scholarly journals Disaster Museums in Japan: Telling the Stories of Disasters Before and After 3.11

2021 ◽  
Vol 16 (2) ◽  
pp. 146-156
Author(s):  
Elizabeth Maly ◽  
Mariko Yamazaki ◽  
◽  
Keyword(s):  
Natural Hazards ◽  
Disaster Risk Reduction ◽  
Disaster Risk ◽  
Individual Characteristics ◽  
Future Developments ◽  
Nuclear Disaster ◽  
Kanto Earthquake ◽  
Different Types ◽  
Before And After ◽  
History Of

Japan has an established tradition of museums commemorating its long history of disasters, which memorialize lives lost and convey the scientific mechanisms of natural hazards, disaster history, and people’s experiences during and after disasters. The first part of this paper provides an overview of seven modern disaster museums in Japan established before 3.11, starting from the museum of the 1923 Great Kanto Earthquake. These seven museums commemorate disasters of different types, time, and scales of damages. Considering their shared commonalities and individual characteristics, it describes the components and approaches of exhibits that these museums use to convey experiences and stories of disasters, passing on local knowledge toward future disaster risk reduction. The second part of the paper provides an overview of new museums and exhibit facilities established to commemorate the 3.11 Great East Japan Earthquake, tsunami, and nuclear disaster of March 11, 2011. The scale of the devastation of 3.11, as well as an explosion of interest and support for activities of memorialization, documentation, and exhibition, has resulted in a variety and decentralization of new museums and exhibit spaces throughout the area affected by the 3.11 disaster. Spanning various combinations and types of exhibit facilities, this paper concludes by considering emergent trends compared to pre-3.11 disaster museums and potential future developments.

scholarly journals Facilitating Sustainable Disaster Risk Reduction in Indigenous Communities: Reviving Indigenous Worldviews, Knowledge and Practices through Two-Way Partnering

2021 ◽  
Vol 18 (3) ◽  
pp. 855
Author(s):  
Tahir Ali ◽  
Petra Topaz Buergelt ◽  
Douglas Paton ◽  
James Arnold Smith ◽  
Elaine Lawurrpa Maypilama ◽  
...  
Keyword(s):  
Grounded Theory ◽  
Risk Reduction ◽  
Indigenous People ◽  
Natural Hazards ◽  
Disaster Risk Reduction ◽  
Indigenous Communities ◽  
Disaster Risk ◽  
Indigenous Research ◽  
Ecological Knowledge ◽  
Community Members

The Sendai Framework of Action 2015–2030 calls for holistic Indigenous disaster risk reduction (DRR) research. Responding to this call, we synergized a holistic philosophical framework (comprising ecological systems theory, symbolic interactionism, and intersectionality) and social constructionist grounded theory and ethnography within a critical Indigenous research paradigm as a methodology for exploring how diverse individual and contextual factors influence DRR in a remote Indigenous community called Galiwinku, in the Northern Territory of Australia. Working together, Indigenous and non-Indigenous researchers collected stories in local languages using conversations and yarning circles with 20 community members, as well as participant observations. The stories were interpreted and analysed using social constructivist grounded theory analysis techniques. The findings were dialogued with over 50 community members. The findings deeply resonated with the community members, validating the trustworthiness and relevance of the findings. The grounded theory that emerged identified two themes. First, local Indigenous knowledge and practices strengthen Indigenous people and reduce the risks posed by natural hazards. More specifically, deep reciprocal relationships with country and ecological knowledge, strong kinship relations, Elder’s wisdom and authority, women and men sharing power, and faith in a supreme power/God and Indigenous-led community organizations enable DRR. Second, colonizing practices weaken Indigenous people and increase the risks from natural hazards. Therefore, colonization, the imposition of Western culture, the government application of top-down approaches, infiltration in Indigenous governance systems, the use of fly-in/fly-out workers, scarcity of employment, restrictions on technical and higher education opportunities, and overcrowded housing that is culturally and climatically unsuitable undermine the DRR capability. Based on the findings, we propose a Community-Based DRR theory which proposes that facilitating sustainable Indigenous DRR in Australian Indigenous communities requires Indigenous and non-Indigenous partners to genuinely work together in two-directional and complementary ways.

