Sustainability

28 pages, 4665 KB

Open AccessArticle

A Quantitative Analysis of the Impact of Support Policies on the Share of Renewable Energy in Europe

by Maksym Mykhei, Dimitrios Pantelakis, Juan Pous Cabello, Isabel Amez, Marcela Taušová and Peter Tauš

Sustainability 2026, 18(4), 1725; https://doi.org/10.3390/su18041725 (registering DOI) - 7 Feb 2026

Abstract

This study examines the association between the formal (de jure) adoption of renewable energy source (RES) support instruments and observed RES deployment outcomes across 36 European countries. We assess whether broader legislative adoption—measured by a transparent breadth/coverage index (SIC/OIL) based on binary coding [...] Read more.

This study examines the association between the formal (de jure) adoption of renewable energy source (RES) support instruments and observed RES deployment outcomes across 36 European countries. We assess whether broader legislative adoption—measured by a transparent breadth/coverage index (SIC/OIL) based on binary coding and equal sector weights—correlates with higher RES shares. The empirical design comprises three complementary steps: (i) hierarchical clustering (Ward’s method; Euclidean distance on standardised indicators) to classify countries by legislative adoption profiles; (ii) parallel clustering of countries by RES utilisation profiles using 10 z-score-standardised outcome indicators (total and sectoral RES shares and per capita RES use by source); and (iii) an integrated comparison of both typologies, followed by a cross-sectional regression test of the OIL–RES association. Legislative and utilisation clusters do not systematically coincide, and the baseline regression shows a weak, statistically insignificant association with very low explanatory power (R² = ≈ 0.015), supporting heterogeneity (H1) rather than a universal positive average relationship (H₂). Interpretation is conservative because SIC/OIL captures policy-mix coverage (not budgets, enforcement, or design stringency) and because some low/zero policy entries may reflect limited source coverage. Overall, the findings suggest that observed RES performance is primarily shaped by country-specific structural conditions (resource endowments, economic capacity, and sustained long-term investment), implying that context-sensitive instruments and stronger implementation capacities should complement formal policy adoption. Full article

(This article belongs to the Special Issue Transitioning to Sustainable Energy: Opportunities and Challenges)

21 pages, 1258 KB

Open AccessReview

Sustainability in Turkish Language Teaching: A Conceptual Framework Developed Through an Integrative Literature Review

by Hatice Dilek Çağ

Sustainability 2026, 18(4), 1724; https://doi.org/10.3390/su18041724 (registering DOI) - 7 Feb 2026

Abstract

This study aims to develop a conceptual framework for integrating sustainability into Turkish language teaching through the synthesis of relevant academic literature and policy documents. Although the intersection of language education and sustainability has been expanding globally, its application within the specific context [...] Read more.

This study aims to develop a conceptual framework for integrating sustainability into Turkish language teaching through the synthesis of relevant academic literature and policy documents. Although the intersection of language education and sustainability has been expanding globally, its application within the specific context of Turkish language education remains insufficiently examined. To address this gap, a qualitative integrative literature review was adopted, enabling the analytical synthesis of diverse theoretical and policy sources to generate new conceptual insights and a coherent framework, rather than merely aggregating or descriptively summarizing existing findings. The findings indicate that integrating sustainability into Turkish language teaching may enhance students’ sustainability awareness and global citizenship while also supporting motivation by providing meaningful, real-world contexts for language use. The analysis further suggests that effective integration requires structural alignment among curriculum design, pedagogical approaches, teacher competencies, instructional materials, and assessment processes. The study also highlights the importance of targeted professional development for teachers in addressing challenges such as limited pedagogical knowledge and workload constraints. Overall, the study proposes a conceptual framework that contributes to ongoing theoretical discussions on integrating sustainability into Turkish language teaching. Full article

(This article belongs to the Special Issue Education for a Sustainable Future: A Global Development Necessity)

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18 pages, 1302 KB

Open AccessArticle

Synergistic Effect of Constructed Wetland-Microbial Fuel Cell in the Treatment of Agricultural Non-Point Source Pollution

by Qingqing Dai, Songhe Jiang, Mingji Jin and Yue Quan

Sustainability 2026, 18(4), 1723; https://doi.org/10.3390/su18041723 (registering DOI) - 7 Feb 2026

Abstract

In this study, we employed a constructed wetland-microbial fuel cell (CW-MFC) for the treatment of agricultural non-point source pollution, and the impacts of CW-MFC, constructed wetland (CW), and microbial fuel cell (MFC) on agricultural non-point source pollution processing performance, electrical performance, and changes [...] Read more.

