TY - JOUR
T1 - Spatial analysis for water supply in seismic emergencies
T2 - the Lima-Callao metropolitan area
AU - Santa-Cruz, Sandra
AU - Fernández de Córdova, Graciela
AU - Vilela, Marta
AU - Pajuelo, José
AU - Santa-María, María
AU - Muñoz, Kevin
N1 - Publisher Copyright:
Copyright © 2024 Santa-Cruz, Fernández de Córdova, Vilela, Pajuelo, Santa-María and Muñoz.
PY - 2024
Y1 - 2024
N2 - Introduction: In urban areas exposed to high-magnitude earthquakes, the drinking water supply would be severely damaged, and domestic services would be disrupted for a large part of the population in the event of an earthquake. The Lima-Callao metropolitan area in Peru, South America, is expected to experience an 8.8 Mw earthquake, and it is estimated that approximately 90% of the population would not have immediate access to emergency water in the case of such an event. The main objective of this paper is to define criteria for a spatial analysis method to guide the design criteria for an Emergency Water Supply System (EWaSS). Methods: This paper combines territorial, urban resilience and participatory approaches and presents the results of an interdisciplinary research with social impact. Thus, it examines the urban territory at macro-, meso- and micro scales; physical-spatial variables indicating risk levels and possible public spaces to implement the system; and socio-spatial variables regarding the population, risk perception and participation in management to strengthen urban resilience. Normative tools and the Geographic Information System are used to spatialize and systematize quantitative and qualitative information. Results and discussion: The EWaSS is an alternative for safe water supply in a post-disaster situation that would provide immediate and autonomous operation during the first 72 h of the emergency. The results show the physical-spatial and social viability of urbanized areas and the system design criteria that guide local actors in making decisions at the three levels of emergency management.
AB - Introduction: In urban areas exposed to high-magnitude earthquakes, the drinking water supply would be severely damaged, and domestic services would be disrupted for a large part of the population in the event of an earthquake. The Lima-Callao metropolitan area in Peru, South America, is expected to experience an 8.8 Mw earthquake, and it is estimated that approximately 90% of the population would not have immediate access to emergency water in the case of such an event. The main objective of this paper is to define criteria for a spatial analysis method to guide the design criteria for an Emergency Water Supply System (EWaSS). Methods: This paper combines territorial, urban resilience and participatory approaches and presents the results of an interdisciplinary research with social impact. Thus, it examines the urban territory at macro-, meso- and micro scales; physical-spatial variables indicating risk levels and possible public spaces to implement the system; and socio-spatial variables regarding the population, risk perception and participation in management to strengthen urban resilience. Normative tools and the Geographic Information System are used to spatialize and systematize quantitative and qualitative information. Results and discussion: The EWaSS is an alternative for safe water supply in a post-disaster situation that would provide immediate and autonomous operation during the first 72 h of the emergency. The results show the physical-spatial and social viability of urbanized areas and the system design criteria that guide local actors in making decisions at the three levels of emergency management.
KW - emergency planning and response
KW - emergency response
KW - large magnitude earthquake
KW - safe water supply
KW - urban resilience
UR - http://www.scopus.com/inward/record.url?scp=85197275986&partnerID=8YFLogxK
U2 - 10.3389/fbuil.2024.1385476
DO - 10.3389/fbuil.2024.1385476
M3 - Article
AN - SCOPUS:85197275986
SN - 2297-3362
VL - 10
JO - Frontiers in Built Environment
JF - Frontiers in Built Environment
M1 - 1385476
ER -