Sustainability

27 pages, 1111 KiB

Open AccessArticle

Time-Dependent Vehicle Routing Optimization Incorporating Pollution Reduction Using Hybrid Gray Wolf Optimizer and Neural Networks

by Zhongneng Ma, Ching-Tsung Jen and Adel Aazami

Sustainability 2025, 17(11), 4829; https://doi.org/10.3390/su17114829 - 23 May 2025

Abstract

Road transport is a major contributor to air pollution, necessitating sustainable solutions for urban logistics. This study presents a time-dependent vehicle routing problem (VRP) model aimed at minimizing fuel consumption and greenhouse gas emissions while addressing stochastic customer demands. By incorporating key environmental [...] Read more.

Road transport is a major contributor to air pollution, necessitating sustainable solutions for urban logistics. This study presents a time-dependent vehicle routing problem (VRP) model aimed at minimizing fuel consumption and greenhouse gas emissions while addressing stochastic customer demands. By incorporating key environmental factors such as road gradients, vehicle load, temperature, wind direction, and asphalt type, the proposed model provides a comprehensive approach to reducing transportation-related pollutants. To solve the computationally complex problem, a hybrid algorithm combining the gray wolf optimizer (GWO) and the multilayer perceptron (MLP) neural network is introduced. The algorithm demonstrates superior performance, achieving an error rate of less than 2% for medium-scale problems and significantly reducing fuel and driver costs. Sensitivity analyses reveal the profound impact of environmental parameters, with wind speed and direction altering optimal routing in over 80% of cases for large-scale instances. This research advances green logistics by integrating dynamic environmental considerations into routing decisions, balancing economic objectives with sustainability. The proposed model and algorithm offer a scalable solution to real-world challenges, enabling policymakers and logistics planners to improve environmental outcomes while maintaining operational efficiency. Full article

31 pages, 8503 KiB

Open AccessArticle

Assessing Supply and Demand Discrepancies of Urban Green Space in High-Density Built-Up Areas Based on Vitality Impacts: Evidence from Beijing’s Central Districts, China

by Jingyi Han, Shoubang Huang, Shiyang Zhang, Qing Lin and Xiangrong Wang

Sustainability 2025, 17(11), 4828; https://doi.org/10.3390/su17114828 - 23 May 2025

Abstract

In rapidly urbanizing areas, there is a notable aggregation of vitality in high-density urban environments, accompanied by an increasing discrepancy between the supply and demand of urban green space (UGS). This study presented an integrated framework comprising a model for UGS supply-demand coupling [...] Read more.

In rapidly urbanizing areas, there is a notable aggregation of vitality in high-density urban environments, accompanied by an increasing discrepancy between the supply and demand of urban green space (UGS). This study presented an integrated framework comprising a model for UGS supply-demand coupling coordination and a measure of urban vitality. Using downtown Beijing as a case study, the Gini coefficient assessed UGS supply-demand disparities across different vitality types. The study examined how UGS supply and demand factors interact with urban vitality, revealing the impact of UGS supply-demand imbalances on various dimensions of vitality and the UGS mismatches experienced by different vitality groups. The study showed that: (1) 63.29% of central Beijing’s areas had low UGS supply-demand coordination, with 39.23% experiencing UGS mismatches; (2) UGS supply and demand were significantly correlated with urban vitality spatial distribution; (3) these factors significantly impacted urban comprehensive vitality; (4) and there were notable UGS distribution disparities among vitality groups, with economic vitality group perceiving the greatest inequity (Gini = 0.311), followed by social vitality (Gini = 0.289) and cultural vitality group (Gini = 0.247). These findings offer valuable insights for a more refined assessment and enhancement of UGS, aiming to achieve balanced, high-quality, and sustainable urban development. Full article

(This article belongs to the Special Issue Urban Planning and Sustainable Land Use—2nd Edition)

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21 pages, 3270 KiB

Open AccessArticle

A Sustainability Analysis of the Small Demersal Fish Used in the Surimi Industry in Indonesia Using the Length-Based Spawning Potential Ratio

by Kuncoro Catur Nugroho, Nimmi Zulbainarni, Zenal Asikin, Slamet Budijanto and Marimin Marimin

Sustainability 2025, 17(11), 4827; https://doi.org/10.3390/su17114827 - 23 May 2025

Abstract

Indonesia’s surimi industry is increasingly relying on small demersal fish stocks, whose biological sustainability remains critically underexamined. This study evaluates four key species—Priacanthus tayenus, Pentaprion longimanus, Upeneus sulphureus, and Nemipterus tambuloides—using the length-based spawning potential ratio (LB-SPR) method [...] Read more.

