Sustainability

15 pages, 1582 KB

Open AccessArticle

Research on the Construction of a Three-Dimensional Coupled Dynamic Model of Carbon Footprints, Energy Recovery, and Power Generation for Polysilicon Photovoltaic Systems Based on a Net-Value Boundary

by Yixuan Wang and Yizhi Tian

Sustainability 2026, 18(2), 932; https://doi.org/10.3390/su18020932 (registering DOI) - 16 Jan 2026

Abstract

A Life cycle assessment (LCA) is widely used to evaluate the carbon reduction potential of polycrystalline silicon photovoltaic systems. However, in existing LCA methods, most studies use static attenuation models and fixed lifecycle boundary frameworks. Therefore, this study proposes a dynamic LCA framework [...] Read more.

A Life cycle assessment (LCA) is widely used to evaluate the carbon reduction potential of polycrystalline silicon photovoltaic systems. However, in existing LCA methods, most studies use static attenuation models and fixed lifecycle boundary frameworks. Therefore, this study proposes a dynamic LCA framework that considers the attenuation rate changes in photovoltaic systems and the energy gain during the recovery phase. The innovation of this method lies in its ability to more accurately reflect the carbon emissions and energy recovery period (EPBT) of photovoltaic systems under different operating and attenuation scenarios. In addition, this article expands the application scope of the LCA by introducing new boundary conditions, providing a new perspective for the lifecycle assessment of photovoltaic systems. A practical carbon emission calculation model was established using the full lifecycle data within this boundary, and the quantitative relationship between the EPBT and power generation was derived. A three-dimensional dynamic coupling model was developed to integrate these three key parameters and continuously characterize the dynamic behavior of the system throughout its entire lifecycle. This model explicitly addresses the attenuation of photovoltaic modules in three scenarios: low (1%), baseline (3%), and high (5%) attenuation rates. The results show that under low attenuation, the average EPBT is 4.14 years, which extends to 6.5 years under high attenuation and only 2.37 years under low attenuation. Sensitivity analysis confirmed the effectiveness of the model in representing the dynamic evolution of photovoltaic systems, providing a theoretical basis for subsequent environmental performance evaluations. Full article

(This article belongs to the Section Energy Sustainability)

► Show Figures

Figure 1

22 pages, 2057 KB

Open AccessArticle

Comparative Experimental Performance Assessment of Tilted and Vertical Bifacial Photovoltaic Configurations for Agrivoltaic Applications

by Osama Ayadi, Reem Shadid, Mohammad A. Hamdan, Qasim Aburumman, Abdullah Bani Abdullah, Mohammed E. B. Abdalla, Haneen Sa’deh and Ahmad Sakhrieh

Sustainability 2026, 18(2), 931; https://doi.org/10.3390/su18020931 (registering DOI) - 16 Jan 2026

Abstract

Agrivoltaics—the co-location of photovoltaic energy production with agriculture—offers a promising pathway to address growing pressures on land, food, and clean energy resources. This study evaluates the first agrivoltaic pilot installation in Jordan, located in Amman (935 m above sea level; hot-summer Mediterranean climate), [...] Read more.

Agrivoltaics—the co-location of photovoltaic energy production with agriculture—offers a promising pathway to address growing pressures on land, food, and clean energy resources. This study evaluates the first agrivoltaic pilot installation in Jordan, located in Amman (935 m above sea level; hot-summer Mediterranean climate), during its first operational year. Two 11.1 kWp bifacial photovoltaic (PV) systems were compared: (i) a south-facing array tilted at 10°, and (ii) a vertical east–west “fence” configuration. The tilted system achieved an annual specific yield of 1962 kWh/kWp, approximately 35% higher than the 1288 kWh/kWp obtained from the vertical array. Seasonal variation was observed, with the performance gap widening to ~45% during winter and narrowing to ~22% in June. As expected, the vertical system exhibited more uniform diurnal output, enhanced early-morning and late-afternoon generation, and lower soiling losses. The light profiles measured for the year indicate that vertical systems barely impede the light requirements of crops, while the tilted system splits into distinct profiles for the intra-row area (akin to the vertical system) and sub-panel area, which is likely to support only low-light requirement crops. This configuration increases the levelized cost of electricity (LCOE) by roughly 88% compared to a conventional ground-mounted system due to elevated structural costs. In contrast, the vertical east–west system provides an energy yield equivalent to about 33% of the land area at the tested configuration but achieves this without increasing the LCOE. These results highlight a fundamental trade-off: elevated tilted systems offer greater land-use efficiency but at higher cost, whereas vertical systems preserve cost parity at the expense of lower energy density. Full article

(This article belongs to the Special Issue Energy Economics and Sustainable Environment)

22 pages, 5927 KB

Open AccessArticle

Research on a Temperature and Humidity Prediction Model for Greenhouse Tomato Based on iT-LSTM-CA

by Yanan Gao, Pingzeng Liu, Yuxuan Zhang, Fengyu Li, Ke Zhu, Yan Zhang and Shiwei Xu

Sustainability 2026, 18(2), 930; https://doi.org/10.3390/su18020930 (registering DOI) - 16 Jan 2026

Abstract

Constructing a temperature and humidity prediction model for greenhouse-grown tomatoes is of great significance for achieving resource-efficient and sustainable greenhouse environmental control and promoting healthy tomato growth. However, traditional models often struggle to simultaneously capture long-term temporal trends, short-term local dynamic variations, and [...] Read more.

