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Title:	Challenges and limitations of using autonomous instrumentation for measuring in situ soil respiration in a subarctic boreal forest in Alaska, USA
Authors:	Vas, Dragos A. Corriveau, Elizabeth J. Gaimaro, Lindsay W. Barbato, Robyn A.
Keywords:	Climate change Cold climate Instrument modification Permafrost Seasonal thaw depth Soil respiration
Publisher:	Engineer Research and Development Center (U.S.)
Series/Report no.:	Technical Report (Engineer Research and Development Center (U.S.)) ; no. ERDC/CRREL TR-23-18
Abstract:	Subarctic and Arctic environments are sensitive to warming temperatures due to climate change. As soils warm, soil microorganisms break down carbon and release greenhouse gases such as methane (CH₄) and carbon dioxide (CO₂). Recent studies examining CO₂ efflux note heterogeneity of microbial activity across the landscape. To better understand carbon dynamics, our team developed a predictive model, Dynamic Representation of Terrestrial Soil Predictions of Organisms’ Response to the Environment (DRTSPORE), to estimate CO₂ efflux based on soil temperature and moisture estimates. The goal of this work was to acquire respiration rates from a boreal forest located near the town of Fairbanks, Alaska, and to provide in situ measurements for the future validation effort of the DRTSPORE model estimates of CO₂ efflux in cold climates. Results show that soil temperature and seasonal soil thaw depth had the greatest impact on soil respiration. However, the instrumentation deployed significantly altered the soil temperature, moisture, and seasonal thaw depth at the survey site and very likely the soil respiration rates. These findings are important to better understand the challenges and limitations associated with the in situ data collection used for carbon efflux modeling and for estimating soil microbial activity in cold environments.
Description:	Technical Report
Gov't Doc #:	ERDC/CRREL TR-23-18
Rights:	Approved for Public Release; Distribution is Unlimited
URI:	https://hdl.handle.net/11681/48018 http://dx.doi.org/10.21079/11681/48018
Appears in Collections:	Technical Report