Indonesia’s surimi industry is increasingly relying on small demersal fish stocks, whose biological sustainability remains critically underexamined. This study evaluates four key species—Priacanthus tayenus, Pentaprion longimanus, Upeneus sulphureus, and Nemipterus tambuloides—using the length-based spawning potential ratio (LB-SPR) method across 66,674 samples. The results reveal acute reproductive depletion, whereby the SPR values for three species fall below the 20% viability threshold, and over 70% of specimens are harvested before maturity. These patterns signal severe recruitment overfishing, with implications for ecosystem resilience and the structural stability of surimi supply chains. Given the factory-based sampling bias, the findings likely represent a worst-case scenario for the surimi-directed stock component within Indonesia’s FMA712. Strategic reforms—particularly minimum size limits, seasonal closures, and broader multisite assessments—are urgently required in order to realign fishing practices with ecological thresholds and safeguard coastal livelihoods that are dependent on this industrial value chain. Full article

(This article belongs to the Special Issue Sustainable Fisheries Resources Management and Aquatic Ecosystem Conservation)

19 pages, 1473 KiB

Open AccessReview

A Comprehensive Review of the Invasive Species Phytolacca acinosa Roxb

by Monica Angela Neblea, Mădălina Cristina Marian and Tuba Aydin

Sustainability 2025, 17(11), 4826; https://doi.org/10.3390/su17114826 - 23 May 2025

Abstract

Phytolacca acinosa is a species native to Asia with significant ecological, economic, and medicinal importance. This study investigates its taxonomic and biological particularities, ecological adaptability, and applications in different fields. The problem addressed is the dual nature of P. acinosa, which is [...] Read more.

Phytolacca acinosa is a species native to Asia with significant ecological, economic, and medicinal importance. This study investigates its taxonomic and biological particularities, ecological adaptability, and applications in different fields. The problem addressed is the dual nature of P. acinosa, which is both a valuable plant resource and also has a negative impact on natural ecosystems. The methodology was based on a review of the scientific literature containing information on P. acinosa in order to evaluate its therapeutic properties, phytoremediation capacity, and impact on biodiversity. The results showed that P. acinosa represents a hyperaccumulator of heavy metals, offering significant potential for soil and water decontamination. Also, its bioactive compounds exhibit anti-inflammatory, antitumor, and antioxidant properties, supporting its uses in traditional medicine. However, its role as an intermediate host for plant pests and pathogens and its invasive potential in areas outside its native range highlight its ecological risks. The main conclusion emphasizes the need for sustainable management strategies to harness the benefits of this species while minimizing its invasive capacity and highlighting its potential in biotechnological and environmental applications. Full article

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

17 pages, 685 KiB

Open AccessArticle

Method Review for Assessing Damage to Human Health in LCA: Implementation in the Production of Selected Food Products

by Matjaž Denac and Tinkara Ošlovnik

Sustainability 2025, 17(11), 4825; https://doi.org/10.3390/su17114825 - 23 May 2025

Abstract

Agriculture and food production can cause a variety of adverse environmental impacts. Life Cycle Assessment (LCA) is the only standardised method so far that provides a comprehensive assessment of the environmental burden of products. LCA results can be expressed as environmental impacts (midpoint [...] Read more.

Agriculture and food production can cause a variety of adverse environmental impacts. Life Cycle Assessment (LCA) is the only standardised method so far that provides a comprehensive assessment of the environmental burden of products. LCA results can be expressed as environmental impacts (midpoint level) or environmental damage (endpoint level). Communication on environmental impact is mostly carried out as a part of the Carbon Footprint (CF) or Environmental Product Declaration (EPD), while reporting on environmental damage is rarely used. Due to the growing interest of consumers in ‘healthy’ food, it is important that food producers address the environmental damage. Therefore, an overview of existing Life Cycle Impact Assessment (LCIA) methods that provide insight into endpoint indicators describing damage to human health has been performed and presented in this paper. The application of the selected LCIA methods is demonstrated for the case of food products, highlighting the fact that the results obtained by different LCIA methods are not directly comparable due to a variety of methodological limitations, such as the existence of different environmental indicators and their structure. Finally, the usage of the LCA method for designing food products is presented, with the aim of enabling consumers to choose diets with lower environment and human health impacts. Full article

(This article belongs to the Special Issue Consumer Behaviour and Sustainable Decision-Making: Bridging the Gap Between Awareness and Action)

35 pages, 4659 KiB

Open AccessArticle

Ecological Light Pollution (ELP) Scale as a Measure of Light Pollution Impact on Protected Areas: Case Study of Poland

by Tomasz Ściężor, Grzegorz Iwanicki, Mieczysław Kunz, Andrzej Z. Kotarba, Karolina Skorb and Przemysław Tabaka

Sustainability 2025, 17(11), 4824; https://doi.org/10.3390/su17114824 - 23 May 2025

Abstract

Light pollution is a rapidly growing environmental challenge, with the global brightness of the night sky increasing by an average of 9.6% per year. This study assessed the ecological impact of artificial light at night (ALAN) on protected areas in Poland, including all [...] Read more.

