Sustainability

28 pages, 8099 KiB

Open AccessArticle

Heavy Metal Contamination of Sediments in the Inaouène Watershed (Morocco): Indices, Statistical Methods, and Contributions to Sustainable Environmental Management

by Marouane Laaraj, Yassine Ait Brahim, Valerie Mesnage, Fadwa Bensalem, Ikram Lahmidi, Mohammed Mouad Mliyeh, Hamid Fattasse, Khalid Arari and Lahcen Benaabidate

Sustainability 2025, 17(10), 4668; https://doi.org/10.3390/su17104668 (registering DOI) - 19 May 2025

Abstract

The Inaouène watershed (3600 km²), part of the Sebou River’s upper valley in northern Morocco, faces urban, agricultural, and industrial discharges. This research investigates the environmental impact of heavy metal contamination in sediments and its implications for sustainable watershed management and [...] Read more.

The Inaouène watershed (3600 km²), part of the Sebou River’s upper valley in northern Morocco, faces urban, agricultural, and industrial discharges. This research investigates the environmental impact of heavy metal contamination in sediments and its implications for sustainable watershed management and long-term ecological protection. Sediment samples were collected from six sites along the river and the Idriss 1st dam. A combined approach of geochemical analyses and multivariate statistical methods (PCA, HCA) identified metal sources and grouped sites by contamination patterns. Additionally, pollution indices (I_geo, EF, PLI) were used to assess contamination levels and infer potential sources. Results revealed variable metal concentrations: upstream (Ech1) showed high levels of chromium (133 mg/kg) and copper (32.5 mg/kg) linked to urban discharges and erosion, while downstream (Ech6) exhibited high barium (3245 mg/kg) and strontium (505 mg/kg) concentrations due to dam sedimentation. Pollution indices confirmed moderate to high contamination, particularly at Ech1 and Ech6. Multivariate analysis identified three main clusters influenced by both anthropogenic and geological factors. These findings underline the need for integrated sediment management, regular monitoring, and environmental protection strategies to preserve the watershed and the aquifer’s ecological balance. Full article

(This article belongs to the Special Issue Sustainable Groundwater Management: Multidisciplinary Approaches for Securing Water Resources)

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27 pages, 2645 KiB

Open AccessArticle

The Application and Development of Historical Building Information Modeling in Chinese Architectural Heritage: Sustainability Assessment and Prospects

by Chaoran Xu, Cong Wu, Lifeng Tan, Da Wan, Hanfang Liu and Zequn Chen

Sustainability 2025, 17(10), 4667; https://doi.org/10.3390/su17104667 - 19 May 2025

Abstract

Historical Building Information Modeling is a digital modeling technology applied to cultural heritage buildings. It has made remarkable progress in aspects such as data integration and management, digital protection of historical buildings, parametric and semantic modeling, multi-source data fusion, and interdisciplinary cooperation platforms. [...] Read more.

Historical Building Information Modeling is a digital modeling technology applied to cultural heritage buildings. It has made remarkable progress in aspects such as data integration and management, digital protection of historical buildings, parametric and semantic modeling, multi-source data fusion, and interdisciplinary cooperation platforms. However, the sustainability of this technology has not been explored yet. This paper analyzes nearly a hundred related research achievements between 2010 and 2024 and finds that there is not only a lack of a review of the development and application of Historical Building Information Modeling (HBIM) technology in China, but also a serious shortage of discussions and explorations regarding its sustainability. Therefore, taking the development and application of Historical Building Information Modeling technology in China as the research scope, using relevant practical projects and research achievements in China, and combining a small number of the latest foreign achievements as cases, centering around the research question of the sustainability of Historical Building Information Modeling, this paper adopts the methods of review research and comparative research. It sorts out four development directions and the faced dilemmas in the development process of Historical Building Information Modeling in China and puts forward constructive suggestions for sustainable development, as well as a set of theoretical paths for the sustainability of HBIM technology based on Revit (version 23.0.1.318), Dynamo (version 2.17), Python (version 3.12.1) (Open 3D v0.18 and PointNet++), Network Attached Storage, and cloud-based collaboration platforms. The purpose is to provide a referable path for the sustainable development of Historical Building Information Modeling technology in China. Full article

(This article belongs to the Special Issue The Application of Heritage Building Information Modelling in Sustainable Heritage Protection)

15 pages, 204 KiB

Open AccessArticle

Enhancing Agricultural Productivity Among Emerging Farmers Through Data-Driven Practices

by Mzuhleli Makapela, Gregg Alexander and Molaodi Tshelane

Sustainability 2025, 17(10), 4666; https://doi.org/10.3390/su17104666 - 19 May 2025

Abstract

This paper explores the critical need for empowering emerging farmers within vulnerable communities through vocational adult education (VAE) approaches. Conducted within the Raymond Mhlaba District Municipality, South Africa, this study illuminates the persistent challenges of illiteracy, poverty, and the impact of climate change [...] Read more.

