Sustainability

36 pages, 2390 KB

Open AccessArticle

Digital Servitization Business Model Innovation Practices for Corporate Decarbonization in Manufacturing Enterprises: A Qualitative Meta-Analysis

by Wanqin Sun and Lei Shen

Sustainability 2026, 18(2), 742; https://doi.org/10.3390/su18020742 (registering DOI) - 11 Jan 2026

Abstract

The global shift toward decarbonization and the rise of the digital economy are compelling manufacturing firms to undergo a complex twin transformation across their structures, operations, and value chains. Business model innovation (BMI), especially in digital servitization (DSBMI), emerges as a crucial catalyst [...] Read more.

The global shift toward decarbonization and the rise of the digital economy are compelling manufacturing firms to undergo a complex twin transformation across their structures, operations, and value chains. Business model innovation (BMI), especially in digital servitization (DSBMI), emerges as a crucial catalyst in facilitating this change. However, there is a lack of systematic exploration of how DSBMI influences corporate decarbonization (CD). To fill this knowledge gap, a comprehensive qualitative meta-analysis of 27 case studies was conducted, identifying multiple DSBMI practices for CD employed by industrial firms. These practices can be summarized into three main types: efficiency DSBMI, novelty DSBMI, and convergent DSBMI. A system has at least two of these, while all three may coexist. Based on dynamic capabilities theory, this study also introduces six roles for the three types of DSBMI practices, which interact to help firms sense opportunities, seize them through BMI, and transform their operations and ecosystems—collectively enabling decarbonization through internal optimization (efficiency DSBMI), downstream innovation (novelty DSBMI), and value chain-wide cooperation (convergent DSBMI). The findings offer a comprehensive theoretical framework that guides companies to achieve economic benefits while advancing their CD goals through multi-level BMI strategies. Finally, the study discusses its limitations and proposes directions for future research. Full article

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26 pages, 29252 KB

Open AccessArticle

Evaluating Hemp Fibre as a Sustainable Bio-Based Material for Acoustic Applications

by Edgaras Strazdas and Tomas Januševičius

Sustainability 2026, 18(2), 741; https://doi.org/10.3390/su18020741 (registering DOI) - 11 Jan 2026

Abstract

Nowadays, in order to follow the trends and principles of sustainability, natural materials are often investigated in acoustics and noise prevention. Hemp fibre is a sustainable alternative to conventional sound-absorbing or insulating materials. The aim of the research is to investigate the acoustic [...] Read more.

Nowadays, in order to follow the trends and principles of sustainability, natural materials are often investigated in acoustics and noise prevention. Hemp fibre is a sustainable alternative to conventional sound-absorbing or insulating materials. The aim of the research is to investigate the acoustic properties of different types of hemp fibre. Five different types of hemp fibre were tested: bleached, cottonized, boiled cottonized, well-stripped decorticated, and short, not combed decorticated fibres. The hemp fibre samples were varied in thickness from 20, 40, and 60 mm and density from 50 to 250 kg/m³ in steps of 50 kg/m³. The sound transmission loss of the material was measured using an impedance tube. In order to predict the sound absorption properties of the samples, the airflow resistivity of the hemp fibre was determined. Based on the theoretical calculations proposed by Delany, Bazley, and Miki, a theoretical analysis of the sound absorption of hemp fibre was performed. In order to determine the dependence on different fibre types, all fibres were examined using SEM. It has been found that hemp fibre can be used as an insulating or sound-absorbing material in noise prevention, as a sustainable alternative to conventional materials. Full article

(This article belongs to the Section Sustainable Materials)

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16 pages, 2349 KB

Open AccessArticle

Machine Learning Prediction and Interpretability Analysis of Coal and Gas Outbursts

by Long Xu, Xiaofeng Ren and Hao Sun

Sustainability 2026, 18(2), 740; https://doi.org/10.3390/su18020740 (registering DOI) - 11 Jan 2026

Abstract

Coal and gas outbursts constitute a major hazard for mining safety, which is critical for the sustainable development of China’s energy industry. Rapid, accurate, and reliable pre-diction is pivotal for preventing and controlling outburst incidents. Nevertheless, the mechanisms driving coal and gas outbursts [...] Read more.

Coal and gas outbursts constitute a major hazard for mining safety, which is critical for the sustainable development of China’s energy industry. Rapid, accurate, and reliable pre-diction is pivotal for preventing and controlling outburst incidents. Nevertheless, the mechanisms driving coal and gas outbursts involve highly complex influencing factors. Four main geological indicators were identified by examining the attributes of these factors and their association to outburst intensity. This study developed a machine learning-based prediction model for outburst risk. Five algorithms were evaluated: K Nearest Neighbors (KNN), Back Propagation (BP), Random Forest (RF), Support Vector Machine (SVM), and eXtreme Gradient Boosting (XGBoost). Model optimization was performed via Bayesian hyperparameter (BO) tuning. Model performance was assessed by the Receiver Operating Characteristic (ROC) curve; the optimized XGBoost model demonstrated strong predictive performance. To enhance model transparency and interpretability, the SHapley Additive exPlanations (SHAP) method was implemented. The SHAP analysis identified geological structure was the most important predictive feature, providing a practical decision support tool for mine executives to prevent and control outburst incidents. Full article

