Nunataryuk field campaigns: understanding the origin and fate of terrestrial organic matter in the coastal waters of the Mackenzie Delta region

Martine Lizotte; Bennet Juhls; Atsushi Matsuoka; Philippe Massicotte; Gaëlle Mével; David Obie James Anikina; Sofia Antonova; Guislain Bécu; Marine Béguin; Simon Bélanger; Thomas Bossé-Demers; Lisa Bröder; Flavienne Bruyant; Gwénaëlle Chaillou; Jérôme Comte; Raoul Marie Couture; Emmanuel Devred; Gabrièle Deslongchamps; Thibaud Dezutter; Miles Dillon; David Doxaran; Aude Flamand; Frank Fell; Joannie Ferland; Marie Hélène Forget; Michael Fritz; Thomas J. Gordon; Caroline Guilmette; Andrea Hilborn; Rachel Hussherr; Charlotte Irish; Fabien Joux; Lauren Kipp; Audrey Laberge-Carignan; Hugues Lantuit; Edouard Leymarie; Antonio Mannino; Juliette Maury; Paul Overduin; Laurent Oziel; Colin Stedmon; Crystal Thomas; Lucas Tisserand; Jean Éric Tremblay; Jorien Vonk; Dustin Whalen; Marcel Babin

doi:10.5194/essd-15-1617-2023

Nunataryuk field campaigns: understanding the origin and fate of terrestrial organic matter in the coastal waters of the Mackenzie Delta region

Martine Lizotte^*
, Bennet Juhls
, Atsushi Matsuoka
, Philippe Massicotte
, Gaëlle Mével
, David Obie James Anikina
, Sofia Antonova
, Guislain Bécu
, Marine Béguin
, Simon Bélanger
, Thomas Bossé-Demers
, Lisa Bröder
, Flavienne Bruyant
, Gwénaëlle Chaillou
, Jérôme Comte
, Raoul Marie Couture
, Emmanuel Devred
, Gabrièle Deslongchamps
, Thibaud Dezutter
, Miles Dillon

David Doxaran, Aude Flamand, Frank Fell, Joannie Ferland, Marie Hélène Forget, Michael Fritz, Thomas J. Gordon, Caroline Guilmette, Andrea Hilborn, Rachel Hussherr, Charlotte Irish, Fabien Joux, Lauren Kipp, Audrey Laberge-Carignan, Hugues Lantuit, Edouard Leymarie, Antonio Mannino, Juliette Maury, Paul Overduin, Laurent Oziel, Colin Stedmon, Crystal Thomas, Lucas Tisserand, Jean Éric Tremblay, Jorien Vonk, Dustin Whalen, Marcel Babin

^*Corresponding author for this work

Earth and Climate

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Climate warming and related drivers of soil thermal change in the Arctic are expected to modify the distribution and dynamics of carbon contained in perennially frozen grounds. Thawing of permafrost in the Mackenzie River watershed of northwestern Canada, coupled with increases in river discharge and coastal erosion, triggers the release of terrestrial organic matter (OMt) from the largest Arctic drainage basin in North America into the Arctic Ocean. While this process is ongoing and its rate is accelerating, the fate of the newly mobilized organic matter as it transits from the watershed through the delta and into the marine system remains poorly understood. In the framework of the European Horizon 2020 Nunataryuk programme, and as part of the Work Package 4 (WP4) Coastal Waters theme, four field expeditions were conducted in the Mackenzie Delta region and southern Beaufort Sea from April to September 2019. The temporal sampling design allowed the survey of ambient conditions in the coastal waters under full ice cover prior to the spring freshet, during ice breakup in summer, and anterior to the freeze-up period in fall. To capture the fluvial-marine transition zone, and with distinct challenges related to shallow waters and changing seasonal and meteorological conditions, the field sampling was conducted in close partnership with members of the communities of Aklavik, Inuvik and Tuktoyaktuk, using several platforms, namely helicopters, snowmobiles, and small boats. Water column profiles of physical and optical variables were measured in situ, while surface water, groundwater, and sediment samples were collected and preserved for the determination of the composition and sources of OMt, including particulate and dissolved organic carbon (POC and DOC), and colored dissolved organic matter (CDOM), as well as a suite of physical, chemical, and biological variables. Here we present an overview of the standardized datasets, including hydrographic profiles, remote sensing reflectance, temperature and salinity, particle absorption, nutrients, dissolved organic carbon, particulate organic carbon, particulate organic nitrogen, CDOM absorption, fluorescent dissolved organic matter intensity, suspended particulate matter, total particulate carbon, total particulate nitrogen, stable water isotopes, radon in water, bacterial abundance, and a string of phytoplankton pigments including total chlorophyll. Datasets and related metadata can be found in (10.1594/PANGAEA.937587).

