Remote sensing reflectance (Rrs) of the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019

Vertical profiles of downwelling irradiance (Ed) and upwelling radiance (Lu) were measured during legs 2, 3, and 4 using a Compact-Optical Profiling System (C-OPS) in an ICE-Pro frame from Biospherical Instruments, Inc. (for a detailed description see Morrow et al. 2010 (see further details)). Addit...

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Main Authors: Matsuoka, Atsushi, Juhls, Bennet, Bécu, Guislain, Oziel, Laurent, Leymarie, Edouard, Lizotte, Martine, Ferland, Joannie, Doxaran, David, Maury, Juliette, Babin, Marcel
Format: Dataset
Language:English
Published: PANGAEA 2021
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Arctic
Mackenzie Delta
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.937583
https://doi.org/10.1594/PANGAEA.937583
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Matsuoka, Atsushi
Juhls, Bennet
Bécu, Guislain
Oziel, Laurent
Leymarie, Edouard
Lizotte, Martine
Ferland, Joannie
Doxaran, David
Maury, Juliette
Babin, Marcel
Remote sensing reflectance (Rrs) of the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019
topic_facet 1_STN01
1_STN020
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description Vertical profiles of downwelling irradiance (Ed) and upwelling radiance (Lu) were measured during legs 2, 3, and 4 using a Compact-Optical Profiling System (C-OPS) in an ICE-Pro frame from Biospherical Instruments, Inc. (for a detailed description see Morrow et al. 2010 (see further details)). Additionally, above-surface incident downward irradiance (Es(0+)) was measured at about two meters above sea level and was used to correct in-water Ed and Lu for changes in the incident light field during Lu profiling (Zibordi et al., 2019; doi:10.25607/OBP-691). All radiometric quantities were measured at 19 wavelengths spanning from 380 to 875 nm. In-water profiles were obtained from the boat using a 3 m long pole, deployed towards the sun to avoid shading from the boat. The data that were acquired with a tilt of more than 5 degrees were discarded (Hooker et al., 2013; doi:10.5194/bg-10-4511-2013). Due to the high absorption and scattering coefficients in the sampled waters and considering relatively large dimensions of the ICE-Pro, self-shading correction was not negligible. Absorption observed in the present study were mostly outside the limits examined by Gordon and Ding (1992; doi:10.4319/lo.1992.37.3.0491), suggesting the application of the correction questionable. To overcome this issue, we performed Monte-Carlo simulations using the SimulO software (Leymarie et al., 2010; doi:10.1364/AO.49.005415) for examining the self-shading correction factor on Lu at null depth (Gerbi et al., 2016 (doi:10.1175/JTECH-D-16-0067.1); Leymarie et al., 2018 (doi:10.3389/fmars.2018.00437)). The exact dimensions of the ICE-Pro were simulated and virtually placed at a depth of 0.5 m. A wide range of IOPs was considered to cover the conditions encountered in the field. The simulations provide a robust relationship between the computed self-shading and the quantity x = a + bb, where a is the total measured absorption coefficient (i.e., the contributions of pure water, CDOM, algal and non-algal particles) and bb is the total ...
format Dataset
author Matsuoka, Atsushi
Juhls, Bennet
Bécu, Guislain
Oziel, Laurent
Leymarie, Edouard
Lizotte, Martine
Ferland, Joannie
Doxaran, David
Maury, Juliette
Babin, Marcel
author_facet Matsuoka, Atsushi
Juhls, Bennet
Bécu, Guislain
Oziel, Laurent
Leymarie, Edouard
Lizotte, Martine
Ferland, Joannie
Doxaran, David
Maury, Juliette
Babin, Marcel
author_sort Matsuoka, Atsushi
title Remote sensing reflectance (Rrs) of the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019
title_short Remote sensing reflectance (Rrs) of the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019
title_full Remote sensing reflectance (Rrs) of the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019
title_fullStr Remote sensing reflectance (Rrs) of the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019
title_full_unstemmed Remote sensing reflectance (Rrs) of the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019
title_sort remote sensing reflectance (rrs) of the surface water of the mackenzie delta region during 4 expeditions from spring to fall in 2019
publisher PANGAEA
publishDate 2021
url https://doi.pangaea.de/10.1594/PANGAEA.937583
https://doi.org/10.1594/PANGAEA.937583
op_coverage MEDIAN LATITUDE: 69.101251 * MEDIAN LONGITUDE: -134.991317 * SOUTH-BOUND LATITUDE: 68.264050 * WEST-BOUND LONGITUDE: -138.135120 * NORTH-BOUND LATITUDE: 69.648520 * EAST-BOUND LONGITUDE: -133.031410 * DATE/TIME START: 2019-04-20T15:34:00 * DATE/TIME END: 2019-09-08T12:00:00
long_lat ENVELOPE(-138.135120,-133.031410,69.648520,68.264050)
genre Arctic
Mackenzie Delta
genre_facet Arctic
Mackenzie Delta
op_relation https://doi.org/10.1594/PANGAEA.937587
Juhls, Bennet; Matsuoka, Atsushi; Lizotte, Martine; Mével, Gaëlle; Bécu, Guislain; Overduin, Pier Paul; El-Kassar, Jan; Devred, Emmanuel; Doxaran, David; Ferland, Joannie; Forget, Marie-Hélène; Hilborn, Andrea; Leymarie, Edouard; Maury, Juliette; Oziel, Laurent; Tisserand, Lucas; Babin, Marcel (accepted): Seasonal dynamics of dissolved organic matter of the Mackenzie Delta, Canadian Arctic waters: implications for ocean colour remote sensing.