(This article belongs to the Section Hazards and Sustainability)

22 pages, 2896 KB

Open AccessArticle

Probabilistic Photovoltaic Power Forecasting with Reliable Uncertainty Quantification via Multi-Scale Temporal–Spatial Attention and Conformalized Quantile Regression

by Guanghu Wang, Yan Zhou, Yan Yan, Zhihan Zhou, Zikang Yang, Litao Dai and Junpeng Huang

Sustainability 2026, 18(2), 739; https://doi.org/10.3390/su18020739 (registering DOI) - 11 Jan 2026

Abstract

Accurate probabilistic forecasting of photovoltaic (PV) power generation is crucial for grid scheduling and renewable energy integration. However, existing approaches often produce prediction intervals with limited calibration accuracy, and the interdependence among meteorological variables is frequently overlooked. This study proposes a probabilistic forecasting [...] Read more.

Accurate probabilistic forecasting of photovoltaic (PV) power generation is crucial for grid scheduling and renewable energy integration. However, existing approaches often produce prediction intervals with limited calibration accuracy, and the interdependence among meteorological variables is frequently overlooked. This study proposes a probabilistic forecasting framework based on a Multi-scale Temporal–Spatial Attention Quantile Regression Network (MTSA-QRN) and an adaptive calibration mechanism to enhance uncertainty quantification and ensure statistically reliable prediction intervals. The framework employs a dual-pathway architecture: a temporal pathway combining Temporal Convolutional Networks (TCN) and multi-head self-attention to capture hierarchical temporal dependencies, and a spatial pathway based on Graph Attention Networks (GAT) to model nonlinear meteorological correlations. A learnable gated fusion mechanism adaptively integrates temporal–spatial representations, and weather-adaptive modules enhance robustness under diverse atmospheric conditions. Multi-quantile prediction intervals are calibrated using conformalized quantile regression to ensure reliable uncertainty coverage. Experiments on a real-world PV dataset (15 min resolution) demonstrate that the proposed method offers more accurate and sharper uncertainty estimates than competitive benchmarks, supporting risk-aware operational decision-making in power systems. Quantitative evaluation on a real-world 40 MW photovoltaic plant demonstrates that the proposed MTSA-QRN achieves a CRPS of 0.0400 before calibration, representing an improvement of over 55% compared with representative deep learning baselines such as Quantile-GRU, Quantile-LSTM, and Quantile-Transformer. After adaptive calibration, the proposed method attains a reliable empirical coverage close to the nominal level (PICP₉₀ = 0.9053), indicating effective uncertainty calibration. Although the calibrated prediction intervals become wider, the model maintains a competitive CRPS value (0.0453), striking a favorable balance between reliability and probabilistic accuracy. These results demonstrate the effectiveness of the proposed framework for reliable probabilistic photovoltaic power forecasting. Full article

(This article belongs to the Topic Sustainable Energy Systems)

30 pages, 1810 KB

Open AccessArticle

Optimal Dispatch of Multi-Integrated Energy Systems with Spatio-Temporal Wind Forecasting and Bilateral Energy–Carbon Trading

by Yixuan Xu and Guoqing Wang

Sustainability 2026, 18(2), 738; https://doi.org/10.3390/su18020738 (registering DOI) - 11 Jan 2026

Abstract

With the increasing penetration of renewable energy, the efficient dispatch of integrated energy systems (IESs) is facing severe challenges. Addressing the uncertainty of renewable energy output and designing efficient market mechanisms are crucial for achieving economical and low-carbon operation of IES. To this [...] Read more.

With the increasing penetration of renewable energy, the efficient dispatch of integrated energy systems (IESs) is facing severe challenges. Addressing the uncertainty of renewable energy output and designing efficient market mechanisms are crucial for achieving economical and low-carbon operation of IES. To this end, this paper unveils a comprehensive modeling and optimization framework: Firstly, a Spatio-Temporal Diffusion Model (STDM) is proposed, which generates high-quality wind power forecasting data by accurately capturing its spatio-temporal correlations, thereby providing reliable input for IES dispatch. Subsequently, a stochastic optimal scheduling model for electricity–heat–carbon coupled IES is established, comprehensively considering carbon capture equipment and a carbon quota mechanism. Finally, a multi-IES Nash bargaining cooperative game model is developed, encompassing bilateral energy trading and bilateral carbon trading, to equitably distribute cooperative benefits. Simulation results demonstrate that the STDM model significantly outperforms baseline models in both forecasting accuracy and scenario quality, while the designed bilateral market mechanism enhances system economics by reducing the total operating cost by 19.63% and lowering the total carbon emissions by 4.09%. Full article

(This article belongs to the Special Issue Sustainable Renewable Energy: Smart Grid and Electric Power System)

19 pages, 995 KB

Open AccessArticle

Why Not Drive Eco-Friendly? Exploring Consumer Perceptions and Barriers to Sustainable Driving

by Lena Jingen Liang and Xiao Chen

Sustainability 2026, 18(2), 737; https://doi.org/10.3390/su18020737 (registering DOI) - 11 Jan 2026

Abstract

Eco-friendly driving, defined as an individual’s daily driving practices that reduce fuel and energy consumption, remains significantly underutilized despite growing attention to climate change and sustainability. Given that changes in consumer behaviour are central to sustainability transitions and strongly influenced by how individuals [...] Read more.