In this study, we employed a constructed wetland-microbial fuel cell (CW-MFC) for the treatment of agricultural non-point source pollution, and the impacts of CW-MFC, constructed wetland (CW), and microbial fuel cell (MFC) on agricultural non-point source pollution processing performance, electrical performance, and changes in the microbial community within the system were compared and analyzed to explore the synergistic effect of CW-MFC coupling. The findings indicated that the coupling of CW and MFC effectively enhanced the processing performance, electrical performance, and enzyme activity of CW-MFC. The electric field’s promotion of the removal rate of chemical oxygen demand (COD) and total nitrogen (TN) was greater than that of plants, while the electric field’s promotion of the removal rate of total phosphorus (TP) was smaller than that of plants. The promoting effect on the removal rate of atrazine was greater than that of plants at a low concentration of atrazine, but smaller than that of plants at medium and high concentrations of atrazine. The promoting effect of the electric field on urease (UE) and catalase (CAT) activities was generally greater than that of plants, while the promoting effect on alkaline phosphatase (ALP) activity was greater in plants. Affected by the coupling of CW and MFC, the microbial community diversity of CW-MFC and the abundance of bacterial phyla, classes, and genera such as Acidobacteria, Deltaproteobacteria, Aquabacterium, Geobacter, and Subgroup_6 were detected. The abundance of terpenoids and polyketides increased to varying extents. The results of this study laid a solid theoretical foundation for the advancement of agricultural non-point source pollution control technology and provided strong support for the expansion of CW to new application fields. It has profound significance for effectively controlling agricultural non-point source pollution and ensuring the sustainable development of agriculture. Full article

(This article belongs to the Section Pollution Prevention, Mitigation and Sustainability)

17 pages, 364 KB

Open AccessArticle

Barriers to Sustainable Procurement in Dutch Higher Education Institutions

by Mirjam Kibbeling, Cees J. Gelderman, Wendy Broers, Alex De Vries, Joris Van Heeringen and Karin van IJsselmuide

Sustainability 2026, 18(4), 1722; https://doi.org/10.3390/su18041722 (registering DOI) - 7 Feb 2026

Abstract

Higher Education Institutions (HEIs) are increasingly recognized as strategic contributors to a sustainable society. Although sustainable procurement is widely acknowledged as a key mechanism for advancing sustainability goals, many HEIs encounter persistent barriers to its effective implementation. Within the academic research, sustainable procurement [...] Read more.

Higher Education Institutions (HEIs) are increasingly recognized as strategic contributors to a sustainable society. Although sustainable procurement is widely acknowledged as a key mechanism for advancing sustainability goals, many HEIs encounter persistent barriers to its effective implementation. Within the academic research, sustainable procurement in HEIs is a largely overlooked topic. This study explores an often neglected perspective: the experiences of staff-level employees involved in procurement processes. Through focus group research conducted among staff members at five universities of applied sciences in the Netherlands, we identified barriers at the organizational and functional levels. Findings underscore the critical importance of (other) top management priorities, financial considerations and the lack of clear goals and guidelines for implementing sustainable procurement. Focus group participants identified the invisibility of sustainable procurement’s impact as a key challenge in generating buy-in and enthusiasm among colleagues. This invisibility is closely linked to difficulties in measurement and to inadequate monitoring systems. In addition, contract and supplier management appear to be blind spots within HEIs. Staff-level employees feel that they could greatly benefit from the experiences of peers in other institutions. The results of this study highlight untapped potential for advancement in both professional practice and academic research. Full article

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18 pages, 2349 KB

Open AccessArticle

Water Quality Prediction Using Explainable Machine Learning Models

by Majed Alwateer

Sustainability 2026, 18(4), 1721; https://doi.org/10.3390/su18041721 (registering DOI) - 7 Feb 2026

Abstract

Water pollution is a common global challenge, with significant impacts for ecosystem preservation, human health, and sustainable development. Addressing this issue requires a comprehensive understanding of the complex relationships between environmental factors and water quality outcomes. This study investigates the application of machine [...] Read more.

Water pollution is a common global challenge, with significant impacts for ecosystem preservation, human health, and sustainable development. Addressing this issue requires a comprehensive understanding of the complex relationships between environmental factors and water quality outcomes. This study investigates the application of machine learning models to enhance water quality prediction and environmental management. The study utilizes robust machine learning models, including Adaboost, Random Forest, and Decision Tree classifiers, to uncover patterns within multidimensional water quality datasets. The Extra Trees classifier combined with the SMOTE-ENN resampling strategy achieved an accuracy of 87.25%, a recall of 95.26%, and an ROC of 94.52%. The Explainable AI (XAI) method is used to determine the impact of each parameter to the predictions of the model. This study identified parameters such as turbidity, solids, sulfate, hardness, and pH as some of the most influential factors in determining water potability. The identified factors provide valuable insights that can inform policy decisions and targeted interventions to reduce water pollution. The use of machine learning techniques provides a strong foundation for enhancing water quality evaluation and prediction, therefore facilitating sustainable water resource management. Full article

