Characterization of controlling factors for soil organic carbon stocks in one Karst region of Southwest China

Characterization of controlling factors for soil organic carbon stocks in one Karst region of Southwest China

Soil organic carbon (SOC) contributes the most significant portion of carbon storage in the terrestrial ecosystem. The potential for variability in carbon losses from soil can lead to severe consequences such as climate change. While extensive studies have been conducted to characterize how land cov...

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Veröffentlicht in:PloS one 2024-01, Vol.19 (1), p.e0296711-e0296711
Hauptverfasser: Li, Qiang, Chen, Baoshan, Yuan, Hezhong, Li, Hui, Zhuang, Shunyao
Format: Artikel
Sprache:eng
Schlagworte:
Agricultural land
Analysis
Annual precipitation
Carbon
Carbon - analysis
Carbon content
Carbon Sequestration
China
Clay
Climate change
Ecosystem
Global positioning systems
Global temperature changes
GPS
Grasslands
Karst
Land cover
Organic carbon
Organic soils
Precipitation
Principal components analysis
Regions
Soil
Soil properties
Soil texture
Soils
Stocks
Texture
Tobacco
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Chen, Baoshan
Yuan, Hezhong
Li, Hui
Zhuang, Shunyao
description Soil organic carbon (SOC) contributes the most significant portion of carbon storage in the terrestrial ecosystem. The potential for variability in carbon losses from soil can lead to severe consequences such as climate change. While extensive studies have been conducted to characterize how land cover type, soil texture, and topography impact the distribution of SOC stocks across different ecosystems, little is known about in Karst Region. Here, we characterized SOC stocks with intensive sampling at the local scale (495 representative samples) via Random Forest Regression (RF) and Principal Component Analysis (PCA). Our findings revealed significant differences in SOC stock among land cover types, with croplands exhibiting the lowest SOC stocks, indicating that management practices could play a crucial role in SOC stocks. Conversely, there was little correlation between SOC stock and clay percentage, suggesting that soil texture was not a primary factor influencing SOC at a local scale. Further, Annual Precipitation was identified as the key driving factor for the dynamics of SOC stocks with the help of RF and PCA. A substantial SOC deficit was observed in most soils in this study, as evaluated by a SOC/clay ratio, indicating a significant potential in SOC sequestration with practical measures in the karst region. As such, future research focused on simulating SOC dynamics in the context of climate change should consider the controlling factors at a local scale and summarize them carefully during the up-scaling process.
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The potential for variability in carbon losses from soil can lead to severe consequences such as climate change. While extensive studies have been conducted to characterize how land cover type, soil texture, and topography impact the distribution of SOC stocks across different ecosystems, little is known about in Karst Region. Here, we characterized SOC stocks with intensive sampling at the local scale (495 representative samples) via Random Forest Regression (RF) and Principal Component Analysis (PCA). Our findings revealed significant differences in SOC stock among land cover types, with croplands exhibiting the lowest SOC stocks, indicating that management practices could play a crucial role in SOC stocks. Conversely, there was little correlation between SOC stock and clay percentage, suggesting that soil texture was not a primary factor influencing SOC at a local scale. Further, Annual Precipitation was identified as the key driving factor for the dynamics of SOC stocks with the help of RF and PCA. A substantial SOC deficit was observed in most soils in this study, as evaluated by a SOC/clay ratio, indicating a significant potential in SOC sequestration with practical measures in the karst region. 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The potential for variability in carbon losses from soil can lead to severe consequences such as climate change. While extensive studies have been conducted to characterize how land cover type, soil texture, and topography impact the distribution of SOC stocks across different ecosystems, little is known about in Karst Region. Here, we characterized SOC stocks with intensive sampling at the local scale (495 representative samples) via Random Forest Regression (RF) and Principal Component Analysis (PCA). Our findings revealed significant differences in SOC stock among land cover types, with croplands exhibiting the lowest SOC stocks, indicating that management practices could play a crucial role in SOC stocks. Conversely, there was little correlation between SOC stock and clay percentage, suggesting that soil texture was not a primary factor influencing SOC at a local scale. Further, Annual Precipitation was identified as the key driving factor for the dynamics of SOC stocks with the help of RF and PCA. A substantial SOC deficit was observed in most soils in this study, as evaluated by a SOC/clay ratio, indicating a significant potential in SOC sequestration with practical measures in the karst region. As such, future research focused on simulating SOC dynamics in the context of climate change should consider the controlling factors at a local scale and summarize them carefully during the up-scaling process.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>38277406</pmid><doi>10.1371/journal.pone.0296711</doi><tpages>e0296711</tpages><orcidid>https://orcid.org/0000-0002-9778-8724</orcidid><oa>free_for_read</oa></addata></record>
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subjects Agricultural land
Analysis
Annual precipitation
Carbon
Carbon - analysis
Carbon content
Carbon Sequestration
China
Clay
Climate change
Ecosystem
Global positioning systems
Global temperature changes
GPS
Grasslands
Karst
Land cover
Organic carbon
Organic soils
Precipitation
Principal components analysis
Regions
Soil
Soil properties
Soil texture
Soils
Stocks
Texture
Tobacco
title Characterization of controlling factors for soil organic carbon stocks in one Karst region of Southwest China
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