EGU2020-11431
https://doi.org/10.5194/egusphere-egu2020-11431
EGU General Assembly 2020
© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

14C estimation of soil C02 turnover rates in Ultisols with different land use

Alexander Cherkinsky1, Ravi Prasad1, Hong Sheng1, Zachary Brecheisen2, and Daniel Richter2
Alexander Cherkinsky et al.
  • 1Center for Applied Isotope Studies, University of Georgia, Athens, United States of America (acherkin@uga.edu)
  • 2Duke University, Durham, United States of America

The CO2 flux from soil is a large and significant flux in most ecosystems and can account for more than 2/3 of total ecosystem respiration. In many cases, CO2 flux from soil is estimated by the eddy covariance technique or by classical chamber method with measures of bulk concentration and isotopic composition of carbon dioxide. Whereas most these studies estimated CO2 flux from the soil surface, we analyzed its concentration and isotope composition directly in soil profiles down to 5m depth.

This experiment was conducted in Sumter National Forest by NSF Calhoun CZO research program. A 10cm diameter auger was used to core up to 5 m depth and capped PVC pipe segments of 750 cm3 volume serve as gas reservoirs, each with two gas impermeable tubes that connected the gas reservoirs. Soil gas reservoirs are installed at 5m, 3m, 1.5m, and 0.5m depths from the soil surface. On a three-week interval, soil gases were extracted with a pump and analyzed in the field for CO2 and O2 concentration with samples collected in Tedlar bags for analysis. The samples were collected in summer 2016 under 3 different land uses: hardwood stands that are taken to be never cultivated; old-field pine stands, which had been used for growing cotton in 19th century and then abandoned; and cultivated sites which were used growing cotton, but for the last 50-60 years for growing corn, wheat, legume, sorghum, and sunflowers.

The radiocarbon analyses in the soil CO2 profile were conducted for the first time. It was discovered that concentration of 14C increased with depth and Δ14C changed from 40-60%o in the top 0.5m to about 80-140 ‰ at 5m depth depending on land use.

 

How to cite: Cherkinsky, A., Prasad, R., Sheng, H., Brecheisen, Z., and Richter, D.: 14C estimation of soil C02 turnover rates in Ultisols with different land use , EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-11431, https://doi.org/10.5194/egusphere-egu2020-11431, 2020