Multiple-hazards and their interactions in urban low-to-middle income countries: a case study from Nairobi

2021 ◽  
Author(s):  
Bruce D. Malamud ◽  
Emmah Mwangi ◽  
Joel Gill ◽  
Ekbal Hussain ◽  
Faith Taylor ◽  
...  
Keyword(s):  
Risk Reduction ◽  
Natural Hazards ◽  
Disaster Risk Reduction ◽  
Natural Hazard ◽  
Spatial Scales ◽  
Grey Literature ◽  
Volcanic Eruptions ◽  
Disaster Risk ◽  
Soil Subsidence ◽  
Ground Collapse

<p>Global policy frameworks, such as the Sendai Framework for Disaster Risk Reduction 2015-2030, increasingly advocate for multi-hazard approaches across different spatial scales. However, management approaches on the ground are still informed by siloed approaches based on one single natural hazard (e.g. flood, earthquake, snowstorm). However, locations are rarely subjected to a single natural hazard but rather prone to more than one. These different hazards and their interactions (e.g. one natural hazard triggering or increasing the probability of one or more natural hazards), together with exposure and vulnerability, shape the disaster landscape of a given region and associated disaster impact.  Here, as part of the UK GCRF funded research grant “Tomorrow’s Cities” we first map out the single natural hazardscape for Nairobi using evidence collected through peer-reviewed literature, grey literature, social media and newspapers. We find the following hazard groups and hazard types present in Nairobi: (i) geophysical (earthquakes, volcanic eruptions, landslides), (ii) hydrological (floods and droughts), (iii) shallow earth processes (regional subsidence, ground collapse, soil subsidence, ground heave), (iv) atmospheric hazards (storm, hail, lightning, extreme heat, extreme cold), (v) biophysical (urban fires), and vi) space hazards (geomatic storms, and impact events). The breadth of single natural hazards that can potentially impact Nairobi is much larger than normally considered by individual hazard managers that work in Nairobi. We then use a global hazard matrix to identify possible hazard interactions, focusing on the following interaction mechanisms: (i) hazard triggering secondary hazard, (ii) hazards amplifying the possibility of the secondary hazard occurring.  We identify 67 possible interactions, as well as some of the interaction cascade typologies that are typical for Nairobi (e.g. a storm triggers and increases the probability of a flood which in turn increases the probability of a flood). Our results indicate a breadth of natural hazards and their interactions in Nairobi, and emphasise a need for a multi-hazard approach to disaster risk reduction.</p>

scholarly journals Assessing the interaction between mountain forests and natural hazards at Nevados de Chillán, Chile, and its implications for Ecosystem-based Disaster Risk Reduction

2017 ◽  
Author(s):  
Alejandro Casteller ◽  
Thomas Häfelfinger ◽  
Erika Cortés Donoso ◽  
Karen Podvin ◽  
Dominik Kulakowski ◽  
...  
Keyword(s):  
Risk Reduction ◽  
Natural Hazards ◽  
Tree Ring ◽  
Land Use Planning ◽  
Disaster Risk Reduction ◽  
Disaster Risk ◽  
Process Models ◽  
Snow Avalanches ◽  
Tree Ring Data ◽  
Risk Reduction Measure

Abstract. Gravitational natural hazards such as snow avalanches, rockfalls, shallow landslides and volcanic activity represent a risk factor for mountain communities around the world. In particular where documentary records about these processes are rare, decisions on risk management and land-use planning have to be based on a variety of other sources including vegetation and tree-ring data and natural hazard process models. We used a combination of these methods in order to evaluate dynamics of snow avalanches and other natural hazards at Valle de las Trancas, in the Biobío Region in Chile. Along this valley, natural hazards threaten not only the local human population, but also the numerous tourists attracted by outdoor recreational activities. Given the regional scarcity of documentary records, tree-ring methods were applied in order to reconstruct the local history of snow avalanches and debris flow events, which are the more important weather-related processes at respective tracks. A recent version of the model Rapid Mass MovementS (RAMMS), that includes influences of forest structure, was used to calculate different avalanche parameters such as runout distances and maximum pressures, taking into consideration the presence/absence of forest along the tracks as well as different modelled return periods. Our results show that local Nothofagus broadleaved forests contribute to a reduction of avalanche runout distances as well as impact pressures on present infrastructure, thus constituting a valuable ecosystem disaster risk reduction measure that can substitute or complement other traditional measures such as sheds.