This paper explores the critical need for empowering emerging farmers within vulnerable communities through vocational adult education (VAE) approaches. Conducted within the Raymond Mhlaba District Municipality, South Africa, this study illuminates the persistent challenges of illiteracy, poverty, and the impact of climate change on agricultural productivity faced by these farmers. Employing a mixed-methods research design that combines quantitative and qualitative methodologies, this study investigates the effectiveness of digital agriculture and extension services in enhancing agricultural productivity and sustainability among emerging farmers. Key findings reveal significant barriers to technology adoption and the necessity for tailored training programs that integrate local knowledge systems and digital tools. Results demonstrate an average increase of 40% in crop yields among farmers participating in digital training initiatives (p < 0.01), underscoring the power of precision agriculture. Insights presented in this paper offer actionable recommendations for policymakers and stakeholders aimed at fostering inclusive agricultural development that addresses the unique challenges faced by emerging farmers in this region. Full article

20 pages, 1125 KiB

Open AccessArticle

Higher Education Institutions as Leverage for Backing up SMEs’ Efforts to Meet SDG 9

by Luis Velazquez

Sustainability 2025, 17(10), 4665; https://doi.org/10.3390/su17104665 - 19 May 2025

Abstract

This article explores the current state of collaboration between higher education institutions (HEIs) and small and medium-sized enterprises (SMEs), focusing on advancing the achievements of SDG 9. Using two bibliometric analyses, in Scopus and Web of the Science, this study examines resilient infrastructure, [...] Read more.

This article explores the current state of collaboration between higher education institutions (HEIs) and small and medium-sized enterprises (SMEs), focusing on advancing the achievements of SDG 9. Using two bibliometric analyses, in Scopus and Web of the Science, this study examines resilient infrastructure, innovation, information and communication technology, and financial services as fundamental concepts within SDG 9’s targets to investigate how SMEs can contribute to meeting SDG 9 and what can be expected from higher education institutions to generate knowledge that supports SMEs’ efforts. The bibliometric analysis revealed trends and patterns that shape the state of the art regarding HEIs-SMEs collaboration for SDG 9. There is a subtle yet significant partnership between higher education institutions and SMEs centered around the key aspect of innovation within SDG 9. Even more significant is the insight into various mechanisms for strengthening knowledge transfer from higher education institutions to SMEs, as they substantially enhance the capabilities and skills of their workforce to innovate primarily through information and communication technologies. This suggests that higher education institutions emerge as strategic partners for SMEs to progress toward, if not all, some of the targets of SDG 9, which is essential for their sustainable future readiness. Full article

(This article belongs to the Special Issue The Role of Small and Medium Enterprises in Realizing the Sustainable Development Goals)

27 pages, 888 KiB

Open AccessArticle

Developing Key Performance Indicators for a Port in Indonesia

by Yugowati Praharsi, Mohammad Abu Jami’in, Devina Puspita Sari, Putri Rahmatul Isti’anah and Hui-Ming Wee

Sustainability 2025, 17(10), 4664; https://doi.org/10.3390/su17104664 - 19 May 2025

Abstract

Ports play a crucial role in Indonesia’s economy, yet many, particularly smaller ports, lack standardized port performance indicators (PPIs) to assess and improve operational efficiency. Existing studies primarily focus on financial and operational performance, often employing either the balanced scorecard (BSC) or PESTLE [...] Read more.

Ports play a crucial role in Indonesia’s economy, yet many, particularly smaller ports, lack standardized port performance indicators (PPIs) to assess and improve operational efficiency. Existing studies primarily focus on financial and operational performance, often employing either the balanced scorecard (BSC) or PESTLE analysis in isolation, with limited integration of sustainability concepts, such as smart port and green port frameworks. This study bridges this gap, aiming to develop and validate a comprehensive PPI framework that combines BSC, PESTLE, and circular economy smart and green port principles to create holistic performance assessment tools for ports. The research used a three-round Delphi method, incorporating expert evaluations and consensus from academics, consultants, port authorities, and customers to validate key performance indicators. A total of 127 PPIs were initially identified through a literature review and expert consultations, using strict selection criteria—standard deviation ≤1.5, interquartile range (Q3–Q1) ≤2.5, and ≥51% expert agreement (ratings 8–10). The final validated framework includes 114 indicators covering financial, operational, environmental, and strategic dimensions. This study provides valuable insights for port authorities to optimize performance and align with global best practices by integrating internal and external factors into a comprehensive model. Full article

