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1. Preparing for the Worst: Lessons for News Media After Hurricane Maria in Puerto Rico

   https://doi.org/10.1080/17512786.2019.1682941  

   Takahashi, Bruno; Zhang, Qucheng; Chavez, Manuel (January 2019, Journalism Practice)

   Hurricane Maria (2017) was the most devastating hurricane in Puerto Rico in the last 90 years. The entire communication system collapsed, including cellular. Media organizations in Puerto Rico, with the exception of one radio station, were unable to transmit much-needed information during and immediately after Maria made landfall. This study examines changes in journalistic practices, organizational readiness and disaster coverage plans, and infrastructure preparedness almost 18 months after the event. This study extends the limited research examining long-term changes to news media preparedness plans in the context of disasters and expands theoretical understandings of media practices in the context of the hierarchy of influences model. The results suggest that infrastructure damage severely hampered the ability of news organizations to perform their work, but solidarity among media was useful in the immediate aftermath of the disaster. Each media played a differentiated and important role after the disaster based on their resources and organizational structure. The study shows that preparedness plans were inadequate and that changes are slowly been implemented to deal with challenges related to infrastructure, electricity, and technology, but with limited focus on the long-term well-being of media workers. Recommendations to improve responses to future natural disasters are presented. 

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2. A comparison of people’s use of Twitter in Puerto Rico Earthquake and Hurricane Maria

   Thackaberry, Taylor; Bogemann, Kayley; Burchard, Shane; Butler, Jessie; Spencer, Austin; Li, Liuqing; Wernstedt, Kris; Murray-Tuite, Pamela; Fox, Edward A. (May 2020, International Conference on Information Systems for Crisis Response and Management)

   The purpose of the Twitter Disaster Behavior project is to identify patterns in online behavior during natural disasters by analyzing Twitter data. The main goal is to better understand the needs of a community during and after a disaster, to aid in recovery. The datasets analyzed were collections of tweets about Hurricane Maria, and recent earthquake events, in Puerto Rico. All tweets pertaining to Hurricane Maria are from the timeframe of September 15 through October 14, 2017. Similarly, tweets pertaining to the Puerto Rico earthquake from January 7 through February 6, 2020 were collected. These tweets were then analyzed for their content, number of retweets, and the geotag associated with the author of the tweet. We counted the occurrence of key words in topics relating to preparation, response, impact, and recovery. This data was then graphed using Python and Matplotlib. Additionally, using a Twitter crawler, we extracted a large dataset of tweets by users that used geotags. These geotags are used to examine location changes among the users before, during, and after each natural disaster. Finally, after performing these analyses, we developed easy to understand visuals and compiled these figures into a poster. Using these figures and graphs, we compared the two datasets in order to identify any significant differences in behavior and response. The main differences we noticed stemmed from two key reasons: hurricanes can be predicted whereas earthquakes cannot, and hurricanes are usually an isolated event whereas earthquakes are followed by aftershocks. Thus, the Hurricane Maria dataset experienced the highest amount of tweet activity at the beginning of the event and the Puerto Rico earthquake dataset experienced peaks in tweet activity throughout the entire period, usually corresponding to aftershock occurrences. We studied these differences, as well as other important trends we identified. 

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3. Place in Disaster Coverage: Newspaper Coverage of Hurricane Maria in Puerto Rico

   https://doi.org/10.1080/17512786.2023.2190150  

   Takahashi, Bruno; Zhang, Qucheng (March 2023, Journalism Practice)

   Natural hazard news coverage research has examined frames, sources, and journalistic roles. An examination of place in such coverage is missing. Using the hierarchy of influences model, this study analyzes the coverage of place during Hurricane Maria in three major newspapers in Puerto Rico in the pre-crisis and crisis stages of the event. The study examined the roles of routines, organizational factors, and social systems factors in the coverage of Puerto Rican municipalities and the topics covered. Results show a primary focus on highly populated areas, reliance on governmental sources, and differences across the three newspapers studied. Implications for disaster coverage as well as theoretical arguments about the hierarchy of influences are discussed. 

