gi-5-347-2016 https://gi.copernicus.org/articles/5/347/2016/ eng eng doi:10.5194/gi-5-347-2016 https://gi.copernicus.org/articles/5/347/2016/ eISSN: 2193-0864 Text 2018 ftcopernicus https://doi.org/10.5194/gi-5-347-2016 2020-07-20T16:24:02Z An extensive in situ data set of snow depth, snow water equivalent (SWE), and snow density collected in support of the European Space Agency (ESA) SnowSAR-2 airborne campaigns in northern Finland during the winter of 2011–2012 is presented (ESA Earth Observation Campaigns data 2000–2016). The suitability of the in situ measurement protocol to provide an accurate reference for the simultaneous airborne SAR (synthetic aperture radar) data products over different land cover types was analysed in the context of spatial scale, sample spacing, and uncertainty. The analysis was executed by applying autocorrelation analysis and root mean square difference (RMSD) error estimations. The results showed overall higher variability for all the three bulk snow parameters over tundra, open bogs and lakes (due to wind processes); however, snow depth tended to vary over shorter distances in forests (due to snow–vegetation interactions). Sample spacing/sample size had a statistically significant effect on the mean snow depth over all land cover types. Analysis executed for 50, 100, and 200 m transects revealed that in most cases less than five samples were adequate to describe the snow depth mean with RMSD < 5 %, but for land cover with high overall variability an indication of increased sample size of 1.5–3 times larger was gained depending on the scale and the desired maximum RMSD. Errors for most of the land cover types reached ∼ 10 % if only three measurements were considered. The collected measurements, which are available via the ESA website upon registration, compose an exceptionally large manually collected snow data set in Scandinavian taiga and tundra environments. This information represents a valuable contribution to the snow research community and can be applied to various snow studies. Text Northern Finland taiga Tundra Copernicus Publications: E-Journals Geoscientific Instrumentation, Methods and Data Systems 5 2 347 363
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description An extensive in situ data set of snow depth, snow water equivalent (SWE), and snow density collected in support of the European Space Agency (ESA) SnowSAR-2 airborne campaigns in northern Finland during the winter of 2011–2012 is presented (ESA Earth Observation Campaigns data 2000–2016). The suitability of the in situ measurement protocol to provide an accurate reference for the simultaneous airborne SAR (synthetic aperture radar) data products over different land cover types was analysed in the context of spatial scale, sample spacing, and uncertainty. The analysis was executed by applying autocorrelation analysis and root mean square difference (RMSD) error estimations. The results showed overall higher variability for all the three bulk snow parameters over tundra, open bogs and lakes (due to wind processes); however, snow depth tended to vary over shorter distances in forests (due to snow–vegetation interactions). Sample spacing/sample size had a statistically significant effect on the mean snow depth over all land cover types. Analysis executed for 50, 100, and 200 m transects revealed that in most cases less than five samples were adequate to describe the snow depth mean with RMSD < 5 %, but for land cover with high overall variability an indication of increased sample size of 1.5–3 times larger was gained depending on the scale and the desired maximum RMSD. Errors for most of the land cover types reached ∼ 10 % if only three measurements were considered. The collected measurements, which are available via the ESA website upon registration, compose an exceptionally large manually collected snow data set in Scandinavian taiga and tundra environments. This information represents a valuable contribution to the snow research community and can be applied to various snow studies.
format Text
author Hannula, Henna-Reetta
Lemmetyinen, Juha
Kontu, Anna
Derksen, Chris
Pulliainen, Jouni
spellingShingle Hannula, Henna-Reetta
Lemmetyinen, Juha
Kontu, Anna
Derksen, Chris
Pulliainen, Jouni
Spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements
author_facet Hannula, Henna-Reetta
Lemmetyinen, Juha
Kontu, Anna
Derksen, Chris
Pulliainen, Jouni
author_sort Hannula, Henna-Reetta
title Spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements
title_short Spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements
title_full Spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements
title_fullStr Spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements
title_full_unstemmed Spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements
title_sort spatial and temporal variation of bulk snow properties in northern boreal and tundra environments based on extensive field measurements
publishDate 2018
url https://doi.org/10.5194/gi-5-347-2016
https://gi.copernicus.org/articles/5/347/2016/
genre Northern Finland
taiga
Tundra
genre_facet Northern Finland
taiga
Tundra
op_source eISSN: 2193-0864
op_relation doi:10.5194/gi-5-347-2016
https://gi.copernicus.org/articles/5/347/2016/
op_doi https://doi.org/10.5194/gi-5-347-2016
container_title Geoscientific Instrumentation, Methods and Data Systems
container_volume 5
container_issue 2
container_start_page 347
op_container_end_page 363
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