Negative effects of urbanization on agricultural soil easily oxidizable organic carbon down the profile of the Chengdu Plain, China

Soil easily oxidizable organic carbon (EOC) is directly related to CO2 density; dynamics in subsurface EOC have been observed globally in relation to rapid urbanization. However, in the context of rapid urbanization, the factors related to EOC and the response of the EOC pool to urbanization down th...

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Published inLand degradation & development Vol. 31; no. 3; pp. 404 - 416
Main Authors Luo, Youlin, Li, Qiquan, Wang, Changquan, Li, Bing, Stomph, Tjeerd‐Jan, Yang, Juan, Tao, Qi, Yuan, Shu, Tang, Xiaoyan, Ge, Jinru, Yu, Xuelian, Peng, Yueyue, Xu, Qiang, Zheng, Gangxun
Format Journal Article
LanguageEnglish
Published Chichester Wiley Subscription Services, Inc 15.02.2020
Subjects
Agricultural land
agricultural soils
Carbon dioxide
China
cities
easily oxidized organic carbon
impact factors
Land use
Megacities
negative effects
Organic carbon
rapid urbanization
Regression analysis
Social factors
Socioeconomic data
Socioeconomic factors
Socioeconomics
Soil analysis
Soil investigations
soil profile
Soil profiles
Soil properties
Soils
Spatial analysis
Urban areas
Urbanization
China
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Abstract Soil easily oxidizable organic carbon (EOC) is directly related to CO2 density; dynamics in subsurface EOC have been observed globally in relation to rapid urbanization. However, in the context of rapid urbanization, the factors related to EOC and the response of the EOC pool to urbanization down the profile remain elusive. The aim of the current paper is to investigate possible changes in the distribution of EOC over the soil profile and the impact of land use, socioeconomic, and natural factors on these. The study used samples from 182 soil profiles (0–100 cm) taken in the peri‐urban areas of the megacity Chengdu (a typical megacity with rapid urbanization). Main drivers of changes in soil EOC were analyzed by using spatial and regression analyses. Closer to the centre of the city, soil EOC levels were lower and land‐use factors and socioeconomic factors contributed more to explaining variation in EOC levels in the 0–40‐cm layer, whereas natural factors were most important at larger distance from the city. The effect of land‐use factors and socioeconomic factors on EOC reached down to 60‐cm depths. Moreover, an estimated 20% loss of EOC stock was observed close to the city in comparison with the surroundings, suggesting that the rapid process of urbanization was accompanied by a loss of EOC stock down the profile to depths of 60 cm, and the negative effects on EOC stock became more intensive as the distance to the city decreased.
AbstractList Soil easily oxidizable organic carbon (EOC) is directly related to CO₂ density; dynamics in subsurface EOC have been observed globally in relation to rapid urbanization. However, in the context of rapid urbanization, the factors related to EOC and the response of the EOC pool to urbanization down the profile remain elusive. The aim of the current paper is to investigate possible changes in the distribution of EOC over the soil profile and the impact of land use, socioeconomic, and natural factors on these. The study used samples from 182 soil profiles (0–100 cm) taken in the peri‐urban areas of the megacity Chengdu (a typical megacity with rapid urbanization). Main drivers of changes in soil EOC were analyzed by using spatial and regression analyses. Closer to the centre of the city, soil EOC levels were lower and land‐use factors and socioeconomic factors contributed more to explaining variation in EOC levels in the 0–40‐cm layer, whereas natural factors were most important at larger distance from the city. The effect of land‐use factors and socioeconomic factors on EOC reached down to 60‐cm depths. Moreover, an estimated 20% loss of EOC stock was observed close to the city in comparison with the surroundings, suggesting that the rapid process of urbanization was accompanied by a loss of EOC stock down the profile to depths of 60 cm, and the negative effects on EOC stock became more intensive as the distance to the city decreased.
Soil easily oxidizable organic carbon (EOC) is directly related to CO2 density; dynamics in subsurface EOC have been observed globally in relation to rapid urbanization. However, in the context of rapid urbanization, the factors related to EOC and the response of the EOC pool to urbanization down the profile remain elusive. The aim of the current paper is to investigate possible changes in the distribution of EOC over the soil profile and the impact of land use, socioeconomic, and natural factors on these. The study used samples from 182 soil profiles (0–100 cm) taken in the peri‐urban areas of the megacity Chengdu (a typical megacity with rapid urbanization). Main drivers of changes in soil EOC were analyzed by using spatial and regression analyses. Closer to the centre of the city, soil EOC levels were lower and land‐use factors and socioeconomic factors contributed more to explaining variation in EOC levels in the 0–40‐cm layer, whereas natural factors were most important at larger distance from the city. The effect of land‐use factors and socioeconomic factors on EOC reached down to 60‐cm depths. Moreover, an estimated 20% loss of EOC stock was observed close to the city in comparison with the surroundings, suggesting that the rapid process of urbanization was accompanied by a loss of EOC stock down the profile to depths of 60 cm, and the negative effects on EOC stock became more intensive as the distance to the city decreased.