24 pages, 479 KB

Open AccessArticle

Research on the Impact of New Quality Productivity on the Resilience of the Energy Industry Supply Chain—Empirical Evidence from China’s Provincial Panel Data

by Yuyue Xu and Xin Li

Sustainability 2026, 18(4), 1720; https://doi.org/10.3390/su18041720 (registering DOI) - 7 Feb 2026

Abstract

The security and stability of energy are vital to the national economy and people’s well-being. At present, the global energy industry is undergoing a profound historical transformation. Exploring effective strategies to bolster the resilience of the energy industry supply chain and ensure its [...] Read more.

The security and stability of energy are vital to the national economy and people’s well-being. At present, the global energy industry is undergoing a profound historical transformation. Exploring effective strategies to bolster the resilience of the energy industry supply chain and ensure its sustainable development represents a pivotal approach to achieving energy security and stability. Based on panel data from 30 provinces in China from 2013 to 2023, this study constructs an indicator system for new quality productivity forces and the resilience of the energy industry supply chain, applies the entropy weight method for indicator weighting, and employs an improved E–G index algorithm to measure the industrial agglomeration index. The influence of new quality productivity forces on the resilience of the energy industry supply chain is examined through a two-way fixed-effects model. The research findings demonstrate that new quality productivity significantly enhances the resilience of the energy industry supply chain. The level of energy supply exhibits a moderating effect, positively facilitating the enhancement of supply chain resilience through new quality productivity. The levels of urbanization, development, and industrial collaborative agglomeration demonstrate a threshold effect, leading to a nonlinear impact of new quality productivity on the resilience of the energy industry supply chain. Our heterogeneity tests reveal that in central r–ions and regions with higher levels of informatization, the promoting effect of new quality productivity on the resilience of the energy industry supply chain is more pronounced. This study further clarifies the mechanism through which new quality productivity influences the resilience of the energy industry supply chain, enriches and expands the understanding of the role of new quality productivity in the energy industry, and provides crucial support for governments and enterprises in making decisions aimed at enhancing the resilience of the energy industry supply chain. Full article

(This article belongs to the Section Energy Sustainability)

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21 pages, 4408 KB

Open AccessArticle

Modelling and Performance Assessment of a Ground-Coupled Ammonia Heat Pump System: The EMPEC Ustka Case Study

by Ireneusz Zagrodzki, Mateusz Bryk, Piotr Józef Ziółkowski, Tomasz Kowalczyk, Pedro Jesus Cabrera Santana and Janusz Badur

Sustainability 2026, 18(4), 1719; https://doi.org/10.3390/su18041719 (registering DOI) - 7 Feb 2026

Abstract

This study evaluates the feasibility of using a ground-coupled ammonia heat pump as a heat source for the district heating system in Ustka, Poland. A three-dimensional transient thermal model of a 122-borehole field was developed in ANSYS 2023 R1 using local geological data [...] Read more.

This study evaluates the feasibility of using a ground-coupled ammonia heat pump as a heat source for the district heating system in Ustka, Poland. A three-dimensional transient thermal model of a 122-borehole field was developed in ANSYS 2023 R1 using local geological data and hourly meteorological inputs. Three extraction loads—0.50, 0.75, and 1.00 MW—were analysed, together with regeneration periods of one month (August) and six months following the heating season. Ground temperatures were assessed across all geological layers down to 250 m. The simulations show that each of the tested loads leads to a noticeable and lasting reduction in ground temperature. For 1.00 MW, the temperature in the main heat-exchange layers remains more than 2 K below the initial value even after six months of regeneration. At 0.75 MW the deficit is smaller but still persists in the layers that dominate heat transfer. Even the 0.50 MW scenario does not return to thermal balance: the active layers stay more than 1 K cooler after the regeneration period, indicating cumulative long-term cooling. Although the model includes standard engineering simplifications, the large-scale thermal behaviour is consistent across all scenarios. The analysis shows that the analysed GSHP (ground-source heat pump) configuration cannot serve as a primary heat source for the Ustka network in the analysed configuration. Alternative low-emission solutions, such as air-source heat pumps supported by renewable electricity, are more suitable for this site. Full article

(This article belongs to the Section Resources and Sustainable Utilization)

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24 pages, 29939 KB

Open AccessArticle

Flipout Bayesian LSTM with Residual Attention for Uncertainty-Aware PM_2.5 Forecasting and Anomaly Detection

by Quan Li, Huaxing Lu, Haiyang Xu and Dengwei Sun

Sustainability 2026, 18(4), 1718; https://doi.org/10.3390/su18041718 (registering DOI) - 7 Feb 2026

Abstract

Accurate PM_2.5 prediction and reliable uncertainty assessments are essential for effective early warnings and public health protection. However, most existing deep learning models only provide deterministic predictions, with limited treatment of predictive uncertainty, which may reduce the reliability under noisy or abrupt [...] Read more.