(This article belongs to the Special Issue Sustainable Operations Practices, Performance and Management (2nd Edition))

16 pages, 4420 KiB

Open AccessArticle

Estimating Reduction Coefficients of Parking Allocation Based on Public Transportation Accessibility: A Case Study on Nanjing’s Central District

by Fei Shi, Wenzhuo Zhu, Pengfei Zhou and Shuo Yang

Sustainability 2025, 17(10), 4663; https://doi.org/10.3390/su17104663 - 19 May 2025

Abstract

Rational parking allocation criteria are critical in addressing urban parking challenges and promoting the sustainable development of urban transportation. It has been common practice to reduce parking allocation for buildings according to the extent of the public transportation accessibility; however, the calculation of [...] Read more.

Rational parking allocation criteria are critical in addressing urban parking challenges and promoting the sustainable development of urban transportation. It has been common practice to reduce parking allocation for buildings according to the extent of the public transportation accessibility; however, the calculation of reduction coefficients lacks scientific rigor. This research proposes an estimation approach for reduction coefficients of parking allocation according to public transportation accessibility. First, public transportation accessibility is analyzed using Javier Gutiérrez’s weighted-average travel time model, optimizing the existing parking zoning scheme. Second, a multinomial logit model is built based on residents’ trip survey data to assess the cross-elasticity of the public transportation accessibility (travel time) with the probability of car travel. Third, the reduction in the private-car-travel probability is approximated as a parking reduction, and the reduction in the public transportation accessibility is translated to a reduction in the parking allotment, using cross-elasticity as a bridge. Finally, an empirical study is conducted on Nanjing’s central urban area, analyzing the reduction ratios within different parking zones around metro stations within specific distances and the interaction effects of these two scenarios to verify the rationality of the calculated reduction coefficients. According to the study, parking allocation standards in Zones I and II can be reduced by 10.6% and 7.5%, respectively, based on Zone III standards, while parking allocation standards within 100 m, 300 m, and 500 m of metro stations can be reduced by 17%, 12%, and 8%, respectively, based on the original standards. This paper can serve as a reference for the development of parking standard policies for public buildings. Full article

(This article belongs to the Section Sustainable Transportation)

20 pages, 2750 KiB

Open AccessArticle

The Development of Agricultural Drought Monitoring and Drought Limit Water Level Assessments for Plateau Lakes in Central Yunnan Based on MODIS Remote Sensing: A Case Study of Qilu Lake

by Shixiang Gu, Kai Gao, Yanchen Zhou, Jinming Chen, Jing Chen and Jie Ou

Sustainability 2025, 17(10), 4662; https://doi.org/10.3390/su17104662 - 19 May 2025

Abstract

This study focuses on Qilu Lake to study how to mitigate the impacts of seasonal droughts and provide technical support for drought resistance decision-making in low-latitude plateau lake basins. Using the Standardized Precipitation Index (SPI), the Vegetation Condition Index (VCI), and the Temperature [...] Read more.

This study focuses on Qilu Lake to study how to mitigate the impacts of seasonal droughts and provide technical support for drought resistance decision-making in low-latitude plateau lake basins. Using the Standardized Precipitation Index (SPI), the Vegetation Condition Index (VCI), and the Temperature Condition Index (TCI) as bases, in this study, the applicability of the vegetation health index (VHI) within the basin is investigated, and the optimal weight distribution between the Vegetation Condition Index (VCI) and the Temperature Condition Index (TCI) in the VHI is determined. The VHI is then applied to analyze the correlation between drought frequency and severity within the basin. The results indicate that the method is most effective in assessing agricultural drought in the Qilu Lake Basin when the VCI and TCI are weighted at a 4:6 ratio, optimizing the VHI’s evaluative performance. The drought limit water levels of lakes are further divided into short- and long-term drought limit water levels. The short-term drought limit water level is divided into the drought warning water level and the drought emergency water level. The drought warning water level (corresponding to moderate drought conditions, with a frequency of P = 75%) ranges from 1794.53 m to 1795.11 m, while the drought emergency water level (corresponding to extreme drought conditions, with a frequency of P = 95%) ranges from 1793.94 m to 1794.31 m. These levels are set to meet the emergency water demand during droughts in the basin. The long-term drought limit water levels are calculated by accumulating the water deficits of various sectors within the watershed under different agricultural drought conditions, based on the short-term drought limit water levels. By setting the drought limit water level using this method, as well as considering the original water regulation capacity of the lake resources, when the watershed experiences drought, the scheduling method based on this drought limit water level can better alleviate the water supply pressure on various sectors in the local area. Full article

18 pages, 562 KiB

Open AccessArticle

Attitudes Towards Climate Change and Energy Demand: Evidence from the European Social Survey

by Giacomo Campagnola, Bruno S. Sergi and Emiliano Sironi

Sustainability 2025, 17(10), 4661; https://doi.org/10.3390/su17104661 - 19 May 2025

Abstract

Climate change is one of the most pressing issues on the public policy agenda. Employing data from rounds 8 and 10 of the European Social Survey, this paper examines the relationship between the perception of Europeans towards climate change and the limitation of [...] Read more.