Original language	English
Pages (from-to)	1617–1653
Number of pages	37
Journal	Earth System Science Data
Volume	15
Issue number	4
Early online date	13 Apr 2023
DOIs	https://doi.org/10.5194/essd-15-1617-2023
Publication status	Published - Apr 2023

Bibliographical note

Funding Information:
Financial support for this project has been provided by the European Research and Innovation programme Horizon 2020 to the Nunataryuk project (grant no. 773421), by the Network of Centers of Excellence of Canada ArcticNet (grant no. P-66), by Québec-Océan, funded through the Fonds de Recherche du Québec – Nature et Technologies, by the Sentinel North initiative funded through the Canada First Research Excellence Fund, by the Aurora Research Institute – Aurora College, by the Goddard Space Flight Center (grant nos. 281945 and 720817), and through the leadership of the Canada Excellence Research Chair in Remote Sensing of Canada's New Arctic Frontier. The Department of Fisheries and Oceans Canada supported the project through the Arctic Science Funds program. Fungal and bacterial abundance analyses were supported by the RESTORE project funded by the French National Research Agency (contract no. ANR-19-CE32-0013). HPLC analysis was supported by NASA under the Earth Science Division research and analysis programs (grant no. 281945, Remote Sensing of Water Quality; grant no. 720817, Terra and Aqua MODIS). Bennet Juhls has been funded by the European Space Agency (ESA) as part of the Climate Change Initiative (CCI) fellowship (ESA ESRIN; contract no. 4000l3376l/2l/I-NB). The authors received additional funding and in-kind support from Natural Resources Canada (Climate Change Geoscience Program and Polar Continental Shelf Program; grant no. 007-19), for logistics support (equipment and helicopter time) during the groundwater field program, and Crown–Indigenous Relations and Northern Affairs Canada (Climate Change Preparedness in the North program, CCPN grant no. CCPN PN-NT-077-2018; Beaufort Sea Regional Strategic Environmental Assessment Program, BRSEA agreement no. 239) in the form of support during the field programs (accommodation and travel expenses) and consultation tour of the ISR (March 2019).

Publisher Copyright:
© 2023 Copernicus GmbH. All rights reserved.

Funding

Financial support for this project has been provided by the European Research and Innovation programme Horizon 2020 to the Nunataryuk project (grant no. 773421), by the Network of Centers of Excellence of Canada ArcticNet (grant no. P-66), by Québec-Océan, funded through the Fonds de Recherche du Québec – Nature et Technologies, by the Sentinel North initiative funded through the Canada First Research Excellence Fund, by the Aurora Research Institute – Aurora College, by the Goddard Space Flight Center (grant nos. 281945 and 720817), and through the leadership of the Canada Excellence Research Chair in Remote Sensing of Canada's New Arctic Frontier. The Department of Fisheries and Oceans Canada supported the project through the Arctic Science Funds program. Fungal and bacterial abundance analyses were supported by the RESTORE project funded by the French National Research Agency (contract no. ANR-19-CE32-0013). HPLC analysis was supported by NASA under the Earth Science Division research and analysis programs (grant no. 281945, Remote Sensing of Water Quality; grant no. 720817, Terra and Aqua MODIS). Bennet Juhls has been funded by the European Space Agency (ESA) as part of the Climate Change Initiative (CCI) fellowship (ESA ESRIN; contract no. 4000l3376l/2l/I-NB). The authors received additional funding and in-kind support from Natural Resources Canada (Climate Change Geoscience Program and Polar Continental Shelf Program; grant no. 007-19), for logistics support (equipment and helicopter time) during the groundwater field program, and Crown–Indigenous Relations and Northern Affairs Canada (Climate Change Preparedness in the North program, CCPN grant no. CCPN PN-NT-077-2018; Beaufort Sea Regional Strategic Environmental Assessment Program, BRSEA agreement no. 239) in the form of support during the field programs (accommodation and travel expenses) and consultation tour of the ISR (March 2019).