Soil easily oxidizable organic carbon (EOC) is directly related to CO 2 density; dynamics in subsurface EOC have been observed globally in relation to rapid urbanization. However, in the context of rapid urbanization, the factors related to EOC and the response of the EOC pool to urbanization down the profile remain elusive. The aim of the current paper is to investigate possible changes in the distribution of EOC over the soil profile and the impact of land use, socioeconomic, and natural factors on these. The study used samples from 182 soil profiles (0–100 cm) taken in the peri‐urban areas of the megacity Chengdu (a typical megacity with rapid urbanization). Main drivers of changes in soil EOC were analyzed by using spatial and regression analyses. Closer to the centre of the city, soil EOC levels were lower and land‐use factors and socioeconomic factors contributed more to explaining variation in EOC levels in the 0–40‐cm layer, whereas natural factors were most important at larger distance from the city. The effect of land‐use factors and socioeconomic factors on EOC reached down to 60‐cm depths. Moreover, an estimated 20% loss of EOC stock was observed close to the city in comparison with the surroundings, suggesting that the rapid process of urbanization was accompanied by a loss of EOC stock down the profile to depths of 60 cm, and the negative effects on EOC stock became more intensive as the distance to the city decreased.
Soil easily oxidizable organic carbon (EOC) is directly related to CO2 density; dynamics in subsurface EOC have been observed globally in relation to rapid urbanization. However, in the context of rapid urbanization, the factors related to EOC and the response of the EOC pool to urbanization down the profile remain elusive. The aim of the current paper is to investigate possible changes in the distribution of EOC over the soil profile and the impact of land use, socioeconomic, and natural factors on these. The study used samples from 182 soil profiles (0–100 cm) taken in the peri‐urban areas of the megacity Chengdu (a typical megacity with rapid urbanization). Main drivers of changes in soil EOC were analyzed by using spatial and regression analyses. Closer to the centre of the city, soil EOC levels were lower and land‐use factors and socioeconomic factors contributed more to explaining variation in EOC levels in the 0–40‐cm layer, whereas natural factors were most important at larger distance from the city. The effect of land‐use factors and socioeconomic factors on EOC reached down to 60‐cm depths. Moreover, an estimated 20% loss of EOC stock was observed close to the city in comparison with the surroundings, suggesting that the rapid process of urbanization was accompanied by a loss of EOC stock down the profile to depths of 60 cm, and the negative effects on EOC stock became more intensive as the distance to the city decreased.
Author Yuan, Shu
Ge, Jinru
Luo, Youlin
Tang, Xiaoyan
Yu, Xuelian
Tao, Qi
Li, Bing
Stomph, Tjeerd‐Jan
Peng, Yueyue
Xu, Qiang
Li, Qiquan
Yang, Juan
Zheng, Gangxun
Wang, Changquan
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Snippet Soil easily oxidizable organic carbon (EOC) is directly related to CO2 density; dynamics in subsurface EOC have been observed globally in relation to rapid...
Soil easily oxidizable organic carbon (EOC) is directly related to CO 2 density; dynamics in subsurface EOC have been observed globally in relation to rapid...
Soil easily oxidizable organic carbon (EOC) is directly related to CO₂ density; dynamics in subsurface EOC have been observed globally in relation to rapid...
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SubjectTerms Agricultural land
agricultural soils
Carbon dioxide
China
cities
easily oxidized organic carbon
impact factors
Land use
Megacities
negative effects
Organic carbon
rapid urbanization
Regression analysis
Social factors
Socioeconomic data
Socioeconomic factors
Socioeconomics
Soil analysis
Soil investigations
soil profile
Soil profiles
Soil properties
Soils
Spatial analysis
Urban areas
Urbanization
Title Negative effects of urbanization on agricultural soil easily oxidizable organic carbon down the profile of the Chengdu Plain, China
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fldr.3458
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https://www.proquest.com/docview/2400490576
Volume 31
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