Eco-friendly driving, defined as an individual’s daily driving practices that reduce fuel and energy consumption, remains significantly underutilized despite growing attention to climate change and sustainability. Given that changes in consumer behaviour are central to sustainability transitions and strongly influenced by how individuals perceive sustainability-related information, this study investigates the psychological and structural barriers that shape consumers’ perceptions of eco-friendly driving. A scoping review of empirical research on these barriers (Study 1), informed by Gifford’s “dragons of inaction,” combined with 50 semi-structured interviews (Study 2) conducted in a highly car-dependent regional context, provides convergent evidence on the complex factors shaping consumer behaviour in sustainable mobility. Across both studies, consistent psychological barriers emerged, including limited awareness of eco-driving techniques, doubts about effectiveness, emotional responses such as stress or range anxiety, and habitual reliance on conventional driving. Structural barriers such as inadequate infrastructure, limited charging accessibility, economic constraints, and weak policy support further constrained perceived feasibility. Evidence from both studies showed that these barriers reinforce one another, intensifying scepticism and reducing engagement with sustainability initiatives and messages. The findings contribute to research on sustainable consumer behaviour and sustainability communication by showing how internal and external constraints jointly shape eco-friendly driving decisions. Practically, the results highlight opportunities for coordinated infrastructure, policy, and communication strategies to support broader adoption of eco-friendly driving behaviours. Full article

(This article belongs to the Special Issue Sustainable Brand Management and Consumer Perceptions (2nd Edition))

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15 pages, 986 KB

Open AccessArticle

Knowledge Graphs as Cognitive Scaffolding for Sustainable Engineering Education: A Quasi-Experimental Study in Structural Geology

by Xiaoling Tang, Jinlong Ni, Yuanku Meng, Qiao Chen and Liping Zhang

Sustainability 2026, 18(2), 736; https://doi.org/10.3390/su18020736 (registering DOI) - 10 Jan 2026

Abstract

The transition to Outcome-Based Education (OBE) in engineering demands instructional tools that bridge theoretical knowledge and practical engineering competencies. However, traditional Learning Management Systems (LMS) primarily function as static resource repositories, lacking the semantic structure necessary to support deep learning and precise competency [...] Read more.

The transition to Outcome-Based Education (OBE) in engineering demands instructional tools that bridge theoretical knowledge and practical engineering competencies. However, traditional Learning Management Systems (LMS) primarily function as static resource repositories, lacking the semantic structure necessary to support deep learning and precise competency tracking. To address this, this study developed a three-layer domain Knowledge Graph (KG) for Structural Geology and integrated it into the ChaoXing LMS (a widely used Learning Management System in Chinese higher education). A semester-long quasi-experimental study (N = 84) was conducted to evaluate its impact on student performance and specific graduation attribute achievement compared to a conventional folder-based approach. Empirical results demonstrate that the KG-integrated group significantly outperformed the control group (p < 0.01, Cohen’s d = 0.74). Notably, while performance on rote memorization tasks was similar, the experimental group showed marked improvement in identifying and solving complex engineering problems. LMS log analysis confirmed a strong positive correlation (r = 0.68) between graph navigation depth and academic success. KG effectively bridged the gap between theoretical knowledge and practical engineering applications (e.g., geohazard analysis). This research confirms that explicit semantic visualization acts as vital cognitive scaffolding, effectively enhancing higher-order thinking and ensuring the rigorous alignment of instruction with engineering accreditation standards. Ultimately, this approach promotes sustainable learning capabilities and prepares future engineers to address complex, interdisciplinary challenges in sustainable development. Full article

(This article belongs to the Special Issue AI for Sustainable and Creative Learning in Education)

20 pages, 2325 KB

Open AccessArticle

Knowledge Management in Environmental Sustainability: The Roles of Financial and Social Integration

by Aldawaib Kriym and Hasan Yousef Aljuhmani

Sustainability 2026, 18(2), 735; https://doi.org/10.3390/su18020735 (registering DOI) - 10 Jan 2026

Abstract

This study investigates how economic growth, financial integration, social integration, and knowledge management shape CO₂ emissions in Saudi Arabia using quarterly data from 1995Q1 to 2024Q4. It applies kernel-regularized quantile regression to capture nonlinear and state-dependent effects across the conditional distribution of [...] Read more.

