Landslide susceptibility mapping for transmission lines: dynamic monitoring, analysis and alerts for extreme natural events
In Brazil and other countries, most electric-sector enterprises do not present a systematic space–time evaluation of their structures to identify environmental vulnerabilities. Thus, this study aims to analyze the susceptibility of mass movements in transmission lines, in the Serra da Mantiqueira re...
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| Published in | Environmental earth sciences Vol. 79; no. 1 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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Berlin/Heidelberg
Springer Berlin Heidelberg
01.01.2020
Springer Nature B.V |
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| Abstract | In Brazil and other countries, most electric-sector enterprises do not present a systematic space–time evaluation of their structures to identify environmental vulnerabilities. Thus, this study aims to analyze the susceptibility of mass movements in transmission lines, in the Serra da Mantiqueira region (Brazil), subject to the effects of tropical rains to operationalize a dynamic platform of analysis and alertness in the most critical areas. For this study, static and dynamic data were collected in the region from public and private sources. Next, multiple criteria were defined through the analytic hierarchy process (AHP). Using geographic information systems (GIS) and map algebra, it was possible to determine a susceptibility map in five classes. Subsequently, based on the identified areas and dynamic meteorological and hydrological data, a real-time platform was operationalized for monitoring, analysis, and alerts to environmental risks. Consequently, a geographic database with a regional coverage (14,000 km
2
) was generated, involving seven criteria: slope, distance of transmission lines, drainage density, soil use, soil type, fracture and failure density, and precipitation. The susceptibility classes found in the study region were very low (1.5%), low (12%), average (34.9%), high (45.3%), and very high (6.2%). It was also possible to identify different mass movements in areas close to the transmission lines, as well as other risk elements such as dwellings, roads, reservoir borders, and telecommunications towers. The operationalized monitoring platform allowed the establishment of dynamic analyses on the occurrence of extreme natural events, by sending notifications and an online map of the affected areas. Thus, this platform developed in this study can become an instrument of evaluation, monitoring, and management for the public management and regulatory agencies of the electric sector. |
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| AbstractList | In Brazil and other countries, most electric-sector enterprises do not present a systematic space–time evaluation of their structures to identify environmental vulnerabilities. Thus, this study aims to analyze the susceptibility of mass movements in transmission lines, in the Serra da Mantiqueira region (Brazil), subject to the effects of tropical rains to operationalize a dynamic platform of analysis and alertness in the most critical areas. For this study, static and dynamic data were collected in the region from public and private sources. Next, multiple criteria were defined through the analytic hierarchy process (AHP). Using geographic information systems (GIS) and map algebra, it was possible to determine a susceptibility map in five classes. Subsequently, based on the identified areas and dynamic meteorological and hydrological data, a real-time platform was operationalized for monitoring, analysis, and alerts to environmental risks. Consequently, a geographic database with a regional coverage (14,000 km
2
) was generated, involving seven criteria: slope, distance of transmission lines, drainage density, soil use, soil type, fracture and failure density, and precipitation. The susceptibility classes found in the study region were very low (1.5%), low (12%), average (34.9%), high (45.3%), and very high (6.2%). It was also possible to identify different mass movements in areas close to the transmission lines, as well as other risk elements such as dwellings, roads, reservoir borders, and telecommunications towers. The operationalized monitoring platform allowed the establishment of dynamic analyses on the occurrence of extreme natural events, by sending notifications and an online map of the affected areas. Thus, this platform developed in this study can become an instrument of evaluation, monitoring, and management for the public management and regulatory agencies of the electric sector. In Brazil and other countries, most electric-sector enterprises do not present a systematic space–time evaluation of their structures to identify environmental