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4. Design and Assessment of Architecture/Engineering/Construction (AEC) Curricula for Resilient and Sustainable Infrastructure

   https://doi.org/10.18260/1-2--34386  

   Lopez del Puerto, Carla; Cavallin, Humberto; Suarez, Oscar; Munoz Barreto, Jonathan; Perdomo, Jose; Vázquez, Drianfel; Andrade Rengifo, Fabio; Guillemard, Luisa; Troche, Ormari (June 2020, Proceedings Article published in 2020 ASEE Virtual Annual Conference Content Access Proceedings)

   The devastation caused by recent natural disasters, such as earthquakes, tsunamis, and hurricanes, has increased awareness regarding the importance of providing interdisciplinary solutions to complex infrastructure challenges. In October 2018, the University of Puerto Rico received a Hispanic Serving Institution (HSI) collaborative award from the National Science Foundation (NSF) to develop an integrated curriculum on resilient and sustainable infrastructure. The project titled “Resilient Infrastructure and Sustainability Education – Undergraduate Program (RISE-UP) aims to educate future environmental designers and engineers to design and build a more resilient and sustainable infrastructure for Puerto Rico. This paper presents the design, initial implementation, and assessment of a curriculum encompassing synergistic interactions among these four domains: integrated project delivery, user-centered design, interdisciplinary problem-solving, and sustainability and resiliency. The project seeks to foster interdisciplinary problem-solving skills involving architects, engineers and construction managers, in order to better prepare them to face and provide solutions to minimize the impact of extreme natural environment events on infrastructure. The new curriculum stresses on problem-settings, the role that participants have on defining the characteristics of the problems that have to be solved, learning in action, reflecting on the process, and communication between the different stakeholders. This multisite and interdisciplinary program provides students with the necessary support, knowledge, and skills necessary to design and build resilient and sustainable infrastructure. This instructional endeavor consists of four courses designed to reduce gradually the difference between what students are able to accomplish with support structures and what students are able to accomplish on their own. To maximize and enhance the educational experience, the program blends a technology-infused classroom learning with broad co-curricular opportunities such as site visits, undergraduate research, and internships. As students advance in the program, they will be exposed and required to perform increasingly complex tasks. During the first year of the program, the following outcomes were achieved: 1) implementation of the faculty teamwork process to develop courses and analyze cases from an interdisciplinary perspective, 2) development and approval of an interdisciplinary curriculum on resilient and sustainable infrastructure, 3) development of case studies on situations associated with disaster and interdisciplinary responses, 4) development of a case study database, 5) establishment of an Advisory Board with government agency representatives and faculty, and 6) recruitment and enrollment of 30 students as the first RISE-UP cohort. In summary, the body of knowledge acquired from this project can serve as a model that can be replicated to develop and enhance academic programs at other institutions. 

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5. Enhancing Student Preparedness Through Experiential Learning: Lessons Learned from Assessing Building Structural Damages after the January-May 2020 Earthquakes in Puerto Rico

   García Canto, L. (July 2020, 18th LACCEI International Multi-Conference for Engineering, Education, and Technology)

   Puerto Rico is exposed to multiple hazards including hurricanes, earthquakes, and floods. The Resilient Infrastructure and Sustainability Education Undergraduate Program (RISE-UP) at the University of Puerto Rico aims to introduce students to interdisciplinary problem-solving related to real challenges, especially those associated with the occurrence of natural disasters. The objective of this work is to share our experience with experiential learning related to structural engineering. The lessons learned from this experience, from the student ́s perspective, could encourage faculty members to develop similar undertakings in their programs and students to participate when opportunities arise. During the 2019 fall semester, we enrolled in a course which covered the relationship between design and natural disasters, with an emphasis on rapid response to recover during the aftermath. The course combined lectures and in-class exercises on basic structural analysis, classifications of structures and the use of the FEMA Rapid Visual Screening (P-154) form. This was complemented with field visits of structures affected by Hurricane Maria where we developed several case studies. From December of 2019 to February 2020, Puerto Rico suffered an earthquake swarm reaching magnitudes as high as 6.4, which caused structural damages throughout the South West of the island. Following these events, we were able to use the training acquired during our course in a real-life, post-disaster situation. At the University, we participated in visual inspection brigades, where we aided professional engineers and faculty members in data collection and categorizing building damages. Our involvement helped streamline efforts as we provided additional support in report writing and organization of the data collected using GIS and other tools. The results of the visual inspections indicated that in many cases pre- existing conditions were aggravated by the earthquakes. Furthermore, we also witnessed firsthand the complexities of assessing infrastructure damage during and following high seismic activity. This experience enhanced our awareness of the significance of our profession in ensuring the safety of others both immediately after an earthquake and in the face of future disasters. 

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