Constructing a temperature and humidity prediction model for greenhouse-grown tomatoes is of great significance for achieving resource-efficient and sustainable greenhouse environmental control and promoting healthy tomato growth. However, traditional models often struggle to simultaneously capture long-term temporal trends, short-term local dynamic variations, and the coupling relationships among multiple variables. To address these issues, this study develops an iT-LSTM-CA multi-step prediction model, in which the inverted Transformer (iTransformer, iT) is employed to capture global dependencies across variables and long temporal scales, the Long Short-Term Memory (LSTM) network is utilized to extract short-term local variation patterns, and a cross-attention (CA) mechanism is introduced to dynamically fuse the two types of features. Experimental results show that, compared with models such as Gated Recurrent Unit (GRU), Temporal Convolutional Network (TCN), Recurrent Neural Network (RNN), LSTM, and Bidirectional Long Short-Term Memory (Bi-LSTM), the iT-LSTM-CA achieves the best performance in multi-step forecasting tasks at 3 h, 6 h, 12 h, and 24 h horizons. For temperature prediction, the R² ranges from 0.96 to 0.98, with MAE between 0.42 °C and 0.79 °C and RMSE between 0.58 °C and 1.06 °C; for humidity prediction, the R² ranges from 0.95 to 0.97, with MAE between 1.21% and 2.49% and RMSE between 1.78% and 3.42%. These results indicate that the iT-LSTM-CA model can effectively capture greenhouse environmental variations and provide a scientific basis for environmental control and management in tomato greenhouses. Full article

► Show Figures

Figure 1

26 pages, 490 KB

Open AccessArticle

Signaling or Substantiating? Green Technology Standard-Setting, Knowledge Integration, and Dual Green Innovation Across the Firm Life Cycle

by Xun Zhang, Wenjing Zhao, Biao Xu and Jun Wu

Sustainability 2026, 18(2), 929; https://doi.org/10.3390/su18020929 (registering DOI) - 16 Jan 2026

Abstract

This study examines how corporate participation in green technology standard-setting affects two dimensions of green innovation–substantive and symbolic green innovation–through the mediating role of knowledge integration and across different stages of the firm life cycle. Analyzing panel data from Chinese A-share listed firms [...] Read more.

This study examines how corporate participation in green technology standard-setting affects two dimensions of green innovation–substantive and symbolic green innovation–through the mediating role of knowledge integration and across different stages of the firm life cycle. Analyzing panel data from Chinese A-share listed firms (2010–2023), we find that standard-setting participation significantly enhances both types of innovation, with a stronger and more enduring effect on substantive innovation. The effects exhibit clear life cycle heterogeneity: substantive green innovation is consistently enhanced across all stages of the firm life cycle, whereas symbolic green innovation is predominantly reinforced during the maturity stage. Grounded in the knowledge-based view and institutional theory, our findings highlight how institutional engagement fosters sustainable innovation by strengthening firms’ capacity for knowledge acquisition and integration. This research advances understanding of the strategic value of standard-setting in sustainability efforts and provides actionable insights for aligning standardization practices with long-term innovation goals. Full article

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

► Show Figures

Figure 1

42 pages, 907 KB

Open AccessArticle

Digital Transformation and Sustainable Customer Value in Healthcare: Evidence from an AI-Based Diabetes Prognostic Service

by Oh Suk Yang and Seong Hun Kim

Sustainability 2026, 18(2), 928; https://doi.org/10.3390/su18020928 (registering DOI) - 16 Jan 2026

Abstract

This study investigates how digital transformation in healthcare shapes sustainable customer value by analyzing the role of digital quality and its influence on satisfaction and loyalty within an AI-based diabetes prognostic service. Drawing on system, information, and service quality as core dimensions of [...] Read more.

This study investigates how digital transformation in healthcare shapes sustainable customer value by analyzing the role of digital quality and its influence on satisfaction and loyalty within an AI-based diabetes prognostic service. Drawing on system, information, and service quality as core dimensions of digital quality, the study examines their direct effects on satisfaction and their contribution to loyalty formation relative to traditional service factors. Using survey data collected from over 1000 users of a digital healthcare platform equipped with an AI-driven diabetes prognostic algorithm, 800 valid responses were analyzed through PLS-SEM in SmartPLS 4.0. The results show that both traditional service attributes and digital quality significantly enhance customer satisfaction, which in turn promotes loyalty. However, digital quality does not strengthen the satisfaction–loyalty linkage, indicating that its value lies in establishing baseline trust and usability rather than amplifying loyalty outcomes. Environmental uncertainty—captured as technological and market uncertainty—also positively affects loyalty. This study contributes to digital healthcare research by providing empirical evidence from an AI-based long-term prognostic service and clarifying that digital quality operates as a foundational hygiene factor essential for sustainable customer value, rather than as a competitive differentiator. Full article