Climate change is one of the most pressing issues on the public policy agenda. Employing data from rounds 8 and 10 of the European Social Survey, this paper examines the relationship between the perception of Europeans towards climate change and the limitation of energy consumption. An ordered logit model shows that socio-demographic characteristics are strongly related to attitudes towards climate change: female, more educated, and left-leaning respondents display, on average, higher levels of worry and personal responsibility for addressing climate change. However, the relationship between these predictors with greater support for energy reduction measures is non-trivial. Through our unique dataset, the study investigates the evolution of attitudes towards private energy consumption reduction over time. Although beliefs are becoming more positive across Europe, personal responsibility to address climate change seems to play an especially pivotal role in Eastern countries. Policy implications are discussed in light of these results. Full article

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22 pages, 1111 KiB

Open AccessArticle

Dependency and Risk Spillover of China’s Industrial Structure Under the Environmental, Social, and Governance Sustainable Development Framework

by Yucui Li, Piyapatr Busababodhin and Supawadee Wichitchan

Sustainability 2025, 17(10), 4660; https://doi.org/10.3390/su17104660 - 19 May 2025

Abstract

With the growing global emphasis on sustainable development goals, Environmental, Social, and Governance (ESG) factors have emerged as critical considerations in shaping economic policies and strategies. This study employs the ARMA-eGARCH-skewed t and Vine Copula models, combined with the CoVaR method, to investigate [...] Read more.

With the growing global emphasis on sustainable development goals, Environmental, Social, and Governance (ESG) factors have emerged as critical considerations in shaping economic policies and strategies. This study employs the ARMA-eGARCH-skewed t and Vine Copula models, combined with the CoVaR method, to investigate the dependence structure and risk spillover pathways across various industrial sectors in China within the ESG framework. By modeling the complex interdependencies among sectors, this research uncovers the relationships between individual industries and the ESG benchmark index, while also analyzing the correlations across different sectors. Furthermore, this study quantifies the risk contagion effects across distinct industries under extreme market conditions and maps the pathways of risk spillovers. The findings highlight the pivotal role of ESG considerations in shaping industrial structures. Empirical results demonstrate that industries such as agriculture, energy, and manufacturing exhibit significant systemic risk characteristics in response to ESG fluctuations. Specifically, the identified risk spillover pathway follows the sequence: agriculture → consumption → ESG → manufacturing → energy. The CoVaR values for agriculture, energy, and manufacturing indicate a significant potential for risk contagion. Moreover, sectors such as real estate, finance, and information technology exhibit significant risk spillover effects. These findings offer valuable empirical evidence and a theoretical foundation for formulating ESG-related policies. This study suggests that effective risk management, promoting green finance, encouraging technological innovation, and optimizing industrial structures can significantly mitigate systemic risks. These measures can contribute to maintaining industrial stability and fostering sustainable economic development. Full article

(This article belongs to the Section Economic and Business Aspects of Sustainability)

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20 pages, 1309 KiB

Open AccessArticle

Legal Loopholes and Investment Pressure in the Development of Individual Recreational Buildings in Protected Landscapes

by Maria Hełdak, Klaudia Ogórka and Beata Raszka

Sustainability 2025, 17(10), 4659; https://doi.org/10.3390/su17104659 - 19 May 2025

Abstract

This study investigates the legal and planning risks related to the implementation of individual recreational buildings in environmentally valuable areas, with particular emphasis on the municipality of Bukowina Tatrzańska in southern Poland. This research highlights the consequences of a legal loophole that allows [...] Read more.