Lizotte, Martine; Juhls, Bennet; Matsuoka, Atsushi; Massicotte, Philippe; Mével, Gaëlle; Anikina, David Obie James; Antonova, Sofia; Bécu, Guislain; Béguin, Marine; Bélanger, Simon; Bossé-Demers, Thomas; Bröder, Lisa; Bruyant, Flavienne; Chaillou, Gwénaëlle; Comte, Jérôme; Couture, Raoul-Marie; Devred, Emmanuel; Deslongchamps, Gabrièle; Dezutter, Thibaud; Dillon, Miles; Doxaran, David; Eglinton, Timothy Ian; Flamand, Aude; Fell, Frank; Ferland, Joannie; Forget, Marie-Hélène; Fritz, Michael; Gordon, Thomas J; Guilmette, Caroline; Hilborn, Andrea; Hussherr, Rachel; Irish, Charlotte; Joux, Fabien; Kipp, Lauren; Laberge-Carignan, Audrey; Lantuit, Hugues; Leymarie, Edouard; Mannino, Antonio; Maury, Juliette; Overduin, Pier Paul; Oziel, Laurent; Stedmon, Colin A; Thomas, Crystal S; Tisserand, Lucas; Tremblay, Jean-Éric; Vonk, Jorien E; Whalen, Dustin; Babin, Marcel (in review): Nunataryuk field campaigns: Understanding the origin and fate of terrestrial organic matter in the coastal waters of the Mackenzie Delta region. Earth System Science Data (ESSD) preprint, https://doi.org/10.5194/essd-2022-163
Morrow, John H; Hooker, Stanford B; Booth, C R; Bernhard, Germar; Lind, Randall N; Brown, lames W (2010): Advances in Measuring the Apparent Optical Properties (AOPs) of Optically Complex Waters. NASA Center for AeroSpace Information, https://ntrs.nasa.gov/api/citations/20110008342/downloads/20110008342.pdf
https://doi.pangaea.de/10.1594/PANGAEA.937583
https://doi.org/10.1594/PANGAEA.937583
op_rights CC-BY-4.0: Creative Commons Attribution 4.0 International
Access constraints: unrestricted
info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1594/PANGAEA.93758310.1594/PANGAEA.93758710.5194/essd-2022-163
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spelling ftpangaea:oai:pangaea.de:doi:10.1594/PANGAEA.937583 2024-09-15T17:52:01+00:00 Remote sensing reflectance (Rrs) of the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019 Matsuoka, Atsushi Juhls, Bennet Bécu, Guislain Oziel, Laurent Leymarie, Edouard Lizotte, Martine Ferland, Joannie Doxaran, David Maury, Juliette Babin, Marcel MEDIAN LATITUDE: 69.101251 * MEDIAN LONGITUDE: -134.991317 * SOUTH-BOUND LATITUDE: 68.264050 * WEST-BOUND LONGITUDE: -138.135120 * NORTH-BOUND LATITUDE: 69.648520 * EAST-BOUND LONGITUDE: -133.031410 * DATE/TIME START: 2019-04-20T15:34:00 * DATE/TIME END: 2019-09-08T12:00:00 2021 text/tab-separated-values, 856 data points https://doi.pangaea.de/10.1594/PANGAEA.937583 https://doi.org/10.1594/PANGAEA.937583 en eng PANGAEA https://doi.org/10.1594/PANGAEA.937587 Juhls, Bennet; Matsuoka, Atsushi; Lizotte, Martine; Mével, Gaëlle; Bécu, Guislain; Overduin, Pier Paul; El-Kassar, Jan; Devred, Emmanuel; Doxaran, David; Ferland, Joannie; Forget, Marie-Hélène; Hilborn, Andrea; Leymarie, Edouard; Maury, Juliette; Oziel, Laurent; Tisserand, Lucas; Babin, Marcel (accepted): Seasonal dynamics of dissolved organic matter of the Mackenzie Delta, Canadian Arctic waters: implications for ocean colour remote sensing. Lizotte, Martine; Juhls, Bennet; Matsuoka, Atsushi; Massicotte, Philippe; Mével, Gaëlle; Anikina, David Obie James; Antonova, Sofia; Bécu, Guislain; Béguin, Marine; Bélanger, Simon; Bossé-Demers, Thomas; Bröder, Lisa; Bruyant, Flavienne; Chaillou, Gwénaëlle; Comte, Jérôme; Couture, Raoul-Marie; Devred, Emmanuel; Deslongchamps, Gabrièle; Dezutter, Thibaud; Dillon, Miles; Doxaran, David; Eglinton, Timothy Ian; Flamand, Aude; Fell, Frank; Ferland, Joannie; Forget, Marie-Hélène; Fritz, Michael; Gordon, Thomas J; Guilmette, Caroline; Hilborn, Andrea; Hussherr, Rachel; Irish, Charlotte; Joux, Fabien; Kipp, Lauren; Laberge-Carignan, Audrey; Lantuit, Hugues; Leymarie, Edouard; Mannino, Antonio; Maury, Juliette; Overduin, Pier