Decomposition of urban atmospheric carbon in Sonoran Desert soils: Fid-Bau Portal

Decomposition of urban atmospheric carbon in Sonoran Desert soils

Kaye, Jason P. / Eckert, Sara E. / Gonzales, Daniel A. / Allen, Jonathan O. / Hall, Sharon J. / Sponseller, Ryan A. / Grimm, Nancy B.

Abstract

Abstract Urban atmospheres can have high concentrations of particulate organic carbon (oC) but the rate and fate oC deposition in near-urban ecosystems are rarely quantified. We collected atmospheric particulate matter in Phoenix, AZ and applied these samples to Sonoran Desert soils in a series of laboratory incubation experiments. The addition of fine particulate matter (<2.5 μm aerodynamic diameter) increased microbial respiration in soils collected from the interspaces between desert shrubs. The increase in soil respiration was equivalent to 25% to 30% of the added oC. In contrast, we did not detect increases in respiration when coarse particulate matter (>2.5 μm aerodynamic diameter) was added to interspace soils, suggesting that coarse particulate oC is recalcitrant to microbial decomposition. Due to comparatively higher background levels of C mineralization, we rarely detected changes in microbial respiration when fine or coarse particulate oC was added to soils collected beneath shrub canopies. We measured total atmospheric C concentrations within and surrounding Phoenix and, using inferential methods, estimated rates of deposition that ranged from 0.02 to 0.58 mg C $ m^{−2} $ $ d^{−1} $ for fine particles and from 0 to 6.15 mg C $ m^{−2} $ $ d^{−1} $ for coarse particles. Results show that fine atmospheric particulate matter deposited at low rates downwind of Phoenix is a labile oC substrate for soil heterotrophs. In contrast, oC deposited at higher rates as coarse particulate matter may accumulate in soils due to slow microbial decomposition rates.