Global and regional soil organic carbon estimates: Magnitudes and uncertainties

IF 5.2 2区 农林科学 Q1 SOIL SCIENCE Pedosphere Pub Date : 2024-08-01 DOI:10.1016/j.pedsph.2023.06.005
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Abstract

Globally, soil is the largest terrestrial carbon (C) reservoir. Robust quantification of soil organic C (SOC) stocks in existing global observation-based estimates avails accurate predictions in carbon-climate feedbacks and future climate trends. We investigated the magnitudes and distributions of global and regional SOC estimates (i.e., density and stocks) based on five widely used global gridded SOC datasets, a regional permafrost dataset developed in 2021 (UM2021), and a global-scale soil profile database (World Soil Information Service) reporting measurements of a series of physical and chemical edaphic attributes. The five global gridded SOC datasets were the Harmonized World Soil Database (HWSD), World Inventory of Soil Emission Potentials at 30 arc-second resolution (WISE30sec), Global Soil Dataset for Earth System Models (GSDE), Global Gridded Soil Information at 250-m resolution (SoilGrids250m), and Global Soil Organic Carbon Map (GSOCmap). Our analyses showed that the magnitude and distribution of SOC varied widely among datasets, with certain datasets showing region-specific robustness. At the global scale, SOC stocks at the top 30 and 100 cm were estimated to be 828 (range: 577–1 171) and 1 873 (range: 1 086–2 678) Pg C, respectively. The estimates from GSDE, GSOCmap, and WISE30sec were comparable, and those of SoilGrids250m and HWSD were at the upper and lower ends. The spatial SOC distribution varied greatly among datasets, especially in the northern circumpolar and Tibetan Plateau permafrost regions. Regionally, UM2021 and WISE30sec performed well in the northern circumpolar permafrost regions, and GSDE performed well in China. The estimates of SOC by different datasets also showed large variabilities across different soil layers and biomes. The discrepancies were generally smaller for the 0–30 cm soil than the 0–100 cm soil. The datasets demonstrated relatively higher agreement in grasslands, croplands, and shrublands/savannas than in other biomes (e.g., wetlands). The users should be mindful of the gaps between regions and biomes while choosing the most appropriate SOC dataset for specific uses. Large uncertainties in existing global gridded SOC estimates were generally derived from soil sampling density, different sources, and various mapping methods for soil datasets. We call for future efforts for standardizing soil sampling efforts, cross-dataset comparison, proper validation, and overall global collaboration to improve SOC estimates.

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全球和区域土壤有机碳估算:大小和不确定性
在全球范围内,土壤是最大的陆地碳库。在现有的基于全球观测的估算中,对土壤有机碳(SOC)储量的精确量化有助于准确预测碳-气候反馈和未来气候趋势。我们基于五个广泛使用的全球网格 SOC 数据集、一个 2021 年开发的区域永久冻土数据集(UM2021)和一个全球尺度土壤剖面数据库(世界土壤信息服务),研究了全球和区域 SOC 估算值(即密度和储量)的大小和分布。五个全球网格化土壤有机碳数据集是:世界土壤统一数据库(HWSD)、30 弧秒分辨率的世界土壤排放潜势清单(WISE30sec)、地球系统模型全球土壤数据集(GSDE)、250 米分辨率的全球网格化土壤信息(SoilGrids250m)和全球土壤有机碳地图(GSOCmap)。我们的分析表明,不同数据集之间的 SOC 量级和分布差异很大,某些数据集显示出特定区域的稳健性。在全球范围内,30 厘米和 100 厘米顶部的 SOC 储量估计分别为 828(范围:577-1 171)和 1 873(范围:1 086-2 678)Pg C。GSDE、GSOCmap 和 WISE30sec 的估算值相当,而 SoilGrids250m 和 HWSD 的估算值处于上下两端。不同数据集的 SOC 空间分布差异很大,尤其是在环北极北部和青藏高原冻土区。从区域来看,UM2021 和 WISE30sec 在北环极圈冻土区表现良好,GSDE 在中国表现良好。不同数据集对 SOC 的估计值在不同土层和生物群落之间也存在较大差异。0-30 厘米土壤的差异一般小于 0-100 厘米土壤。与其他生物群落(如湿地)相比,数据集在草地、耕地和灌木林地/热带草原的一致性相对较高。用户在为特定用途选择最合适的 SOC 数据集时,应注意区域和生物群落之间的差距。现有全球网格 SOC 估计值的巨大不确定性通常来自土壤采样密度、不同来源和土壤数据集的不同制图方法。我们呼吁今后努力实现土壤取样标准化、跨数据集比较、适当验证和全球合作,以改进 SOC 估算值。
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来源期刊
Pedosphere
Pedosphere 环境科学-土壤科学
CiteScore
11.70
自引率
1.80%
发文量
147
审稿时长
5.0 months
期刊介绍: PEDOSPHERE—a peer-reviewed international journal published bimonthly in English—welcomes submissions from scientists around the world under a broad scope of topics relevant to timely, high quality original research findings, especially up-to-date achievements and advances in the entire field of soil science studies dealing with environmental science, ecology, agriculture, bioscience, geoscience, forestry, etc. It publishes mainly original research articles as well as some reviews, mini reviews, short communications and special issues.
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