► Show Figures

Figure 1

14 pages, 812 KB

Open AccessArticle

Regional Ecosystem Quality and University Spin-Off Growth in Internal Areas: Evidence on Territorial Resilience from Italian Academic Entrepreneurship

by Antonio Prencipe and Davis Fioretti

Sustainability 2026, 18(2), 927; https://doi.org/10.3390/su18020927 (registering DOI) - 16 Jan 2026

Abstract

This study examines how territorial peripherality and regional entrepreneurial ecosystem quality shape the growth trajectories of Italian university spin-offs, with a specific focus on internal areas. Combining firm-level data from NETVAL and AIDA with territorial indicators from the Italian Strategy for Inner Areas [...] Read more.

This study examines how territorial peripherality and regional entrepreneurial ecosystem quality shape the growth trajectories of Italian university spin-offs, with a specific focus on internal areas. Combining firm-level data from NETVAL and AIDA with territorial indicators from the Italian Strategy for Inner Areas (SNAI) and ISTAT, we construct a panel of 655 university spin-offs observed between 2018 and 2022. Two composite indicators capture provincial peripherality and regional ecosystem quality. Using mixed-effects models, we analyse their effects on revenue and employment growth. Results show that stronger regional ecosystems support employment growth overall and significantly amplify revenue growth for spin-offs located in internal areas, partially compensating for structural territorial disadvantages. The findings highlight the importance of place-based ecosystem policies and the strategic role of universities in fostering knowledge-based development and proxy indicators of territorial resilience in peripheral regions. Full article

(This article belongs to the Special Issue Sustainable Entrepreneurship and Local Economic Resilience: Academia’s Critical Role in Education, Research, and Community Engagement)

► Show Figures

Figure 1

21 pages, 903 KB

Open AccessArticle

The Formation Mechanism of Sustainable Entrepreneurial Behavior in Chinese New Ventures: A Moderated Mediation Model

by Tianwei Huang, Fang Ding, Rongzhi Liu, Yihan Wang and Yong Lin

Sustainability 2026, 18(2), 926; https://doi.org/10.3390/su18020926 (registering DOI) - 16 Jan 2026

Abstract

Sustainable entrepreneurship is essential for promoting the integrated development of economic, environmental, and social systems, particularly in emerging economies such as China. Drawing on social identity theory and resource bricolage theory, this study examines how founder identity influences sustainable entrepreneurial behavior and also [...] Read more.

Sustainable entrepreneurship is essential for promoting the integrated development of economic, environmental, and social systems, particularly in emerging economies such as China. Drawing on social identity theory and resource bricolage theory, this study examines how founder identity influences sustainable entrepreneurial behavior and also explores the mediating role of entrepreneurial bricolage and the moderating effect of perceived uncertainty. Using survey data from 210 Chinese new ventures, the hypotheses were tested by structural equation modeling and moderated mediation analysis. The empirical results indicate that founder identity positively influences sustainable entrepreneurship, with entrepreneurial bricolage partially mediating this relationship. Moreover, perceived uncertainty weakens the positive relationship between founder identity and bricolage. It also reduces the indirect effect of bricolage on sustainable entrepreneurship, indicating that higher uncertain environments constrain entrepreneurs’ willingness to rely on bricolage as a resource acquisition strategy. By elucidating the underlying mechanisms and boundary conditions through which founder identity influences sustainable entrepreneurial behavior, this study enriches micro-level research on sustainable entrepreneurship. It also provides practical insights for entrepreneurs and policymakers in strengthening strategic resilience and fostering the development of sustainable entrepreneurship. Full article

► Show Figures

Figure 1

23 pages, 1203 KB

Open AccessArticle

Driving Mechanisms of the Evolution of University–Industry Collaborative Innovation Networks in Chinese Cities: A TERGM-Based Analysis

by Mingque Ye and Furui Zhang

Sustainability 2026, 18(2), 925; https://doi.org/10.3390/su18020925 (registering DOI) - 16 Jan 2026

Abstract

Developing a deep understanding of the evolutionary driving mechanisms of university–industry collaborative innovation networks among Chinese cities is of great significance for advancing sustainable urban development. Based on university–industry collaborative patent data from 275 prefecture-level and above cities in China during the period [...] Read more.

