A dual-method approach integrating dynamic QCA and LightGBM-SHAP algorithms to uncover the configuration paths and key drivers of water resource green efficiency in China

[Display omitted] •Super-EBM-GML model measures WRGE across time and space under high-quality development in China.•TOE framework identifies key technological, organizational, and environmental drivers of WRGE.•Dynamic QCA reveals three WRGE models with four configurations, reflecting temporal and r...

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Published inEcological indicators Vol. 175; p. 113540
Main Authors He, Naiming, Ding, Rijia
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2025
Elsevier
Subjects
China
Configuration paths
Dynamic qualitative comparative analysis (QCA)
environmental law
issues and policy
LightGBM
quantitative analysis
SHAP
Super-EBM model
sustainable development
sustainable technology
Technology-Organization-Environment (TOE) framework
water management
Water resource green efficiency
water shortages
China
SHAP
Technology-Organization-Environment (TOE) framework
Dynamic qualitative comparative analysis (QCA)
Configuration paths
LightGBM
Water resource green efficiency
Super-EBM model
Online AccessGet full text
ISSN1470-160X
1872-7034
DOI10.1016/j.ecolind.2025.113540

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Abstract [Display omitted] •Super-EBM-GML model measures WRGE across time and space under high-quality development in China.•TOE framework identifies key technological, organizational, and environmental drivers of WRGE.•Dynamic QCA reveals three WRGE models with four configurations, reflecting temporal and regional differences.•To integrate qualitative and quantitative analysis, LightGBM-SHAP quantifies variable impacts on WRGE.•Findings offer new perspectives and differentiated pathways for regions worldwide facing water scarcity challenges. Water resource utilization is crucial for sustainable development, and enhancing water resource green efficiency (WRGE) is essential for addressing water scarcity. This study presents three key innovations: (1) It applies the super-efficiency epsilon-based measurement and global Malmquist–Luenberger index (Super-EBM-GML) model from the perspective of high-quality economic development to analyze the spatiotemporal characteristics of WRGE across 30 Chinese provinces from 2014 to 2022. (2) It uses the Technology-Organization-Environment (TOE) framework and dynamic qualitative comparative analysis (QCA) model to identify the key drivers of WRGE and regional variations. (3) It integrates machine learning (light gradient-boosting machine with Shapley additive explanations; LightGBM-SHAP) with QCA to quantify the impact of variables, combining qualitative and quantitative analysis. Key findings include the following: (1) WRGE showed an upward trend, with higher efficiency in the eastern and economically developed regions. Growth in the GML index was mainly driven by green technological progress (GTC). (2) Although no single necessary condition was found to drive WRGE, three model types and four configuration paths were identified: technology–environment-driven, environment-driven, and organization–environment-driven. (3) The most influential factors were digital economy development, followed by industrial structure rationalization and environmental regulation. This study provides key policy recommendations, including the promotion of green technology, the strengthening of regulations, the enhancement of policy resilience, the implementation of region-specific strategies, and the integration of the digital economy with water resource management, thus offering valuable insights for regions facing water scarcity.
AbstractList [Display omitted] •Super-EBM-GML model measures WRGE across time and space under high-quality development in China.•TOE framework identifies key technological, organizational, and environmental drivers of WRGE.•Dynamic QCA reveals three WRGE models with four configurations, reflecting temporal and regional differences.•To integrate qualitative and quantitative analysis, LightGBM-SHAP quantifies variable impacts on WRGE.•Findings offer new perspectives and differentiated pathways for regions worldwide facing water scarcity challenges. Water resource utilization is crucial for sustainable development, and enhancing water resource green efficiency (WRGE) is essential for addressing water scarcity. This study presents three key innovations: (1) It applies the super-efficiency epsilon-based measurement and global Malmquist–Luenberger index (Super-EBM-GML) model from the perspective of high-quality economic development to analyze the spatiotemporal characteristics of WRGE across 30 Chinese provinces from 2014 to 2022. (2) It uses the Technology-Organization-Environment (TOE) framework and dynamic qualitative comparative analysis (QCA) model to identify the key drivers of WRGE and regional variations. (3) It integrates machine learning (light gradient-boosting machine with Shapley additive explanations; LightGBM-SHAP) with QCA to quantify the impact of variables, combining qualitative and quantitative analysis. Key findings include the following: (1) WRGE showed an upward trend, with higher efficiency in the eastern and economically developed regions. Growth in the GML index was mainly driven by green technological progress (GTC). (2) Although no single necessary condition was found to drive WRGE, three model types and four configuration paths were identified: technology–environment-driven, environment-driven, and organization–environment-driven. (3) The most influential factors were digital economy development, followed by industrial structure rationalization and environmental regulation. This study provides key policy recommendations, including the promotion of green technology, the strengthening of regulations, the enhancement of policy resilience, the implementation of region-specific strategies, and the integration of the digital economy with water resource management, thus offering valuable insights for regions facing water scarcity.
Water resource utilization is crucial for sustainable development, and enhancing water resource green efficiency (WRGE) is essential for addressing water scarcity. This study presents three key innovations: (1) It applies the super-efficiency epsilon-based measurement and global Malmquist–Luenberger index (Super-EBM-GML) model from the perspective of high-quality economic development to analyze the spatiotemporal characteristics of WRGE across 30 Chinese provinces from 2014 to 2022. (2) It uses the Technology-Organization-Environment (TOE) framework and dynamic qualitative comparative analysis (QCA) model to identify the key drivers of WRGE and regional variations. (3) It integrates machine learning (light gradient-boosting machine with Shapley additive explanations; LightGBM-SHAP) with QCA to quantify the impact of variables, combining qualitative and quantitative analysis. Key findings include the following: (1) WRGE showed an upward trend, with higher efficiency in the eastern and economically developed regions. Growth in the GML index was mainly driven by green technological progress (GTC). (2) Although no single necessary condition was found to drive WRGE, three model types and four configuration paths were identified: technology–environment-driven, environment-driven, and organization–environment-driven. (3) The most influential factors were digital economy development, followed by industrial structure rationalization and environmental regulation. This study provides key policy recommendations, including the promotion of green technology, the strengthening of regulations, the enhancement of policy resilience, the implementation of region-specific strategies, and the integration of the digital economy with water resource management, thus offering valuable insights for regions facing water scarcity.
ArticleNumber 113540
Author Ding, Rijia
He, Naiming
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Keywords SHAP
Technology-Organization-Environment (TOE) framework
Dynamic qualitative comparative analysis (QCA)
Configuration paths
LightGBM
Water resource green efficiency
Super-EBM model
Language English
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Snippet [Display omitted] •Super-EBM-GML model measures WRGE across time and space under high-quality development in China.•TOE framework identifies key technological,...
Water resource utilization is crucial for sustainable development, and enhancing water resource green efficiency (WRGE) is essential for addressing water...
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SubjectTerms China
Configuration paths
Dynamic qualitative comparative analysis (QCA)
environmental law
issues and policy
LightGBM
quantitative analysis
SHAP
Super-EBM model
sustainable development
sustainable technology
Technology-Organization-Environment (TOE) framework
water management
Water resource green efficiency
water shortages
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Title A dual-method approach integrating dynamic QCA and LightGBM-SHAP algorithms to uncover the configuration paths and key drivers of water resource green efficiency in China
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