This study investigates the legal and planning risks related to the implementation of individual recreational buildings in environmentally valuable areas, with particular emphasis on the municipality of Bukowina Tatrzańska in southern Poland. This research highlights the consequences of a legal loophole that allows construction in protected landscapes based solely on a notification procedure, often excluding municipal authorities from the decision-making process. This analysis combines field inventory, planning document review, and interviews with local officials to assess the scale and nature of development in areas lacking valid local development plans. The findings reveal increasing investor pressure and the misuse of individual recreational buildings for commercial purposes, leading to spatial and landscape degradation. Despite formal compliance with certain legal provisions, construction often takes place in areas of high natural and scenic value, undermining spatial order. This study recommends strengthening local planning instruments, revising construction laws, and enhancing investment control to ensure sustainable land use and landscape protection. Full article

29 pages, 729 KiB

Open AccessArticle

Blockchain and the Future of Sustainable Corporate Accounting: A Behavioral Perspective from Vietnam’s Manufacturing Industry

by Duong Thi Van Anh and Nguyen Thi Loi

Sustainability 2025, 17(10), 4658; https://doi.org/10.3390/su17104658 - 19 May 2025

Abstract

Blockchain technology has recently emerged as a transformative innovation with the potential to enhance transparency, accountability, and efficiency, key pillars of sustainable financial and accounting systems. Despite its relevance to sustainable digital transformation, the adoption of blockchain in accounting practices remains limited, particularly [...] Read more.

Blockchain technology has recently emerged as a transformative innovation with the potential to enhance transparency, accountability, and efficiency, key pillars of sustainable financial and accounting systems. Despite its relevance to sustainable digital transformation, the adoption of blockchain in accounting practices remains limited, particularly in developing economies such as Vietnam. This study investigates the behavioral factors influencing the intention to adopt blockchain in financial accounting among manufacturing enterprises, drawing on the Unified Theory of Acceptance and Use of Technology (UTAUT) and the Theory of Planned Behavior (TPB). Survey data from 320 Vietnamese manufacturing firms were analyzed using Cronbach’s Alpha, exploratory factor analysis (EFA), confirmatory factor analysis (CFA), and structural equation modeling (SEM) to examine both direct effects and mediating pathways. The results reveal that performance expectancy, effort expectancy, social influence, facilitating conditions, and perceived cost significantly affect attitudes, which in turn strongly predict intentions to adopt blockchain. Attitudes also partially mediate these relationships, underscoring their central role in shaping sustainable technology adoption behavior. Notably, trust in technology does not exert a significant influence, suggesting that practical and organizational enablers outweigh individual-level trust in this context. This study contributes to the emerging literature on blockchain-enabled sustainable accounting by extending the UTAUT–TPB framework and offering insights for policymakers, technology providers, and managers aiming to foster sustainability-driven digital transformation in financial practices. Full article

(This article belongs to the Section Economic and Business Aspects of Sustainability)

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18 pages, 1087 KiB

Open AccessArticle

Energy Policy Through a Gender Lens: The Impact of Wind Power Feed-In Tariff Policy on Female Employment

by Lingfan Xu and Ping Jiang

Sustainability 2025, 17(10), 4657; https://doi.org/10.3390/su17104657 - 19 May 2025

Abstract

In light of the United Nations Sustainable Development Goals (SDGs), particularly Goal 5 (Gender Equality) and Goal 13 (Climate Action), integrating gender dimensions into climate adaptation strategies can foster more inclusive and equitable development pathways. While China’s rapid expansion of wind power has [...] Read more.

In light of the United Nations Sustainable Development Goals (SDGs), particularly Goal 5 (Gender Equality) and Goal 13 (Climate Action), integrating gender dimensions into climate adaptation strategies can foster more inclusive and equitable development pathways. While China’s rapid expansion of wind power has been a central component of its climate action strategy, gender considerations in energy policies remain largely overlooked. This study utilizes data from 31 provinces from 2008 to 2021 to assess the impact of wind power Feed-in tariff (FIT) adjustment policy in 2014 on female employment in China. A difference-in-differences (DID) approach is employed using a continuous treatment variable. Due to data availability, we focus on urban unit employment, which reflects mainly formal employment. The results show that FIT subsidy reduction in 2014 substantially reduced female employment at the 1% level, while men were not impacted. The underlying mechanism is validated by observing a significant decline in overall wages and that only female employment in the service sector was notably affected. Wage reduction likely leads to a decrease in demand for service-oriented products, a sector where women dominate, thus amplifying the gendered impact. By providing empirical evidence and theoretical insights, this study highlights the gendered effects of energy policy as part of climate change mitigation efforts and underscores the need to align Goal 5 with Goal 13 through more inclusive and gender-sensitive energy policy design. Full article

(This article belongs to the Section Development Goals towards Sustainability)

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30 pages, 12509 KiB

Open AccessArticle

Investigating the Geothermal Potentiality of Hail Granites, Northern KSA: The Preliminary Results

by Aref Lashin, Oussama Makhlouf, Faisal K. Zaidi and Abdulmalek Amin Noman

Sustainability 2025, 17(10), 4656; https://doi.org/10.3390/su17104656 - 19 May 2025

Abstract

The work aims to give a preliminary investigation of the geothermal potentiality of the hot dry granitic rocks in the Hail area, Northern KSA. The Hail area is characterized by a massive exposed belt of radioactive granitic rocks in the southern part, while [...] Read more.