Funders	Funder number
Aurora College
Canada Excellence Research Chair in Remote Sensing of Canada's New Arctic Frontier
Climate Change Initiative	4000l3376l/2l/I-NB
European Research and Innovation programme Horizon 2020	773421
Network of Centers of Excellence of Canada ArcticNet
Remote Sensing of Water Quality
National Aeronautics and Space Administration
Goddard Space Flight Center	281945, 720817
Goddard Space Flight Center
Aurora Research Institute
Institute for Scientific Research, Boston College
Fisheries and Oceans Canada
Natural Resources Canada	007-19
Natural Resources Canada
European Space Agency
Agence Nationale de la Recherche	ANR-19-CE32-0013
Agence Nationale de la Recherche
Fonds de recherche du Québec – Nature et technologies
Canada First Research Excellence Fund
Crown-Indigenous Relations and Northern Affairs Canada	239
Crown-Indigenous Relations and Northern Affairs Canada

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 14 Life Below Water

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10.5194/essd-15-1617-2023Licence: CC BY

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Cite this

Lizotte, M., Juhls, B., Matsuoka, A., Massicotte, P., Mével, G., Anikina, D. O. J., Antonova, S., Bécu, G., Béguin, M., Bélanger, S., Bossé-Demers, T., Bröder, L., Bruyant, F., Chaillou, G., Comte, J., Couture, R. M., Devred, E., Deslongchamps, G., Dezutter, T., ... Babin, M. (2023). 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, 15(4), 1617–1653. https://doi.org/10.5194/essd-15-1617-2023

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title = "Nunataryuk field campaigns: understanding the origin and fate of terrestrial organic matter in the coastal waters of the Mackenzie Delta region",

abstract = "Climate warming and related drivers of soil thermal change in the Arctic are expected to modify the distribution and dynamics of carbon contained in perennially frozen grounds. Thawing of permafrost in the Mackenzie River watershed of northwestern Canada, coupled with increases in river discharge and coastal erosion, triggers the release of terrestrial organic matter (OMt) from the largest Arctic drainage basin in North America into the Arctic Ocean. While this process is ongoing and its rate is accelerating, the fate of the newly mobilized organic matter as it transits from the watershed through the delta and into the marine system remains poorly understood. In the framework of the European Horizon 2020 Nunataryuk programme, and as part of the Work Package 4 (WP4) Coastal Waters theme, four field expeditions were conducted in the Mackenzie Delta region and southern Beaufort Sea from April to September 2019. The temporal sampling design allowed the survey of ambient conditions in the coastal waters under full ice cover prior to the spring freshet, during ice breakup in summer, and anterior to the freeze-up period in fall. To capture the fluvial-marine transition zone, and with distinct challenges related to shallow waters and changing seasonal and meteorological conditions, the field sampling was conducted in close partnership with members of the communities of Aklavik, Inuvik and Tuktoyaktuk, using several platforms, namely helicopters, snowmobiles, and small boats. Water column profiles of physical and optical variables were measured in situ, while surface water, groundwater, and sediment samples were collected and preserved for the determination of the composition and sources of OMt, including particulate and dissolved organic carbon (POC and DOC), and colored dissolved organic matter (CDOM), as well as a suite of physical, chemical, and biological variables. Here we present an overview of the standardized datasets, including hydrographic profiles, remote sensing reflectance, temperature and salinity, particle absorption, nutrients, dissolved organic carbon, particulate organic carbon, particulate organic nitrogen, CDOM absorption, fluorescent dissolved organic matter intensity, suspended particulate matter, total particulate carbon, total particulate nitrogen, stable water isotopes, radon in water, bacterial abundance, and a string of phytoplankton pigments including total chlorophyll. Datasets and related metadata can be found in (10.1594/PANGAEA.937587).",