This study investigates how economic growth, financial integration, social integration, and knowledge management shape CO₂ emissions in Saudi Arabia using quarterly data from 1995Q1 to 2024Q4. It applies kernel-regularized quantile regression to capture nonlinear and state-dependent effects across the conditional distribution of emissions without imposing restrictive parametric assumptions, while regularization mitigates overfitting and multicollinearity. The results reveal strong distributional heterogeneity. Economic growth is emission-augmenting and is strongest at the lower tail, weaker around the median, and positive again in the upper tail. Financial integration reduces emissions across quantiles, most strongly under low-emission states, while social integration is mostly near-neutral beyond the lower tail. Knowledge management increases emissions throughout, and quantile Granger causality is concentrated in the upper quantiles, indicating stronger predictive linkages when emissions are high. Based on these findings, this study proposes precise, quantile-specific policy guidelines across the distribution. Full article

(This article belongs to the Special Issue Knowledge Management and Digital Transformation in Sustainability)

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22 pages, 2690 KB

Open AccessArticle

Integrating Nighttime Light and Household Survey Data to Monitor Income Inequality: Implications for China’s Socioeconomic Sustainability

by Li Zhuo, Qiuying Wu and Siying Guo

Sustainability 2026, 18(2), 734; https://doi.org/10.3390/su18020734 (registering DOI) - 10 Jan 2026

Abstract

Accurate monitoring of income inequality is critical for sustainable socioeconomic development and realizing the United Nations Sustainable Development Goals (SDGs). However, assessing inequality for counties continues to be challenging because of the high cost of household surveys and the limited accuracy of traditional [...] Read more.

Accurate monitoring of income inequality is critical for sustainable socioeconomic development and realizing the United Nations Sustainable Development Goals (SDGs). However, assessing inequality for counties continues to be challenging because of the high cost of household surveys and the limited accuracy of traditional nighttime light (NTL) proxies. To address this gap, we develop the Distribution Matching-based Individual Income Inequality Estimation Model (DM-I3EM), which integrates NTL data with household surveys. The model employs a three-stage workflow: logarithmic transformation of NTL data, estimation of Gini coefficients through Weibull distribution fitting, and selection of region-specific regression models, enabling high-resolution mapping and spatiotemporal analysis of county-level income inequality across China. Results show that DM-I3EM achieves superior performance, with an R² of 0.76 in China’s Eastern region (outperforming conventional NTL-based methods, R ≈ 0.5). By overcoming the spatiotemporal gaps of survey data, the model enables full-coverage estimation, revealing a regional divergence in income inequality across China from 2013 to 2022: inequality is intensifying in northern and western counties while stabilizing in the developed southern coastal regions. Furthermore, spatial agglomeration of inequality has strengthened, particularly in coastal urban clusters. These findings highlight emerging risks to socioeconomic sustainability. This study provides a robust, replicable framework for estimating inequality in data-scarce regions, offering policymakers actionable evidence to identify high-risk areas and design targeted strategies for advancing SDG 10 (Reduced Inequalities). Full article

33 pages, 1480 KB

Open AccessArticle

The Inverted U-Shaped Relationship Between Digital Literacy and Household Carbon Emissions: Empirical Evidence from China’s CFPS Microdata

by Weiping Wu, Liangyu Ye and Shenyuan Zhang

Sustainability 2026, 18(2), 733; https://doi.org/10.3390/su18020733 (registering DOI) - 10 Jan 2026

Abstract

In the context of China’s dual-carbon agenda and the Digital China initiative, elucidating the role of digital literacy in shaping consumption-based household carbon emissions (HCE) is essential for advancing low-carbon urban living and supporting a broader green transition. Existing research has rarely examined, [...] Read more.

In the context of China’s dual-carbon agenda and the Digital China initiative, elucidating the role of digital literacy in shaping consumption-based household carbon emissions (HCE) is essential for advancing low-carbon urban living and supporting a broader green transition. Existing research has rarely examined, at the individual level, how digital capability shapes household consumption decisions and the structure of carbon emissions. Accordingly, this study draws on matched household-individual microdata from the China Family Panel Studies (CFPS). We employ a two-way fixed effects model, kernel density analysis, and qualitative comparative analysis. We test the nonlinear effect of digital literacy on household consumption-related carbon emissions and examine its heterogeneity. We also examined the mediating role of perceived environmental pressure, social trust and income level. The research results show that: (1) The net impact of digital literacy on carbon emissions related to household consumption shows an inverted U-shaped curve, rising first and then falling. When digital literacy is low, it mainly increases emissions by expanding consumption channels, reducing transaction costs and improving convenience. Once digital literacy exceeds a certain threshold, the mechanism will gradually turn to optimize the consumption structure, so as to support the low-carbon transformation of individuals. (2) The impact of digital literacy on HCE is structurally different in different types of consumption. In terms of transportation and communication expenditure, the emission reduction effect is the most significant, and with the improvement in digital literacy, this effect will become more and more obvious. For housing-related consumption, the turning point appeared the earliest. With the improvement in digital literacy, its effect will enter the emission reduction stage faster. (3) Digital literacy can reduce carbon emissions related to household consumption by enhancing residents’ perception of environmental pressure and strengthening social trust. However, it may also increase emissions by increasing residents’ incomes, because it will expand the scale of consumption, which will lead to an increase in carbon emissions related to household consumption. (4) The heterogeneity analysis shows that as digital literacy improves, carbon emissions increase more strongly among rural residents, people with low human capital, low-income households, and women. However, the turning-point threshold for emission reduction is relatively lower for women and rural residents. (5) Low-carbon transitions in household consumption are shaped by dynamic interactions among multiple factors, and multiple pathways can coexist. Digital literacy can work with environmental responsibility to endogenously promote low-carbon consumption behavior. It can also, under well-developed infrastructure, empower households and amplify the emission-reduction effects of technology. Full article