The work aims to give a preliminary investigation of the geothermal potentiality of the hot dry granitic rocks in the Hail area, Northern KSA. The Hail area is characterized by a massive exposed belt of radioactive granitic rocks in the southern part, while the northern part is covered by a sedimentary section. A comprehensive methodology utilizing different categories of mineralogical petrographic, geochemical, geophysical well logging and, radiometry datasets, was used to assess the radiogenic heat production capacity of this granite. The measured data are integrated and interpreted to quantify the potential geothermal capacity of the granite and estimate its possible power production. The radioactivity and radiogenic heat production (RHP) of the Hail granites are among the highest recorded values in Saudi Arabia. Land measurements indicate uranium, thorium, potassium, and RHP values of 17.80 ppm, 90.0 ppm, 5.20%, and 11.93 µW/m³, respectively. The results indicated the presence of a reasonable subsurface geothermal reservoir condition with heat flow up to 99.87 mW/M² and a reservoir temperature of 200 °C (5 km depth). Scenarios for energy production through injecting water and high-pressure CO₂ in the naturally/induced fractured rock are demonstrated. Reserve estimate revealed that at a 2% heat recovery level, the Hail granites could generate about 3.15 × 10¹⁶ MWe, contributing to an average figure of 3.43 × 10¹² kWh/y, for annual energy per capita Saudi share. The results of this study emphasized the potential contribution of the Hail granite in the future of the energy mix of KSA, as a new renewable and sustainable resource. It is recommended to enhance the surface geophysical survey in conjunction with a detailed thermo-mechanical laboratory investigation to delineate the subsurface orientation and geometry of the granite and understand its behavior under different temperature and pressure conditions. Full article

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21 pages, 1209 KiB

Open AccessArticle

Modeling the Ningbo Container Freight Index Through Deep Learning: Toward Sustainable Shipping and Regional Economic Resilience

by Haochuan Wu and Chi Gong

Sustainability 2025, 17(10), 4655; https://doi.org/10.3390/su17104655 - 19 May 2025

Abstract

With the expansion of global trade, China’s commodity futures market has become increasingly intertwined with regional maritime logistics. The Ningbo Containerized Freight Index (NCFI), as a key regional indicator, reflects freight rate fluctuations and logistics efficiency in real time. However, limited research has [...] Read more.

With the expansion of global trade, China’s commodity futures market has become increasingly intertwined with regional maritime logistics. The Ningbo Containerized Freight Index (NCFI), as a key regional indicator, reflects freight rate fluctuations and logistics efficiency in real time. However, limited research has explored how commodity futures data can enhance NCFI forecasting accuracy. This study aims to bridge that gap by proposing a hybrid deep learning model that combines recurrent neural networks (RNNs) and gated recurrent units (GRUs) to predict NCFI trends. A comprehensive dataset comprising 28,830 daily observations from March 2017 to August 2022 is constructed, incorporating the futures prices of key commodities (e.g., rebar, copper, gold, and soybeans) and market indices, alongside Clarksons containership earnings. The data undergo standardized preprocessing, feature selection via Pearson correlation analysis, and temporal partitioning into training (80%) and testing (20%) sets. The model is evaluated using multiple metrics—mean absolute Error (MAE), mean squared error (MSE), root mean square error (RMSE), and R²—on both sets. The results show that the RNN–GRU model outperforms standalone RNN and GRU architectures, achieving an R² of 0.9518 on the test set with low MAE and RMSE values. These findings confirm that integrating cross-market financial indicators with deep sequential modeling enhances the interpretability and accuracy of regional freight forecasting. This study contributes to sustainable shipping strategies and provides decision-making tools for logistics firms, port operators, and policymakers seeking to improve resilience and data-driven planning in maritime transport. Full article

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27 pages, 3598 KiB

Open AccessArticle

Sustainable Wind Energy Security: Assessing the Impact of False Data Injection on Wind Turbine Performance

by Mohammad Hassan Tanha, Zahra Tanha, Ali Aranizadeh and Mirpouya Mirmozaffari

Sustainability 2025, 17(10), 4654; https://doi.org/10.3390/su17104654 - 19 May 2025

Abstract

As the global transition to sustainable energy accelerates, wind power remains pivotal in reducing carbon emissions and achieving renewable energy targets. However, greater reliance on wind energy systems increases susceptibility to cyberattacks, notably False Data Injection (FDI) attacks, which manipulate operational data and [...] Read more.