Accurate PM_2.5 prediction and reliable uncertainty assessments are essential for effective early warnings and public health protection. However, most existing deep learning models only provide deterministic predictions, with limited treatment of predictive uncertainty, which may reduce the reliability under noisy or abrupt pollution conditions. This study presents a flipout Bayesian LSTM with residual attention (FBA-LSTM), which integrates Bayesian flipout inference, residual connections, and temporal attention to jointly improve the predictive accuracy and uncertainty estimation. Unlike MC dropout, our model explicitly represents weight distributions through variational flipout inference, yielding more comprehensive and stable uncertainty estimates with a lower computational cost. A lightweight calibration module based on standard-deviation scaling further aligns the confidence intervals with empirical coverage. Experiments on hourly PM_2.5 data from four Nanjing stations (2020) showed that FBA-LSTM improves the accuracy, noise robustness, and exceedance warnings (

F_{1}

= 0.996) and achieves a higher anomaly-detection performance (

F_{1}

= 0.691) than baseline models and methods, thereby facilitating the realization of urban environmental sustainability and public health security. Full article

27 pages, 3816 KB

Open AccessArticle

A Multi-Objective Inventory Routing Framework for Rural Freight Logistics

by Soheila Saeidi, Evangelos Kaisar and Mahnaz Babapour

Sustainability 2026, 18(4), 1717; https://doi.org/10.3390/su18041717 (registering DOI) - 7 Feb 2026

Abstract

Rural freight mobility and logistics face persistent challenges, including inadequate road infrastructure, high transportation costs, safety risks, tolls at link access points, and dispersed demand. Traditional inventory routing models often fail to address these complexities, especially in rural contexts where alternative routing options [...] Read more.

Rural freight mobility and logistics face persistent challenges, including inadequate road infrastructure, high transportation costs, safety risks, tolls at link access points, and dispersed demand. Traditional inventory routing models often fail to address these complexities, especially in rural contexts where alternative routing options and integrated in-haul/back-haul operations are essential for improving efficiency and reducing empty miles. This study proposes a bi-objective mathematical model for the inventory routing problem in rural logistics, incorporating multiple routing attributes (transportation costs, risks, link-access tolls, and distances) and inventory dynamics (integrated in-haul and back-haul visits). The model aims to minimize total logistics costs and accident risk while balancing operational expenses and safety considerations. Risk estimation is derived from crash data along rural road links connecting distribution nodes. A real-world case study involving Walmart distribution centers in Macclenny, Baker County, Florida, and several rural Supercenters is conducted to validate the model. A modified Non-Dominated Sorting Genetic Algorithm II (NSGA-II) is developed and compared with CPLEX for solution efficiency across small and large-scale problem instances. Results indicate that the proposed approach outperforms classical methods, improves routing decisions in rural logistics systems, and achieves cost savings of up to 17% for the evaluated objectives, emphasizing the importance of using multi-attribute, multi-route network structures in rural logistics optimization. Full article

(This article belongs to the Section Sustainable Transportation)

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20 pages, 1657 KB

Open AccessArticle

Green Regeneration of Dredged Sediments: Desalination and Amendment for the Preparation of Greening Soil

by Xin Zhang, Yue Ma, Hengyu Liang, Kelan Liu, Junqing Mu, Dongxue Cui, Hongying Liu and Yan Ma

Sustainability 2026, 18(4), 1716; https://doi.org/10.3390/su18041716 (registering DOI) - 7 Feb 2026

Abstract

The rapid expansion of coastal dredging projects has resulted in the accumulation of large volumes of dredged sediments, creating significant environmental and land-use challenges. Conventional disposal methods, such as landfilling and marine dumping, not only waste valuable resources but also pose risks, including [...] Read more.