(This article belongs to the Special Issue Advancing Sustainable Cities and Urban Regions Development: New Challenges and Prospects)

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31 pages, 475 KB

Open AccessArticle

The Application of Artificial Intelligence (AI) in the Implementation of ESG-Oriented Sustainable Development Strategies in the Banking Sector: A Case Study

by Przemysław Pluskota, Kamila Słupińska, Agata Wawrzyniak and Barbara Wąsikowska

Sustainability 2026, 18(2), 732; https://doi.org/10.3390/su18020732 (registering DOI) - 10 Jan 2026

Abstract

This paper presents a theoretical and empirical analysis of how banks apply artificial intelligence (AI) in digital and mobile banking to implement and communicate ESG (Environmental, Social, and Governance) strategies, with particular emphasis on environmental dimensions of sustainable finance. The study adopts a [...] Read more.

This paper presents a theoretical and empirical analysis of how banks apply artificial intelligence (AI) in digital and mobile banking to implement and communicate ESG (Environmental, Social, and Governance) strategies, with particular emphasis on environmental dimensions of sustainable finance. The study adopts a mixed methodological approach combining desk research, encompassing a synthesis of academic studies, industry reports, and European regulatory frameworks on AI and ESG, and case study analysis of selected banks implementing AI-based sustainability solutions. The findings reveal that AI supports ESG strategy implementation primarily through green investment recommendations, carbon footprint analytics, automated sustainability reporting, and ethical communication with clients. AI-driven tools enhance the operational efficiency, transparency, and customer engagement of financial institutions while simultaneously fostering low-carbon financial behaviors. However, the study also highlights ethical and governance challenges related to algorithmic transparency, data bias, and responsible AI oversight. The paper contributes to the growing body of literature on AI-driven digital transformation and sustainable finance by identifying research gaps and outlining future directions for exploring the role of AI in accelerating the transition of the banking sector. Full article

(This article belongs to the Special Issue Advances in Economic Development and Business Management)

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27 pages, 1537 KB

Open AccessArticle

Improved Black-Winged Kite Algorithm for Sustainable Photovoltaic Energy Modeling and Accurate Parameter Estimation

by Sulaiman Z. Almutairi and Abdullah M. Shaheen

Sustainability 2026, 18(2), 731; https://doi.org/10.3390/su18020731 (registering DOI) - 10 Jan 2026

Abstract

Accurate modeling and parameter estimation of photovoltaic (PV) systems are vital for advancing energy sustainability and achieving global decarbonization goals. Reliable PV models enable better integration of solar resources into smart grids, improve system efficiency, and reduce maintenance costs. This aligns with the [...] Read more.

Accurate modeling and parameter estimation of photovoltaic (PV) systems are vital for advancing energy sustainability and achieving global decarbonization goals. Reliable PV models enable better integration of solar resources into smart grids, improve system efficiency, and reduce maintenance costs. This aligns with the vision of sustainable energy systems that combine intelligent optimization with environmental responsibility. The recently introduced Black-Winged Kite Algorithm (BWKA) has shown promise by emulating the predatory and migratory behaviors of black-winged kites; however, it still suffers from issues of slow convergence, limited population diversity, and imbalance between exploration and exploitation. To address these limitations, this paper proposes an Improved Black-Winged Kite Algorithm (IBWKA) that integrates two novel strategies: (i) a Soft-Rime Search (SRS) modulation in the attacking phase, which introduces a smoothly decaying nonlinear factor to adaptively balance global exploration and local exploitation, and (ii) a Quadratic Interpolation (QI) refinement mechanism, applied to a subset of elite individuals, that accelerates local search by fitting a parabola through representative candidate solutions and guiding the search toward promising minima. These dual enhancements reinforce both global diversity and local accuracy, preventing premature convergence and improving convergence speed. The effectiveness of the proposed IBWKA in contrast to the standard BWKA is validated through a comprehensive experimental study for accurate parameter identification of PV models, including single-, double-, and three-diode equivalents, using standard datasets (RTC France and STM6_40_36). The findings show that IBWKA delivers higher accuracy and faster convergence than existing methods, with its improvements confirmed through statistical analysis. Compared to BWKA and others, it proves to be more robust, reliable, and consistent. By combining adaptive exploration, strong diversity maintenance, and refined local search, IBWKA emerges as a versatile optimization tool. Full article

