Transmittance through sea ice from radiation station 2020R12 ...
Solar radiation over and under sea ice was measured by radiation station 2020R12, an autonomous platform, installed on drifting Second-Year-Ice (SYI) in the Arctic Ocean during MOSAiC (Leg 3) 2019/20. The resulting time series describes radiation measurements as a function of place and time between...
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2024
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Online Access: | https://dx.doi.org/10.1594/pangaea.948702 https://doi.pangaea.de/10.1594/PANGAEA.948702 |
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ftdatacite:10.1594/pangaea.948702 2024-09-15T17:36:02+00:00 Transmittance through sea ice from radiation station 2020R12 ... Nicolaus, Marcel Anhaus, Philipp Hoppmann, Mario Tao, Ran Katlein, Christian 2024 text/tab-separated-values https://dx.doi.org/10.1594/pangaea.948702 https://doi.pangaea.de/10.1594/PANGAEA.948702 unknown PANGAEA https://dx.doi.org/10.1594/pangaea.948712 Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 autonomous platform buoy drift lightchain snow depth solar radiation DATE/TIME LATITUDE LONGITUDE Transmittance Quality flag, sun elevation Transmittance at 320 nm Transmittance at 321 nm Transmittance at 322 nm Transmittance at 323 nm Transmittance at 324 nm Transmittance at 325 nm Transmittance at 326 nm Transmittance at 327 nm Transmittance at 328 nm Transmittance at 329 nm Transmittance at 330 nm Transmittance at 331 nm Transmittance at 332 nm Transmittance at 333 nm Transmittance at 334 nm Transmittance at 335 nm Transmittance at 336 nm Transmittance at 337 nm Transmittance at 338 nm Transmittance at 339 nm Transmittance at 340 nm Transmittance at 341 nm Transmittance at 342 nm Transmittance at 343 nm Transmittance at 344 nm Transmittance at 345 nm Transmittance at 346 nm Transmittance at 347 nm Transmittance at 348 nm Transmittance at 349 nm Transmittance at 350 nm Transmittance at 351 nm Transmittance at 352 nm Transmittance at 353 nm Transmittance at 354 nm Transmittance at 355 nm Transmittance at 356 nm Transmittance at 357 nm Transmittance at 358 nm Dataset dataset 2024 ftdatacite https://doi.org/10.1594/pangaea.94870210.1594/pangaea.948712 2024-07-03T13:15:54Z Solar radiation over and under sea ice was measured by radiation station 2020R12, an autonomous platform, installed on drifting Second-Year-Ice (SYI) in the Arctic Ocean during MOSAiC (Leg 3) 2019/20. The resulting time series describes radiation measurements as a function of place and time between 24 April 2020 and 07 August 2020 in sample intervals of 1 hour. The radiation measurements have been performed with spectral radiometers. All data are given in full spectral resolution interpolated to 1.0 nm, and integrated over the entire wavelength range (broadband, total: 320 to 950 nm). Two sensors, solar irradiance and upward reflected solar irradiance, were mounted on a on a platform about 1 m above the sea ice surface. The third sensor was mounted 0.5 m underneath the sea ice measuring the downward transmitted irradiance. Along with the radiation measurements, this autonomous platform consisted of a lightchain, which measured counts of red, green and blue light at 49 positions at hourly intervals. In ... : The data set has been processed and contains quality flags for different kinds for erroneous data. Flag values are the sum of individual error codes. The value of 0 refers to no error.Quality flag, sun: If the suns position is close to the horizon, the radiometers measure a very noisy signal. Radiometer measurements and variables which are computed from them are flagged +1 if the sun elevation is below 10 degrees; +2 if the broad band albedo exceeds the threshold 1.05 . ... Dataset albedo Arctic Ocean Sea ice DataCite |
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autonomous platform buoy drift lightchain snow depth solar radiation DATE/TIME LATITUDE LONGITUDE Transmittance Quality flag, sun elevation Transmittance at 320 nm Transmittance at 321 nm Transmittance at 322 nm Transmittance at 323 nm Transmittance at 324 nm Transmittance at 325 nm Transmittance at 326 nm Transmittance at 327 nm Transmittance at 328 nm Transmittance at 329 nm Transmittance at 330 nm Transmittance at 331 nm Transmittance at 332 nm Transmittance at 333 nm Transmittance at 334 nm Transmittance at 335 nm Transmittance at 336 nm Transmittance at 337 nm Transmittance at 338 nm Transmittance at 339 nm Transmittance at 340 nm Transmittance at 341 nm Transmittance at 342 nm Transmittance at 343 nm Transmittance at 344 nm Transmittance at 345 nm Transmittance at 346 nm Transmittance at 347 nm Transmittance at 348 nm Transmittance at 349 nm Transmittance at 350 nm Transmittance at 351 nm Transmittance at 352 nm Transmittance at 353 nm Transmittance at 354 nm Transmittance at 355 nm Transmittance at 356 nm Transmittance at 357 nm Transmittance at 358 nm |
spellingShingle |