Light pollution is a rapidly growing environmental challenge, with the global brightness of the night sky increasing by an average of 9.6% per year. This study assessed the ecological impact of artificial light at night (ALAN) on protected areas in Poland, including all 23 national and 125 landscape parks, from 2012 to 2023. Based on VIIRS satellite radiance data and modelled sky surface brightness (Sa), we developed and applied the Ecological Light Pollution (ELP) scale, which classifies areas into four classes of ecological impact: strong (ELP-A), pronounced (ELP-B), noticeable (ELP-C), and weak or none (ELP-D). The analysis revealed that 38.5% of protected areas are affected by artificial skyglow at levels classified as ELP-B or ELP-C. Under cloudy conditions, which intensify light pollution effects, 22% of national parks and 41.8% of landscape parks fell into these classes. Notably, Wielkopolski National Park exhibited the most pronounced impact (ELP-B) even under clear skies, primarily due to its proximity to the Poznań metropolitan area. In contrast, Bieszczadzki and Białowieski National Parks recorded near-natural darkness (ELP-D). These light pollution effects can disrupt nocturnal species’ behaviour, reduce biodiversity, and degrade opportunities for dark-sky tourism. The findings emphasise the need for targeted mitigation, including stricter outdoor lighting regulations, formal dark-sky protection zones, and public education to preserve protected areas’ ecological integrity and tourism potential. Full article

(This article belongs to the Special Issue Looking at the Future: Approaches to a More Sustainable and Just Tourism)

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17 pages, 4589 KiB

Open AccessArticle

Prepared of Titanate as Pb (II) Adsorbent from SCR Waste Catalyst by Sub-Molten Salt Method: A Sustainable Strategy for Hazardous Waste Recycling and Heavy Metal Remediation

by Ling Zeng, Weiquan Yuan, Mingming Yu, Heyue Niu, Yusupujiang Mubula, Kun Xu and Zhehan Zhu

Sustainability 2025, 17(11), 4823; https://doi.org/10.3390/su17114823 - 23 May 2025

Abstract

To address the disposal challenges of waste SCR catalysts and the urgent need for sustainable solutions in heavy metal pollution control, this study proposes a green resource utilization strategy based on the sub-molten salt method to convert waste SCR catalysts into highly efficient [...] Read more.

To address the disposal challenges of waste SCR catalysts and the urgent need for sustainable solutions in heavy metal pollution control, this study proposes a green resource utilization strategy based on the sub-molten salt method to convert waste SCR catalysts into highly efficient lead ion adsorbents. Titanate-based adsorbent materials with a loose porous structure were successfully prepared by optimizing the process parameters (reaction temperature of 160 °C, NaOH concentration of 70%, and reaction time of 2 h). The experiments showed that the adsorption efficiency was as high as 99.65% and the maximum adsorption capacity was 76.08 mg/g under ambient conditions (adsorbent dosage of 1.2 g/L, initial Pb(II) concentration of 100 mg/L, contact time of 60 min, and pH = 4). Kinetic analysis showed that the quasi-second-order kinetic model (R² = 0.9985) could better describe the adsorption process, indicating chemisorption as the dominant mechanism. Characterization analysis confirmed that subsequent to the adsorption process, Pb₃(CO₃)₂(OH)₂ formed on the surface of the adsorbent material is the adsorption product of Pb(II) and C-O through ion exchange and surface complexation. This study transforms waste SCR catalysts into sustainable titanate adsorbents through a low-energy green process, providing an eco-efficient solution for heavy metal wastewater treatment while aligning with circular economy principles and sustainable industrial practices. Full article

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24 pages, 3764 KiB

Open AccessArticle

Development and Characterization of KOH-Activated Carbons Derived from Zeolite-Catalyzed Pyrolysis of Waste Tires

by Camila Aguilar-Ccuno, Rossibel Churata, Kattia Martínez and Jonathan Almirón

Sustainability 2025, 17(11), 4822; https://doi.org/10.3390/su17114822 - 23 May 2025

Abstract

This study focuses on the production and characterization of activated carbons derived from the carbonaceous residue obtained through the catalytic pyrolysis of waste tires. A catalytic pyrolysis process was conducted at 450 °C and 575 °C, employing two zeolitic catalysts, the commercial ZSM-5 [...] Read more.

