Perspective of soil carbon sequestration in Chilean volcanic soils

npj Materials Sustainability Pub Date : 2024-09-13 DOI:10.1038/s44296-024-00038-4

Francisco Matus, Osvaldo Salazar, Felipe Aburto, Denisse Zamorano, Francisco Nájera, Radmila Jovanović, Catalina Guerra, Luis Reyes-Rojas, Oscar Seguel, Marco Pfeiffer, José Dörner, Susana Valle, Sergio Radic-Schilling, Efraín Duarte

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Abstract

We analysed a large dataset consisting of 457 soil profiles of Andisols and Ultisols of volcanic origin compared to 60 non-volcanic soils. We hypothesised that soil pH has a greater impact on the development of Al-organomineral complexes in volcanic soils compared to non-volcanic soils, in the latter, the silt and clay fractions play a crucial role. Soil pH >4.5 strongly influenced the formation of Al-organomineral complexes in volcanic soils, while an increase in allophane content led to a decrease in SOC. Ultisols with more crystalline clays, such as halloysite and disordered kaolinite, the pH had a weaker impact and there was no effect on non-volcanic soils. Instead, a positive correlation (R2 = 0.63, p < 0.01) was found between silt and clay and SOC in non-volcanic soils, supporting our second hypothesis. Soil pH played a significant role in the interplay between Al-organomineral complexes and allophane formation, while crystalline mineralogy has a direct effect on SOC levels in non-volcanic soils.

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智利火山土壤固碳展望

我们分析了一个大型数据集，该数据集包括 457 个火山源安地斯和超地层土壤剖面，以及 60 个非火山土壤剖面。我们假设，与非火山土壤相比，土壤 pH 值对火山土壤中铝-有机-矿物质复合物的形成有更大的影响，而在非火山土壤中，淤泥和粘土组分起着至关重要的作用。土壤 pH 值 4.5 对火山土壤中铝-有机-矿物质复合物的形成有很大影响，而异芬烷含量的增加会导致 SOC 的减少。含有更多结晶粘土（如埃洛石和无序高岭石）的超微土壤，pH 值的影响较弱，而对非火山土壤则没有影响。相反，在非火山土壤中，淤泥和粘土与 SOC 之间存在正相关（R2 = 0.63，p <0.01），这支持了我们的第二个假设。土壤 pH 值在铝-有机-矿物复合物与异芬烷形成之间的相互作用中起着重要作用，而晶体矿物学对非火山土壤中的 SOC 水平有直接影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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npj Materials Sustainability

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