Developing a deep understanding of the evolutionary driving mechanisms of university–industry collaborative innovation networks among Chinese cities is of great significance for advancing sustainable urban development. Based on university–industry collaborative patent data from 275 prefecture-level and above cities in China during the period 2004–2020, this study constructs an intercity university–industry collaborative innovation network and employs the temporal exponential random graph model to analyze its evolutionary driving mechanisms. The results indicate that the network structure has become increasingly complex over time and exhibits pronounced small-world characteristics in the later stages. Network formation is distinctly non-random and is jointly shaped by endogenous structural effects and exogenous factors. Diffusion, connectivity, and closure effects are all significant, while intercity collaborative ties are influenced by multidimensional proximity, including economic, geographic, and organizational proximity. Moreover, the network structure demonstrates strong temporal stability. In the context of high-intensity collaboration, cities place greater emphasis on economic and organizational proximity, and cities with higher levels of economic development and prior experience in high-intensity collaboration are more likely to establish collaborative ties. Furthermore, eastern cities tend to collaborate with partners at similar levels of economic development, whereas cities in central and western regions display a more pronounced core–periphery pattern. Overall, from the perspective of intercity university–industry collaborative innovation networks, this study provides new empirical evidence and insights for promoting coordinated regional innovation capacity and sustainable urban development. Full article

(This article belongs to the Special Issue Innovation and Sustainability in Urban Planning and Governance)

► Show Figures

Figure 1

34 pages, 655 KB

Open AccessArticle

From Words to Watts: How Green-Oriented Policy Narratives Affect Urban Energy Intensity

by Xinyu Cai, Shuyang Sun and Guoliang Cai

Sustainability 2026, 18(2), 924; https://doi.org/10.3390/su18020924 (registering DOI) - 16 Jan 2026

Abstract

Reducing energy intensity is critical for combating climate change, yet current progress remains insufficient to meet international targets. Green-oriented policy narratives hold significant potential for mitigating energy intensity, but existing research lacks regional-level quantitative analysis. This study examines how green-oriented policy narratives influence [...] Read more.

Reducing energy intensity is critical for combating climate change, yet current progress remains insufficient to meet international targets. Green-oriented policy narratives hold significant potential for mitigating energy intensity, but existing research lacks regional-level quantitative analysis. This study examines how green-oriented policy narratives influence urban energy intensity. We analyze textual data from Chinese provincial Party newspapers using large language models and LDA topic modeling to measure narrative-related variables, then combine these measures with panel data from 288 Chinese cities spanning 2010–2022. The findings reveal that green-oriented policy narrative exposure significantly reduces urban energy intensity through promoting green credit development and stimulating green innovation, with the negative effect strengthening as the prominence of the public and narrativity of narratives increase. Heterogeneity analysis further shows that narrative effectiveness is amplified in cities with higher internet penetration and marketization levels. This study broadens research on energy intensity determinants beyond traditional policy instruments, extends green-oriented narrative effects from the micro to macro level, and offers insights for leveraging narratives and contextual conditions to promote energy conservation. Full article

(This article belongs to the Section Energy Sustainability)

► Show Figures

Figure 1

21 pages, 3136 KB

Open AccessArticle

How Does Green Finance Influence Environmental Performance in China: Unveiling the Mechanisms and Regional Heterogeneity

by Songyan Jiang, Xiuxiu Liu, Hui Hua and Xuewei Liu

Sustainability 2026, 18(2), 923; https://doi.org/10.3390/su18020923 (registering DOI) - 16 Jan 2026

Abstract

Green finance is increasingly recognized as an important instrument for improving sustainable development. Existing research has focused on green finance’s impact on corporate environmental performance, failing to account for the complex regional mechanisms that shape its contribution to systemic sustainability. This study fills [...] Read more.

Green finance is increasingly recognized as an important instrument for improving sustainable development. Existing research has focused on green finance’s impact on corporate environmental performance, failing to account for the complex regional mechanisms that shape its contribution to systemic sustainability. This study fills the gaps by examining the mechanism and spatial heterogeneity of green finance’s influences on regional sustainability measured by environmental performance. Using panel data from 30 Chinese provinces during 2010–2022, it shows that green finance increased from 0.318 to 0.539, while environmental performance improved from 0.441 to 0.656. The empirical evidence demonstrates that green finance has a robust positive effect on environmental performance, acting as an effective tool for environmental governance. This impact is primarily channeled through technological innovation and green consumption, with environmental regulation providing a synergistic moderating role. Furthermore, significant regional heterogeneity in sustainability outcomes is observed, while the effect is strongest in eastern China, unstable or negligible in old industrial bases, and unexpectedly negative in ecologically fragile Northwest China. The disparities are attributed to variations in local economic structure, institutional capacity, and development stage. Corresponding policy recommendations include improving the institutional framework, channeling financial resources to green technology R&D and sustainable consumption incentives, integrating green finance with environmental policies, and implementing region-specific strategies. This study offers practical benchmarks for China and other developing economies to leverage green finance as a driver of sustainable development. Full article

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

► Show Figures

Figure 1

20 pages, 377 KB

Open AccessArticle

Modeling Service Experience and Sustainable Adoption of Drone Taxi Services in the UAE: A Behavioral Framework Informed by TAM and UTAUT

by Sami Miniaoui, Nasser A. Saif Almuraqab, Rashed Al Raees, Prashanth B. S. and Manoj Kumar M. V.

Sustainability 2026, 18(2), 922; https://doi.org/10.3390/su18020922 (registering DOI) - 16 Jan 2026

Abstract

Urban air mobility solutions such as drone taxi services are increasingly viewed as a promising response to congestion, sustainability, and smart-city mobility challenges. However, the large-scale adoption of such services depends on users’ perceptions of service experience, trust, and readiness to engage with [...] Read more.