(This article belongs to the Special Issue Sustainable Renewable Energy: Smart Grid and Electric Power System)

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21 pages, 267 KB

Open AccessArticle

Delivering Blue Economy and Nature Recovery in Coastal Communities—A Diverse Economies Perspective

by Alex Midlen

Sustainability 2026, 18(2), 730; https://doi.org/10.3390/su18020730 (registering DOI) - 10 Jan 2026

Abstract

Blue economy aims to bring prosperity to coastal communities whilst also protecting natural ocean resources for future generations. But how can this vision be put into practice, especially in communities in which dependence on natural resources is high, and food and livelihood security [...] Read more.

Blue economy aims to bring prosperity to coastal communities whilst also protecting natural ocean resources for future generations. But how can this vision be put into practice, especially in communities in which dependence on natural resources is high, and food and livelihood security are key concerns? This paper examines two cases of community-led nature-based enterprise in Kenya in a search for solutions to this challenge: fisheries reform through market access and gear sustainability; mangrove forest conservation and community development using carbon credit revenues. I use a ‘diverse economies framework’ for the first time in blue economy contexts to delve into the heterogeneous relations at work and in search of insights that can be applied in multiple contexts. Analysed through key informant interviews and field observation, the cases reveal a complex assemblage of institutions, knowledges, technologies, and practices within which enterprises operate. Whilst the enterprises featured are still relatively new and developing, they suggest a direction of travel for a community-led sustainable blue economy that both supports and benefits from nature recovery. The insights gained from this diverse economies analysis lead us to appreciate a sustainable blue economy as a rediscovered and reinvigorated relationship of reciprocity between society and nature—one that nurtures place-based nature-based livelihoods and nature recovery together, and which embodies a set of values and ethics shared by government, communities, and business. Full article

(This article belongs to the Section Sustainability, Biodiversity and Conservation)

28 pages, 9478 KB

Open AccessArticle

Integrating Agro-Hydrological Modeling with Index-Based Vulnerability Assessment for Nitrate-Contaminated Groundwater

by Dawid Potrykus, Adam Szymkiewicz, Beata Jaworska-Szulc, Gianluigi Busico, Anna Gumuła-Kawęcka, Wioletta Gorczewska-Langner and Micol Mastrocicco

Sustainability 2026, 18(2), 729; https://doi.org/10.3390/su18020729 (registering DOI) - 10 Jan 2026

Abstract

Protecting groundwater against pollution from agricultural sources is a key aspect of sustainable management of soil and water resources. Implementation of sustainable strategies for agricultural production can be supported by modeling tools, which allow us to quantify the effects of different agricultural practices [...] Read more.

Protecting groundwater against pollution from agricultural sources is a key aspect of sustainable management of soil and water resources. Implementation of sustainable strategies for agricultural production can be supported by modeling tools, which allow us to quantify the effects of different agricultural practices in the context of groundwater vulnerability to contamination. In this study we present a method to assess groundwater vulnerability to nitrate pollution based on a combination of the SWAT agro-hydrological model and the DRASTIC index method. SWAT modeling was applied to assess different scenarios of agricultural practices and identify solutions for sustainable management of soil and groundwater and reduction of nitrate pollution. The developed method was implemented for groundwater resources in a study area (Puck Bay region, southern Baltic coast), which represented a complex multi-aquifer system formed in Quaternary fluvioglacial deposits (sand and gravel) separated by moraine tills. In order to investigate the effects of different agricultural practices, 12 scenarios have been defined, which were grouped into four classes: crop type, fertilizer management, tillage, and grazing. An overlay index structure was applied, and ratings and weights to several factors were assigned. All analyses were processed using GIS tools, and the results are presented in the form of maps, which categorize groundwater vulnerability to nitrate pollution into five classes, ranging from very low to very high. The results reveal significant variability in groundwater vulnerability to nitrate pollution in the study area. Agricultural practices have a very strong influence on groundwater vulnerability by controlling both recharge rates and nitrogen losses from the soil profile. The most pronounced increases in vulnerability were associated with scenarios involving excessive fertilization and intensive grazing. Among crop types, potato cultivation appears to pose the greatest risk to groundwater quality. Full article

(This article belongs to the Special Issue Innovative Green Water Technologies for Effective Environmental Pollution Control)

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24 pages, 2699 KB

Open AccessArticle

Durability of Structures Made of Solid Wood Based on the Technical Condition of Selected Historical Timber Churches

by Jacek Hulimka, Marta Kałuża and Magda Tunkel

Sustainability 2026, 18(2), 728; https://doi.org/10.3390/su18020728 (registering DOI) - 10 Jan 2026

Abstract

In modern construction, natural materials with a low carbon footprint and full recyclability are becoming increasingly important. A typical group here is products made from solid wood, including glued wood, plywood, and wood-based composites. With their many advantages, however, they all burden the [...] Read more.

