Investigating the complementarity of thermal and physical soil organic carbon fractions

IF 5.8 2区农林科学 Q1 SOIL SCIENCE Soil Pub Date : 2024-11-12 DOI:10.5194/soil-10-795-2024

Amicie A. Delahaie, Lauric Cécillon, Marija Stojanova, Samuel Abiven, Pierre Arbelet, Dominique Arrouays, François Baudin, Antonio Bispo, Line Boulonne, Claire Chenu, Jussi Heinonsalo, Claudy Jolivet, Kristiina Karhu, Manuel Martin, Lorenza Pacini, Christopher Poeplau, Céline Ratié, Pierre Roudier, Nicolas P. A. Saby, Florence Savignac, Pierre Barré

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Abstract

Abstract. Partitioning soil organic carbon (SOC) in fractions with different biogeochemical stability is useful to better understand and predict SOC dynamics and provide information related to soil health. Multiple SOC partition schemes exist, but few of them can be implemented on large sample sets and therefore be considered relevant options for soil monitoring. The well-established particulate organic carbon (POC) vs. mineral-associated organic carbon (MAOC) physical fractionation scheme is one of them. Introduced more recently, Rock-Eval® thermal analysis coupled with the PARTYSOC machine learning model can also fractionate SOC into active (Ca) and stable SOC (Cs). A debate is emerging as to which of these methods should be recommended for soil monitoring. To investigate the complementarity or redundancy of these two fractionation schemes, we compared the quantity and environmental drivers of SOC fractions obtained on an unprecedented dataset from mainland France. About 2000 topsoil samples were recovered all over the country, presenting contrasting land cover and pedoclimatic characteristics, and analysed. We found that the environmental drivers of the fractions were clearly different, the more stable MAOC and Cs fractions being mainly driven by soil characteristics, whereas land cover and climate had a greater influence on more labile POC and Ca fractions. The stable and labile SOC fractions provided by the two methods strongly differed in quantity (MAOC/Cs=1.88 ± 0.46 and POC/Ca=0.36 ± 0.17; n=843) and drivers, suggesting that they correspond to fractions with different biogeochemical stability. We argue that, at this stage, both methods can be seen as complementary and potentially relevant for soil monitoring. As future developments, we recommend comparing how they relate to indicators of soil health such as nutrient availability or soil structural stability and how their measurements can improve the accuracy of SOC dynamics models.

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研究土壤有机碳的热组分和物理组分的互补性

摘要将土壤有机碳（SOC）分成具有不同生物地球化学稳定性的部分，有助于更好地了解和预测 SOC 的动态，并提供与土壤健康相关的信息。目前存在多种 SOC 分配方案，但很少有方案能在大样本集上实施，因此被认为是土壤监测的相关选择。颗粒有机碳（POC）与矿物相关有机碳（MAOC）物理分馏方案就是其中之一。最近推出的 Rock-Eval® 热分析法与 PARTYSOC 机器学习模型相结合，也可将 SOC 分为活性 SOC（Ca）和稳定 SOC（Cs）。关于在土壤监测中推荐使用哪种方法的争论正在出现。为了研究这两种分馏方案的互补性或冗余性，我们比较了在法国大陆前所未有的数据集上获得的 SOC 分数的数量和环境驱动因素。我们在全国各地采集了约 2000 个表层土样本进行分析，这些样本呈现出截然不同的土地覆盖和气候特征。我们发现，各组分的环境驱动因素明显不同，较稳定的 MAOC 和 Cs 组分主要由土壤特性驱动，而土地覆盖和气候对较易变的 POC 和 Ca 组分影响更大。两种方法提供的稳定和易变 SOC 分数在数量（MAOC/Cs=1.88 ± 0.46 和 POC/Ca=0.36 ± 0.17；n=843）和驱动因素上存在很大差异，这表明它们对应的分数具有不同的生物地球化学稳定性。我们认为，在现阶段，这两种方法可视为互补，并可能与土壤监测相关。作为未来的发展，我们建议比较这两种方法与土壤健康指标（如养分可用性或土壤结构稳定性）的关系，以及它们的测量如何提高 SOC 动态模型的准确性。

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来源期刊

Soil Agricultural and Biological Sciences-Soil Science

CiteScore

10.80

自引率

2.90%

发文量

审稿时长

30 weeks

期刊介绍： SOIL is an international scientific journal dedicated to the publication and discussion of high-quality research in the field of soil system sciences. SOIL is at the interface between the atmosphere, lithosphere, hydrosphere, and biosphere. SOIL publishes scientific research that contributes to understanding the soil system and its interaction with humans and the entire Earth system. The scope of the journal includes all topics that fall within the study of soil science as a discipline, with an emphasis on studies that integrate soil science with other sciences (hydrology, agronomy, socio-economics, health sciences, atmospheric sciences, etc.).