Urban air mobility solutions such as drone taxi services are increasingly viewed as a promising response to congestion, sustainability, and smart-city mobility challenges. However, the large-scale adoption of such services depends on users’ perceptions of service experience, trust, and readiness to engage with emerging technologies. This study investigates the determinants of sustainable adoption of drone taxi services in the United Arab Emirates (UAE) by examining technology readiness and service experience factors, interpreted through conceptual alignment with the Technology Acceptance Model (TAM) and the Unified Theory of Acceptance and Use of Technology (UTAUT). A structured questionnaire was administered to potential users, capturing perceptions related to optimism, innovation readiness, efficiency, control, privacy, insecurity, discomfort, inefficiency, and perceived operational risk, along with behavioral intention to adopt drone taxi services. Measurement reliability and validity were rigorously assessed using Cronbach’s alpha, composite reliability, average variance extracted (AVE), and the heterotrait–monotrait (HTMT) criterion. The validated latent construct scores were subsequently used to estimate a structural regression model examining the relative influence of each factor on adoption intention. The results indicate that privacy assurance and perceived control exert the strongest influence on behavioral intention, followed by optimism and innovation readiness, while negative readiness factors such as discomfort, insecurity, inefficiency, and perceived chaos demonstrate negligible effects. These findings suggest that in technologically progressive contexts such as the UAE, adoption intentions are primarily shaped by trust-building and empowerment-oriented perceptions rather than deterrence-based concerns. By positioning technology readiness and service experience constructs within established TAM and UTAUT theoretical perspectives, this study contributes a context-sensitive understanding of adoption drivers for emerging urban air mobility services. The findings offer practical insights for policy makers and service providers seeking to design user-centric, trustworthy, and sustainable drone taxi systems. Full article

(This article belongs to the Special Issue Service Experience and Servicescape in Sustainable Consumption)

► Show Figures

Figure 1

20 pages, 2088 KB

Open AccessArticle

Alkaline Mycoremediation: Penicillium rubens and Aspergillus fumigatus Efficiently Decolorize and Detoxify Key Textile Dye Classes

by Magda A. El-Bendary, Shimaa R. Hamed and Sayeda Abdelrazek Abdelhamid

Sustainability 2026, 18(2), 921; https://doi.org/10.3390/su18020921 (registering DOI) - 16 Jan 2026

Abstract

Industrial synthetic dyes are among the most common and hazardous pollutants in manufacturing wastewater. In this study, effective dye-decolorizing fungi were isolated from industrial discharge and evaluated for their decolorization efficiency for various dyes, including a triphenylmethane (malachite green, MG), an anthraquinone (reactive [...] Read more.

Industrial synthetic dyes are among the most common and hazardous pollutants in manufacturing wastewater. In this study, effective dye-decolorizing fungi were isolated from industrial discharge and evaluated for their decolorization efficiency for various dyes, including a triphenylmethane (malachite green, MG), an anthraquinone (reactive blue 19, RB19), and an azo dye (reactive black 5, RB5). The fungus with the highest potential for MG decolorization was identified as Penicillium rubens, whereas Aspergillus fumigatus proved to be the most effective for RB19 and RB5 decolorization. Maximum decolorization for all dyes occurred at pH 9 and 30 °C after 6–7 days of shaking in the dark. Enzyme activity assays revealed that both P. rubens and A. fumigatus produced multiple oxidative and reductive enzymes, including laccase, azoreductase, anthraquinone reductase, triphenylmethane reductase, lignin peroxidase, manganese peroxidase, and tyrosinase. The decolorized filtrates of MG, RB19, and RB5 exhibited very low phytotoxicity for RB5 and no phytotoxicity for MG and RB19. Furthermore, these filtrates demonstrated significant reductions in chemical oxygen demand (46%, 63%, and 50%) and biological oxygen demand (37%, 60%, and 40%) for MG, RB19, and RB5, respectively, compared to untreated dyes. Given their efficient biological removal of dyes under alkaline conditions, these fungal isolates are promising candidates for sustainable wastewater treatment. Full article

(This article belongs to the Section Sustainable Water Management)

► Show Figures

Figure 1

21 pages, 760 KB

Open AccessArticle

Standardized Sustainability Reporting, ESG Performance, and Market-Based Valuation in Chinese Listed Firms

by Yuanyuan Wang, Muhammad Haroon Shah, Yaoyao Wang and Ihsan Ullah

Sustainability 2026, 18(2), 920; https://doi.org/10.3390/su18020920 (registering DOI) - 16 Jan 2026

Abstract

This study examines the tension between “substance” and “form” in standardized sustainability reporting within an emerging market context. Using 21,964 firm-year observations from Chinese A-share listed companies (2018–2023), we investigate whether the adoption of the Global Reporting Initiative (GRI) framework enhances substantive Environmental, [...] Read more.