As the global transition to sustainable energy accelerates, wind power remains pivotal in reducing carbon emissions and achieving renewable energy targets. However, greater reliance on wind energy systems increases susceptibility to cyberattacks, notably False Data Injection (FDI) attacks, which manipulate operational data and undermine the decision-making critical for efficient energy production. This study introduces a novel analytical framework to assess the impact of FDI attacks on variable-speed wind turbine output power. Simulations, conducted using a MATLAB-based induction generator model, evaluate the effects of injecting false data into parameters such as wind speed, blade pitch angle, and generator angular speed. Results demonstrate that FDI attacks targeting wind speed induce significant power output deviations, causing decision-making errors that threaten operational reliability. In contrast, pitch angle manipulations have negligible effects on power generation. These findings emphasize the urgent need for robust cybersecurity measures to protect wind energy infrastructure from evolving cyber-threats. This research advocates advanced detection and mitigation strategies to enhance system resilience, ensuring wind power’s role in a low-carbon future. By identifying critical vulnerabilities, the analysis informs policymakers and industry stakeholders, guiding investments in cybersecurity to safeguard renewable energy systems. Such efforts are essential to maintain operational stability and support global sustainability goals, reinforcing wind power’s contribution to clean energy transitions. Full article

(This article belongs to the Special Issue Wind Turbine Decommissioning: Dismantling, Demolition, Recycling, Reuse and Repurposing)

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35 pages, 397 KiB

Open AccessArticle

The Impact of Social Capital and Community Empowerment on Regional Revitalization Practices: A Case Study on the Practice of University Social Responsibility Programs in Wanli and Jinshan Districts

by Hung-Chieh Chen, Tzu-Chao Lin and Ying-Hui Chen

Sustainability 2025, 17(10), 4653; https://doi.org/10.3390/su17104653 - 19 May 2025

Abstract

Amid accelerating globalization and urbanization, regional revitalization has become a key policy direction for countries to address regional decline. Among these, social capital and community empowerment can significantly promote regional development. Social capital emphasizes how trust, norms, and reciprocity facilitate collective action, while [...] Read more.

Amid accelerating globalization and urbanization, regional revitalization has become a key policy direction for countries to address regional decline. Among these, social capital and community empowerment can significantly promote regional development. Social capital emphasizes how trust, norms, and reciprocity facilitate collective action, while community empowerment focuses on improving residents’ participation and autonomous decision-making capacity. Existing research primarily focuses on cases from Europe and America; there is no in-depth exploration of the interaction between regional revitalization and social capital in Taiwan. Notably, systematic studies are lacking regarding the mechanisms through which University Social Responsibility (USR) programs engage and promote community development. This study takes the Wanli and Jinshan districts in northern Taiwan as case study examples. We employ action research and qualitative research methods to analyze the role of social capital and community empowerment in regional revitalization. This paper reviews how internal trust and cooperation within a community build bonding social capital. It explores how USR programs promote collaboration between communities and external resources through bridging social capital. The findings indicate that bonding social capital can enhance community cohesion and support regional revitalization efforts; bridging social capital can introduce academic, corporate, and governmental resources, providing technical and financial support for community innovation. The participatory mechanism of USR programs not only fosters civic awareness development but also offers a cross-organizational cooperation platform for regional revitalization, enabling communities to integrate internal and external resources more effectively. The results of this study indicate that bonding and bridging social capital can achieve complementary effects through USR programs, further promoting community empowerment and regional development. This study deepens the application of social capital theory in regional revitalization. It provides an empirical basis for policymakers and academic institutions to optimize the planning and implementation of future USR programs. While the study focuses on a geographically bounded set of cases and employs an exploratory qualitative design, these choices enabled a rich, context-sensitive understanding of how regional self-governance and community capital may be strengthened in practice. Future research could extend this line of inquiry by examining additional locales, adopting longitudinal perspectives, and integrating mixed-method approaches, thereby further amplifying the robustness and applicability of the propositions advanced here. Full article

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27 pages, 327 KiB

Open AccessArticle

Development of an Agile and Sustainable Framework for Resilient and Inclusive Public Transport Organizations

by Mohamad A. Sayed Ahmed Sayed Abdulrahman and Fikri T. Dweiri

Sustainability 2025, 17(10), 4652; https://doi.org/10.3390/su17104652 - 19 May 2025

Abstract

This study developed an integrated framework to enhance agility, resilience, sustainability, and inclusiveness in Emirati public transport organizations. Using a mixed-methods approach, the research combined semi-structured interviews with 19 experts and a structured questionnaire administered to 38 specialists. The DEMATEL method was applied [...] Read more.

