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Studying the Interrelationship between Telecommuting during COVID-19, residential local accessibility, and active travel: a panel study in Montréal, Canada

Author

Listed:
  • Rodrigo Victoriano-Habit

    (McGillUniversity)

  • Ahmed El-Geneidy

    (McGillUniversity)

Abstract

The COVID-19 pandemic led to a substantial increase in the number of people working from home (telecommuting), in turn leading to unprecedented changes in mobility patterns worldwide. Due to the changing context of the pandemic, there is still a significant gap in knowledge regarding the effects of working from home on workers’ travel patterns. The main goal of this work is to unravel the interrelationship between telecommuting during the COVID-19 pandemic, the frequency of active travel for non-work utilitarian purposes, and local accessibility levels around workers’ homes. This study uses a longitudinal approach by analyzing travel and telecommuting behavior data from a two-wave survey administered in Montreal in 2019, pre-pandemic, and 2021, during COVID-19 (n = 452). Through a set of weighted multi-level linear regressions, we study the effects of telecommuting on the frequency of active travel for non-work utilitarian purposes, mediated by local accessibility around the household. Results show that the effect of telecommuting on non-work active travel for utilitarian purposes is highly dependent on local accessibility levels around the person’s household. For workers living in high local accessibility areas, an increase in telecommuting during the pandemic has induced an increase in active trips for non-work utilitarian purposes. On the other hand, for workers residing in low local accessibility neighborhoods, the effect is the opposite. This research provides insights into the effects of telecommuting on non-work active travel, an area that is currently of interest to policy-makers and practitioners working towards increasing the level of physical activity among individuals through travel.

Suggested Citation

  • Rodrigo Victoriano-Habit & Ahmed El-Geneidy, 2024. "Studying the Interrelationship between Telecommuting during COVID-19, residential local accessibility, and active travel: a panel study in Montréal, Canada," Transportation, Springer, vol. 51(3), pages 1149-1166, June.
    • Handle: RePEc:kap:transp:v:51:y:2024:i:3:d:10.1007_s11116-022-10369-7
    DOI: 10.1007/s11116-022-10369-7
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    References listed on IDEAS

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    1. Tufayel Chowdhury & Darren M. Scott, 2020. "Role of the built environment on trip-chaining behavior: an investigation of workers and non-workers in Halifax, Nova Scotia," Transportation, Springer, vol. 47(2), pages 737-761, April.
    2. Caldarola, Bernardo & Sorrell, Steve, 2022. "Do teleworkers travel less? Evidence from the English National Travel Survey," Transportation Research Part A: Policy and Practice, Elsevier, vol. 159(C), pages 282-303.
    3. Mokhtarian, Patricia L., 1991. "Telecommuting and Travel: State of the Practice, State of the Art," University of California Transportation Center, Working Papers qt4zc486ph, University of California Transportation Center.
    4. Reid Ewing & Robert Cervero, 2010. "Travel and the Built Environment," Journal of the American Planning Association, Taylor & Francis Journals, vol. 76(3), pages 265-294.
    5. Bates, Douglas & Mächler, Martin & Bolker, Ben & Walker, Steve, 2015. "Fitting Linear Mixed-Effects Models Using lme4," Journal of Statistical Software, Foundation for Open Access Statistics, vol. 67(i01).
    6. Annie Doubleday & Youngjun Choe & Tania Busch Isaksen & Scott Miles & Nicole A Errett, 2021. "How did outdoor biking and walking change during COVID-19?: A case study of three U.S. cities," PLOS ONE, Public Library of Science, vol. 16(1), pages 1-13, January.
    7. Paul van de Coevering & Kees Maat & Bert van Wee, 2015. "Multi-period Research Designs for Identifying Causal Effects of Built Environment Characteristics on Travel Behaviour," Transport Reviews, Taylor & Francis Journals, vol. 35(4), pages 512-532, July.
    8. Ahmed El-Geneidy & Michael Grimsrud & Rania Wasfi & Paul Tétreault & Julien Surprenant-Legault, 2014. "New evidence on walking distances to transit stops: identifying redundancies and gaps using variable service areas," Transportation, Springer, vol. 41(1), pages 193-210, January.
    9. Mohammad Javad Koohsari & Tomoki Nakaya & Ai Shibata & Kaori Ishii & Koichiro Oka, 2021. "Working from Home After the COVID-19 Pandemic: Do Company Employees Sit More and Move Less?," Sustainability, MDPI, vol. 13(2), pages 1-8, January.
    10. Thombre, Anurag & Agarwal, Amit, 2021. "A paradigm shift in urban mobility: Policy insights from travel before and after COVID-19 to seize the opportunity," Transport Policy, Elsevier, vol. 110(C), pages 335-353.
    11. Tim Althoff & Rok Sosič & Jennifer L. Hicks & Abby C. King & Scott L. Delp & Jure Leskovec, 2017. "Large-scale physical activity data reveal worldwide activity inequality," Nature, Nature, vol. 547(7663), pages 336-339, July.
    12. Wafic El-Assi & Mohamed Salah Mahmoud & Khandker Nurul Habib, 2017. "Effects of built environment and weather on bike sharing demand: a station level analysis of commercial bike sharing in Toronto," Transportation, Springer, vol. 44(3), pages 589-613, May.
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