This study focuses on the production and characterization of activated carbons derived from the carbonaceous residue obtained through the catalytic pyrolysis of waste tires. A catalytic pyrolysis process was conducted at 450 °C and 575 °C, employing two zeolitic catalysts, the commercial ZSM-5 and a synthesized zeolite (PZ2), developed from natural pozzolan, which played a key role in the pyrolysis performance and the quality of the resulting carbons. After pyrolysis, the solid residues were chemically activated using KOH to improve their porous structure and surface characteristics. Comprehensive characterization was carried out, including textural properties (BET surface area and porosity) and morphological (SEM) analysis of the activated carbons, as well as crystallinity evaluation (XRD) of the zeolitic catalysts. The BET surface areas of activated carbons PZ2-T1-AK and PZ2-T2-AK reached 608.65 m²/g and 624.37 m²/g, respectively, values that surpass those reported for similar materials under comparable activation conditions. The developed porous structure suggests strong potential for applications in adsorption processes, including pollutant removal. These findings demonstrate the effectiveness of zeolite-catalyzed pyrolysis, particularly using PZ2, as a sustainable strategy for transforming tire waste into high-performance adsorbent materials. This approach supports circular economy principles through innovative waste valorization and offers a promising solution to an environmental challenge. Full article

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19 pages, 427 KiB

Open AccessArticle

The Impact of Social Media Activities on Marine and Coastal Litter in Cyprus

by Kemal Emirzade and Mehmet Fatih Huseyinoglu

Sustainability 2025, 17(11), 4821; https://doi.org/10.3390/su17114821 - 23 May 2025

Abstract

This study explores the role of social media in raising awareness, fostering community engagement, and supporting efforts to reduce marine and coastal litter in Cyprus. Focusing on campaigns led by community-based organizations such as Yesil Baris Hareketi, Teneke Cocuk, and the Spot Turtle [...] Read more.

This study explores the role of social media in raising awareness, fostering community engagement, and supporting efforts to reduce marine and coastal litter in Cyprus. Focusing on campaigns led by community-based organizations such as Yesil Baris Hareketi, Teneke Cocuk, and the Spot Turtle Project, the research highlights how digital platforms can mobilize public opinion and influence pro-environmental behaviors. Artificial intelligence (AI) algorithms particularly natural language processing (NLP) techniques were employed to analyze large volumes of social media data, enabling the detection of engagement patterns, sentiment dynamics, and thematic trends within environmental campaigns. A mixed-methods approach was adopted, combining social media content analysis, engagement metrics, and stakeholder interviews to provide a comprehensive view of the digital advocacy landscape. Findings suggest that social media plays a critical role in shaping public perceptions of marine litter; however, sustaining long-term behavioral change remains a significant challenge. The study offers practical recommendations for enhancing digital strategies, strengthening stakeholder collaboration, and integrating social media efforts with policy development and environmental education. Full article

(This article belongs to the Special Issue Innovative Research Methods for Sustainable Educational Development)

33 pages, 1631 KiB

Open AccessArticle

Differential Game Model of Fresh Supply Chain, Considering Preservation Efforts and Member Behavior Under Government Subsidies

by Haiping Ren, Yuanda Xu, Lian Han and Xiaoqing Huang

Sustainability 2025, 17(11), 4820; https://doi.org/10.3390/su17114820 - 23 May 2025

Abstract

With the improvement of living standards, consumer demand for fresh produce has witnessed a remarkable upsurge. Fresh products present significant preservation challenges, as their freshness directly correlates with sales performance and ultimately impacts the sustainable development of the fresh supply chain. Enhancing freshness [...] Read more.

With the improvement of living standards, consumer demand for fresh produce has witnessed a remarkable upsurge. Fresh products present significant preservation challenges, as their freshness directly correlates with sales performance and ultimately impacts the sustainable development of the fresh supply chain. Enhancing freshness preservation standards, boosting market demand, strengthening brand reputation, and promoting the development of a fresh supply chain are urgent problems that need to be solved. This paper delves into the dynamic optimal decision-making processes within a fresh food supply chain, which is composed of a supplier and a retailer, under different government subsidy scenarios: centralized decision-making, decentralized decision-making under supplier myopia, and decentralized decision-making under supplier’s foresight. Herein, a differential game model is constructed, and through the utilization of dynamic optimization and backward induction techniques, feedback strategies for various decision-making paradigms are derived. A comparative evaluation of decision-making models is conducted, grounded in theoretical frameworks and substantiated through numerical simulations, to assess critical parameter impacts. The results indicate the following: (1) the effect coefficients of consumer preference and preservation efforts show significant positive correlations with suppliers’ preservation strategies and retailers’ promotional tactics, respectively; (2) supply chain profitability reaches its Pareto-optimal state under centralized decision-making structures, while myopic supplier behavior leads to systematically lower profits than foresighted supplier strategies; (3) retailers demonstrate stronger collaboration preferences toward foresighted suppliers, as such partnerships ensure enhanced quality consistency and supply continuity; and (4) government agencies should implement dynamically adjusted subsidy schemes during preservation initiatives to facilitate sustainable operational frameworks in fresh produce supply chains. Full article

