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Coupled Long-Term Experiment and Model Investigation of the Differential Response of Plants and Soil Microbes in a Changing Permafrost Tundra Ecosystem

Technical Report ·
DOI:https://doi.org/10.2172/2204021· OSTI ID:2204021
 [1];  [2]
  1. Northern Arizona University, Flagstaff, AZ (United States); Northern Arizona University
  2. Northern Arizona University, Flagstaff, AZ (United States); Cornell University, Ithaca, NY (United States)
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The major research goal of this project was to understand and quantify the fate of carbon stored in permafrost ecosystems using a combination of field and laboratory experiments to measure and model isotope ratios and carbon fluxes in a tundra ecosystem exposed to experimental warming. Field measurements centered on a two-factor experimental warming to increase air and soil temperatures alone, and in combination, at a tundra field site in Alaska. A second manipulation of water table was embedded within the warming treatment such that both major environmental factors (temperature, moisture) controlling ecosystem carbon dynamics were experimentally altered. The experiment was interfaced with modeling activities using both data assimilation and forward modeling approaches. Models were used to make forecasts of ecosystem carbon dynamics beyond the time frame and environmental space of the experiment itself. This project was a follow-on to previous work that made use of the same field manipulation; here we continued the experimental manipulation in order to test new hypotheses regarding long-term effects of warming and permafrost thaw and subsequent changes in moisture availability on ecosystem carbon dynamics. These results were linked with ongoing synthesis and model intercomparison activities through the Permafrost Carbon Network, which led to additional synthesis publications as a result of collaboration and data sharing from this project. As key outcomes, this project has produced new papers published in the peer-reviewed literature, archived datasets used for model-data intercomparisons, trained graduate students and postdoctoral researchers, and has raised awareness about the vulnerability of permafrost carbon to a wider audience.

Research Organization:
Northern Arizona University, Flagstaff, AZ (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Biological and Environmental Research (BER)
DOE Contract Number:
SC0020227; SC0014085
OSTI ID:
2204021
Report Number(s):
DOE-NAU--20227
Country of Publication:
United States
Language:
English

References (23)

Projecting Permafrost Thaw of Sub‐Arctic Tundra With a Thermodynamic Model Calibrated to Site Measurements journal June 2021
Winter warming rapidly increases carbon degradation capacities of fungal communities in tundra soil: Potential consequences on carbon stability journal December 2020
Permafrost thaw with warming reduces microbial metabolic capacities in subsurface soils journal December 2021
Is the Northern Permafrost Zone a Source or a Sink for Carbon? journal September 2019
Winter warming in Alaska accelerates lignin decomposition contributed by Proteobacteria journal June 2020
The net GHG balance and budget of the permafrost region (2000-2020) from ecosystem flux upscaling preprint September 2023
Warming-induced permafrost thaw exacerbates tundra soil carbon decomposition mediated by microbial community journal January 2020
Experimental Soil Warming and Permafrost Thaw Increase CH4 Emissions in an Upland Tundra Ecosystem journal November 2021
The tundra phenology database: more than two decades of tundra phenology responses to climate change journal September 2022
Large loss of CO2 in winter observed across the northern permafrost region journal October 2019
Tundra Underlain By Thawing Permafrost Persistently Emits Carbon to the Atmosphere Over 15 Years of Measurements journal June 2021
Full Implementation of Matrix Approach to Biogeochemistry Module of CLM5 journal November 2020
Adding Depth to Our Understanding of Nitrogen Dynamics in Permafrost Soils journal August 2018
Lowering water table reduces carbon sink strength and carbon stocks in northern peatlands journal August 2022
Assessing the Potential for Mobilization of Old Soil Carbon After Permafrost Thaw: A Synthesis of 14 C Measurements From the Northern Permafrost Region journal September 2020
Experimental warming differentially affects vegetative and reproductive phenology of tundra plants journal June 2021
Statistical upscaling of ecosystem CO 2 fluxes across the terrestrial tundra and boreal domain: Regional patterns and uncertainties journal June 2021
Lower Soil Carbon Loss Due to Persistent Microbial Adaptation to Climate Warming preprint February 2020
Investigating Thaw and Plant Productivity Constraints on Old Soil Carbon Respiration From Permafrost journal June 2021
Plant foliar nutrient response to active layer and water table depth in warming permafrost soils journal March 2022
Model parameterization to represent processes at unresolved scales and changing properties of evolving systems journal January 2020
Biotic responses buffer warming-induced soil organic carbon loss in Arctic tundra journal June 2018
Carbon release through abrupt permafrost thaw journal February 2020

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Related Subjects

54 ENVIRONMENTAL SCIENCES
Arctic
carbon
climate change
permafrost
tundra