Standardized monitoring of permafrost thaw: a user-friendly, multiparameter protocol
Climate change is destabilizing permafrost landscapes, affecting infrastructure, ecosystems, and human livelihoods. The rate of permafrost thaw is controlled by surface and subsurface properties and processes, all of which are potentially linked with each other. However, no standardized protocol exi...
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| Veröffentlicht in: | Arctic Science 2022-03, Vol.8 (1), p.153-182 |
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| creator | Boike, Julia Chadburn, Sarah Martin, Julia Zwieback, Simon Althuizen, Inge H.J. Anselm, Norbert Cai, Lei Coulombe, Stéphanie Lee, Hanna Liljedahl, Anna K. Schneebeli, Martin Sjöberg, Ylva Smith, Noah Smith, Sharon L. Streletskiy, Dmitry A. Stuenzi, Simone M. Westermann, Sebastian Wilcox, Evan J. |
| description | Climate change is destabilizing permafrost landscapes, affecting infrastructure, ecosystems, and human livelihoods. The rate of permafrost thaw is controlled by surface and subsurface properties and processes, all of which are potentially linked with each other. However, no standardized protocol exists for measuring permafrost thaw and related processes and properties in a linked manner. The permafrost thaw action group of the Terrestrial Multidisciplinary distributed Observatories for the Study of the Arctic Connections (T-MOSAiC) project has developed a protocol, for use by non-specialist scientists and technicians, citizen scientists, and indigenous groups, to collect standardized metadata and data on permafrost thaw. The protocol introduced here addresses the need to jointly measure permafrost thaw and the associated surface and subsurface environmental conditions. The parameters measured along transects include: snow depth, thaw depth, vegetation height, soil texture, and water level. The metadata collection includes data on timing of data collection, geographical coordinates, land surface characteristics (vegetation, ground surface, water conditions), as well as photographs. Our hope is that this openly available dataset will also be highly valuable for validation and parameterization of numerical and conceptual models, and thus to the broad community represented by the T-MOSAiC project. |
| doi_str_mv | 10.1139/as-2021-0007 |
| format | Article |
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The rate of permafrost thaw is controlled by surface and subsurface properties and processes, all of which are potentially linked with each other. However, no standardized protocol exists for measuring permafrost thaw and related processes and properties in a linked manner. The permafrost thaw action group of the Terrestrial Multidisciplinary distributed Observatories for the Study of the Arctic Connections (T-MOSAiC) project has developed a protocol, for use by non-specialist scientists and technicians, citizen scientists, and indigenous groups, to collect standardized metadata and data on permafrost thaw. The protocol introduced here addresses the need to jointly measure permafrost thaw and the associated surface and subsurface environmental conditions. The parameters measured along transects include: snow depth, thaw depth, vegetation height, soil texture, and water level. The metadata collection includes data on timing of data collection, geographical coordinates, land surface characteristics (vegetation, ground surface, water conditions), as well as photographs. Our hope is that this openly available dataset will also be highly valuable for validation and parameterization of numerical and conceptual models, and thus to the broad community represented by the T-MOSAiC project.</description><identifier>ISSN: 2368-7460</identifier><identifier>EISSN: 2368-7460</identifier><identifier>DOI: 10.1139/as-2021-0007</identifier><language>eng</language><publisher>Ottawa: NRC Research Press</publisher><subject>Analysis ; Climate change ; Data collection ; Ecosystems ; Environmental conditions ; Geographical coordinates ; Global temperature changes ; Hydrology ; Ice ; Livelihoods ; Metadata ; Mosaics ; Observatories ; Parameterization ; Permafrost ; Scientists ; Snow ; Snow depth ; Soil properties ; Soil texture ; Soil water ; Surface properties ; Taiga & tundra ; Technicians ; Texture ; Vegetation ; Water depth ; Water levels</subject><ispartof>Arctic Science, 2022-03, Vol.8 (1), p.153-182</ispartof><rights>COPYRIGHT 2022 NRC Research Press</rights><rights>2022. 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The metadata collection includes data on timing of data collection, geographical coordinates, land surface characteristics (vegetation, ground surface, water conditions), as well as photographs. 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| subjects | Analysis Climate change Data collection Ecosystems Environmental conditions Geographical coordinates Global temperature changes Hydrology Ice Livelihoods Metadata Mosaics Observatories Parameterization Permafrost Scientists Snow Snow depth Soil properties Soil texture Soil water Surface properties Taiga & tundra Technicians Texture Vegetation Water depth Water levels |
| title | Standardized monitoring of permafrost thaw: a user-friendly, multiparameter protocol |
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