(This article belongs to the Special Issue Sustainability Management Strategies and Practices—2nd Edition)

20 pages, 456 KiB

Open AccessArticle

The Retrospective and Predictive Effectiveness of ESG Ratings: Evidence from China

by Rongxuan Liu, Derek Wang, Shanshan Zheng and Ning Cai

Sustainability 2025, 17(11), 4819; https://doi.org/10.3390/su17114819 - 23 May 2025

Abstract

With the development and proliferation of sustainable investing, ESG ratings have gradually become an important basis for measuring corporates’ ESG performance and influencing investors to make investment decisions. However, the validity of ESG ratings has also raised public concerns due to the differences [...] Read more.

With the development and proliferation of sustainable investing, ESG ratings have gradually become an important basis for measuring corporates’ ESG performance and influencing investors to make investment decisions. However, the validity of ESG ratings has also raised public concerns due to the differences in the evaluation systems and standards of ESG rating agencies. This paper analyzes the effectiveness of ESG rating data provided by Chinese rating agencies in terms of retrospective and predictive effectiveness. It assesses how well these data reflect the past ESG performance of Chinese companies and its ability to predict future ESG performance. The study focuses on China Securities Index 300 companies from 2016 to 2020 and benchmarks their ESG ratings against five indicators derived from negative events. Through regression analysis, this paper studies the association between these indicators and ESG ratings. The results indicate that domestic ESG ratings in China can capture the past ESG performance of Chinese companies, but they can only partially predict the future ESG performance. Full article

24 pages, 766 KiB

Open AccessArticle

Water Unequal Exchange: Embedded Groundwater, Chemicals, and Wastewater in Textile Trade from Bangladesh to the EU and the USA (2000–2023)

by Kamille Hüttel Rasmussen and Martiwi Diah Setiawati

Sustainability 2025, 17(11), 4818; https://doi.org/10.3390/su17114818 - 23 May 2025

Abstract

Textile dye production requires significant amounts of water and chemicals, generating substantial wastewater, which places significant burdens on local environments and water resources. Bangladesh is a global textile dye hub, exporting primarily to the EU and the USA. This research explores Water Unequal [...] Read more.

Textile dye production requires significant amounts of water and chemicals, generating substantial wastewater, which places significant burdens on local environments and water resources. Bangladesh is a global textile dye hub, exporting primarily to the EU and the USA. This research explores Water Unequal Exchange (WUE), which arises when high-income countries (HIC) externalize water use and pollution from consumption and production to low-income countries (LIC), driving environmental degradation beyond their borders. To determine WUE, this paper measures wastewater, groundwater, and chemicals embedded in Bangladesh’s textile trade to the EU and USA between 2000 and 2023. This is based on the net weight of the top 18 textile imports from Bangladesh, provided by the UN Comtrade Database. This paper finds that 3,942,091 million liters of groundwater, 10,792,675 million grams of chemicals, and 2,860,420 million liters of wastewater are embedded in these textile imports. The prices per kg of textiles differ depending on product type, and the highest volume of textile product categories have the lowest price per kg. In conclusion, the textile trade from Bangladesh to the EU and the USA represents a case of WUE, where Bangladesh disproportionately internalizes resource over-extraction and environmental impacts from dye production for low economic gain. Full article

31 pages, 920 KiB

Open AccessArticle

Leveraging Environmental Information Disclosure for Sustainable Cities: Quasi-Experimental Evidence from China

by Han Zhang, Wenfan Qian, Shuxin Yang, Xueting Li and Shujun Guo

Sustainability 2025, 17(11), 4817; https://doi.org/10.3390/su17114817 - 23 May 2025

Abstract

Environmental information disclosure, a key tool in modern environmental governance, drives green technology innovation and sustainable development. In this study, we examined how air information disclosure, induced by the issuance of China’s Ambient Air Quality Standards (AAQSs), drives urban sustainable development (USD) through [...] Read more.