In modern construction, natural materials with a low carbon footprint and full recyclability are becoming increasingly important. A typical group here is products made from solid wood, including glued wood, plywood, and wood-based composites. With their many advantages, however, they all burden the environment with the costs of production processes, as well as the need to use harmful chemicals (adhesives and impregnants). Solid wood is devoid of these disadvantages; however, it is often treated as a rather archaic material. One of the arguments here is its low durability compared to, e.g., glued wood. The article discusses the durability of solid wood using the example of a group of wooden churches preserved in Poland, in Upper Silesia. Some of these buildings are over five hundred years old, making them a reliable source of information about the durability of the material from which they were built. A total of 85 churches, at least 200 years old, were analyzed, evaluating the technical state of the main load-bearing elements of their structures. In view of the number of facilities and the inability to conduct tests in most of them, the assessment was limited to a visual inspection of the technical condition, carried out by an experienced building expert. The assessment estimated the area of corrosion damage, probed its depth, and measured the depth of cracks. The relationship between their technical condition and the environmental conditions in which they were used was described and discussed. In this way, both the threats to the durability of solid wood and the ways to keep it in good condition for hundreds of years were identified, refuting the thesis that solid wood is a material with low durability. Its use in structural elements therefore supports efficient resource management and contributes to sustainable construction, especially in small and medium-sized buildings. Full article

(This article belongs to the Special Issue Low-Impact Materials and Construction Strategies for Sustainable and Resilient Buildings)

18 pages, 534 KB

Open AccessArticle

Exploring the Impact of Gen-AI Usage on Academic Anxiety Among Vocational Education Students: A Mixed-Methods Study for Sustainable Education Using SEM and fsQCA

by Xinxin Hao, Jiangyu Li, Huan Huang and Bingyu Hao

Sustainability 2026, 18(2), 727; https://doi.org/10.3390/su18020727 (registering DOI) - 10 Jan 2026

Abstract

Within the global sustainable development agenda, Sustainable Development Goal 4 (SDG 4) highlights improving the accessibility, quality, and learning experience of technical and vocational education and training (TVET). In China, students in vocational colleges often face greater disparities in academic preparation and access [...] Read more.

Within the global sustainable development agenda, Sustainable Development Goal 4 (SDG 4) highlights improving the accessibility, quality, and learning experience of technical and vocational education and training (TVET). In China, students in vocational colleges often face greater disparities in academic preparation and access to educational resources than their peers in general higher education. Although artificial intelligence (AI) can provide additional learning support and help mitigate such inequalities, there is little empirical evidence on whether and how Gen-AI usage is associated with vocational students’ learning experiences and emotional outcomes, particularly academic anxiety. This study examines how Gen-AI usage is related to academic anxiety among Chinese vocational college students and explores the roles of class engagement and teacher support in this relationship. Drawing on Conservation of Resources (COR) theory, we analyse survey data from 511 students using structural equation modelling (SEM) and fuzzy-set qualitative comparative analysis (fsQCA). The SEM results indicate that Gen-AI usage is associated with lower academic anxiety, with class engagement mediating this relationship. Teacher support for Gen-AI usage positively moderates the association between Gen-AI usage and class engagement. The fsQCA results further identify several configurations of conditions leading to low academic anxiety. These findings underscore AI’s potential to enhance learning quality and experiences in TVET and provide empirical support for advancing SDG 4 in vocational education contexts. Full article

(This article belongs to the Special Issue Application of AI in Online Learning and Sustainable Education)

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23 pages, 5292 KB

Open AccessArticle

Research on Rapid 3D Model Reconstruction Based on 3D Gaussian Splatting for Power Scenarios

by Huanruo Qi, Yi Zhou, Chen Chen, Lu Zhang, Peipei He, Xiangyang Yan and Mengqi Zhai

Sustainability 2026, 18(2), 726; https://doi.org/10.3390/su18020726 (registering DOI) - 10 Jan 2026

Abstract

As core infrastructure of power transmission networks, power towers require high-precision 3D models, which are critical for intelligent inspection and digital twin applications of power transmission lines. Traditional reconstruction methods, such as LiDAR scanning and oblique photogrammetry, suffer from issues including high operational [...] Read more.