This study examines the tension between “substance” and “form” in standardized sustainability reporting within an emerging market context. Using 21,964 firm-year observations from Chinese A-share listed companies (2018–2023), we investigate whether the adoption of the Global Reporting Initiative (GRI) framework enhances substantive Environmental, Social, and Governance (ESG) and creates firm value. While baseline regressions suggest a positive link between GRI and ESG performance, rigorously applying Propensity Score Matching (PSM) reveals a critical nuance: the effect of mere framework adoption attenuates after controlling for selection bias, whereas independent assurance remains a robust driver of substantive governance quality. Furthermore, mediation analysis using bootstrap resampling documents a distinct “Labeling Effect”: GRI adoption directly enhances market valuation (Tobin’s Q), yet the indirect path via ESG scores is statistically insignificant. This indicates that investors utilize GRI as a heuristic signal of legitimacy rather than pricing granular performance metrics. We also identify a “Valuation Latency”, where substantive ESG improvements significantly boost operational profitability (ROA) but are not yet fully incorporated into stock prices. Heterogeneity analysis shows these effects are stronger for non-state-owned enterprises (Non-SOEs), supporting the view that private firms leverage standardized reporting and verification to mitigate legitimacy deficits. These findings provide empirical evidence for regulators and investors to distinguish between the “label” of adoption and the “substance” of verification. Full article

► Show Figures

Figure 1

27 pages, 11839 KB

Open AccessArticle

Impact of Tropical Climate Anomalies on Land Cover Changes in Sumatra’s Peatlands, Indonesia

by Agus Dwi Saputra, Muhammad Irfan, Mokhamad Yusup Nur Khakim and Iskhaq Iskandar

Sustainability 2026, 18(2), 919; https://doi.org/10.3390/su18020919 (registering DOI) - 16 Jan 2026

Abstract

Peatlands play a critical role in global and regional climate regulation by functioning as long-term carbon sinks, regulating hydrology, and modulating land–atmosphere energy exchange. Intact peat ecosystems store large amounts of organic carbon and stabilize local climate through high water retention and evapotranspiration, [...] Read more.

Peatlands play a critical role in global and regional climate regulation by functioning as long-term carbon sinks, regulating hydrology, and modulating land–atmosphere energy exchange. Intact peat ecosystems store large amounts of organic carbon and stabilize local climate through high water retention and evapotranspiration, whereas peatland degradation disrupts these functions and can transform peatlands into significant sources of greenhouse gas emissions and climate extremes such as drought and fire. Indonesia contains approximately 13.6–40.5 Gt of carbon, around 40% of which is stored on the island of Sumatra. However, tropical peatlands in this region are highly vulnerable to climate anomalies and land-use change. This study investigates the impacts of major climate anomalies—specifically El Niño and positive Indian Ocean Dipole (pIOD) events in 1997/1998, 2015/2016, and 2019—on peatland cover change across South Sumatra, Jambi, Riau, and the Riau Islands. Landsat 5 Thematic Mapper and Landsat 8 Operational Land Imager/Thermal Infrared Sensor imagery were analyzed using a Random Forest machine learning classification approach. Climate anomaly periods were identified using El Niño-Southern Oscillation (ENSO) and IOD indices from the National Oceanic and Atmospheric Administration. To enhance classification accuracy and detect vegetation and hydrological stress, spectral indices including the Normalized Difference Vegetation Index (NDVI), Modified Soil Adjusted Vegetation Index (MSAVI), Normalized Difference Water Index (NDWI), and Normalized Difference Drought Index (NDDI) were integrated. The results show classification accuracies of 89–92%, with kappa values of 0.85–0.90. The 2015/2016 El Niño caused the most severe peatland degradation (>51%), followed by the 1997/1998 El Niño (23–38%), while impacts from the 2019 pIOD were comparatively limited. These findings emphasize the importance of peatlands in climate regulation and highlight the need for climate-informed monitoring and management strategies to mitigate peatland degradation and associated climate risks. Full article

(This article belongs to the Special Issue Sustainable Development and Land Use Change in Tropical Ecosystems)

► Show Figures

Figure 1

35 pages, 3916 KB

Open AccessArticle

A Study on Dynamic Gross Ecosystem Product (GEP) Accounting, Spatial Patterns, and Value Realization Pathways in Alpine Regions: A Case Study of Golog Tibetan Autonomous Prefecture, Qinghai Province, China

by Yongqing Guo and Yanmei Xu

Sustainability 2026, 18(2), 918; https://doi.org/10.3390/su18020918 - 16 Jan 2026

Abstract

Promoting the value realization of ecological products is a central issue in practicing the concept that “lucid waters and lush mountains are invaluable assets.” This is particularly urgent for alpine regions, which are vital ecological security barriers but face stringent developmental constraints. This [...] Read more.

