The impact of urbanization on soil organic carbon stocks and particle size and density fractions

2022

Article référencé dans le Web of Science WOS:000868374300001

Cambou Aurélie, Chevallier Tiphaine, Barthès Bernard, Derrien D., Cannavo P., Bouchard A., Allory V., Schwartz C., Vidal-Beaudet L.

Journal of Soils and Sediments, 2022, [Early access], [12 p.] ISSN 1439-0108

Purpose Urbanization is a major driver of land use change and can affect the soil organic carbon (SOC) pools. This study aimed to understand the urbanization impact on SOC stocks and pools at profile scale (0-100 cm). Methods The SOC was studied at 0-30 and 0-100 cm depths in park and sealed soils of three French cities (Marseille, Nancy, and Nantes). Physical fractionation was performed to gain insight on the size of different SOC pools (particulate and organo-mineral soil fractions). Results The SOC stocks were seven to ten times higher in parks than in sealed soils, but lower than in natural soils according to literature data. The contribution of the first 30 cm to profile SOC stock was around 40%, with strong heterogeneity, especially in sealed soils. Considering the whole 0-100 cm profile, SOC stocks in particulate organic matter fractions (light fraction > 50 mu m) were 25-48 times higher in parks than in sealed soils, while SOC stocks in mineral-associated fractions (< 50 mu m) were only 4-6 times higher in parks than in sealed soils. An unexpectedly high proportion of SOC was found in the heavy fraction > 50 mu m, particularly in sealed soils (11% in average at 0-100 cm depth). This fraction associated to sand is usually poor in SOC in natural or agricultural soils. In these urban soils, it might be bitumen, a dense organic artifact. Conclusion The SOC stocks up to 100 cm depth and their heterogeneity pleaded to strengthen and expand SOC studies in all urban soils.

Sciences du milieu [021] ; Pédologie [068] ; Urbanisation et sociétés urbaines [102]

FRANCE

Fonds IRD [F B010086339]

fdi:010086339