Vulnerabilidade as Inundações, Abordagens Metodológicas de Avaliação e Ações para a Resiliência
DOI:
10.46551/rvg2675239520242349381Keywords:
Floods, Vulnerability, ResilienceAbstract
This article proposes a reflection on vulnerability to floods, its compounds, methodological approaches, analysis scales and most important measures to build resilience. It was constructed by means of bibliographical revision of available literature. It was found that four main approaches are used when it comes to assessing vulnerability to floods, namely: vulnerability curves, damage matrices, vulnerability indicators and the modeling-based approach. Those approaches adopt diferente analysis scales, from micro to national, from local to regional ones. Resilience construction measures must consider different factors, specially: physical-environmental, social, economic, social behavioral and political administrative, all of them taken together. The conclusion is that assessment approaches to floods must always be based on the context in which they occur, analyzing vulnerability as an intrinsic characteristic of a system or element. On the other hand, the adoption of adaptation strategies must be carried out in a holistic and integrated way, paying attention to the way in which each factor contributes particularly to increasing vulnerability in communities.
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AKSOY, Hafzullah; KIRCA, Veysel Sadan Ozgur; BURGAN, Halil Ibrahim e KELLECIOGLU, Dorukhan. Hydrological and Hydraulic Models for Determination of Flood-Prone and Flood Inundation Areas. Proc. IAHS, v. 373, p. 137–141, Mai. 2016.
ALVES, Humberto Prates da Fonseca. Vulnerabilidade Socioambiental na Metrópole Paulistana: Uma Análise Sociodemográfica das Situações de Sobreposição Espacial de Problemas e Riscos Sociais e Ambientais. R. bras. Est. Pop., São Paulo, n. 1, p. 43-59, Jun. 2006.
ANTWI, Effah Kwabena et al. Community Vulnerability Assessment Index for Flood Prone Savannah Agro-Ecological Zone: A Case Study of Wa West District, Ghana. Weather and Climate Extremes, n. 10, p. 56-69, Out. 2015.
AQUINO, Afonso Rodrigues de; PALETTA, Francisco Carlos; ALMEIDA, Josimar Ribeiro de. Vulnerabilidade Ambiental. São Paulo, Blucher, 2017. E-book.
ARIBISALA, O.D.; YUM, S.-G.; ADHIKARI, M.D.; SONG, M.-S. Flood Damage Assessment: A Review of Microscale Methodologies for Residential Buildings. Sustainability, v. 14, p.1-24, Out. 2022.
BABANAWO, Daystar; MATTAH, Precious Agbeko D.; AGBLORTi, Samuel K. M.; BREMPONG, Emmanuel K.; MATTAH, Memuna Mawusi e AHETO, Denis Worlanyo. Local Indicator-Based Flood Vulnerability Indices and Predictors of Relocation in the Ketu South Municipal Area of Ghana. Sustainability, v. 14, p. 1-26, Mai. 2022.
BALICA, Stefania; DOUBEN, Nicolaas; WRIGHT, Nigel George. Flood Vulnerability Indices at Varying Spatial Scales. Water Science & Technology, v. 60, n. 10, p. 2571-2580, Nov. 2009.
BALICA, SF, POPESCU, I, WRIGHT, NG et al. Parametric And Physically Based Modelling Techniques for Flood Risk and Vulnerability Assessment: A Comparison. Environmental Modelling and Software, v. 41, p. 84 – 92, 2013.
BATICA, Jelena e GOURBESVILLE, Philippe. A Resilience Measures Towards Assessed Urban Flood Management – CORFU Project. In: International Conference on Urban Drainage Modelling, 9. 2012, Belgrade, 2012.
BECK, Ulrich. Sociedade de Risco: Rumo a Uma Outra Modernidade. Tradução: Sebastião Nascimento. São Paulo: Ed. 34, 2010.
BELLO, Nurudeen Akinsola; DUROSINMI, Wasiu Ayobami e ABDULKARIM, Risikatu Isyaku. Assessment of Adaptation Strategies to Flooding Impacts in Nigeria - A Review. Urban Design, vol. 1, p. 135-145, Dez. 2017.
BIRKMANN, Jörn. Indicators and Criteria for Measuring Vulnerability: Theoretical Bases and Requirements. in Measuring Vulnerability to Natural Hazards: Towards Disaster Resilient Societies ed. BIRKMANN, Joern, Tokyo: UNU-Press, p. 55–77, 2006.