Environmental information disclosure, a key tool in modern environmental governance, drives green technology innovation and sustainable development. In this study, we examined how air information disclosure, induced by the issuance of China’s Ambient Air Quality Standards (AAQSs), drives urban sustainable development (USD) through environmental information disclosure. Using a multi-period difference−in−differences model and panel data from 278 cities (2005–2022), we analyzed causal effects, mechanisms, and urban heterogeneity. The findings offer insights for leveraging disclosure to advance urban sustainability. The results showed that AAQSs’ implementation significantly increases USD. Mechanism analysis revealed two mediating pathways: stimulating green technological innovation and enhancing governmental environmental concern. Climate policy uncertainty positively moderates this relationship. Heterogeneity analysis revealed stronger impacts in non−provincial capital cities, non−resource−dependent cities, and regions with weaker sustainable development foundations. The findings provide empirical evidence for leveraging information disclosure to promote green transitions and strengthen environmental concerns. Full article

(This article belongs to the Section Environmental Sustainability and Applications)

18 pages, 8652 KiB

Open AccessArticle

Removal of Azo Dyes From Water on a Large Scale Using a Low-Cost and Eco-Friendly Adsorbent

by Ma. Guadalupe Aranda-Figueroa, Rosenberg J. Romero, Mario Rodríguez, Adriana Rodríguez-Torres, Alexis Rodríguez, Gloria Ivette Bolio-López, Dulce María Arias-Ataide, Álvaro Torres-Islas and Maria Guadalupe Valladares-Cisneros

Sustainability 2025, 17(11), 4816; https://doi.org/10.3390/su17114816 - 23 May 2025

Abstract

The use of natural materials as adsorbents and the environmentally friendly removal of pollutants and azo dyes from water are important topics today. The goal of this research work was to assess the utility of Luffa cylindrica (L. cylindrica) as a [...] Read more.

The use of natural materials as adsorbents and the environmentally friendly removal of pollutants and azo dyes from water are important topics today. The goal of this research work was to assess the utility of Luffa cylindrica (L. cylindrica) as a natural and non-conventional adsorbent for azo dyes in water on a large scale (2 L). An azo dye (AD) at a concentration of 0.250 g/L was removed from the solution at a rate of 63.07% using 10.0 g/L doses of L. cylindrica, and the maximum adsorption capacity of L. cylindrica was 25.25 mg/g. L. cylindrica desorbed 95.8% of the AD in 0.1 M NaOH. Thermodynamically, the adsorption occurs through pseudo-second-order kinetics and the behaviors adjust better to the Langmuir isotherm. The analysis of variance (p-value < 0.05) shows that the contact time and the concentration of AD significantly influence the adsorption capacity and removal of AD. Few studies have examined the environmentally friendly removal of azo dyes from water using a natural non-conventional adsorbent. Full article

(This article belongs to the Topic Green and Sustainable Chemical Processes)

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20 pages, 1595 KiB

Open AccessArticle

Chitosan-Modified Biochar for Improving Water Retention in Karst Quarries: A Potential Solution for Soil Remediation

by Xiaohua Shu, Shiqing Xiong, Qiulei Wang, Mingyu Yang and Qian Zhang

Sustainability 2025, 17(11), 4815; https://doi.org/10.3390/su17114815 - 23 May 2025

Abstract

Biochar has been widely applied in soil remediation. However, few studies have been conducted on its effect on soil water retention in abandoned quarries. Moreover, due to the poor water storage capacity of the quarry, the adhesion and water retention capacity of biochar [...] Read more.

Biochar has been widely applied in soil remediation. However, few studies have been conducted on its effect on soil water retention in abandoned quarries. Moreover, due to the poor water storage capacity of the quarry, the adhesion and water retention capacity of biochar are limited in its application. Here, we used sugarcane bagasse (SB) and chicken manure (CM) prepared at 300 °C and 500 °C, and modified them with chitosan (CS) to improve the water absorption, and further explored their effects on the soil water retention characteristics in karst, abandoned quarry. The results indicated that the modified biochar significantly improves the hydrophilicity and water absorption capacity of the biochar. The water absorption multiples of 300SBB-CS, 500SBB-CS, 300CMB-CS, and 500CMB-CS were 131.03, 94.47, 86.19, and 114.70 g·g⁻¹. After being applied to the quarry soil, it significantly improved the water retention characteristics. In addition, the application of modified biochar significantly increased the mean weight diameter (MWD), geometric mean diameter (GMD), and cation exchange capacity (CEC) of soil aggregates. Compared with the control, GMD of 300SBB-CS, 500SBB-CS, 300CMB-CS, and 500CMB-CS increased by 24.42%, 32.74%, 8.34%, and 21.20%, respectively. The modified biochar improves the soil’s water retention characteristics by enhancing its water absorption capacity. In addition, the modified biochar improves the stability of soil aggregates by increasing the soil CEC, which indirectly enhances the water retention characteristics of the soil. These findings provide substantial reference information for improving soil conditions in karst regions. Full article

