Multidimensional assessment of soil conservation ecosystem services and multiscale analysis of influencing mechanisms

Soil conservation ecosystem services (SCESs) are related to food production, safety of residents, water quality, and public health. However, the traditional assessment framework only focuses on a single dimension of SCESs, and the efficiency and development trends are often overlooked. A multidimens...

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Published inJournal of cleaner production Vol. 381; p. 135162
Main Authors Shi, Donghui, Wu, Qiusheng, Shi, Yishao, Li, Zehong, Xia, Bing, Chen, Ya, Zhang, Ninghui, Meng, Jianming, Li, Yu
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 25.12.2022
Subjects
clay fraction
cropland
ecosystems
food production
forest land
humans
Minnesota
Multidimensional ecosystem services assessment
Multiscale geographically weighted regression
Multiscale influencing mechanism
public health
rain
sand fraction
silt fraction
Soil conservation
soil organic carbon
spatial variation
vegetation index
water quality
Minnesota
Multiscale influencing mechanism
Multidimensional ecosystem services assessment
Multiscale geographically weighted regression
Soil conservation
Online AccessGet full text
ISSN0959-6526
1879-1786
DOI10.1016/j.jclepro.2022.135162

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Abstract Soil conservation ecosystem services (SCESs) are related to food production, safety of residents, water quality, and public health. However, the traditional assessment framework only focuses on a single dimension of SCESs, and the efficiency and development trends are often overlooked. A multidimensional assessment framework was established to assess SCESs in terms of the total output, efficiency, development trend temporally and spatially. Additionally, the traditional perspective of influencing mechanism analysis was expanded to include spatial heterogeneity. The influencing strength and distance were quantitatively revealed at pixel resolution. The results indicate that (1) the SCESs in Minnesota were generally improved from 1998 to 2018. (2) 70% and 78% of the counties experienced low-output and low-efficiency problems, respectively. (3) The Twin Cities constituted the degradation cores of SCESs in Minnesota. (4) The cropland and forestland proportions and rainfall were the top three influencing factors, causing SCES changes of 0.9959%, 0.4937%, and 0.1536%, respectively, for every 1% change in these factors. (5) According to the influence scopes, the soil organic carbon (SOC) content, normalized difference vegetation index (NDVI), and soil silt content were classified as long-distance factors, the soil sand content, slope and soil clay content were categorized as moderate-distance factors, and the remaining variables were identified as short-distance factors. (6) The influencing factors imposed both positive and negative influences on the SCESs, and attenuation or alteration of the adverse influences on SCESs through specific human interventions is a very promising approach. •A multidimensional assessment framework was proposed.•The SCESs in Minnesota has been severe with an upward development.•Degradations were classified into five types at county level and concentrated at “Twin Cities”.•The proportions of cropland, forestland, and rainfall were the strongest influencing strength factors.•The influencing factors are classified as long-distance, moderate-distance, and short-distance factors.
AbstractList Soil conservation ecosystem services (SCESs) are related to food production, safety of residents, water quality, and public health. However, the traditional assessment framework only focuses on a single dimension of SCESs, and the efficiency and development trends are often overlooked. A multidimensional assessment framework was established to assess SCESs in terms of the total output, efficiency, development trend temporally and spatially. Additionally, the traditional perspective of influencing mechanism analysis was expanded to include spatial heterogeneity. The influencing strength and distance were quantitatively revealed at pixel resolution. The results indicate that (1) the SCESs in Minnesota were generally improved from 1998 to 2018. (2) 70% and 78% of the counties experienced low-output and low-efficiency problems, respectively. (3) The Twin Cities constituted the degradation cores of SCESs in Minnesota. (4) The cropland and forestland proportions and rainfall were the top three influencing factors, causing SCES changes of 0.9959%, 0.4937%, and 0.1536%, respectively, for every 1% change in these factors. (5) According to the influence scopes, the soil organic carbon (SOC) content, normalized difference vegetation index (NDVI), and soil silt content were classified as long-distance factors, the soil sand content, slope and soil clay content were categorized as moderate-distance factors, and the remaining variables were identified as short-distance factors. (6) The influencing factors imposed both positive and negative influences on the SCESs, and attenuation or alteration of the adverse influences on SCESs through specific human interventions is a very promising approach. •A multidimensional assessment framework was proposed.•The SCESs in Minnesota has been severe with an upward development.•Degradations were classified into five types at county level and concentrated at “Twin Cities”.•The proportions of cropland, forestland, and rainfall were the strongest influencing strength factors.•The influencing factors are classified as long-distance, moderate-distance, and short-distance factors.
Soil conservation ecosystem services (SCESs) are related to food production, safety of residents, water quality, and public health. However, the traditional assessment framework only focuses on a single dimension of SCESs, and the efficiency and development trends are often overlooked. A multidimensional assessment framework was established to assess SCESs in terms of the total output, efficiency, development trend temporally and spatially. Additionally, the traditional perspective of influencing mechanism analysis was expanded to include spatial heterogeneity. The influencing strength and distance were quantitatively revealed at pixel resolution. The results indicate that (1) the SCESs in Minnesota were generally improved from 1998 to 2018. (2) 70% and 78% of the counties experienced low-output and low-efficiency problems, respectively. (3) The Twin Cities constituted the degradation cores of SCESs in Minnesota. (4) The cropland and forestland proportions and rainfall were the top three influencing factors, causing SCES changes of 0.9959%, 0.4937%, and 0.1536%, respectively, for every 1% change in these factors. (5) According to the influence scopes, the soil organic carbon (SOC) content, normalized difference vegetation index (NDVI), and soil silt content were classified as long-distance factors, the soil sand content, slope and soil clay content were categorized as moderate-distance factors, and the remaining variables were identified as short-distance factors. (6) The influencing factors imposed both positive and negative influences on the SCESs, and attenuation or alteration of the adverse influences on SCESs through specific human interventions is a very promising approach.
ArticleNumber 135162
Author Xia, Bing
Li, Yu
Wu, Qiusheng
Li, Zehong
Zhang, Ninghui
Chen, Ya
Shi, Donghui
Meng, Jianming
Shi, Yishao
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  surname: Li
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  email: liy@igsnrr.ac.cn
  organization: Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing, 100101, China
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Multidimensional ecosystem services assessment
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Soil conservation
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Snippet Soil conservation ecosystem services (SCESs) are related to food production, safety of residents, water quality, and public health. However, the traditional...
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SubjectTerms clay fraction
cropland
ecosystems
food production
forest land
humans
Minnesota
Multidimensional ecosystem services assessment
Multiscale geographically weighted regression
Multiscale influencing mechanism
public health
rain
sand fraction
silt fraction
Soil conservation
soil organic carbon
spatial variation
vegetation index
water quality
Title Multidimensional assessment of soil conservation ecosystem services and multiscale analysis of influencing mechanisms
URI https://dx.doi.org/10.1016/j.jclepro.2022.135162
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Volume 381
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