autonomous platform buoy drift lightchain snow depth solar radiation DATE/TIME LATITUDE LONGITUDE Transmittance Quality flag, sun elevation Transmittance at 320 nm Transmittance at 321 nm Transmittance at 322 nm Transmittance at 323 nm Transmittance at 324 nm Transmittance at 325 nm Transmittance at 326 nm Transmittance at 327 nm Transmittance at 328 nm Transmittance at 329 nm Transmittance at 330 nm Transmittance at 331 nm Transmittance at 332 nm Transmittance at 333 nm Transmittance at 334 nm Transmittance at 335 nm Transmittance at 336 nm Transmittance at 337 nm Transmittance at 338 nm Transmittance at 339 nm Transmittance at 340 nm Transmittance at 341 nm Transmittance at 342 nm Transmittance at 343 nm Transmittance at 344 nm Transmittance at 345 nm Transmittance at 346 nm Transmittance at 347 nm Transmittance at 348 nm Transmittance at 349 nm Transmittance at 350 nm Transmittance at 351 nm Transmittance at 352 nm Transmittance at 353 nm Transmittance at 354 nm Transmittance at 355 nm Transmittance at 356 nm Transmittance at 357 nm Transmittance at 358 nm Nicolaus, Marcel Anhaus, Philipp Hoppmann, Mario Tao, Ran Katlein, Christian Transmittance through sea ice from radiation station 2020R12 ... |
topic_facet |
autonomous platform buoy drift lightchain snow depth solar radiation DATE/TIME LATITUDE LONGITUDE Transmittance Quality flag, sun elevation Transmittance at 320 nm Transmittance at 321 nm Transmittance at 322 nm Transmittance at 323 nm Transmittance at 324 nm Transmittance at 325 nm Transmittance at 326 nm Transmittance at 327 nm Transmittance at 328 nm Transmittance at 329 nm Transmittance at 330 nm Transmittance at 331 nm Transmittance at 332 nm Transmittance at 333 nm Transmittance at 334 nm Transmittance at 335 nm Transmittance at 336 nm Transmittance at 337 nm Transmittance at 338 nm Transmittance at 339 nm Transmittance at 340 nm Transmittance at 341 nm Transmittance at 342 nm Transmittance at 343 nm Transmittance at 344 nm Transmittance at 345 nm Transmittance at 346 nm Transmittance at 347 nm Transmittance at 348 nm Transmittance at 349 nm Transmittance at 350 nm Transmittance at 351 nm Transmittance at 352 nm Transmittance at 353 nm Transmittance at 354 nm Transmittance at 355 nm Transmittance at 356 nm Transmittance at 357 nm Transmittance at 358 nm |
description |
Solar radiation over and under sea ice was measured by radiation station 2020R12, an autonomous platform, installed on drifting Second-Year-Ice (SYI) in the Arctic Ocean during MOSAiC (Leg 3) 2019/20. The resulting time series describes radiation measurements as a function of place and time between 24 April 2020 and 07 August 2020 in sample intervals of 1 hour. The radiation measurements have been performed with spectral radiometers. All data are given in full spectral resolution interpolated to 1.0 nm, and integrated over the entire wavelength range (broadband, total: 320 to 950 nm). Two sensors, solar irradiance and upward reflected solar irradiance, were mounted on a on a platform about 1 m above the sea ice surface. The third sensor was mounted 0.5 m underneath the sea ice measuring the downward transmitted irradiance. Along with the radiation measurements, this autonomous platform consisted of a lightchain, which measured counts of red, green and blue light at 49 positions at hourly intervals. In ... : The data set has been processed and contains quality flags for different kinds for erroneous data. Flag values are the sum of individual error codes. The value of 0 refers to no error.Quality flag, sun: If the suns position is close to the horizon, the radiometers measure a very noisy signal. Radiometer measurements and variables which are computed from them are flagged +1 if the sun elevation is below 10 degrees; +2 if the broad band albedo exceeds the threshold 1.05 . ... |
format |
Dataset |
author |
Nicolaus, Marcel Anhaus, Philipp Hoppmann, Mario Tao, Ran Katlein, Christian |
author_facet |
Nicolaus, Marcel Anhaus, Philipp Hoppmann, Mario Tao, Ran Katlein, Christian |
author_sort |
Nicolaus, Marcel |
title |
Transmittance through sea ice from radiation station 2020R12 ... |
title_short |
Transmittance through sea ice from radiation station 2020R12 ... |
title_full |
Transmittance through sea ice from radiation station 2020R12 ... |
title_fullStr |
Transmittance through sea ice from radiation station 2020R12 ... |
title_full_unstemmed |
Transmittance through sea ice from radiation station 2020R12 ... |
title_sort |
transmittance through sea ice from radiation station 2020r12 ... |
publisher |
PANGAEA |
publishDate |
2024 |
url |
https://dx.doi.org/10.1594/pangaea.948702 https://doi.pangaea.de/10.1594/PANGAEA.948702 |
genre |
albedo Arctic Ocean Sea ice |
genre_facet |
albedo Arctic Ocean Sea ice |
op_relation |
https://dx.doi.org/10.1594/pangaea.948712 |
op_rights |
Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 |
op_doi |
https://doi.org/10.1594/pangaea.94870210.1594/pangaea.948712 |
_version_ |
1810486698958651392 |