Trip duration drives shift in travel network structure with implications for the predictability of spatial disease spread

  1. John R. Giles
  2. Derek A. T. Cummings
  3. Bryan T. Grenfell
  4. Andrew J. Tatem
  5. Elisabeth zu Erbach-Schoenberg
  6. CJE Metcalf
  7. Amy Wesolowski

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Abstract

Human travel is one of the primary drivers of infectious disease spread. Models of travel are often used that assume the amount of travel to a specific destination decreases as cost of travel increases with higher travel volumes to more populated destinations. Trip duration, the length of time spent in a destination, can also impact travel patterns. We investigated the spatial patterns of travel conditioned on trip duration and find distinct differences between short and long duration trips. In short-trip duration travel networks, trips are skewed towards urban destinations, compared with long-trip duration networks where travel is more evenly spread among locations. Using gravity models to inform connectivity patterns in simulations of disease transmission, we show that pathogens with shorter generation times exhibit initial patterns of spatial propagation that are more predictable among urban locations. Further, pathogens with a longer generation time have more diffusive patterns of spatial spread reflecting more unpredictable disease dynamics.

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  1. Version published to 10.1371/journal.pcbi.1009127
  2. ScreenIT

    SciScore for 10.1101/2020.10.27.20215566: (What is this?)

    Please note, not all rigor criteria are appropriate for all manuscripts.

    Table 1: Rigor

    NIH rigor criteria are not applicable to paper type.

    Table 2: Resources

    No key resources detected.

    Results from OddPub: We did not detect open data. We also did not detect open code. Researchers are encouraged to share open data when possible (see Nature blog).

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  3. Version published to 10.1101/2020.10.27.20215566v1 on medRxiv