situs toto toto slot toto togel slot 4d toto macau situs toto toto slot toto togel slot 4d toto macau situs toto toto slot toto togel slot 4d toto macau situs toto toto slot toto togel slot 4d toto macau ayamtoto ayamtoto ayamtoto ayamtoto ayamtoto ayamtoto kuatoto kuatoto

DOI: https://doi.org/10.14710/jsp.2025.29838

Understanding Academic Transport Emissions - Insights from an Italian Medium-Size Public University

Anna Claudia Caspani scopus  -  Department of Economics, University of Insubria, Italy
*Elena Maggi orcid scopus  -  Department of Economics, University of Insubria, Italy
Michela Rosselli  -  Department of Economics, University of Insubria, Italy
Open Access Copyright (c) 2025 Anna Claudia Caspani, Elena Maggi, Michela Rosselli
Creative Commons License This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Citation Format:
Abstract
Universities play a significant role in advancing sustainability and achieving carbon neutrality. This study presents a case analysis of an Italian medium-size university located in Lombardy, focusing on the assessment of CO₂ emissions from the transport sector, with particular attention to commuting patterns as a significant source. By applying standardized methodologies and survey data, the research estimates CO₂ emissions and evaluates the potential for reduction through targeted policies, considering self-reported willingness to adopt sustainable transport modes incentivized by specific interventions. Results show that commuting substantially contributes to the university’s carbon footprint, underscoring the need for integrated mobility strategies that combine environmental, social, and economic benefits. The study highlights the university’s potential as a catalyst for behavioral change and innovation in sustainable transport, offering scalable solutions that improve wellbeing, accessibility, and institutional reputation, while delivering positive impacts both within and beyond the campus community. These findings provide actionable insights and a replicable model for universities aiming to reduce their environmental impact and progress toward carbon neutrality through innovative, data-driven sustainability governance.
Fulltext

Article Metrics:

Article Info
Section: Original Articles
Language : EN
Recent articles
Green Finance Education for Future Leaders: Embedding SDGs into Finance Curricula at Gulf University-Bahrain The Role of the University Open to Elderly People (UnAPI/UFMS) in Welcome, Inclusion, Training and Social and Health Education Empowering Students as Sustainability Ambassadors: A Conceptual Framework for Higher Education More recent articles
  1. Crotti D, Grechi D, Maggi E. Reducing the carbon footprint in college mobility: The car commuters' perspective in an Italian case study. Environmental Impact Assessment Review, 2022; 92: 106702
  2. Pérez-Neira D, Rodríguez-Fernández MP, Hidalgo-González C. The greenhouse gas mitigation potential of university commuting: A case study of the University of León (Spain). J Transp Geogr. 2020; 82:102550
  3. Sobrino N, Arce R. Understanding per-trip commuting CO2 emissions: A case study of the Technical University of Madrid. Transp Res Part D. 2021;96:102895
  4. Ribeiro PJG, Fonseca F. Students’ home-university commuting patterns: A shift towards more sustainable modes of transport. Case Stud Transp Policy. 2022;10(3):954–64
  5. Clifford JM, Cooper CD. A 2009 Mobile Source Carbon Dioxide Emissions Inventory for the University of Central Florida. J Air Waste Manag Assoc. 2012 Sep;62(9):1050–60
  6. Zakaria NF, Yazid MR, Yaacob NF. Quantifying Carbon Emission from Campus Transportation: A Case Study in Universiti Kebangsaan Malaysia. IOP Conf Ser Mater Sci Eng. 2020;1101:012011
  7. Kabit MR, Siong JTL, Yassin A. Towards Campus Sustainability: Estimating On-Campus Vehicle CO2 Emissions in UNIMAS. J Sustain Sci Manag. 2022;17(6):193–206
  8. Sultana S, Kim H, Pourebrahim N, Karimi F. Geographical Assessment of Low-Carbon Transportation Modes: A Case Study from a Commuter University. Sustainability. 2018;10(8):2696
  9. Mesarec B, Trček B. Suggestions and Solutions for Enhancing Active Commuting to the University of Maribor and Advancing CO2 Emission Reduction. Sustainability. 2024;16(2):520
  10. Pantelaki E, Caspani AC, Maggi E. Impact of home-school commuting mode choice on carbon footprint and sustainable transport policy scenarios. Case Stud Transp Policy. 2024;15:101110
  11. Reyes-García V, Graf L, Junqueira AB, Madrid C. Decarbonizing the academic sector: Lessons from an international research project. J Clean Prod. 2022;368:133174
  12. Hölbling S, Kirchengast G, Danzer J. Unmasking mobility patterns: international travel behavior and emissions of scientists in a higher research institution. Int J Sustain High Educ. 2023;24(9):355–71
  13. Arsenault J, Talbot J, Boustani L, Gonzalès R, Manaugh K. The environmental footprint of academic and student mobility in a large research-oriented university. Environ Res Lett. 2019;14(9):095001
  14. Ciers J, Mandic A, Toth LD, Op ’t Veld G. Carbon Footprint of Academic Air Travel: A Case Study in Switzerland. Sustainability. 2019;11(1):80
  15. Yang C, Yao T, Shiming D, Jiang W. Carbon emissions accounting and uncertainty analysis in campus settings: A case study of a university in Sichuan, China. PLOS ONE. 2025;20(4): e0321216
  16. Crotti D, Grechi D, Maggi E. Proximity to public transportation and sustainable commuting to college. A case study of an Italian suburban campus. Case Studies on Transport Policy. 2022; 10(1):218-226
  17. Ministero della Transizione Ecologica and Ministero delle Infrastrutture e della Mobilità Sostenibili. Decreto Attuativo Interministeriale MiTE-MiMS n° 179, 12 maggio 2021, Allegato 4 - Metodologia di valutazione dei benefici ambientali”. Available at https://www.gazzettaufficiale.it/eli/id/2021/05/26/21A03111/SG

Last update:

No citation recorded.

Last update:

No citation recorded.