BLAIKIE, P. et al. Vulnerabilidad: El Entorno Social, Político y Económico de los Desastres. 1. ed. Lima (Peru): La Red, 1996. E-Book.
BRITO, Mariana Madruga de. A Participatory Multi-Criteria Approach for Flood Vulnerability Assessment. 2018. Tese (Doutorado em Geografia) - Universidade de Bonn, Alemanha, 2018.
BRUNO, Leonardo Souza et al. Hydrological and Hydraulic Modeling Applied to Flash Flood Events in a Small Urban Stream. Hydrology, v. 9, n. 223, p. 1-19, Dez. 2022.
BUCHELE, B., et al. Flood-risk mapping: contributions towards an enhanced assessment of extreme events and associated risks. Nat. Hazards Earth Syst. Sci., n. 6, p. 485-503, Jun. 2006.
CARDOSO, Cristiane et al. Geografia e Riscos Socioambientais. In: CARDOSO, Cristiane; SILVA, Michele Souza da e GUERRA, Antônio José Teixeira (Orgs.) Geografia e Riscos Socioambientais. Rio de Janeiro: Bertrand Brasil, 2020. p. 13-24.
CHRISTOFOLETTI, António. Modelagem de Sistemas Ambientais. São Paulo: Blucher, 1999.
CUTTER , Susan. A Ciência da Vulnerabilidade: Modelos, Métodos e Indicadores. Revista Crítica de Ciências Sociais, Coimbra, n. 93, p. 59-69, Mai. 2011.
CUTTER, Susan; BORUFF, Bryan; SHIRLEY, Lynn. Social Vulnerability to Environmental Hazards. Hazards & Vulnerability Research Institute, n. 1, p. 242-261, Jun. 2003.
DOTTORI, F. et al. Adapting to rising river flood risk in the EU under climate change, EUR 29955 EN, Publications Office of the European Union, Luxembourg, 2020, ISBN 978-92-76-12946-2 , doi:10.2760/14505, JRC118425.
ENGLHARDT, Johanna; DE MOEL, Hans; HUYCK, Charles K.; DE RUITER, Marleen C.; AERTS , Jeroen C. J. H. e WARD, Philip J. Enhancement of Large-scale Flood Damage Assessments Using Building-material-based Vulnerability Curves for an Object-based Approach. Nat. Hazards Earth Syst. Sci, v. 12, p. 1-28, Mar. 2019.
ETTINGER, Susanne at al. Building Vulnerability to Hydro-geomorphic Hazards: Estimating Damage Pprobability From Qualitative Vulnerability Assessment Using Logistic Regression. Journal of Hydrology, vol. 541, p. 563-581, Out. 2016.
FEKETE, Alexander; DAMM, Marion; BIRKMANN, Jorn. Scales as a Challenge for Vulnerability Assessment. Natural Hazards, v. 55, n. 3, p. 729–747, dez. 2010.
GODSCHALK, David R. Urban Hazard Mitigation: Creating Resilient Cities. Natural Hazard Review, v. 4, n. 3, p. 136-143, 2003.
GRUNTHAL, Gottfried et al. Comparative Risk Assessments for the City of Cologne, Germany - Storms, Floods, Earthquakes. Natural Hazards, n.1-2, p. 21-44, 2006.
INTERGOVERNMENTAL PANEL ON CLIMATE CHANGE (IPCC). Sixth Assessment Report. Climate Change 2021: The Physical Science Basis. The Working Group I contribution to the Sixth Assessment Report addresses the most up-to-date physical understanding of the climate system and climate change, bringing together the latest advances in climate science. Disponível em: https://www.ipcc.ch/report/ar6/wg1/. Acesso em: 06 Jun. 2022.
KANG, Jui-Lin; SU, Ming-Daw; CHANG, Ling-Fang. Loss Functions and Framework for Regional Flood Damage Estimation in Residential Area. Journal of Marine Science and Technology, n. 3, p. 193-199, Jan. 2005.
KAOJE, Ismaila Usman; RAHMAN, Muhammad Zulkarnain Abdul; TAM, Tze Huey e SALLEH, Mohd Radhie Mohd. An Indicator-Based Approach for Micro-Scale Physical Flood Vulnerability Mapping. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XLII-4/W16, 2019, 6th International Conference on Geomatics and Geospatial Technology (GGT 2019), 1–3 October 2019, Kuala Lumpur, Malaysia.