author = "Martine Lizotte and Bennet Juhls and Atsushi Matsuoka and Philippe Massicotte and Ga{\"e}lle M{\'e}vel and Anikina, \{David Obie James\} and Sofia Antonova and Guislain B{\'e}cu and Marine B{\'e}guin and Simon B{\'e}langer and Thomas Boss{\'e}-Demers and Lisa Br{\"o}der and Flavienne Bruyant and Gw{\'e}na{\"e}lle Chaillou and J{\'e}r{\^o}me Comte and Couture, \{Raoul Marie\} and Emmanuel Devred and Gabri{\`e}le Deslongchamps and Thibaud Dezutter and Miles Dillon and David Doxaran and Aude Flamand and Frank Fell and Joannie Ferland and Forget, \{Marie H{\'e}l{\`e}ne\} and Michael Fritz and Gordon, \{Thomas J.\} and Caroline Guilmette and Andrea Hilborn and Rachel Hussherr and Charlotte Irish and Fabien Joux and Lauren Kipp and Audrey Laberge-Carignan and Hugues Lantuit and Edouard Leymarie and Antonio Mannino and Juliette Maury and Paul Overduin and Laurent Oziel and Colin Stedmon and Crystal Thomas and Lucas Tisserand and Tremblay, \{Jean {\'E}ric\} and Jorien Vonk and Dustin Whalen and Marcel Babin",

note = "Funding Information: Financial support for this project has been provided by the European Research and Innovation programme Horizon 2020 to the Nunataryuk project (grant no. 773421), by the Network of Centers of Excellence of Canada ArcticNet (grant no. P-66), by Qu{\'e}bec-Oc{\'e}an, funded through the Fonds de Recherche du Qu{\'e}bec – Nature et Technologies, by the Sentinel North initiative funded through the Canada First Research Excellence Fund, by the Aurora Research Institute – Aurora College, by the Goddard Space Flight Center (grant nos. 281945 and 720817), and through the leadership of the Canada Excellence Research Chair in Remote Sensing of Canada's New Arctic Frontier. The Department of Fisheries and Oceans Canada supported the project through the Arctic Science Funds program. Fungal and bacterial abundance analyses were supported by the RESTORE project funded by the French National Research Agency (contract no. ANR-19-CE32-0013). HPLC analysis was supported by NASA under the Earth Science Division research and analysis programs (grant no. 281945, Remote Sensing of Water Quality; grant no. 720817, Terra and Aqua MODIS). Bennet Juhls has been funded by the European Space Agency (ESA) as part of the Climate Change Initiative (CCI) fellowship (ESA ESRIN; contract no. 4000l3376l/2l/I-NB). The authors received additional funding and in-kind support from Natural Resources Canada (Climate Change Geoscience Program and Polar Continental Shelf Program; grant no. 007-19), for logistics support (equipment and helicopter time) during the groundwater field program, and Crown–Indigenous Relations and Northern Affairs Canada (Climate Change Preparedness in the North program, CCPN grant no. CCPN PN-NT-077-2018; Beaufort Sea Regional Strategic Environmental Assessment Program, BRSEA agreement no. 239) in the form of support during the field programs (accommodation and travel expenses) and consultation tour of the ISR (March 2019). Publisher Copyright: {\textcopyright} 2023 Copernicus GmbH. All rights reserved.",

year = "2023",

month = apr,

doi = "10.5194/essd-15-1617-2023",

language = "English",

volume = "15",

pages = "1617–1653",

journal = "Earth System Science Data",

issn = "1866-3508",

publisher = "Copernicus Publications",

number = "4",

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Lizotte, M, Juhls, B, Matsuoka, A, Massicotte, P, Mével, G, Anikina, DOJ, Antonova, S, Bécu, G, Béguin, M, Bélanger, S, Bossé-Demers, T, Bröder, L, Bruyant, F, Chaillou, G, Comte, J, Couture, RM, Devred, E, Deslongchamps, G, Dezutter, T, Dillon, M, Doxaran, D, Flamand, A, Fell, F, Ferland, J, Forget, MH, Fritz, M, Gordon, TJ, Guilmette, C, Hilborn, A, Hussherr, R, Irish, C, Joux, F, Kipp, L, Laberge-Carignan, A, Lantuit, H, Leymarie, E, Mannino, A, Maury, J, Overduin, P, Oziel, L, Stedmon, C, Thomas, C, Tisserand, L, Tremblay, JÉ, Vonk, J, Whalen, D & Babin, M 2023, '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, vol. 15, no. 4, pp. 1617–1653. https://doi.org/10.5194/essd-15-1617-2023