Paul; Oziel, Laurent; Stedmon, Colin A; Thomas, Crystal S; Tisserand, Lucas; Tremblay, Jean-Éric; Vonk, Jorien E; Whalen, Dustin; Babin, Marcel (in review): Nunataryuk field campaigns: Understanding the origin and fate of terrestrial organic matter in the coastal waters of the Mackenzie Delta region. Earth System Science Data (ESSD) preprint, https://doi.org/10.5194/essd-2022-163 Morrow, John H; Hooker, Stanford B; Booth, C R; Bernhard, Germar; Lind, Randall N; Brown, lames W (2010): Advances in Measuring the Apparent Optical Properties (AOPs) of Optically Complex Waters. NASA Center for AeroSpace Information, https://ntrs.nasa.gov/api/citations/20110008342/downloads/20110008342.pdf https://doi.pangaea.de/10.1594/PANGAEA.937583 https://doi.org/10.1594/PANGAEA.937583 CC-BY-4.0: Creative Commons Attribution 4.0 International Access constraints: unrestricted info:eu-repo/semantics/openAccess 1_STN01 1_STN020 1_STN040 1_STN0a 1_STN0b 1_STN140alt 1_STN150alt 1_STN340alt 1_STN350 1_STN360 1_STN370alt 1_STN380alt 1_STN540alt 1_STN550 1_STN740 1_STN810 1_STN830 1_STN840 1_STN850 1_STN860 1_STN870 2_STN030 2_STN040 2_STN1030 2_STN1040 2_STN1050 2_STN1060 2_STN110 2_STN120 2_STN140alt 2_STN150alt 2_STN310 2_STN320 2_STN330 2_STN340alt 2_STN350 2_STN360 2_STN370 2_STN380alt_2 2_STN420 2_STN430 2_STN450 2_STN530 2_STN540alt 2_STN550 2_STN565 2_STN620 2_STN630 2_STN740 2_STN800 dataset 2021 ftpangaea https://doi.org/10.1594/PANGAEA.93758310.1594/PANGAEA.93758710.5194/essd-2022-163 2024-07-24T02:31:42Z Vertical profiles of downwelling irradiance (Ed) and upwelling radiance (Lu) were measured during legs 2, 3, and 4 using a Compact-Optical Profiling System (C-OPS) in an ICE-Pro frame from Biospherical Instruments, Inc. (for a detailed description see Morrow et al. 2010 (see further details)). Additionally, above-surface incident downward irradiance (Es(0+)) was measured at about two meters above sea level and was used to correct in-water Ed and Lu for changes in the incident light field during Lu profiling (Zibordi et al., 2019; doi:10.25607/OBP-691). All radiometric quantities were measured at 19 wavelengths spanning from 380 to 875 nm. In-water profiles were obtained from the boat using a 3 m long pole, deployed towards the sun to avoid shading from the boat. The data that were acquired with a tilt of more than 5 degrees were discarded (Hooker et al., 2013; doi:10.5194/bg-10-4511-2013). Due to the high absorption and scattering coefficients in the sampled waters and considering relatively large dimensions of the ICE-Pro, self-shading correction was not negligible. Absorption observed in the present study were mostly outside the limits examined by Gordon and Ding (1992; doi:10.4319/lo.1992.37.3.0491), suggesting the application of the correction questionable. To overcome this issue, we performed Monte-Carlo simulations using the SimulO software (Leymarie et al., 2010; doi:10.1364/AO.49.005415) for examining the self-shading correction factor on Lu at null depth (Gerbi et al., 2016 (doi:10.1175/JTECH-D-16-0067.1); Leymarie et al., 2018 (doi:10.3389/fmars.2018.00437)). The exact dimensions of the ICE-Pro were simulated and virtually placed at a depth of 0.5 m. A wide range of IOPs was considered to cover the conditions encountered in the field. The simulations provide a robust relationship between the computed self-shading and the quantity x = a + bb, where a is the total measured absorption coefficient (i.e., the contributions of pure water, CDOM, algal and non-algal particles) and bb is the total ... Dataset Arctic Mackenzie Delta PANGAEA - Data Publisher for Earth & Environmental Science ENVELOPE(-138.135120,-133.031410,69.648520,68.264050)

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