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Drought may exacerbate dryland soil inorganic carbon loss under warming climate conditions

Jinquan Li, Junmin Pei, Changming Fang, Bo Li, Ming Nie

2024Nature Communications65 citationsDOIOpen Access PDF

Abstract

Low moisture conditions result in substantially more soil inorganic carbon (SIC) than soil organic carbon (SOC) in drylands. However, whether and how changes in moisture affect the temperature response of SIC in drylands are poorly understood. Here, we report that the temperature sensitivity of SIC dissolution increases but that of SOC decomposition decreases with increasing natural aridity from 30 dryland sites along a 4,500 km aridity gradient in northern China. To directly test the effects of moisture changes alone, a soil moisture control experiment also revealed opposite moisture effects on the temperature sensitivities of SIC and SOC. Moreover, we found that the temperature sensitivity of SIC was primarily regulated by pH and base cations, whereas that of SOC was mainly regulated by physicochemical protection along the aridity gradient. Given the overall increases in aridity in a warming world, our findings highlight that drought may exacerbate dryland soil carbon loss from SIC under warming.

Topics & Concepts

AridEnvironmental scienceMoistureSoil carbonWater contentClimate changeCarbon fibersGlobal warmingSoil waterSoil scienceAgronomyEcologyChemistryMaterials scienceGeologyBiologyComposite materialComposite numberOrganic chemistryGeotechnical engineeringSoil Carbon and Nitrogen DynamicsSoil erosion and sediment transportCrop Yield and Soil Fertility
Drought may exacerbate dryland soil inorganic carbon loss under warming climate conditions | Litcius