Chemical Weathering and Organic Carbon Export from Arctic Watersheds, North Slope, Alaska

Recent climate change has dramatically impacted the Arctic, and models suggest that accelerated effects will occur in the future as CO2 continues to accumulate in the atmosphere. Understanding this problem is important because arctic environmental change could have planetary-scale repercussions with...

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Bibliographic Details
Main Author: Andrew Jacobson
Format: Dataset
Language:unknown
Published: Arctic Data Center 2013
Subjects:
ANS
Arctic
Climate change
Global warming
north slope
permafrost
Alaska
Online Access:https://search.dataone.org/view/urn:uuid:2cfb46cc-ddd2-4de2-b170-de275e3c0e56
id dataone:urn:uuid:2cfb46cc-ddd2-4de2-b170-de275e3c0e56
record_format openpolar
spelling dataone:urn:uuid:2cfb46cc-ddd2-4de2-b170-de275e3c0e56 2024-06-03T18:46:32+00:00 Chemical Weathering and Organic Carbon Export from Arctic Watersheds, North Slope, Alaska Andrew Jacobson No geographic description provided. ENVELOPE(-150.0,-149.0,68.7,68.2) BEGINDATE: 2008-09-15T00:00:00Z ENDDATE: 2012-08-31T00:00:00Z 2013-10-15T00:00:00Z https://search.dataone.org/view/urn:uuid:2cfb46cc-ddd2-4de2-b170-de275e3c0e56 unknown Arctic Data Center ANS Dataset 2013 dataone:urn:node:ARCTIC 2024-06-03T18:08:13Z Recent climate change has dramatically impacted the Arctic, and models suggest that accelerated effects will occur in the future as CO2 continues to accumulate in the atmosphere. Understanding this problem is important because arctic environmental change could have planetary-scale repercussions within human timescales. In particular, oxidation of organic carbon stored in permafrost might create a positive feedback to global warming. While numerous studies have focused on the relationship between warming and carbon cycling in the Arctic, specific effects of rising atmospheric CO2 levels on chemical weathering processes and coupled changes in organic carbon dynamics have received relatively little attention. This project has two integrated goals: to identify mineral weathering reactions and hydrologic processes that control how and at what rate the inorganic solute geochemistry of water evolves during transport within soils and streams and to establish linkages between chemical weathering phenomena and organic carbon export. The work will focus on the major ion and isotope geochemistry of headwater streams and creeks draining the North Slope of Alaska. Based on preliminary data, the guiding hypothesis of the work is that the ratio of carbonate to silicate weathering fluctuates in response to seasonal changes in discharge and permafrost active layer depth, with the highest ratios observed during base flow conditions and maximum active layer depth and the lowest ratios observed during peak flow conditions and minimum active layer depth. To test this hypothesis and its implications for understanding organic carbon export, the team will: 1) Quantify rates of major cation release, CO2 consumption, and dissolved organic carbon (DIC) production by carbonate and silicate weathering; 2) Evaluate controls on the Ca, Sr, and C (of DIC) isotope composition of rivers and soils; and 3) Establish relationships between these tracers and other river water constituents, including H and O isotopes of water, organic matter concentrations, and the isotope composition of organic matter (both C and N). They will collect water, sediment, bedrock, and soil samples. Water sampling will occur from spring thaw through fall freeze-up. In the laboratory, they will conduct leaching and digestion experiments to quantify mineral weathering end members. They will synthesize data using mass-balance modeling, carbonate equilibria calculations, hydrograph separations, and elemental and isotope mixing equations. This study represents one of the first integrative efforts to elucidate fundamental linkages between the isotope and organic geochemistry of Arctic Alaskan rivers. Because warming will likely alter the ratio of carbonate to silicate weathering via several feedback mechanisms, this study will establish a novel method for monitoring Arctic environmental change at the watershed scale. Dataset Arctic Climate change Global warming north slope permafrost Alaska Arctic Data Center (via DataONE) Arctic ENVELOPE(-150.0,-149.0,68.7,68.2)
institution Open Polar