The rapid expansion of coastal dredging projects has resulted in the accumulation of large volumes of dredged sediments, creating significant environmental and land-use challenges. Conventional disposal methods, such as landfilling and marine dumping, not only waste valuable resources but also pose risks, including heavy metal contamination and excessive salinity. In this study, dredged sediment from the former sedimentation area of Huanghua Port was systematically examined for its potential reuse as greening soil through a three-stage approach: desalination, amendment with additives, and composting. Water-washing experiments were conducted to optimize desalination parameters, with a focus on the effects of solid-to-liquid ratios and washing solution concentrations on electrical conductivity reduction. Biochar, fly ash, and wood vinegar were then applied as amendments to evaluate their impacts on soil properties, including pH, organic matter, electrical conductivity, and cation exchange capacity. In addition, co-composting experiments with dredged sediment and crop straw were designed to investigate composting dynamics and changes in physicochemical characteristics under different mixing ratios. The results showed that two washes with a 0.3% NaCl solution effectively reduced electrical conductivity to acceptable levels. Subsequent amendment and composting treatments markedly enhanced soil fertility and ecological suitability. In particular, the combination of 1000-fold diluted wood vinegar and straw-to-sediment composting at a 1:3 weight ratio enabled the amended sediment to meet the Chinese standards for Planting Soil Green. Overall, this study establishes a scientific basis and practical strategy for the sustainable recycling of dredged sediments, supporting their application in urban greening and ecological restoration. Full article

(This article belongs to the Section Pollution Prevention, Mitigation and Sustainability)

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22 pages, 603 KB

Open AccessArticle

The Impact of Digital Innovation Cooperation on Green Total Factor Productivity of Chinese High-Energy-Consuming Enterprises

by Lin Zhang and Shunyi Li

Sustainability 2026, 18(4), 1715; https://doi.org/10.3390/su18041715 (registering DOI) - 7 Feb 2026

Abstract

In this study, a sample of 702 high-energy-consuming A-share listed companies in China from 2007 to 2024 was used to construct digital innovation cooperation (DIC) based on enterprises’ digital technology patent cooperation data. The impact of DIC on firms’ green total factor productivity [...] Read more.

In this study, a sample of 702 high-energy-consuming A-share listed companies in China from 2007 to 2024 was used to construct digital innovation cooperation (DIC) based on enterprises’ digital technology patent cooperation data. The impact of DIC on firms’ green total factor productivity (GTFP) is empirically investigated. The findings indicate that DIC can considerably enhance the GTFP of high-energy-consuming enterprises (HECEs), and this conclusion is validated using traditional econometric methods and machine learning techniques. Mechanism analysis indicates that DIC promotes GTFP through two main channels: improving firms’ innovation quality and facilitating the green cognitive transformation of top executives. Heterogeneity analysis further highlights that the effect of DIC varies with institutional environment and resource endowment. When local governments place greater emphasis on ecological and environmental issues, the positive effect of DIC becomes more pronounced. Moreover, the positive impact of DIC on GTFP is stronger among energy-type firms. This paper clarifies the internal mechanisms and contextual conditions through which DIC affects GTFP, providing policy implications for promoting the green transformation of HECEs. Full article

(This article belongs to the Topic Green Technology Innovation and Economic Growth)

34 pages, 983 KB

Open AccessArticle

Optimizing Sustainable Resource Integration in Cultural and Tourism Communities Considering Community Influence on Spatial Quality

by Zixuan Sun and Jianming Yao

Sustainability 2026, 18(4), 1714; https://doi.org/10.3390/su18041714 (registering DOI) - 7 Feb 2026

Abstract

Achieving sustainable development in emerging cultural and tourism communities requires not only economic efficiency, but also the long-term revaluation and adaptive integration of cultural and tourism resources. A key challenge lies in integrating diverse and interdependent resources in ways that enhance cultural value, [...] Read more.

Achieving sustainable development in emerging cultural and tourism communities requires not only economic efficiency, but also the long-term revaluation and adaptive integration of cultural and tourism resources. A key challenge lies in integrating diverse and interdependent resources in ways that enhance cultural value, satisfy heterogeneous visitor demands, and maintain resilience under uncertainty. As many emerging cultural tourism communities rely on newly constructed, place-based cultural scenes rather than historically rooted heritage, conventional resource evaluation approaches often fail to capture the cultural and social dimensions essential for sustainability. To address this gap, this study proposes a sustainability-oriented resource integration framework for emerging cultural tourism communities. Drawing on scene theory and customer value theory, a quantitative evaluation system is developed to measure tourists’ perceived spatial quality while explicitly incorporating community interaction and social influence. Based on this evaluation, a multi-objective optimization model is constructed to balance perceived spatial quality, system dynamic adaptability, and tourism suppliers’ cost expectation fulfillment. The model is solved using an ant colony aggregation-inspired dynamic allocation algorithm and validated through a case study in China. The results show that integrating spatial quality and community influence into resource selection enhances cultural sustainability and system resilience, while avoiding short-term, efficiency-driven development. This study provides a decision-support approach for responsible, community-oriented local development. Full article

(This article belongs to the Special Issue Cultural Sustainability in Tourism: Preserving Local Traditions and Heritage While Encouraging Responsible Travel for Sustainable Local Development)

26 pages, 568 KB

Open AccessArticle

Methodological Solution for Sustainable Common Security Risk Management at the External Border

by Sandra Karklina-Admine, Aldis Cevers, Normunds Rudzitis, Arturs Gaveika, Ligita Gasparėnienė and Armands Auzins

Sustainability 2026, 18(4), 1713; https://doi.org/10.3390/su18041713 (registering DOI) - 7 Feb 2026

Abstract

Several state institutions are involved in border security management, including border guards, customs services, veterinary and phytosanitary supervision, and other institutions whose areas of responsibility overlap at border control points. In this study, we found that most EU member states still use sectoral [...] Read more.