Promoting School’s Recovery and Resilience after the Chi-Chi earthquake

2020 ◽  
Vol 29 (4) ◽  
pp. 609-627
Author(s):  
Jieh-Jiuh Wang
Keyword(s):  
Risk Reduction ◽  
Disaster Management ◽  
Disaster Risk Reduction ◽  
Relevant Literature ◽  
Disaster Risk ◽  
Reconstruction Process ◽  
Content Type ◽  
Management Framework ◽  
Before And After ◽  
School Reconstruction

PurposeIn the current study, the researchers tracked the steps that were taken (in the past 20 years after the occurrence of the 921 earthquake) to enhance the safety of students and teachers on campus by rebuilding the schools according to higher standards. Additionally, the researchers analyzed the process of school reconstruction in Taiwan after the Chi-Chi earthquake, as well as the resilience of the rebuilt schools.Design/methodology/approachThis paper collected extensive relevant literature to serve as a basis for data analysis. Subsequently, they examined the conditions of selected schools before and after they were affected by the earthquake, as well as the reconstruction process of these schools. The purposive sampling method was also adopted to assemble a unique and representative sample.FindingsThis study concluded a new disaster risk reduction education system in Taiwan, from safe learning facilities, school disaster management and risk reduction and resilience education perspectives. It encouraged school and community collaboration regarding establishing a comprehensive disaster management framework.Originality/valueThe paper kept tracks of how schools recovered and restored after the 921 earthquake based on global disaster management trends and local disaster risk reduction education. It also highlighted the major changes within the school resilience system and the importance of disaster risk reduction education in Taiwan.

scholarly journals Resilience and disaster risk reduction: an etymological journey

2013 ◽  
Vol 13 (11) ◽  
pp. 2707-2716 ◽  
Author(s):  
D. E. Alexander
Keyword(s):  
Risk Reduction ◽  
Disaster Risk Reduction ◽  
Sustainability Science ◽  
Dynamic Equilibrium ◽  
Social Research ◽  
Disaster Risk ◽  
General Systems Theory ◽  
General Systems ◽  
History Of ◽  
Rich History

Abstract. This paper examines the development over historical time of the meaning and uses of the term resilience. The objective is to deepen our understanding of how the term came to be adopted in disaster risk reduction and resolve some of the conflicts and controversies that have arisen when it has been used. The paper traces the development of resilience through the sciences, humanities, and legal and political spheres. It considers how mechanics passed the word to ecology and psychology, and how from there it was adopted by social research and sustainability science. As other authors have noted, as a concept, resilience involves some potentially serious conflicts or contradictions, for example between stability and dynamism, or between dynamic equilibrium (homeostasis) and evolution. Moreover, although the resilience concept works quite well within the confines of general systems theory, in situations in which a systems formulation inhibits rather than fosters explanation, a different interpretation of the term is warranted. This may be the case for disaster risk reduction, which involves transformation rather than preservation of the "state of the system". The article concludes that the modern conception of resilience derives benefit from a rich history of meanings and applications, but that it is dangerous – or at least potentially disappointing – to read to much into the term as a model and a paradigm.

scholarly journals Assessing the interaction between mountain forests and snow avalanches at Nevados de Chillán, Chile and its implications for ecosystem-based disaster risk reduction