As core infrastructure of power transmission networks, power towers require high-precision 3D models, which are critical for intelligent inspection and digital twin applications of power transmission lines. Traditional reconstruction methods, such as LiDAR scanning and oblique photogrammetry, suffer from issues including high operational risks, low modeling efficiency, and loss of fine details. To address these limitations, this paper proposes a 3D Gaussian Splatting (3DGS)-based method for power tower 3D reconstruction to enhance reconstruction efficiency and detail preservation capability. First, a multi-view data acquisition scheme combining “unmanned aerial vehicle + oblique photogrammetry” was designed to capture RGB images acquired by Unmanned Aerial Vehicle (UAV) platforms, which are used as the primary input for 3D reconstruction. Second, a sparse point cloud was generated via Structure from Motion. Finally, based on 3DGS, Gaussian model initialization, differentiable rendering, and adaptive density control were performed to produce high-precision 3D models of power towers. Taking two typical power tower types as experimental subjects, comparisons were made with the oblique photogrammetry + ContextCapture method. Experimental results demonstrate that 3DGS not only achieves high model completeness (with the reconstructed model nearly indistinguishable from the original images) but also excels in preserving fine details such as angle steels and cables. Additionally, the final modeling time is reduced by over 70% compared to traditional oblique photogrammetry. 3DGS enables efficient and high-precision reconstruction of power tower 3D models, providing a reliable technical foundation for digital twin applications in power transmission lines. By significantly improving reconstruction efficiency and reducing operational costs, the proposed method supports sustainable power infrastructure inspection, asset lifecycle management, and energy-efficient digital twin applications. Full article

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26 pages, 461 KB

Open AccessArticle

Project-Based Learning in Geography and Its Impact on Developing Students’ Values, Attitudes and Pro-Environmental Behavior

by Ivana Djordjevic, Slavoljub Jovanovic, Mina Markovic, Sladjana Andjelkovic, Zorica Prnjat, Stefana Matović and Aleksandar Valjarević

Sustainability 2026, 18(2), 725; https://doi.org/10.3390/su18020725 (registering DOI) - 10 Jan 2026

Abstract

Contemporary environmental challenges necessitate the adoption of active learning methods within educational frameworks, particularly those that foster the development of environmental awareness among young people. The 2030 Agenda underscores the importance of project-based learning as a strategy for building the competencies required to [...] Read more.

Contemporary environmental challenges necessitate the adoption of active learning methods within educational frameworks, particularly those that foster the development of environmental awareness among young people. The 2030 Agenda underscores the importance of project-based learning as a strategy for building the competencies required to achieve sustainable development goals. In this context, the attitudes and behavior of young people towards the environment serve as critical indicators of future social transformations within the sphere of sustainable development. The aim of this research was to determine whether project-based learning in geography, as opposed to traditional teaching methods, exerts a more pronounced influence on the formation of environmental values, attitudes, and pro-environmental behavior among students in their final year of primary school. The research was conducted using a convenience sample (n = 255) and employed pedagogical experimental surveys with parallel group designs. In the experimental group, project-based learning was implemented, whereas the control group continued with traditional teaching approaches. To assess environmental values and attitudes, the research employed a scale grounded in the EAATE framework, and pro-environmental behavior was evaluated using a measurement scale derived from the PEB and GEB scales. The obtained results are attributed to the influence of project-based learning. Although they cannot be generalized to the entire population, they indicate the potential of project-based learning as a more effective strategy in environmental education. Furthermore, these findings provide opportunities for further professional and scientific research in this area. Full article

(This article belongs to the Special Issue Towards Sustainable Futures: Innovations in Education)

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24 pages, 416 KB

Open AccessArticle

The EU–Mercosur Agreement: An Opportunity or a Threat to the Sustainability of the European and Polish Fruit and Vegetable Sector?

by Łukasz Zaremba and Weronika Asakowska

Sustainability 2026, 18(2), 724; https://doi.org/10.3390/su18020724 (registering DOI) - 10 Jan 2026

Abstract

This study examines the potential implications of the EU–Mercosur free trade agreement for the Polish horticultural sector, with particular emphasis on sustainability, trade competitiveness, and structural complementarities between the regions. Drawing on production, trade, and demographic data for the EU, Poland, and Mercosur [...] Read more.

This study examines the potential implications of the EU–Mercosur free trade agreement for the Polish horticultural sector, with particular emphasis on sustainability, trade competitiveness, and structural complementarities between the regions. Drawing on production, trade, and demographic data for the EU, Poland, and Mercosur countries, the analysis evaluates the alignment of horticultural supply and demand structures, the degree of intra-industry exchange, and the economic conditions shaping bilateral trade. The research applies the Grubel–Lloyd index and a Poisson Pseudo-Maximum Likelihood (PPML) gravity model to assess the determinants of Poland’s horticultural exports to Mercosur. The results indicate that trade remains predominantly inter-industry, reflecting substantial differences in agricultural specialisation and regulatory frameworks. At the same time, rising income levels in Mercosur, together with selected product-level complementarities, indicate emerging export opportunities for Poland. Poland’s trade with the Southern Common Market remains mainly as inter-industry, with the greatest export potential concentrated in high-value-added processed goods. Divergent sustainability standards, particularly in pesticide use, environmental regulation, and carbon-intensive transport, pose structural challenges that may affect the competitiveness and environmental footprint of expanded trade. Overall, the findings provide evidence that closer integration with Mercosur may support export diversification, but requires careful alignment with the EU’s sustainability objectives to ensure resilient and environmentally responsible development of the horticultural sector. Full article

(This article belongs to the Section Sustainable Agriculture)

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