Light-absorbing capacity of volcanic dust from Iceland and Chile
It is increasingly recognized that light-absorbing impurities (LAI) deposited on snow and ice affect their albedo and facilitate melting processes leading to various feedback loops, such as the ice albedo feedback mechanism. Black carbon (BC) is often considered the most important LAI, but some area...
| Main Authors: | , , , |
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| Other Authors: | , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Frontiers Media SA
2025
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10138/591913 |
| _version_ | 1825501386590126080 |
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| author | Koivusalo, Taru F. A. Dagsson-Waldhauserova, Pavla Gritsevich, Maria Peltoniemi, Jouni |
| author2 | Faculty of Science Department of Physics |
| author_facet | Koivusalo, Taru F. A. Dagsson-Waldhauserova, Pavla Gritsevich, Maria Peltoniemi, Jouni |
| author_sort | Koivusalo, Taru F. A. |
| collection | HELDA – University of Helsinki Open Repository |
| description | It is increasingly recognized that light-absorbing impurities (LAI) deposited on snow and ice affect their albedo and facilitate melting processes leading to various feedback loops, such as the ice albedo feedback mechanism. Black carbon (BC) is often considered the most important LAI, but some areas can be more impacted by high dust emissions. Iceland is one of the most important high latitude sources for the Arctic due to high emissions and the volcanic nature of the dust. We studied optical properties of volcanic dust from Iceland and Chile to understand how it interacts with the Sun's radiation and affects areas of deposition as LAI. Optical properties of dust samples were measured at the laboratory of the Finnish Geospatial Research Institute (FGI) using the latest setup of the FGI's goniospectrometer. We found that, depending on the particle size, the albedo of dry volcanic dust on the visible spectrum is as low as 0.03, similar to that of BC, and the albedo decreases with increasing particle size. Wet dust reduces its albedo by 66% compared to dry sample. This supports the comparability of their albedo reducing effects to BC as LAIs, and highlights their significant role in albedo reduction of snow and ice areas. The potential use of the results from our measurements is diverse, including their use as a ground truth reference for Earth Observation and remote sensing studies, estimating climate change over time, as well as measuring other ecological effects caused by changes in atmospheric composition or land cover. Peer reviewed |
| format | Article in Journal/Newspaper |
| genre | albedo Arctic black carbon Climate change Iceland |
| genre_facet | albedo Arctic black carbon Climate change Iceland |
| geographic | Arctic |
| geographic_facet | Arctic |
| id | ftunivhelsihelda:oai:helda.helsinki.fi:10138/591913 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivhelsihelda |
| op_relation | 10.3389/feart.2024.1348082 We thank Jarmo Moilanen and Nataliya Zubko for the help during the work and measurements done at the laboratory of the Finnish Geospatial Research Institute, Outi Meinander (Finnish Meteorological Institute) for collaboration with collection and transport of the 2022 samples, and Aaron Vanderpool (University of California Davis) for his help collecting the volcanic samples from Chile locations. http://hdl.handle.net/10138/591913 001286207400001 |
| op_rights | cc_by info:eu-repo/semantics/openAccess openAccess |
| publishDate | 2025 |
| publisher | Frontiers Media SA |
| record_format | openpolar |
| spelling | ftunivhelsihelda:oai:helda.helsinki.fi:10138/591913 2025-03-02T15:12:01+00:00 Light-absorbing capacity of volcanic dust from Iceland and Chile Koivusalo, Taru F. A. Dagsson-Waldhauserova, Pavla Gritsevich, Maria Peltoniemi, Jouni Faculty of Science Department of Physics 2025-02-03T12:04:04Z 10 application/pdf http://hdl.handle.net/10138/591913 eng eng Frontiers Media SA 10.3389/feart.2024.1348082 We thank Jarmo Moilanen and Nataliya Zubko for the help during the work and measurements done at the laboratory of the Finnish Geospatial Research Institute, Outi Meinander (Finnish Meteorological Institute) for collaboration with collection and transport of the 2022 samples, and Aaron Vanderpool (University of California Davis) for his help collecting the volcanic samples from Chile locations. http://hdl.handle.net/10138/591913 001286207400001 cc_by info:eu-repo/semantics/openAccess openAccess Physical sciences Albedo Climate change Cryosphere Dust Light-absorbing impurities Optical properties Snow Volcanic sand Article publishedVersion 2025 ftunivhelsihelda 2025-02-10T01:14:20Z It is increasingly recognized that light-absorbing impurities (LAI) deposited on snow and ice affect their albedo and facilitate melting processes leading to various feedback loops, such as the ice albedo feedback mechanism. Black carbon (BC) is often considered the most important LAI, but some areas can be more impacted by high dust emissions. Iceland is one of the most important high latitude sources for the Arctic due to high emissions and the volcanic nature of the dust. We studied optical properties of volcanic dust from Iceland and Chile to understand how it interacts with the Sun's radiation and affects areas of deposition as LAI. Optical properties of dust samples were measured at the laboratory of the Finnish Geospatial Research Institute (FGI) using the latest setup of the FGI's goniospectrometer. We found that, depending on the particle size, the albedo of dry volcanic dust on the visible spectrum is as low as 0.03, similar to that of BC, and the albedo decreases with increasing particle size. Wet dust reduces its albedo by 66% compared to dry sample. This supports the comparability of their albedo reducing effects to BC as LAIs, and highlights their significant role in albedo reduction of snow and ice areas. The potential use of the results from our measurements is diverse, including their use as a ground truth reference for Earth Observation and remote sensing studies, estimating climate change over time, as well as measuring other ecological effects caused by changes in atmospheric composition or land cover. Peer reviewed Article in Journal/Newspaper albedo Arctic black carbon Climate change Iceland HELDA – University of Helsinki Open Repository Arctic |
| spellingShingle | Physical sciences Albedo Climate change Cryosphere Dust Light-absorbing impurities Optical properties Snow Volcanic sand Koivusalo, Taru F. A. Dagsson-Waldhauserova, Pavla Gritsevich, Maria Peltoniemi, Jouni Light-absorbing capacity of volcanic dust from Iceland and Chile |
| title | Light-absorbing capacity of volcanic dust from Iceland and Chile |
| title_full | Light-absorbing capacity of volcanic dust from Iceland and Chile |
| title_fullStr | Light-absorbing capacity of volcanic dust from Iceland and Chile |
| title_full_unstemmed | Light-absorbing capacity of volcanic dust from Iceland and Chile |
| title_short | Light-absorbing capacity of volcanic dust from Iceland and Chile |
| title_sort | light-absorbing capacity of volcanic dust from iceland and chile |
| topic | Physical sciences Albedo Climate change Cryosphere Dust Light-absorbing impurities Optical properties Snow Volcanic sand |
| topic_facet | Physical sciences Albedo Climate change Cryosphere Dust Light-absorbing impurities Optical properties Snow Volcanic sand |
| url | http://hdl.handle.net/10138/591913 |