vulnerabilities. Thus, this study aims to analyze the susceptibility of mass movements in transmission lines, in the Serra da Mantiqueira region (Brazil), subject to the effects of tropical rains to operationalize a dynamic platform of analysis and alertness in the most critical areas. For this study, static and dynamic data were collected in the region from public and private sources. Next, multiple criteria were defined through the analytic hierarchy process (AHP). Using geographic information systems (GIS) and map algebra, it was possible to determine a susceptibility map in five classes. Subsequently, based on the identified areas and dynamic meteorological and hydrological data, a real-time platform was operationalized for monitoring, analysis, and alerts to environmental risks. Consequently, a geographic database with a regional coverage (14,000 km2) was generated, involving seven criteria: slope, distance of transmission lines, drainage density, soil use, soil type, fracture and failure density, and precipitation. The susceptibility classes found in the study region were very low (1.5%), low (12%), average (34.9%), high (45.3%), and very high (6.2%). It was also possible to identify different mass movements in areas close to the transmission lines, as well as other risk elements such as dwellings, roads, reservoir borders, and telecommunications towers. The operationalized monitoring platform allowed the establishment of dynamic analyses on the occurrence of extreme natural events, by sending notifications and an online map of the affected areas. Thus, this platform developed in this study can become an instrument of evaluation, monitoring, and management for the public management and regulatory agencies of the electric sector. |
| ArticleNumber | 46 |
| Author | Andrade, Marcio R. M. Mendes, Tatiana S. G. Simoes, Silvio J. C. Junqueira, Adriano M. |
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| Keywords | Vulnerability Analytic hierarchy process (AHP) Geographic information system (GIS) Susceptibility Space–time data Electric power transmission |
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| References | TaheriKGutiérrezFMohseniHSinkhole susceptibility mapping using the analytical hierarchy process (AHP) and magnitude–frequency relationships: a case study in Hamadan province, IranGeomorphology2015234647910.1016/j.geomorph.2015.01.005 CPRM (2017) GeoSGB. http://geosgb.cprm.gov.br/geosgb/downloads.html. Accessed 21 Feb 2018 CPRM (2011b) Levantamento da geodiversidade. Brasília/DF NASA/METI (2015) ASTER GDEM 2. https://lpdaac.usgs.gov/data_access/usgs_earthexplorer. Accessed 22 Aug 2015 IBGE (2005) Nota Técnica SIRGAS 2000. Rio de Janeiro/RJ. geoftp.ibge.gov.br/nota_tecnica_termino_periodo_transicao_sirgas2000. Accessed 7 July 2016 SaatyTLA scaling method for priorities in hierarchical structuresJ Math Psychol19771523428110.1016/0022-2496(77)90033-5 ANEEL (2004) Manual de fiscalização da transmissão 2004. In: Man. Fisc. da Transm. 2004. http://www.aneel.gov.br/arquivos/PDF/manual.de.transmissão.pdf. Accessed 25 Jun 2015 CorominasJvan WestenCFrattiniPRecommendations for the quantitative analysis of landslide riskBull Eng Geol Environ20147320926310.1007/s10064-013-0538-8 INPE (2013) Manual Do Usuário. São José dos Campos. http://www.terrama2.dpi.inpe.br/manuais. Accessed 25 Aug 2016 van WestenCJCastellanosEKuriakoseSLSpatial data for landslide susceptibility, hazard, and vulnerability assessment: an overviewEng Geol200810211213110.1016/j.enggeo.2008.03.010 ANEEL (2015) SIGEL. In: Sist. Informações Geográficas do Set. Elétrico. https://sigel.aneel.gov.br/portal/home/. Accessed 28 Apr 2016 IBGE (2009) Manual Técnico de Geomorfologia. Rio de Janeiro/RJ. https://biblioteca.ibge.gov.br/visualizacao/livros/liv66620.pdf. Accessed 7 July 2016 USGS (2013) Landsat-8 images. https://landsat.gsfc.nasa.gov/. Accessed 23 Feb 2016 KumarSVaidyaOSAnalytic hierarchy process: an overview of applicationsEur J Oper Res200616912910.1016/j.ejor.2004.04.028 GorsevskiPVDonevskaKRMitrovskiCDFrizadoJPIntegrating multi-criteria evaluation techniques with geographic information systems for landfill site selection: a case study using ordered weighted averageWaste Manag20123228729610.1016/j.wasman.2011.09.023 SoaresPMapa de infiltração do alto e médio Vale do Paraíba do Sul com base em elementos do meio físico e na precipitaçãoAmbient Agua20083264210.4136/ambi-agua.40 CPTEC (2016) Climatological conditions and rainfall data. http://previsaonumerica.cptec.inpe.br/bam. Accessed 11 Aug 2016 Gimenes FBQ, Filho OA (2013) Mapas de fragilidade ambiental utilizando o processo de análise hierárquica (AHP) e sistema de informação geográfica (SIG). In: An XVI Simpósio Bras Sensoriamento Remoto—SBSR, pp 6564–6571 IBGE (2010) Brazilian Census Data 2010. In: Informações Socio-Demográficas. www.ibge.gov.br. Accessed 20 Mar 2015 