Jeff Peters Kwok Fai Cheung Yoshiki Yamazaki Denille Calvo Charles Guard Nathan J. Wood 2023 <div id="abstracts" class="Abstracts u-font-serif text-s"><div id="abs0010" class="abstract author" lang="en"><div id="abssec0010"><p id="abspara0010"><span>Reducing the potential for loss of life from local tsunamis is challenging for emergency managers given the need for self-protective behavior of at-risk individuals within brief windows of time to evacuate. There has been considerable attention paid to discussing the use of tsunami vertical-evacuation structures for areas where there may be insufficient time to evacuate. This strategy may not be feasible or needed for at-risk populations in island communities for multiple reasons. We examine the influence of three non-structural interventions (reducing departure delays, increasing travel speeds, and managing vegetation to create new paths) that may improve the&nbsp;evacuation&nbsp;potential for at-risk individuals in island communities and use the United States&nbsp;territory&nbsp;of Guam as our case study. We model&nbsp;pedestrian&nbsp;travel times out of a modeled inundation zone for a local tsunami generated by a M</span>_w<span>&nbsp;8.3 earthquake within the Mariana&nbsp;subduction zone. Evacuation-modeling results indicate that reducing departure delays has a larger impact than increasing travel speeds or creating evacuation corridors through heavy brush on reducing the number of at-risk individuals with insufficient time to evacuate. Travel times to safety are less than wave-arrival times for almost all at-risk individuals in the tsunami-hazard zone if one assumes all three interventions are implemented.</span></p></div></div></div> application/pdf 10.1016/j.ijdrr.2023.103859 en Elsevier Modeling non-structural strategies to reduce pedestrian evacuation times for mitigating local tsunami threats in Guam article