(This article belongs to the Topic The Challenges and Future Trends in Anthropogenic and Natural Pollution Control Engineering)

24 pages, 558 KiB

Open AccessArticle

Social Media Influence: Bridging Pro-Vaccination and Pro-Environmental Behaviors Among Youth

by Anca-Olguța Orzan

Sustainability 2025, 17(11), 4814; https://doi.org/10.3390/su17114814 - 23 May 2025

Abstract

Currently, young populations (individuals under 26 years old) face unprecedented challenges, including climate change, environmental degradation, and the management of public health crises such as vaccine hesitancy. In this complex environment, social media plays a crucial role in shaping youth attitudes and behaviors, [...] Read more.

Currently, young populations (individuals under 26 years old) face unprecedented challenges, including climate change, environmental degradation, and the management of public health crises such as vaccine hesitancy. In this complex environment, social media plays a crucial role in shaping youth attitudes and behaviors, presenting both significant opportunities and risks. Social media platforms have become essential in shaping public opinion on general topics and health-related issues, particularly vaccination. Understanding how digital platforms influence youth behavior regarding vaccination can offer valuable insights into psychosocial mechanisms capable of stimulating sustainable behaviors among the same demographic. This study explores a novel intersection between public health and environmental communication, proposing that the same psychosocial and communicative mechanisms influencing pro-vaccination behaviors—such as trust, social influence, and emotional resonance—also underpin pro-environmental engagement among youth. Understanding this overlap allows for cross-domain strategies in digital communication campaigns. This paper examines how digital communication strategies effective in promoting vaccination can be adapted to foster pro-environmental behavior among youth. By identifying shared psychosocial mechanisms—such as fear, trust, and social influence—the study proposes a conceptual framework for leveraging social media to support sustainable behaviors. This study explores how social media influences youth attitudes towards vaccination and pro-environmental behavior. Using a structured questionnaire distributed among 450 young participants (aged 18–26) and analyzed through Structural Equation Modeling (SEM) via WarpPLS, the research identifies key psychosocial mechanisms such as fear, trust, and social influence. Results show that social media exposure and peer environment are strong predictors of both vaccination and environmental behaviors (R² = 0.70 for vaccination attitude; R² = 0.50 for environmental attitude). The proposed conceptual model highlights the importance of emotionally resonant, science-based communication strategies in promoting sustainable behaviors among youth. Practical implications for strategic digital campaigns are discussed. Full article

(This article belongs to the Special Issue Motivating Pro-Environmental Behavior in Youth Populations)

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26 pages, 4558 KiB

Open AccessArticle

Digital Inclusive Finance and Urban Carbon Intensity Reduction: Unraveling Green Credit Mechanisms and Spatial Heterogeneity Across Chinese Cities

by Jinan Jia, Renhua Zhang, Guangpu Zhao, Feiya Chen and Peng Wang

Sustainability 2025, 17(11), 4813; https://doi.org/10.3390/su17114813 - 23 May 2025

Abstract

In alignment with China’s carbon peak and carbon neutrality commitments, digital inclusive finance (DIF) has emerged as a strategic instrument for carbon emission mitigation, facilitated by coordinated policy interventions and market-driven innovations. This study conducted an original multi-dimensional investigation into DIF’s carbon intensity [...] Read more.

In alignment with China’s carbon peak and carbon neutrality commitments, digital inclusive finance (DIF) has emerged as a strategic instrument for carbon emission mitigation, facilitated by coordinated policy interventions and market-driven innovations. This study conducted an original multi-dimensional investigation into DIF’s carbon intensity reduction effects through an integrated analytical framework. Employing two-way fixed effects and mediation analysis models, we systematically evaluated both direct impacts and green-credit-mediated pathways using panel data across 247 Chinese cities from 2011 to 2020. A dynamic Spatial Durbin model further elucidated the spatiotemporal evolution of DIF’s spatial spillover effects. It was found that DIF development can reduce the carbon intensity of cities, and in particular, this phenomenon shows different effects in different types of cities. Green credit mechanisms effectively mediate their effects in the decarbonization process of DIF, confirming their key role in financial intermediation. In addition, DIF has a strong cross-regional spatial spillover effect, and its carbon emission reduction impact transcends local administrative jurisdictions. The results of this study will provide valuable insights and practical recommendations for policymakers and stakeholders to develop effective carbon reduction strategies that contribute to sustainable development in China and globally. Full article

