Litcius/Paper detail

Closing the Winter Gap—Year‐Round Measurements of Soil CO<sub>2</sub> Emission Sources in Arctic Tundra

S. Pedron, J. M. Welker, E. S. Euskirchen, Eric S. Klein, Jennifer Walker, Xiaomei Xu, C. I. Czimczik

2022Geophysical Research Letters26 citationsDOI

Abstract

Abstract Non‐growing season CO 2 emissions from Arctic tundra remain a major uncertainty in forecasting climate change consequences of permafrost thaw. We present the first time series of soil and microbial CO 2 emissions from a graminoid tundra based on year‐round in situ measurements of the radiocarbon content of soil CO 2 (Δ 14 CO 2 ) and of bulk soil C (Δ 14 C), microbial activity, and temperature. Combining these data with land‐atmosphere CO 2 exchange allows estimates of the proportion and mean age of microbial CO 2 emissions year‐round. We observe a seasonal shift in emission sources from fresh carbon during the growing season (August Δ 14 CO 2 = 74 ± 4.7‰, 37% ± 3.4% microbial, mean ± se) to increasingly older soil carbon in fall and winter (March Δ 14 CO 2 = 22 ± 1.3‰, 47% ± 8% microbial). Thus, rising soil temperatures and emissions during fall and winter are depleting aged soil carbon pools in the active layer and thawing permafrost and further accelerating climate change.

Topics & Concepts

TundraPermafrostEnvironmental scienceArcticClimate changeSoil carbonGrowing seasonAtmospheric sciencesAtmosphere (unit)Carbon dioxideCarbon fibersGreenhouse gasChronosequenceSoil waterClimatologyPhysical geographySoil scienceAgronomyEcologyGeologyOceanographyGeographyMeteorologyComposite numberComposite materialMaterials scienceBiologyClimate change and permafrostCryospheric studies and observationsGeology and Paleoclimatology Research
Closing the Winter Gap—Year‐Round Measurements of Soil CO<sub>2</sub> Emission Sources in Arctic Tundra | Litcius