collection Arctic Data Center (via DataONE)
op_collection_id dataone:urn:node:ARCTIC
language unknown
topic ANS
spellingShingle ANS
Andrew Jacobson
Chemical Weathering and Organic Carbon Export from Arctic Watersheds, North Slope, Alaska
topic_facet ANS
description Recent climate change has dramatically impacted the Arctic, and models suggest that accelerated effects will occur in the future as CO2 continues to accumulate in the atmosphere. Understanding this problem is important because arctic environmental change could have planetary-scale repercussions within human timescales. In particular, oxidation of organic carbon stored in permafrost might create a positive feedback to global warming. While numerous studies have focused on the relationship between warming and carbon cycling in the Arctic, specific effects of rising atmospheric CO2 levels on chemical weathering processes and coupled changes in organic carbon dynamics have received relatively little attention. This project has two integrated goals: to identify mineral weathering reactions and hydrologic processes that control how and at what rate the inorganic solute geochemistry of water evolves during transport within soils and streams and to establish linkages between chemical weathering phenomena and organic carbon export. The work will focus on the major ion and isotope geochemistry of headwater streams and creeks draining the North Slope of Alaska. Based on preliminary data, the guiding hypothesis of the work is that the ratio of carbonate to silicate weathering fluctuates in response to seasonal changes in discharge and permafrost active layer depth, with the highest ratios observed during base flow conditions and maximum active layer depth and the lowest ratios observed during peak flow conditions and minimum active layer depth. To test this hypothesis and its implications for understanding organic carbon export, the team will: 1) Quantify rates of major cation release, CO2 consumption, and dissolved organic carbon (DIC) production by carbonate and silicate weathering; 2) Evaluate controls on the Ca, Sr, and C (of DIC) isotope composition of rivers and soils; and 3) Establish relationships between these tracers and other river water constituents, including H and O isotopes of water, organic matter concentrations, and the isotope composition of organic matter (both C and N). They will collect water, sediment, bedrock, and soil samples. Water sampling will occur from spring thaw through fall freeze-up. In the laboratory, they will conduct leaching and digestion experiments to quantify mineral weathering end members. They will synthesize data using mass-balance modeling, carbonate equilibria calculations, hydrograph separations, and elemental and isotope mixing equations. This study represents one of the first integrative efforts to elucidate fundamental linkages between the isotope and organic geochemistry of Arctic Alaskan rivers. Because warming will likely alter the ratio of carbonate to silicate weathering via several feedback mechanisms, this study will establish a novel method for monitoring Arctic environmental change at the watershed scale.
format Dataset
author Andrew Jacobson
author_facet Andrew Jacobson
author_sort Andrew Jacobson
title Chemical Weathering and Organic Carbon Export from Arctic Watersheds, North Slope, Alaska
title_short Chemical Weathering and Organic Carbon Export from Arctic Watersheds, North Slope, Alaska
title_full Chemical Weathering and Organic Carbon Export from Arctic Watersheds, North Slope, Alaska
title_fullStr Chemical Weathering and Organic Carbon Export from Arctic Watersheds, North Slope, Alaska
title_full_unstemmed Chemical Weathering and Organic Carbon Export from Arctic Watersheds, North Slope, Alaska
title_sort chemical weathering and organic carbon export from arctic watersheds, north slope, alaska
publisher Arctic Data Center
publishDate 2013
url https://search.dataone.org/view/urn:uuid:2cfb46cc-ddd2-4de2-b170-de275e3c0e56
op_coverage No geographic description provided.
ENVELOPE(-150.0,-149.0,68.7,68.2)
BEGINDATE: 2008-09-15T00:00:00Z ENDDATE: 2012-08-31T00:00:00Z
long_lat ENVELOPE(-150.0,-149.0,68.7,68.2)
geographic Arctic
geographic_facet Arctic
genre Arctic
Climate change
Global warming
north slope
permafrost
Alaska
genre_facet Arctic
Climate change
Global warming
north slope
permafrost
Alaska
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