KASTRIDIS, Aristeidis e STATHIS, Dimitrios. Evaluation of Hydrological and Hydraulic Models Applied in Typical Mediterranean Ungauged Watersheds Using Post-Flash-Flood Measurements. Hydrology, v. 7, n. 7, p. 1-24, 2020.
LÉONE, Frédéric, ASTÉ, Jean-Pierre, LEROI, Eric. L'évaluation de la Vulnérabilité aux Mouvements de Terrains: Pour une Meilleure Quantification du Risque/The Evaluation of Vulnerability to Mass Movements: Towards a Better Quantification of Landslide Risks. Revue de Géographie Alpine, n. 1, p. 35-46, Jan. 1996.
MAI, Dang Thanh e DE SMEDT, Florimond. A Combined Hydrological and Hydraulic Model for Flood Prediction in Vietnam Applied to the Huong River Basin as a Test Case Study. Water, v. 9, p. 1-12, 2017.
MALONE, E., & ENGLE, N. (2011). Evaluating regional vulnerability to climate change: Purposes and methods. WIRES Climatic Change, 2, 462-474. doi:10.1002/wcc.116.
MARANDOLA JR., Eduardo e HOGAN, Daniel Joseph. Vulnerabilidade do lugar vs. Vulnerabilidade sociodemográfica: implicações metodológicasde uma velha questão. R. bras. Est. Pop., v. 26, n. 2, p. 161-181, jul./dez. 2009.
MARTÍNEZ-GOMARIZ, Eduardo; FORERO-ORTIZ, Edwar; GUERRERO-HIDALGA, María; CASTÁN, Salvador e GÓMEZ, Manuel. Flood Depth‒Damage Curves for Spanish Urban Areas. Sustainability, v. 12, p. 1-25, 2020.
MAVUME, Alberto et al. Climatology and Landfall of Tropical Cyclones in the South-West Indian Ocean. Western Indian Ocean J. Mar. Sci., n. 1, p. 15-36, Jul. 2009.
MENDES, Thiago Augusto; DE SOUSA, Marlon Barbosa; PEREIRA, Sávio Aparecido dos Santos; DOS SANTOS, Kamila Almeida; TEODOMIRO, Klebber e FORMIGA, Martins. Uso do Modelo HEC-RAS com Base em Informações de LiDAR Para Avaliação de Inundações Urbanas. Eng Sanit Ambient, v. 27, n. 1, p. 141-157, Fev. 2022.
MENONI, S. COSTA, L.; GALDERISI, A.; MARGOTTINI, C.; BELVAUX, M.; BENENSON, I.; KARYMBALIS, E.; KIDRON, G.; KUNDAK, S.; MINUCCI, G.; PARKER, D. J.; SAPOUNTZAKI, K.; TAPSELL, SUE M. (2011) Methodological Framework for an Integrated Multi-scale Vulnerability and Resilience Assessment. Project Report. European Commission. Disponível em : https://eprints.mdx.ac.uk/16261/. Acesso em: 11 Jan. 2023.
MEYER, Volker; SCHEUER, Sebastian; HAASE, Dagmar. A Multicriteria Approach for Flood Risk Mapping Exemplified at the Mulde River, Germany. Nat Hazards, n. 1, p. 17-39, Mai. 2009.
MILETI, Dennis. Disasters by Design: A Reassessment of Natural Hazards in the United States. 1. ed. Washington, DC: Joseph Henry Press, 1999. E-Book.
MONTE, Benício Emanoel Omena; COSTA, Denis Duda; CHAVES, MAGALHÃES, Mahelvson Bazilio, Louis de Oliveira e UVO, Cintia B.. Hydrological and hydraulic modelling applied to the mapping of flood-prone areas. Revista Brasileira de Recursos Hídricos, v. 21 n.1, p. 152-167, Mar. 2016.
MORRISON, D.; BEEVERS, L.; WRIGHT, G. e STEWART, M. D. The Impact of Data Spatial Resolution on Flood Vulnerability Assessment. Environmental Hazards, v. 21, n. 1, p. 77-98, 2022.
NASIRI, Hajar; SHAHMOHAMMADI-KALALAGH, Shahram. Flood Vulnerability Index as a Knowledge Base for Flood Risk Assessment in Urban Area. J Nov. Appl Sci., n. 8, p. 266-269, Jan. 2013.