2018 ◽  
Vol 18 (4) ◽  
pp. 1173-1186 ◽  
Author(s):  
Alejandro Casteller ◽  
Thomas Häfelfinger ◽  
Erika Cortés Donoso ◽  
Karen Podvin ◽  
Dominik Kulakowski ◽  
...  
Keyword(s):  
Risk Reduction ◽  
Natural Hazards ◽  
Tree Ring ◽  
Land Use Planning ◽  
Disaster Risk Reduction ◽  
Disaster Risk ◽  
Process Models ◽  
Snow Avalanches ◽  
Tree Ring Data ◽  
Risk Reduction Measure

Abstract. Gravitational natural hazards such as snow avalanches, rockfalls, shallow landslides and volcanic activity represent a risk to mountain communities around the world. In particular, where documentary records about these processes are rare, decisions on risk management and land-use planning have to be based on a variety of other sources including vegetation, tree-ring data and natural hazard process models. We used a combination of these methods in order to evaluate dynamics of natural hazards with a focus on snow avalanches at Valle Las Trancas, in the Biobío region in Chile. Along this valley, natural hazards threaten not only the local human population, but also the numerous tourists attracted by outdoor recreational activities. Given the regional scarcity of documentary records, tree-ring methods were applied in order to reconstruct the local history of snow avalanches and debris flow events, which are the most important weather-related processes at respective tracks. A recent version of the model Rapid Mass MovementS (RAMMS), which includes influences of forest structure, was used to calculate different avalanche parameters such as runout distances and maximum pressures, taking into consideration the presence or absence of forest along the tracks as well as different modeled return periods. Our results show that local Nothofagus broadleaf forests contribute to a reduction of avalanche runout distances as well as impact pressure on present infrastructure, thus constituting a valuable ecosystem disaster risk reduction measure that can substitute or complement other traditional measures such as snow sheds.

scholarly journals Regional Interaction Frameworks to Support Multi-Hazard Approaches to Disaster Risk Reduction (With an Application to Guatemala)

2018 ◽  
Author(s):  
Joel C. Gill ◽  
Bruce D. Malamud ◽  
Edy Manolo Barillas ◽  
Alex Guerra Noriega
Keyword(s):  
Risk Reduction ◽  
Natural Hazards ◽  
Disaster Risk Reduction ◽  
Grey Literature ◽  
Interdisciplinary Approach ◽  
Disaster Risk ◽  
Matrix Form ◽  
Spatial Extent ◽  
Structured Interviews ◽  
Regional Interaction

Abstract. Here we present an interdisciplinary approach to developing comprehensive, systematic and evidenced regional interaction frameworks to support multi-hazard approaches to disaster risk reduction. We apply this approach in Guatemala, developing regional interaction frameworks for national and sub-national (Southern Highlands) spatial extents. The regional interaction frameworks are constructed and populated using five evidence types: (i) publications and reports (internationally accessible) (93 peer-review and 76 grey literature sources); (ii) publications and reports (locally accessible civil protection bulletins) (267 bulletins from 11 June 2010 to 15 October 2010); (iii) field observations; (iv) stakeholder interviews (19 semi-structured interviews) (v) stakeholder workshop results (16 participants). These five evidence types were synthesised to determine an appropriate natural hazards classification scheme for Guatemala, with 6 natural hazard groups, 19 hazard types, and 37 hazard sub-types. For a national spatial extent in Guatemala, we proceed to construct and populate a regional interaction framework (matrix form), identifying 50 possible interactions between 19 hazard types. For a sub-national spatial extent (Southern Highlands of Guatemala), we construct and populate a regional interaction framework (matrix form), identifying 114 possible interactions between 33 hazard sub-types relevant in the Southern Highlands. We also use this evidence to explore networks of multi-hazard interactions and anthropogenic processes that can trigger natural hazards. We present this information through accessible visualisations to improve understanding of multi-hazard interactions in Guatemala. We believe that our regional interaction frameworks approach to multi-hazards is scalable, working at global to local scales with differing resolutions of information. Our approach can be replicated in other geographical settings, with regional interaction frameworks helping to enhance cross-institutional dialogue on hazard interactions, and their likelihood and potential impacts.

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