TY - JOUR

T1 - Nunataryuk field campaigns

T2 - understanding the origin and fate of terrestrial organic matter in the coastal waters of the Mackenzie Delta region

AU - Lizotte, Martine

AU - Juhls, Bennet

AU - Matsuoka, Atsushi

AU - Massicotte, Philippe

AU - Mével, Gaëlle

AU - Anikina, David Obie James

AU - Antonova, Sofia

AU - Bécu, Guislain

AU - Béguin, Marine

AU - Bélanger, Simon

AU - Bossé-Demers, Thomas

AU - Bröder, Lisa

AU - Bruyant, Flavienne

AU - Chaillou, Gwénaëlle

AU - Comte, Jérôme

AU - Couture, Raoul Marie

AU - Devred, Emmanuel

AU - Deslongchamps, Gabrièle

AU - Dezutter, Thibaud

AU - Dillon, Miles

AU - Doxaran, David

AU - Flamand, Aude

AU - Fell, Frank

AU - Ferland, Joannie

AU - Forget, Marie Hélène

AU - Fritz, Michael

AU - Gordon, Thomas J.

AU - Guilmette, Caroline

AU - Hilborn, Andrea

AU - Hussherr, Rachel

AU - Irish, Charlotte

AU - Joux, Fabien

AU - Kipp, Lauren

AU - Laberge-Carignan, Audrey

AU - Lantuit, Hugues

AU - Leymarie, Edouard

AU - Mannino, Antonio

AU - Maury, Juliette

AU - Overduin, Paul

AU - Oziel, Laurent

AU - Stedmon, Colin

AU - Thomas, Crystal

AU - Tisserand, Lucas

AU - Tremblay, Jean Éric

AU - Vonk, Jorien

AU - Whalen, Dustin

AU - Babin, Marcel

N1 - Funding Information: Financial support for this project has been provided by the European Research and Innovation programme Horizon 2020 to the Nunataryuk project (grant no. 773421), by the Network of Centers of Excellence of Canada ArcticNet (grant no. P-66), by Québec-Océan, funded through the Fonds de Recherche du Québec – Nature et Technologies, by the Sentinel North initiative funded through the Canada First Research Excellence Fund, by the Aurora Research Institute – Aurora College, by the Goddard Space Flight Center (grant nos. 281945 and 720817), and through the leadership of the Canada Excellence Research Chair in Remote Sensing of Canada's New Arctic Frontier. The Department of Fisheries and Oceans Canada supported the project through the Arctic Science Funds program. Fungal and bacterial abundance analyses were supported by the RESTORE project funded by the French National Research Agency (contract no. ANR-19-CE32-0013). HPLC analysis was supported by NASA under the Earth Science Division research and analysis programs (grant no. 281945, Remote Sensing of Water Quality; grant no. 720817, Terra and Aqua MODIS). Bennet Juhls has been funded by the European Space Agency (ESA) as part of the Climate Change Initiative (CCI) fellowship (ESA ESRIN; contract no. 4000l3376l/2l/I-NB). The authors received additional funding and in-kind support from Natural Resources Canada (Climate Change Geoscience Program and Polar Continental Shelf Program; grant no. 007-19), for logistics support (equipment and helicopter time) during the groundwater field program, and Crown–Indigenous Relations and Northern Affairs Canada (Climate Change Preparedness in the North program, CCPN grant no. CCPN PN-NT-077-2018; Beaufort Sea Regional Strategic Environmental Assessment Program, BRSEA agreement no. 239) in the form of support during the field programs (accommodation and travel expenses) and consultation tour of the ISR (March 2019). Publisher Copyright: © 2023 Copernicus GmbH. All rights reserved.

