Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects
Ethan Wologo et al, 2021, Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects, Global Biogeochemical Cycles, , Citation number, 10.1029/2020GB006719. To view the published open abstract, go to https://doi.org/10....
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2021
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ftmontanastateu:oai:scholarworks.montana.edu:1/17116 2023-05-15T17:56:23+02:00 Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects Wologo, Ethan Shakil, Sarah Zolkos, Scott Textor, Sadie Ewing, Stephanie Klassen, Jane Spencer, Robert G. M. Podgorski, David C. Tank, Suzanne E. Baker, Michelle A. O'Donnell, Jonathan A. Wickland, Kimberly P. Foks, Sydney S. W. Zarnetske, Jay P Lee‐Cullin, Joseph Liu, Futing Yang, Yuanhe Kortelainen, Pirkko Kolehmainen, Jaana Dean, Joshua F. Vonk, Jorien E. Holmes, Robert M. Pinay, Gilles Powell, Michaela M. Howe, Jansen Frei, Rebecca J. Bratsman, Samuel P. Abbott, Benjamin W. 2021-01 application/pdf https://scholarworks.montana.edu/xmlui/handle/1/17116 en_US eng American Geophysical Union Wologo, E., Shakil, S., Zolkos, S.,Textor, S., Ewing, S., Klassen, J., et al.(2021). Stream dissolved organic matterin permafrost regions shows surprisingcompositional similarities but negativepriming and nutrient effects.GlobalBiogeochemical Cycles, 35 0886-6236 https://scholarworks.montana.edu/xmlui/handle/1/17116 copyright American geophysical union 2021 https://perma.cc/K6V9-42JX permafrost organic matter compositional similarities nutrient effects Article 2021 ftmontanastateu 2022-09-17T22:40:16Z Ethan Wologo et al, 2021, Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects, Global Biogeochemical Cycles, , Citation number, 10.1029/2020GB006719. To view the published open abstract, go to https://doi.org/10.1029/2020GB006719 Permafrost degradation is delivering bioavailable dissolved organic matter (DOM) and inorganic nutrients to surface water networks. While these permafrost subsidies represent a small portion of total fluvial DOM and nutrient fluxes, they could influence food webs and net ecosystem carbon balance via priming or nutrient effects that destabilize background DOM. We investigated how addition of biolabile carbon (acetate) and inorganic nutrients (nitrogen and phosphorus) affected DOM decomposition with 28‐day incubations. We incubated late‐summer stream water from 23 locations nested in seven northern or high‐altitude regions in Asia, Europe, and North America. DOM loss ranged from 3% to 52%, showing a variety of longitudinal patterns within stream networks. DOM optical properties varied widely, but DOM showed compositional similarity based on Fourier transform ion cyclotron resonance mass spectrometry (FT‐ICR MS) analysis. Addition of acetate and nutrients decreased bulk DOM mineralization (i.e., negative priming), with more negative effects on biodegradable DOM but neutral or positive effects on stable DOM. Unexpectedly, acetate and nutrients triggered breakdown of colored DOM (CDOM), with median decreases of 1.6% in the control and 22% in the amended treatment. Additionally, the uptake of added acetate was strongly limited by nutrient availability across sites. These findings suggest that biolabile DOM and nutrients released from degrading permafrost may decrease background DOM mineralization but alter stoichiometry and light conditions in receiving waterbodies. We conclude that priming and nutrient effects are coupled in northern aquatic ecosystems and that quantifying two‐way interactions between ... Article in Journal/Newspaper permafrost Montana State University (MSU): ScholarWorks |
institution |
Open Polar |
collection |
Montana State University (MSU): ScholarWorks |
op_collection_id |
ftmontanastateu |
language |
English |
topic |
permafrost organic matter compositional similarities nutrient effects |
spellingShingle |
permafrost organic matter compositional similarities nutrient effects Wologo, Ethan Shakil, Sarah Zolkos, Scott Textor, Sadie Ewing, Stephanie Klassen, Jane Spencer, Robert G. M. Podgorski, David C. Tank, Suzanne E. Baker, Michelle A. O'Donnell, Jonathan A. Wickland, Kimberly P. Foks, Sydney S. W. Zarnetske, Jay P Lee‐Cullin, Joseph Liu, Futing Yang, Yuanhe Kortelainen, Pirkko Kolehmainen, Jaana Dean, Joshua F. Vonk, Jorien E. Holmes, Robert M. Pinay, Gilles Powell, Michaela M. Howe, Jansen Frei, Rebecca J. Bratsman, Samuel P. Abbott, Benjamin W. Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects |
topic_facet |
permafrost organic matter compositional similarities nutrient effects |
description |
Ethan Wologo et al, 2021, Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects, Global Biogeochemical Cycles, , Citation number, 10.1029/2020GB006719. To view the published open abstract, go to https://doi.org/10.1029/2020GB006719 Permafrost degradation is delivering bioavailable dissolved organic matter (DOM) and inorganic nutrients to surface water networks. While these permafrost subsidies represent a small portion of total fluvial DOM and nutrient fluxes, they could influence food webs and net ecosystem carbon balance via priming or nutrient effects that destabilize background DOM. We investigated how addition of biolabile carbon (acetate) and inorganic nutrients (nitrogen and phosphorus) affected DOM decomposition with 28‐day incubations. We incubated late‐summer stream water from 23 locations nested in seven northern or high‐altitude regions in Asia, Europe, and North America. DOM loss ranged from 3% to 52%, showing a variety of longitudinal patterns within stream networks. DOM optical properties varied widely, but DOM showed compositional similarity based on Fourier transform ion cyclotron resonance mass spectrometry (FT‐ICR MS) analysis. Addition of acetate and nutrients decreased bulk DOM mineralization (i.e., negative priming), with more negative effects on biodegradable DOM but neutral or positive effects on stable DOM. Unexpectedly, acetate and nutrients triggered breakdown of colored DOM (CDOM), with median decreases of 1.6% in the control and 22% in the amended treatment. Additionally, the uptake of added acetate was strongly limited by nutrient availability across sites. These findings suggest that biolabile DOM and nutrients released from degrading permafrost may decrease background DOM mineralization but alter stoichiometry and light conditions in receiving waterbodies. We conclude that priming and nutrient effects are coupled in northern aquatic ecosystems and that quantifying two‐way interactions between ... |
format |
Article in Journal/Newspaper |
author |
Wologo, Ethan Shakil, Sarah Zolkos, Scott Textor, Sadie Ewing, Stephanie Klassen, Jane Spencer, Robert G. M. Podgorski, David C. Tank, Suzanne E. Baker, Michelle A. O'Donnell, Jonathan A. Wickland, Kimberly P. Foks, Sydney S. W. Zarnetske, Jay P Lee‐Cullin, Joseph Liu, Futing Yang, Yuanhe Kortelainen, Pirkko Kolehmainen, Jaana Dean, Joshua F. Vonk, Jorien E. Holmes, Robert M. Pinay, Gilles Powell, Michaela M. Howe, Jansen Frei, Rebecca J. Bratsman, Samuel P. Abbott, Benjamin W. |
author_facet |
Wologo, Ethan Shakil, Sarah Zolkos, Scott Textor, Sadie Ewing, Stephanie Klassen, Jane Spencer, Robert G. M. Podgorski, David C. Tank, Suzanne E. Baker, Michelle A. O'Donnell, Jonathan A. Wickland, Kimberly P. Foks, Sydney S. W. Zarnetske, Jay P Lee‐Cullin, Joseph Liu, Futing Yang, Yuanhe Kortelainen, Pirkko Kolehmainen, Jaana Dean, Joshua F. Vonk, Jorien E. Holmes, Robert M. Pinay, Gilles Powell, Michaela M. Howe, Jansen Frei, Rebecca J. Bratsman, Samuel P. Abbott, Benjamin W. |
author_sort |
Wologo, Ethan |
title |
Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects |
title_short |
Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects |
title_full |
Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects |
title_fullStr |
Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects |
title_full_unstemmed |
Stream Dissolved Organic Matter in Permafrost Regions Shows Surprising Compositional Similarities but Negative Priming and Nutrient Effects |
title_sort |
stream dissolved organic matter in permafrost regions shows surprising compositional similarities but negative priming and nutrient effects |
publisher |
American Geophysical Union |
publishDate |
2021 |
url |
https://scholarworks.montana.edu/xmlui/handle/1/17116 |
genre |
permafrost |
genre_facet |
permafrost |
op_relation |
Wologo, E., Shakil, S., Zolkos, S.,Textor, S., Ewing, S., Klassen, J., et al.(2021). Stream dissolved organic matterin permafrost regions shows surprisingcompositional similarities but negativepriming and nutrient effects.GlobalBiogeochemical Cycles, 35 0886-6236 https://scholarworks.montana.edu/xmlui/handle/1/17116 |
op_rights |
copyright American geophysical union 2021 https://perma.cc/K6V9-42JX |
_version_ |
1766164535148806144 |