Promoting the value realization of ecological products is a central issue in practicing the concept that “lucid waters and lush mountains are invaluable assets.” This is particularly urgent for alpine regions, which are vital ecological security barriers but face stringent developmental constraints. This study takes Golog Tibetan Autonomous Prefecture in Qinghai Province as a case study. It establishes a Gross Ecosystem Product (GEP) accounting framework tailored to the characteristics of alpine ecosystems and conducts continuous empirical accounting for the period 2020–2023. The findings reveal that: (i) The total GEP of Golog is immense (reaching 655.586 billion yuan in 2023) but exhibits significant dynamic non-stationarity driven by climatic fluctuations, with a coefficient of variation as high as 11.48%. (ii) The value structure of the GEP is highly unbalanced, with regulatory services contributing over 97.6%. Water conservation and biodiversity protection are the two pillars, highlighting its role as a supplier of public ecological products and the predicament of market failure. (iii) The spatial distribution of GEP is highly heterogeneous. Maduo County, comprising 34% of the prefecture’s land area, contributes 48% of its total GEP, with its value per unit area being 1.68 times that of Gande County, revealing the spatial agglomeration of key ecosystem services. To address the dynamic, structural, and spatial constraints identified by these quantitative features, this paper proposes synergistic realization pathways centered on “monetizing regulatory services,” “precision policy regulation,” and “capacity and institution building”. The aim is to overcome the systemic bottlenecks—“difficulties in measurement, trading, coarse compensation, and weak incentives”—in alpine ecological functional zones. This provides a systematic theoretical and practical solution for fostering a virtuous cycle between ecological conservation and regional sustainable development. Full article

(This article belongs to the Section Sustainable Products and Services)

► Show Figures

Figure 1

26 pages, 8634 KB

Open AccessArticle

Using Satellite-Based Evapotranspiration (ESTIMET) in SWAT to Quantify Sediment Yield in Scarce Data in a Desertified Watershed

by Raul Gomes da Silva, Aline Maria Soares das Chagas, Monaliza Araújo de Santana, Cinthia Maria de Abreu Claudino, Victor Hugo Rabelo Coelho, Thayná Alice Brito Almeida, Abelardo Antônio de Assunção Montenegro, Yuri Jacques Agra Bezerra da Silva and Carolyne Wanessa Lins de Andrade Farias

Sustainability 2026, 18(2), 917; https://doi.org/10.3390/su18020917 - 16 Jan 2026

Abstract

The ESTIMET (Enhanced and Spatial-Temporal Improvement of MODIS EvapoTranspiration algorithm) model provides continuous, spatially distributed daily ET, essential for model calibration in data-scarce environments where conventional hydrological monitoring is unavailable. The challenge of applying SWAT in arid regions without ground observations, this study [...] Read more.

The ESTIMET (Enhanced and Spatial-Temporal Improvement of MODIS EvapoTranspiration algorithm) model provides continuous, spatially distributed daily ET, essential for model calibration in data-scarce environments where conventional hydrological monitoring is unavailable. The challenge of applying SWAT in arid regions without ground observations, this study proposes a remote-sensing-based calibration approach using ESTIMET to overcome data scarcity. Daily satellite-derived evapotranspiration (ET) data to assess the performance of the Soil and Water Assessment Tool (SWAT) was used to evaluate the performance of the SWAT in a desertified watershed in Brazil, aiming to assess ESTIMET’s effectiveness in supporting SWAT calibration, quantify sediment yield, and examine the influence of land-use changes on environmental quality over 21-years period. The results highlight a distinct hydrological response in SWAT initially underestimated ET, contrasting with patterns typically observed in other semi-arid applications and demonstrating that desertified environments require distinct calibration strategies. Performance indicators showed strong agreement between observed and simulated ET (R² = 0.94; NSE = 0.76), supporting satellite-based ET as a valuable source for improving SWAT performance in watersheds where empirical hydrometeorological data are sparse or unevenly distributed. Sediment yield was generally low to moderate, with degradation concentrated in bare-soil areas associated with deforestation. Full article

(This article belongs to the Special Issue Watershed Hydrology and Sustainable Water Environments)

► Show Figures

Figure 1

29 pages, 2072 KB

Open AccessArticle

Building a Human Capital Agility Model Through the Integration of Leadership Agility and Knowledge Management for Sustainable Project Success

by Galih Cipta Sumadireja, Muhammad Dachyar, F. Farizal, Azanizawati Ma’aram and Jaehyun Jaden Park

Sustainability 2026, 18(2), 916; https://doi.org/10.3390/su18020916 - 16 Jan 2026

Abstract

Human Capital Agility is increasingly recognized as a critical capability for achieving sustainable project success in the highly dynamic construction sector, yet an original and empirically testable Human Capital Agility model rooted in Human Capital theory is still lacking. This study aims to [...] Read more.