PY - 2023/4

Y1 - 2023/4

N2 - Climate warming and related drivers of soil thermal change in the Arctic are expected to modify the distribution and dynamics of carbon contained in perennially frozen grounds. Thawing of permafrost in the Mackenzie River watershed of northwestern Canada, coupled with increases in river discharge and coastal erosion, triggers the release of terrestrial organic matter (OMt) from the largest Arctic drainage basin in North America into the Arctic Ocean. While this process is ongoing and its rate is accelerating, the fate of the newly mobilized organic matter as it transits from the watershed through the delta and into the marine system remains poorly understood. In the framework of the European Horizon 2020 Nunataryuk programme, and as part of the Work Package 4 (WP4) Coastal Waters theme, four field expeditions were conducted in the Mackenzie Delta region and southern Beaufort Sea from April to September 2019. The temporal sampling design allowed the survey of ambient conditions in the coastal waters under full ice cover prior to the spring freshet, during ice breakup in summer, and anterior to the freeze-up period in fall. To capture the fluvial-marine transition zone, and with distinct challenges related to shallow waters and changing seasonal and meteorological conditions, the field sampling was conducted in close partnership with members of the communities of Aklavik, Inuvik and Tuktoyaktuk, using several platforms, namely helicopters, snowmobiles, and small boats. Water column profiles of physical and optical variables were measured in situ, while surface water, groundwater, and sediment samples were collected and preserved for the determination of the composition and sources of OMt, including particulate and dissolved organic carbon (POC and DOC), and colored dissolved organic matter (CDOM), as well as a suite of physical, chemical, and biological variables. Here we present an overview of the standardized datasets, including hydrographic profiles, remote sensing reflectance, temperature and salinity, particle absorption, nutrients, dissolved organic carbon, particulate organic carbon, particulate organic nitrogen, CDOM absorption, fluorescent dissolved organic matter intensity, suspended particulate matter, total particulate carbon, total particulate nitrogen, stable water isotopes, radon in water, bacterial abundance, and a string of phytoplankton pigments including total chlorophyll. Datasets and related metadata can be found in (10.1594/PANGAEA.937587).

AB - Climate warming and related drivers of soil thermal change in the Arctic are expected to modify the distribution and dynamics of carbon contained in perennially frozen grounds. Thawing of permafrost in the Mackenzie River watershed of northwestern Canada, coupled with increases in river discharge and coastal erosion, triggers the release of terrestrial organic matter (OMt) from the largest Arctic drainage basin in North America into the Arctic Ocean. While this process is ongoing and its rate is accelerating, the fate of the newly mobilized organic matter as it transits from the watershed through the delta and into the marine system remains poorly understood. In the framework of the European Horizon 2020 Nunataryuk programme, and as part of the Work Package 4 (WP4) Coastal Waters theme, four field expeditions were conducted in the Mackenzie Delta region and southern Beaufort Sea from April to September 2019. The temporal sampling design allowed the survey of ambient conditions in the coastal waters under full ice cover prior to the spring freshet, during ice breakup in summer, and anterior to the freeze-up period in fall. To capture the fluvial-marine transition zone, and with distinct challenges related to shallow waters and changing seasonal and meteorological conditions, the field sampling was conducted in close partnership with members of the communities of Aklavik, Inuvik and Tuktoyaktuk, using several platforms, namely helicopters, snowmobiles, and small boats. Water column profiles of physical and optical variables were measured in situ, while surface water, groundwater, and sediment samples were collected and preserved for the determination of the composition and sources of OMt, including particulate and dissolved organic carbon (POC and DOC), and colored dissolved organic matter (CDOM), as well as a suite of physical, chemical, and biological variables. Here we present an overview of the standardized datasets, including hydrographic profiles, remote sensing reflectance, temperature and salinity, particle absorption, nutrients, dissolved organic carbon, particulate organic carbon, particulate organic nitrogen, CDOM absorption, fluorescent dissolved organic matter intensity, suspended particulate matter, total particulate carbon, total particulate nitrogen, stable water isotopes, radon in water, bacterial abundance, and a string of phytoplankton pigments including total chlorophyll. Datasets and related metadata can be found in (10.1594/PANGAEA.937587).

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ER -

Nunataryuk field campaigns: understanding the origin and fate of terrestrial organic matter in the coastal waters of the Mackenzie Delta region

Abstract

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UN SDGs

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