NASO, Susana; CHEN, Albert S., ARONICA, Giuseppe T. e DJORDJEVIC, Sloboda. A Novel Approach to Flood Assessment: The Explosure-Vulnerability Matrixes. Floodrisk 2016 – 3rd European Conference on Flood Risk Management. 2016.
NKEKI, Felix Ndidi; BELLO, Ehiaguina Innocent e AGBAJE, Ishola Ganiy. Flood Risk Mapping and Urban Infrastructural Susceptibility Assessment Using a GIS and Analytic Hierarchical Raster Fusion Approach in the Ona River Basin, Nigeria. International Journal of Disaster Risk Reduction, v. 77, p. 1-28, jun. 2022.
OFFICE OF OCEAN AND COASTAL RESOURCE MANAGEMENT. National Oceanic and Atmospheric Administration. Adapting to Climate Change: A Planning Guide for State Coastal Managers. NOAA, 2010. Disponível em: http://coastalmanagement.noaa.gov/climate/adaptation.html. Acesso em: 18 Mai. 2021, 2010.
OJIMA, Ricardo. A Vulnerabilidade Socioambiental Como Conceito Interdisciplinar: Avanços e Potencialidades para Pensar Mudanças Ambientais. Cronos: R. Pós-Grad. Ci. Soc. UFRN, Natal, v. 13, n. 1, p. 110-120, 2012.
OLAYINKA, Dupe Nihinlola e IRIVBOGBE, Hudson Ebadonoi. Flood Vulnerability Mapping of Lagos Island and Eti-Osa Local Government Areas Using a Multi-Criteria Decision Making Approach. Nigerian Journal of Environmental Sciences and Technology, n. 2, p. 244-255, Jul. 2017.
OLIVEIRA, Edson Luis de Almeida. Vulnerabilidade: A Questão Central da Educação de Risco. Geografia, Ensino & Pesquisa, Santa Maria, n. 19, p. 01-09, Jul. 2018.
OUMA, Yashon e TATEISHI, Ryutaro. Urban Flood Vulnerability and Risk Mapping Using Integrated Multi-Parametric AHP and GIS: Methodological Overview and Case Study Assessment. Water, n. 6, p. 1515-1545, Mai. 2014.
PAPATHOMA-KOHLE, Maria et al. Matrices, Curves and Indicators: A Review of Approaches to Assess Physical Vulnerability to Debris Flows. Earth-Science Reviews, p. 272–288, Jun. 2017.
PAPATHOMA-KOHLE, Maria et al. Physical Vulnerability Assessment for Alpine Hazards: State of the Art and Future Needs. Nat Hazards, n. 2, p. 645-680, Abr. 2012.
PATT. A. G. et al. Assessing Vulnerability to Global Environmental Change – Making Research Useful for Adaptation Decision Making and Policy. January 2009. Publisher: Earthscan .Editor: Patt A.G., Schröter D., Klein R.J.T, De la Vega-Leinert A.C.
PEREIRA, Leandro dos Santos e RODRIGUES, Aline Muniz. A Importância de Serem compreendidos os Solos, Seus Usos e Sua Conservação na Prevenção dos Riscos Socioambientais. In: CARDOSO, Cristiane; SILVA, Michele Souza da e GUERRA, Antônio José Teixeira (Orgs.) Geografia e Riscos Socioambientais. Rio de Janeiro: Bertrand Brasil, 2020. p. 117-132.
PEREIRA, Winnie Bruna de Souza. Aprendendo Com os Desastres Naturais: Inundações e resiliência em Vila Velhas/ES. 2017. Dissertação (Mestre em Arquitetura e Urbanismo) - Universidade Federal do Espírito Santo, Vitoria, 2017.
PROAG, Virendra. The Concept of Vulnerability and Resilience. Procedia Economics and Finance, Salford, n. 18, p. 369-376, Dez. 2014.
POUDEL, Kabita; BASNET, Keshav e SHERCHAN, Bikash. Hydrological and Hydraulic Modeling for Flood Analysis: A Case Study for Modi Catchment. International Journal of Engineering Research & Technology, v. 10, n. 8, p. 534-544, Ago. 2021.
SILVA, Maria Manuela Castro e PEREIRA, Susana. Assessment of Physical Vulnerability and Potential Losses of Buildings due to Shallow Slides. Nat Hazards, vol. 72, n. 2, p. 1-23, Jun. 2014.