Several state institutions are involved in border security management, including border guards, customs services, veterinary and phytosanitary supervision, and other institutions whose areas of responsibility overlap at border control points. In this study, we found that most EU member states still use sectoral systems, with varying degrees of cooperation. The authors emphasise the importance of providing a unified (comprehensive, integrated, and sustainable) approach to border security risk management. The study focuses on the security risk management of the external border. The authors explore a feasible methodological solution and provide recommendations for improving border security and common risk management at the tactical (one-year) level, based on an analysis of scientific literature and practical work experience, as well as surveys and empirical considerations. Quantitative and qualitative research methods are employed in the study. The study’s main findings demonstrate how methodological solutions can support sustainable risk management and provide essential risk assessment techniques. The authors propose a 5-level matrix to assess the impact of external border security risks. National and international agencies can apply the study’s outcome to facilitate mutual collaboration and enhance sustainable, common security risk management practices. Full article

(This article belongs to the Special Issue Risk and Reliability Assessment Related to Sustainable Development)

17 pages, 408 KB

Open AccessArticle

Exploring Consumer Acceptance of Environmentally Friendly Intermediate Farming: A Grouping Approach Based on Consumers’ Purchase Preferences

by Chunhong Wang, Mitsuho Nakagomi, Akari Oka and Kazuhiro Matsumoto

Sustainability 2026, 18(4), 1712; https://doi.org/10.3390/su18041712 (registering DOI) - 7 Feb 2026

Abstract

Debates on sustainability have focused mainly on conventional and organic farming. However, little attention has been given to intermediate production approaches with potential benefits for environmental protection, food affordability, and food safety. This study investigated consumers’ acceptance of an intermediate farming method characterized [...] Read more.

Debates on sustainability have focused mainly on conventional and organic farming. However, little attention has been given to intermediate production approaches with potential benefits for environmental protection, food affordability, and food safety. This study investigated consumers’ acceptance of an intermediate farming method characterized by minimal use of agrochemicals. Using a preference-based grouping approach, 184 Japanese consumers were divided into organic-prone (OA-prone), conventional-prone (CA-prone,), and balance-prone groups (χ² test, p < 0.001). The results revealed clear differences in how these groups evaluated and responded to the produce from the intermediate farming method. OA-prone consumers tended to evaluate such produce against the standards associated with organic food and therefore showed more cautious acceptance. In contrast, CA- and balance-prone consumers demonstrated relatively higher acceptance when product safety and taste were assured, reflecting a more pragmatic evaluation based on functional attributes and affordability. These findings suggest that the promotion of environmentally friendly intermediate farming depends more on pragmatic CA- and balance-prone consumers rather than those value-driven organic consumers. By highlighting consumer heterogeneity in the evaluation of such farming systems, this study contributes to a broader understanding of sustainable food consumption and underscores the role of intermediate farming in bridging environmental sustainability and food security. Full article

(This article belongs to the Special Issue Food Security and Food Choices in Sustainable Development: Strategies and Applications)

36 pages, 980 KB

Open AccessArticle

Establishing Meta-Governance to Resolve Public Conflicts in Offshore Wind Power Projects in Korea

by Kiryong Choi and Taeyoung Kim

Sustainability 2026, 18(4), 1711; https://doi.org/10.3390/su18041711 (registering DOI) - 7 Feb 2026

Abstract

The Korean government has established a goal of ‘carbon neutrality by 2050’ to prepare for an era of energy and carbon transition. As one of the measures to achieve the goal, the Korean government is also focusing on expanding offshore wind power generation. [...] Read more.

