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Changes of soil carbon along precipitation gradients in three typical vegetation types in the Alxa desert region, China

Xinglin Zhu, Jianhua Si, Bing Jia, Xiaohui He, Dongmeng Zhou, Chunlin Wang, Jie Qin, Zijin Liu, Li Zhang

2024Carbon Balance and Management19 citationsDOIOpen Access PDF

Abstract

Abstract The changes and influencing factors of soil inorganic carbon (SIC) and organic carbon (SOC) on precipitation gradients are crucial for predicting and evaluating carbon storage changes at the regional scale. However, people’s understanding of the distribution characteristics of SOC and SIC reserves on regional precipitation gradients is insufficient, and the main environmental variables that affect SOC and SIC changes are also not well understood. Therefore, this study focuses on the Alxa region and selects five regions covered by three typical desert vegetation types, Zygophyllum xanthoxylon (ZX), Nitraria tangutorum (NT), and Reaumuria songarica (RS), along the climate transect where precipitation gradually increases. The study analyzes and discusses the variation characteristics of SOC and SIC under different vegetation and precipitation conditions. The results indicate that both SOC and SIC increase with the increase of precipitation, and the increase in SOC is greater with the increase of precipitation. The average SOC content in the 0–300cm profile is NT (4.13 g kg −1 ) > RS (3.61 g kg −1 ) > ZX (3.57 g kg −1 ); The average value of SIC content is: RS (5.78 g kg −1 ) > NT (5.11 g kg −1 ) > ZX (5.02 g kg −1 ). Overall, the multi-annual average precipitation (MAP) in the Alxa region is the most important environmental factor affecting SIC and SOC.

Topics & Concepts

PrecipitationTransectEnvironmental scienceVegetation (pathology)Soil carbonCarbon fibersAtmospheric sciencesSoil scienceSoil waterGeographyMaterials scienceEcologyGeologyMeteorologyPathologyComposite materialComposite numberBiologyMedicineSoil Carbon and Nitrogen DynamicsGeology and Paleoclimatology ResearchClimate change and permafrost
Changes of soil carbon along precipitation gradients in three typical vegetation types in the Alxa desert region, China | Litcius