(This article belongs to the Special Issue Sustainable Finance, Technologies, and Regulatory Frameworks: Advancing Sustainability in a Digital Era)

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25 pages, 5344 KiB

Open AccessArticle

Assessment of Water Resource Sustainability and Glacier Runoff Impact on the Northern and Southern Slopes of the Tianshan Mountains

by Qingshan He, Jianping Yang, Qiudong Zhao, Hongju Chen, Yanxia Wang, Hui Wang and Xin Wang

Sustainability 2025, 17(11), 4812; https://doi.org/10.3390/su17114812 - 23 May 2025

Abstract

Water resources are vital for sustainable development in arid regions, where glacial runoff plays a significant role in maintaining water supply. This study quantitatively assesses the sustainability of water resources in the Manas River Basin (MnsRB) and the Muzati River Basin (MztRB), situated [...] Read more.

Water resources are vital for sustainable development in arid regions, where glacial runoff plays a significant role in maintaining water supply. This study quantitatively assesses the sustainability of water resources in the Manas River Basin (MnsRB) and the Muzati River Basin (MztRB), situated on the northern and southern slopes of the Tianshan Mountains, respectively, over the period from 1991 to 2050. Freshwater availability was simulated and projected using the Variable Infiltration Capacity Chinese Academy of Sciences (VIC-CAS) hydrological model. Furthermore, three development modes—traditional development, economic growth, and water-saving—were established to estimate future water consumption. The levels of water stress were also applied to assess water resources sustainability in the MnsRB and MztRB. Results indicate that from 1991 to 2020, the average annual available freshwater resources were 13.94 × 10⁸ m³ in the MnsRB and 14.27 × 10⁸ m³ in the MztRB, with glacial runoff contributing 20.24% and 65.58%, respectively. Under the SSP5-8.5 scenario, available freshwater resources are projected to decline by 10.94% in the MnsRB and 4.37% in the MztRB by 2050. Total water withdrawal has increased significantly over the past 30 years, with agriculture water demand accounting for over 80%. The levels of water stress during this period were 1.14 for the MnsRB and 0.87 for the MztRB. Glacial runoff significantly mitigates water stress in both basins, with average reductions of 21.16% and 69.84% between 1991 and 2050. Consequently, clear policies, regulations, and incentives focused on water conservation are vital for effectively tackling the increasing challenge of water scarcity in glacier-covered arid regions. Full article

(This article belongs to the Special Issue Impacts of Climate Change on the Water–Food–Energy Nexus)

22 pages, 3094 KiB

Open AccessArticle

Spatio-Temporal Evolution and Identification of Obstacles to High-Quality Economic Development in the Yellow River Basin

by Xiaoyu Wu, Chengxin Wang, Zhenxing Jin and Guangzhi Qi

Sustainability 2025, 17(11), 4811; https://doi.org/10.3390/su17114811 - 23 May 2025

Abstract

The Yellow River Basin (YRB) is a significant economic development region in China; however, it faces the challenge of underdeveloped economic levels, which impacts the sustainable development of the national economy. This study constructs an index system for high-quality economic development (HQED) based [...] Read more.

The Yellow River Basin (YRB) is a significant economic development region in China; however, it faces the challenge of underdeveloped economic levels, which impacts the sustainable development of the national economy. This study constructs an index system for high-quality economic development (HQED) based on five development concepts. The CRITIC method was utilized to comprehensively evaluate 78 prefecture-level cities in the YRB from 2000 to 2022. Techniques such as the Dagum Gini coefficient, exploratory spatial data analysis, Markov chain analysis, and the obstacle degree model were employed to investigate the temporal and spatial evolution of HQED levels and their associated obstacles in the YRB. The findings indicate a positive temporal trend in the HQED index, with increasing intra-group differences and overlapping issues among regions, while inter-group differences are decreasing. Nevertheless, the primary contradiction in the YRB continues to arise from inter-group disparities. Spatially, the development regions are predominantly centered around provincial capitals, exhibiting a pronounced “fault line” phenomenon and characteristic “spatial proximity.” In terms of evolutionary trends, the likelihood of each region maintaining its current state is relatively high; however, regions with higher-quality neighborhoods demonstrate a lower probability of stability and a greater likelihood of upward mobility. The positive impacts of high-quality neighborhoods outweigh the negative effects associated with low-quality areas. In terms of obstacles, factors such as sharing and coordination hinder progress in HQED in the YRB, with challenges related to coordination, innovation, and openness intensifying in recent years. Full article

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