Human Capital Agility is increasingly recognized as a critical capability for achieving sustainable project success in the highly dynamic construction sector, yet an original and empirically testable Human Capital Agility model rooted in Human Capital theory is still lacking. This study aims to develop and validate a Human Capital Agility framework that integrates Leadership Agility and Knowledge Management and to construct a hierarchical roadmap for the gradual development of Human Capital Agility. Using a multi-method design, survey data from 141 construction professionals were analyzed with Partial Least Squares Structural Equation Modeling to test the structural relationships among Knowledge Management, Leadership Agility, Human Capital Agility, Sustainable Project Success, and the moderating role of Firm Size, while expert judgments from nine practitioners were modeled using Modified Total Interpretive Structural Modeling to derive the internal hierarchy of Human Capital Agility components. The results show that Leadership Agility is a dominant driver of Human Capital Agility and that Human Capital Agility significantly enhances Sustainable Project Success, whereas the direct effect of tacit knowledge on Leadership Agility is not supported. The hierarchical model maps nine key components of Human Capital Agility into six levels, separating foundational drivers such as attitudes and predisposition from higher-level outcome capabilities such as generative behavior, responsiveness, adaptability, and resilience. These findings provide an integrated and empirically grounded Human Capital Agility model that offers both a causal explanation and a practical roadmap for strengthening human capital capabilities in construction projects. Full article

► Show Figures

Figure 1

29 pages, 6574 KB

Open AccessArticle

Modeling Landslide Dam Breach Due to Overtopping and Seepage: Development and Model Evaluation

by Tianlong Zhao, Xiong Hu, Changjing Fu, Gangyong Song, Liucheng Su and Yuanyang Chu

Sustainability 2026, 18(2), 915; https://doi.org/10.3390/su18020915 - 15 Jan 2026

Abstract

Landslide dams, typically composed of newly deposited, loose, and heterogeneous materials, are highly susceptible to failure induced by overtopping and seepage, particularly under extreme hydrological conditions. Accurate prediction of such breaching processes is essential for flood risk management and emergency response, yet existing [...] Read more.

Landslide dams, typically composed of newly deposited, loose, and heterogeneous materials, are highly susceptible to failure induced by overtopping and seepage, particularly under extreme hydrological conditions. Accurate prediction of such breaching processes is essential for flood risk management and emergency response, yet existing models generally consider only a single failure mechanism. This study develops a mathematical model to simulate landslide dam breaching under the coupled action of overtopping and seepage erosion. The model integrates surface erosion and internal erosion processes within a unified framework and employs a stable time-stepping numerical scheme. Application to three real-world landslide dam cases demonstrates that the model successfully reproduces key breaching characteristics across overtopping-only, seepage-only, and coupled erosion scenarios. The simulated breach hydrographs, reservoir water levels, and breach geometries show good agreement with field observations, with peak outflow and breach timing predicted with errors generally within approximately 5%. Sensitivity analysis further indicates that the model is robust to geometric uncertainties, as variations in breach outcomes remain smaller than the imposed parameter perturbations. These results confirm that explicitly accounting for the coupled interaction between overtopping and seepage significantly improves the representation of complex breaching processes. The proposed model therefore provides a reliable computational tool for analyzing landslide dam failures and supports more accurate hazard assessment under multi-mechanism erosion conditions. Full article

(This article belongs to the Section Hazards and Sustainability)

► Show Figures

Figure 1

20 pages, 8754 KB

Open AccessArticle

Landscape Pattern Evolution in the Source Region of the Chishui River

by Yanzhao Gong, Xiaotao Huang, Jiaojiao Li, Ju Zhao, Dianji Fu and Geping Luo

Sustainability 2026, 18(2), 914; https://doi.org/10.3390/su18020914 - 15 Jan 2026

Abstract

Recognizing the evolution of landscape patterns in the Chishui River source region is essential for protecting ecosystems and sustainable growth in the Yangtze River Basin and other similar areas. However, knowledge of landscape pattern evolution within the primary channel zone remains insufficient. To [...] Read more.

Recognizing the evolution of landscape patterns in the Chishui River source region is essential for protecting ecosystems and sustainable growth in the Yangtze River Basin and other similar areas. However, knowledge of landscape pattern evolution within the primary channel zone remains insufficient. To address this gap, the current study used 2000–2020 land-use, geography, and socio-economic data, integrating landscape pattern indices, land-use transfer matrices, dynamic degree, the GeoDetector model, and the PLUS model. Results revealed that forest and cropland remained the prevailing land-use types throughout 2000–2020, comprising over 85% of the landscape. Grassland had the highest dynamic degree (1.58%), and landscape evolution during the study period was characterized by increased fragmentation, enhanced diversity, and stable dominance of major forms of land use. Anthropogenic influence on different landscape types followed the order: construction land > cropland > grassland > forest > water bodies. Land-use change in this region is a complex process governed by the interrelationships among various factors. Scenario-based predictions demonstrate pronounced variability in various land types. These findings provided a more comprehensive understanding of landscape patterns in karst river source regions, provided evidence-based support for regional planning, and offered guidance for ecological management of similar global river sources. Full article

(This article belongs to the Special Issue Global Hydrological Studies and Ecological Sustainability)

► Show Figures

Figure 1

Journal Description

Sustainability

Latest Articles

Journal Menu

Journal Browser

Highly Accessed Articles

Latest Books

E-Mail Alert

News

Topics

Conferences

Special Issues

Topical Collections

Further Information

Guidelines

MDPI Initiatives

Follow MDPI