The Korean government has established a goal of ‘carbon neutrality by 2050’ to prepare for an era of energy and carbon transition. As one of the measures to achieve the goal, the Korean government is also focusing on expanding offshore wind power generation. However, throughout the power generation project, delays and interruptions frequently occur due to public conflicts that arise between key stakeholders such as local residents, developers, and the government. The existing liberal governance model used to resolve public conflicts is revealing limitations due to the power imbalance between stakeholders and the uncertainty of the responsibility structure. In response, this study proposes a meta-governance model in which the government takes on the coordinating and mediating role among stakeholders as a meta-governor. Through qualitative research methods such as categorizing cases of offshore wind conflicts that have occurred in Korea and analyzing prior studies and policy reports, the analysis demonstrates that this framework can be more effective in resolving public conflicts between stakeholders. Notably, this article integrates the government’s roles as legislator, facilitator, provider, and enforcer mentioned individually in existing meta-governance model research. And it proposes an implementation system designed to manage public conflicts and increase project acceptance in the process of promoting offshore wind power generation. This paper addresses the limitations of existing liberal governance and redefines the role of the meta-governor in meta-governance, thereby providing sustainable implementation strategies for large-scale infrastructure projects including offshore wind power development. Full article

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25 pages, 769 KB

Open AccessArticle

Can Digital–Intelligent Integration Enhance Urban Green Economic Efficiency? An Empirical Analysis Based on National Big Data Comprehensive Pilot Zones and Smart-City Dual-Pilot Programs

by Feng He and Yue Zhang

Sustainability 2026, 18(4), 1710; https://doi.org/10.3390/su18041710 (registering DOI) - 7 Feb 2026

Abstract

Digital–intelligent integration (DII) has emerged as a pivotal driver for high-quality urban development, offering a pathway to overcome pressing resource and environmental constraints. By harnessing data as a core production factor and integrating advanced intelligent technologies, DII can substantially elevate urban green economic [...] Read more.

Digital–intelligent integration (DII) has emerged as a pivotal driver for high-quality urban development, offering a pathway to overcome pressing resource and environmental constraints. By harnessing data as a core production factor and integrating advanced intelligent technologies, DII can substantially elevate urban green economic efficiency (GEE). This study constructs a quasi-natural experiment using the staggered rollout of national big data comprehensive pilot zones (initiated in 2012) and smart-city pilot programs (from 2016 onward). Employing a rigorous staggered difference-in-differences (DID) estimator on panel data from 279 Chinese prefecture-level cities over 2010–2021, we find that DII causally increases GEE by 5.03 percentage points (p < 0.01). This benchmark result remains robust across a comprehensive set of checks, including parallel-trend validation, placebo tests, double/debiased machine learning, two-stage least squares with historical IT-sector instruments, and controls for overlapping policies (e.g., ETS, low-carbon pilots, green finance zones). Mechanism analysis, conducted via a sequential 2SLS control-function approach with lagged mediators and Sobel–Goodman mediation tests, reveals three theoretically grounded channels: (i) enhanced urban ecological resilience (mediates 62%, z = 4.68), (ii) accelerated green technological innovation (55%, z = 4.12, measured by IPC/Y02 patent share), and (iii) heightened entrepreneurial vitality (58%, z = 4.39, new firms per 10,000 residents). Heterogeneity tests show pronounced effects in growing and mature resource-based cities (+1.21% and +11.21%), high-fintech cities (+11.35%), and high-river-density areas (+10.29%) but insignificant impacts in declining resource-exhausted cities (joint F p = 0.08). This study makes four key contributions: (1) it innovatively constructs a continuous DII policy variable by exploiting the synergistic timing of dual pilots, thereby overcoming the limitation of analyzing policies in isolation; (2) it opens the “theoretical black box” by integrating institutional theory and information economics into a unified conceptual framework that explicitly links DII to GEE through reduced transaction costs and alleviated information asymmetry; (3) it enriches the mediation identification strategy in staggered settings using 2SLS control functions and sequential G-estimation, addressing endogeneity in intermediary variables more rigorously than traditional three-step approaches; and (4) it delivers nuanced evidence on the contextual conditions (when and where) under which DII yields the strongest green dividends, providing actionable guidance for China’s “dual-carbon” goals and the global green transition. Full article

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17 pages, 1998 KB

Open AccessArticle

A Co-Designed High-Performance Computing and Visualization Framework for Near-Real-Time Sustainable Land Governance Decisions

by Pengfei Cong, Mingxuan Yi, Shibao Deng, Qian Xiao, Xinfeng Wang, Wenmiao Zhao, Chong Liu, Yan Zhang and Jichao Gao

Sustainability 2026, 18(4), 1709; https://doi.org/10.3390/su18041709 (registering DOI) - 7 Feb 2026

Abstract

Sustainable land governance requires timely and accurate monitoring of land-use change to balance ecological, agricultural, and urban demands. Yet policymakers rarely receive actionable insights fast enough, because large-scale geospatial computation and rapid delivery remain disconnected. To close this gap, we introduce a Computational-Visualization [...] Read more.

