Inland waters and their role in the carbon cycle of Alaska

Abstract The magnitude of Alaska ( AK ) inland waters carbon (C) fluxes is likely to change in the future due to amplified climate warming impacts on the hydrology and biogeochemical processes in high latitude regions. Although current estimates of major aquatic C fluxes represent an essential basel...

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Published in:Ecological Applications
Main Authors: Stackpoole, Sarah M., Butman, David E., Clow, David W., Verdin, Kristine L., Gaglioti, Benjamin V., Genet, Hélène, Striegl, Robert G.
Other Authors: U.S. Geological Survey, National Research Program for Biopharmaceuticals
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2017
Subjects:
Climate change
north slope
Alaska
Yukon
Online Access:http://dx.doi.org/10.1002/eap.1552
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spelling crwiley:10.1002/eap.1552 2024-09-15T18:02:27+00:00 Inland waters and their role in the carbon cycle of Alaska Stackpoole, Sarah M. Butman, David E. Clow, David W. Verdin, Kristine L. Gaglioti, Benjamin V. Genet, Hélène Striegl, Robert G. U.S. Geological Survey National Research Program for Biopharmaceuticals 2017 http://dx.doi.org/10.1002/eap.1552 https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1002%2Feap.1552 https://onlinelibrary.wiley.com/doi/pdf/10.1002/eap.1552 https://onlinelibrary.wiley.com/doi/full-xml/10.1002/eap.1552 http://api.wiley.com/onlinelibrary/chorus/v1/articles/10.1002%2Feap.1552 https://esajournals.onlinelibrary.wiley.com/doi/pdf/10.1002/eap.1552 en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#am http://onlinelibrary.wiley.com/termsAndConditions#vor Ecological Applications volume 27, issue 5, page 1403-1420 ISSN 1051-0761 1939-5582 journal-article 2017 crwiley https://doi.org/10.1002/eap.1552 2024-08-30T04:09:10Z Abstract The magnitude of Alaska ( AK ) inland waters carbon (C) fluxes is likely to change in the future due to amplified climate warming impacts on the hydrology and biogeochemical processes in high latitude regions. Although current estimates of major aquatic C fluxes represent an essential baseline against which future change can be compared, a comprehensive assessment for AK has not yet been completed. To address this gap, we combined available data sets and applied consistent methodologies to estimate river lateral C export to the coast, river and lake carbon dioxide ( CO 2 ) and methane ( CH 4 ) emissions, and C burial in lakes for the six major hydrologic regions in the state. Estimated total aquatic C flux for AK was 41 Tg C/yr. Major components of this total flux, in Tg C/yr, were 18 for river lateral export, 17 for river CO 2 emissions, and 8 for lake CO 2 emissions. Lake C burial offset these fluxes by 2 Tg C/yr. River and lake CH 4 emissions were 0.03 and 0.10 Tg C/yr, respectively. The Southeast and South central regions had the highest temperature, precipitation, terrestrial net primary productivity ( NPP ), and C yields (fluxes normalized to land area) were 77 and 42 g C·m −2 ·yr −1 , respectively. Lake CO 2 emissions represented over half of the total aquatic flux from the Southwest (37 g C·m −2 ·yr −1 ). The North Slope, Northwest, and Yukon regions had lesser yields (11, 15, and 17 g C·m 2 ·yr −1 ), but these estimates may be the most vulnerable to future climate change, because of the heightened sensitivity of arctic and boreal ecosystems to intensified warming. Total aquatic C yield for AK was 27 g C·m −2 ·yr −1 , which represented 16% of the estimated terrestrial NPP . Freshwater ecosystems represent a significant conduit for C loss, and a more comprehensive view of land‐water‐atmosphere interactions is necessary to predict future climate change impacts on the Alaskan ecosystem C balance. Article in Journal/Newspaper Climate change north slope Alaska Yukon Wiley Online Library Ecological Applications 27 5 1403 1420
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description Abstract The magnitude of Alaska ( AK ) inland waters carbon (C) fluxes is likely to change in the future due to amplified climate warming impacts on the hydrology and biogeochemical processes in high latitude regions. Although current estimates of major aquatic C fluxes represent an essential baseline against which future change can be compared, a comprehensive assessment for AK has not yet been completed. To address this gap, we combined available data sets and applied consistent methodologies to estimate river lateral C export to the coast, river and lake carbon dioxide ( CO 2 ) and methane ( CH 4 ) emissions, and C burial in lakes for the six major hydrologic regions in the state. Estimated total aquatic C flux for AK was 41 Tg C/yr. Major components of this total flux, in Tg C/yr, were 18 for river lateral export, 17 for river CO 2 emissions, and 8 for lake CO 2 emissions. Lake C burial offset these fluxes by 2 Tg C/yr. River and lake CH 4 emissions were 0.03 and 0.10 Tg C/yr, respectively. The Southeast and South central regions had the highest temperature, precipitation, terrestrial net primary productivity ( NPP ), and C yields (fluxes normalized to land area) were 77 and 42 g C·m −2 ·yr −1 , respectively. Lake CO 2 emissions represented over half of the total aquatic flux from the Southwest (37 g C·m −2 ·yr −1 ). The North Slope, Northwest, and Yukon regions had lesser yields (11, 15, and 17 g C·m 2 ·yr −1 ), but these estimates may be the most vulnerable to future climate change, because of the heightened sensitivity of arctic and boreal ecosystems to intensified warming. Total aquatic C yield for AK was 27 g C·m −2 ·yr −1 , which represented 16% of the estimated terrestrial NPP . Freshwater ecosystems represent a significant conduit for C loss, and a more comprehensive view of land‐water‐atmosphere interactions is necessary to predict future climate change impacts on the Alaskan ecosystem C balance.
author2 U.S. Geological Survey
National Research Program for Biopharmaceuticals
format Article in Journal/Newspaper
author Stackpoole, Sarah M.
Butman, David E.
Clow, David W.
Verdin, Kristine L.
Gaglioti, Benjamin V.
Genet, Hélène
Striegl, Robert G.
spellingShingle Stackpoole, Sarah M.
Butman, David E.
Clow, David W.
Verdin, Kristine L.
Gaglioti, Benjamin V.
Genet, Hélène
Striegl, Robert G.
Inland waters and their role in the carbon cycle of Alaska
author_facet Stackpoole, Sarah M.
Butman, David E.
Clow, David W.
Verdin, Kristine L.
Gaglioti, Benjamin V.
Genet, Hélène
Striegl, Robert G.
author_sort Stackpoole, Sarah M.
title Inland waters and their role in the carbon cycle of Alaska
title_short Inland waters and their role in the carbon cycle of Alaska
title_full Inland waters and their role in the carbon cycle of Alaska
title_fullStr Inland waters and their role in the carbon cycle of Alaska
title_full_unstemmed Inland waters and their role in the carbon cycle of Alaska
title_sort inland waters and their role in the carbon cycle of alaska
publisher Wiley
publishDate 2017
url http://dx.doi.org/10.1002/eap.1552
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genre Climate change
north slope
Alaska
Yukon
genre_facet Climate change
north slope
Alaska
Yukon
op_source Ecological Applications
volume 27, issue 5, page 1403-1420
ISSN 1051-0761 1939-5582
op_rights http://onlinelibrary.wiley.com/termsAndConditions#am
http://onlinelibrary.wiley.com/termsAndConditions#vor
op_doi https://doi.org/10.1002/eap.1552
container_title Ecological Applications
container_volume 27
container_issue 5
container_start_page 1403
op_container_end_page 1420
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