SINHA, Nishant; PRIYANKA, Neena; JOSHI, Peter. Using Spatial Multi-Criteria Analysis and Ranking Tool (SMART) in earthquake risk assessment: a case study of Delhi region, India. Geomatics. Natural Hazards and Risk, n. 2, p. 680-701, Dez. 2014.
SOUZA, Kátia Regina Góes; LOURENÇO, Luciano. A Evolução do Conceito de Risco à Luz das Ciências Naturais e Sociais. Territorium, São João del-Rei, n. 22, p. 31-44, Ago. 2015.
THOURET, Jean-Claude et al. Assessing physical Vulnerability in Large Cities Exposed to Flash Floods and Debris Flows: the case of Arequipa (Peru). Nat Hazards, vol. 73, n. 3, p. 1771-1815, Set. 2014.
TUCCI, Carlos Eduardo Morelli. Inundações e Drenagem Urbana. In: TUCCI, Carlos Eduardo Morelli; BERTONI, Juan Carlos (Orgs.). Inundações Urbanas na América do Sul. Porto Alegre: Associação Brasileira de Recursos Hídricos, 2003. p. 45-150.
UNITED NATIONS HUMAN SETTLEMENTS PROGRAMME (UN-HABITAT). CityRAP Tool. City Resilience. Acction Planning Tool. 2020. Disponível em: https://unhabitat.org/sites/default/files/2020/05/cityrap_tool_booklet_2020.pdf. Acesso em: 15 Ago. 2022.
UNITED NATIONS INTERNATIONAL STRATEGY FOR DISASTER REDUCTION (UNISDR). Como Construir Cidades Mais Resilientes: Um Manual Para Líderes do Governo Local. 2017. Disponível em: <https://www.unisdr.org/campaign/resilientcities/assets/toolkit/documents/Handbook%20for%20local%20government%20leaders%20%5B2017%20Edition%5D_PT_Jan2019.pdf>. Acesso em: 10 Ago. 2022.
UNITED NATIONS. HYOGO FRAMEWORK FOR ACTION 2005–2015. Disaster Prevention and Mitigation-A Compendium of Current Knowledge. UN, 2007. Disponível em: https://www.unisdr.org/2005/wcdr/intergover/official-doc/L-docs/Hyogo-framework-for-action-english.pdf. 2005. Acesso em: 29 Mai. 2021.
UNITED NATIONS DEVELOPMENT PROGRAMME - BUREAU FOR CRISIS PREVENTION AND RECOVERY. Reducing Disaster Risk: A Challenge for Development. A global Report. UNDP, 2004. Disponível em: https://www.planat.ch/fileadmin/PLANAT/planat_pdf/alle_2012/2001-2005/Pelling__Maskrey_et_al_2004_-_Reducing_Disaster_Risk.pdf. Acesso em: 21 Mai. 2021.
VALÊNCIO, Norma. A concepção de cuidado integral em contextos de inundações. In: VALÊNCIO, Norma; IBRAHIM, Samira Younes e GONÇALVES, Juliano Costa (Orgs.). Inundações e Cuidado Integral: Guia para Discussões Técnicas e Comunitárias. São Carlos, Rio de Janeiro: NEPED/DCAm-UFSCar, Rede de Cuidados - RJ, 2018. p. 7-19.
WARD, Philip et al. How are Flood Risk Estimates Affected by the Choice of Return-Periods? Nat. Hazards Earth Syst. Sci., n. 12, p. 3181-3195, Dez. 2011.
WHITE Gilbert Fowler. Human Adjustment to Floods: A Geographical Approache to the Flood Problem in the United States. 1942. Tese (Doutorado em Geografia) – Universidade de Chicago, Estados Unidos, 1945.
WISNER, Ben et al. At Risk: Natural Hazards, People’s Vulnerability and Disasters. 2. ed. Routledge, 2003. E-Book.
ZANCHETTA, Giovanni et al. Characteristics of May 5-6, 1998 Volcanoclastic Debris Flows in the Sarno Area (Campania, southern Italy): Relationships to Structural Damage and Hazard Zonation. Journal of Volcanology and Geothermal Research, n. 1-4, p. 377-393, Mai. 2004.
ZEVENBERGEN, C.; VEERBEEK, W.; GERSONIUS B. and VAN HERK, S. Challenges in Urban Flood Management: Travelling Across Spatial and Temporal Scales. J Flood Risk Management, v. 1, n. 2, p. 81-88, Ago. 2008.
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