Sustainable land governance requires timely and accurate monitoring of land-use change to balance ecological, agricultural, and urban demands. Yet policymakers rarely receive actionable insights fast enough, because large-scale geospatial computation and rapid delivery remain disconnected. To close this gap, we introduce a Computational-Visualization Co-design (CVC) framework that welds a distributed high-performance computing engine to a real-time, preprocessing-free visualization system. Our approach represents a system-level innovation. It co-designs computational shards as visualization units, eliminating intermediate data reorganization. This co-design paradigm makes analytical results immediately visible. CVC processes a 20 TB imagery dataset and overlays millions of parcels 5–9 times faster than conventional engines. Map service publishing plummets from 168 h to just 7—a 24-fold speed-up—while client-side performance stays robust. The framework directly supports sustainable land management. It enables proactive monitoring, rapid impact assessment, and evidence-based policy formulation. Our work thus contributes to key Sustainable Development Goals related to land and cities. Validated with national survey data from China, the system merges analysis with instantaneous visual feedback, offering a practical route to sustainable land governance. Full article

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26 pages, 1190 KB

Open AccessArticle

Drivers of Farmers’ Willingness to Recycle Pesticide Packaging Waste: A Configurational Analysis

by Liping Zhou and Sihan Hu

Sustainability 2026, 18(4), 1708; https://doi.org/10.3390/su18041708 (registering DOI) - 7 Feb 2026

Abstract

A mix of internal and external factors affect farmers’ recycling practices with regarding pesticide packaging waste. However, most of the research that has been done so far has concentrated on the individual effects of these elements rather than providing a clear explanation of [...] Read more.

A mix of internal and external factors affect farmers’ recycling practices with regarding pesticide packaging waste. However, most of the research that has been done so far has concentrated on the individual effects of these elements rather than providing a clear explanation of the intricate mechanisms by which a variety of internal and environmental factors work together to drive recycling behavior. This study builds an integrated “internal–external” factor analysis framework based on Lewin’s Behavior Model, integrating Organizational Support Theory and the Theory of Planned Behavior to close this gap. We examine the many configurational pathways influencing farmers’ willingness to recycle pesticide packaging debris using fuzzy-set Qualitative Comparative Analysis (fsQCA). The results showed that there are four different configurational approaches that lead to a high readiness to recycle: the information–norm interaction-driven path, the capability–belief-driven path, the norm–emotion endogenous-driven path, and the psychology-driven dominant path. Farmers’ attitudes toward recycling were found to be a key component in all four routes, indicating that it is essential to attaining high recycling willingness. The findings of this study offered policy insights for encouraging recycling behavior and assisted in identifying the intricate causal processes of multi-factor synergy impacting farmers’ propensity to recycle pesticide packaging trash. Full article

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30 pages, 728 KB

Open AccessArticle

ESG Score and Firm Performance: A Comparative Analysis of Nordic and European Companies

by Payam Rostamicheri, Virgil Popescu, Ramona Birau and Iuliana Carmen Bărbăcioru

Sustainability 2026, 18(3), 1707; https://doi.org/10.3390/su18031707 (registering DOI) - 6 Feb 2026

Abstract

This study investigates how environmental, social, and governance (ESG) performance influences firm-level financial outcomes using a panel of approximately 24,500 firm-year observations from 2015 to 2024, based on Refinitiv ESG scores across 12 industries and multiple European countries. To capture institutional heterogeneity, the [...] Read more.

This study investigates how environmental, social, and governance (ESG) performance influences firm-level financial outcomes using a panel of approximately 24,500 firm-year observations from 2015 to 2024, based on Refinitiv ESG scores across 12 industries and multiple European countries. To capture institutional heterogeneity, the analysis separates Nordic and non-Nordic firms and applies fixed-effects models for the latter and random-effects models for the former, as supported by Hausman diagnostics. The results reveal that ESG performance is positively associated with firm value, while its effects on short-run accounting returns differ across regions. Specifically, ESG scores are associated with a negative and statistically significant impact on ROA and ROE in the non-Nordic subsample, suggesting transitional adjustment costs and delayed financial realization. For financing outcomes, the study shows that ESG engagement reduces the Weighted Average Cost of Capital (WACC) in both samples, though mechanisms differ. In Nordic markets, a 10-point increase in ESG score corresponds to an estimated 4.2-basis-point reduction in WACC, reflecting the benefits of mature disclosure systems. In contrast, governance emerges as the only ESG pillar capable of reducing financing costs in non-Nordic countries. These region-specific patterns confirm that institutional maturity and investor orientation shape the financial materiality of ESG practices. The novelty of this study lies in jointly modeling (i) positive valuation effects, (ii) negative short-run profitability adjustments, and (iii) financing-cost reductions within a unified ESG framework while explicitly distinguishing governance regimes across Europe. The findings offer new evidence on how disclosure quality and governance structures moderate ESG’s economic impact and suggest that strengthening governance transparency can help firms in less mature ESG environments realize capital-cost advantages. Full article

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