This study developed an integrated framework to enhance agility, resilience, sustainability, and inclusiveness in Emirati public transport organizations. Using a mixed-methods approach, the research combined semi-structured interviews with 19 experts and a structured questionnaire administered to 38 specialists. The DEMATEL method was applied to analyze and visualize the interdependencies among key factors influencing transport system performance. Results indicate that operational efficiency, demand–supply forecasting, and ridership estimation are central to agility; green migration strategies, governance, and service design drive resilience; service diversity, technology, and infrastructure adequacy underpin sustainability; and service level types and seamless transfers are critical to inclusiveness. These dimensions were synthesized into a cohesive model that captures both strategic alignment and system adaptability. The study contributes a validated, multi-dimensional decision-making tool for policymakers and transport authorities, offering practical guidance for aligning transport strategies with national goals and the UN Sustainable Development Goals. While tailored to the UAE context, the framework is adaptable to other urban environments undergoing rapid transformation. While tailored to the UAE context, the framework is adaptable to other urban environments undergoing rapid transformation. The study’s empirical rigor is established through a validated questionnaire and expert-based DEMATEL analysis, ensuring theoretical robustness and real-world applicability. Full article

(This article belongs to the Special Issue Operations Research: Optimization, Resilience and Sustainability)

17 pages, 3755 KiB

Open AccessArticle

Revitalization of Zabłocie in Kraków: Innovation Cluster as One of the Elements of District Development

by Aleksandra Radziejowska and Kazimierz Linczowski

Sustainability 2025, 17(10), 4651; https://doi.org/10.3390/su17104651 - 19 May 2025

Abstract

Zabłocie is one of the most dynamically developing districts of Kraków. The aim of this article is to present the role of the Innovation Cluster in the revitalization of Zabłocie. The article discusses the historical background of the Zabłocie district and examines how [...] Read more.

Zabłocie is one of the most dynamically developing districts of Kraków. The aim of this article is to present the role of the Innovation Cluster in the revitalization of Zabłocie. The article discusses the historical background of the Zabłocie district and examines how the Innovation Cluster can influence its revitalization process. The article also analyzes the possible challenges associated with the implementation of the Innovation Cluster. Key issues include the adaptation of old industrial buildings to new functions, the need for infrastructure investment, and the risk posed by insufficient cooperation between the public and private sectors. In the context of the implementation of the Zabłocie cluster, investment management has played an important role. By integrating BIM technology with a cloud-based collaboration environment, decision-making processes were streamlined at every stage of construction. The cluster has the potential to become a catalyst for the transformation of Zabłocie. It serves as an example of sustainable development, where technological innovation, creative industries, and social responsibility align with infrastructure improvement and enhancing the quality of life in the urban environment. Full article

(This article belongs to the Special Issue Sustainability and Innovation in Engineering Education and Management)

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21 pages, 3908 KiB

Open AccessArticle

Ethnic-Led Forest Recovery and Conservation in Colombia: A 50-Year Evaluation Using Semi-Automatic Classification in the Tucurinca and Aracataca River Basins

by Lina-María Molina-Parra, Deysa-Katherine Pulido-Valenzuela, Héctor-Javier Fuentes-López and Daniel-David Leal-Lara

Sustainability 2025, 17(10), 4650; https://doi.org/10.3390/su17104650 - 19 May 2025

Abstract

Deforestation in Colombia, driven by armed conflict and illicit crops, triggered an environmental crisis, particularly in the Caribbean region, where forest loss in areas such as the Sierra Nevada de Santa Marta degraded ecosystems, reduced carbon sequestration, and increased soil erosion, threatening biodiversity [...] Read more.

Deforestation in Colombia, driven by armed conflict and illicit crops, triggered an environmental crisis, particularly in the Caribbean region, where forest loss in areas such as the Sierra Nevada de Santa Marta degraded ecosystems, reduced carbon sequestration, and increased soil erosion, threatening biodiversity and local food security. In response, the Arhuaco Indigenous community implemented an ethnic territorial management system to restore degraded lands and safeguard their ancestral territory. This study evaluates the effectiveness of their efforts, supporting their call for territorial expansion by analyzing forest cover changes (1973–2023) in the Tucurinca and Aracataca river basins. Using Landsat imagery, remote sensing, and a maximum likelihood algorithm, we generated thematic maps and statistical vegetation change data, validated by a 91.4% accuracy rate (kappa coefficient and confusion matrices). Results demonstrate significant forest recovery, highlighting collective reforestation and Indigenous sustainable management as pivotal strategies for reversing deforestation in post-conflict scenarios. Full article

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