EgasHMGraminhaCADeAndrade MRMAnálise preliminar da ocorrência de avalanche de rocha na bacia do rio do entupido2011SPMunicípio de Queluz110 EPE (2014) Balanço Energético Nacional 2014: Ano base 2013. Rio de Janeiro/RJ. http://epe.gov.br/pt/publicacoes-dados-abertos/publicacoes/Balanco-Energetico-Nacional-2014. Accessed 25 June 2015 Liao T, Hu D, Li X, Chen Y (2011) Landslide vulnerability evaluation: A case study from Sichuan, China. In: Proceedings of the 2011 19th International conference geoinformatics, geoinformatics 2008–2011. doi: 10.1109/GeoInformatics.2011.5981061 Mossri P (1998) Garganta do Embaú. https://pt.wikipedia.org/wiki/Garganta_do_Embaú. Accessed 15 Nov 2015 CPRM (2011a) Seleção de municípios críticos a deslizamentos. Rio de Janeiro/RJ. https://www.cprm.gov.br/publique/media/gestao_territorial/riscos_geologicos/apresentacao_susc.pdf. Accessed 11 Nov 2016 MeinhardtMFinkMTünschelHLandslide susceptibility analysis in central Vietnam based on an incomplete landslide inventory: comparison of a new method to calculate weighting factors by means of bivariate statisticsGeomorphology2015234809710.1016/j.geomorph.2014.12.042 FariaDGMAugusto FilhoOAplicação do Processo de Análise Hierárquica (AHP) no mapeamento de perigo de escorregamentos em áreas urbanasRev Inst Geol201334234410.5935/0100-929X.20130002 Blackbridge (2013) RapidEye images. http://geocatalogo.mma.gov.br/. Accessed 12 Dec 2015 ANA (2013) Hydrographic network data. https://metadados.ana.gov.br/geonetwork/srv/pt/main.home. Accessed 25 Jun 2015 EMBRAPA (2011) Mapa de Solos do Brasil. Brasília/DF. https://www.embrapa.br/image/journal/article?img_id=14124385&t=1467725744269. Accessed 7 July 2016 QuanH-CLeeB-GGIS-based landslide susceptibility mapping using analytic hierarchy process and artificial neural network in Jeju (Korea)KSCE J Civ Eng2012161258126610.1007/s12205-012-1242-0 TL Saaty (8750_CR27) 1977; 15 8750_CR2 J Corominas (8750_CR5) 2014; 73 8750_CR3 8750_CR1 8750_CR13 DGM Faria (8750_CR14) 2013; 34 8750_CR12 8750_CR30 8750_CR19 P Soares (8750_CR28) 2008; 3 K Taheri (8750_CR29) 2015; 234 M Meinhardt (8750_CR23) 2015; 234 8750_CR17 8750_CR18 8750_CR15 HM Egas (8750_CR11) 2011 S Kumar (8750_CR21) 2006; 169 H-C Quan (8750_CR26) 2012; 16 8750_CR24 8750_CR25 CJ van Westen (8750_CR31) 2008; 102 8750_CR22 8750_CR20 8750_CR6 8750_CR7 8750_CR4 PV Gorsevski (8750_CR16) 2012; 32 8750_CR8 8750_CR9 |
| References_xml | – reference: SaatyTLA scaling method for priorities in hierarchical structuresJ Math Psychol19771523428110.1016/0022-2496(77)90033-5 – reference: CPRM (2011a) Seleção de municípios críticos a deslizamentos. Rio de Janeiro/RJ. https://www.cprm.gov.br/publique/media/gestao_territorial/riscos_geologicos/apresentacao_susc.pdf. Accessed 11 Nov 2016 – reference: IBGE (2009) Manual Técnico de Geomorfologia. Rio de Janeiro/RJ. https://biblioteca.ibge.gov.br/visualizacao/livros/liv66620.pdf. Accessed 7 July 2016 – reference: IBGE (2010) Brazilian Census Data 2010. In: Informações Socio-Demográficas. www.ibge.gov.br. Accessed 20 Mar 2015 – reference: TaheriKGutiérrezFMohseniHSinkhole susceptibility mapping using the analytical hierarchy process (AHP) and magnitude–frequency relationships: a case study in Hamadan province, IranGeomorphology2015234647910.1016/j.geomorph.2015.01.005 – reference: IBGE (2005) Nota Técnica SIRGAS 2000. Rio de Janeiro/RJ. geoftp.ibge.gov.br/nota_tecnica_termino_periodo_transicao_sirgas2000. Accessed 7 July 2016 – reference: SoaresPMapa de infiltração do alto e médio Vale do Paraíba do Sul com base em elementos do meio físico e na precipitaçãoAmbient Agua20083264210.4136/ambi-agua.40 – reference: FariaDGMAugusto FilhoOAplicação do Processo de Análise Hierárquica (AHP) no mapeamento de perigo de escorregamentos em áreas urbanasRev Inst Geol201334234410.5935/0100-929X.20130002 – reference: ANEEL (2004) Manual de fiscalização da transmissão 2004. In: Man. Fisc. da Transm. 2004. http://www.aneel.gov.br/arquivos/PDF/manual.de.transmissão.pdf. Accessed 25 Jun 2015 – reference: Liao T, Hu D, Li X, Chen Y (2011) Landslide vulnerability evaluation: A case study from Sichuan, China. In: Proceedings of the 2011 19th International conference geoinformatics, geoinformatics 2008–2011. doi: 10.1109/GeoInformatics.2011.5981061 – reference: MeinhardtMFinkMTünschelHLandslide susceptibility analysis in central Vietnam based on an incomplete landslide inventory: comparison of a new method to calculate weighting factors by means of bivariate statisticsGeomorphology2015234809710.1016/j.geomorph.2014.12.042 – reference: EPE (2014) Balanço Energético Nacional 2014: Ano base 2013. Rio de Janeiro/RJ. http://epe.gov.br/pt/publicacoes-dados-abertos/publicacoes/Balanco-Energetico-Nacional-2014. Accessed 25 June 2015 – reference: Gimenes FBQ, Filho OA (2013) Mapas de fragilidade ambiental utilizando o processo de análise hierárquica (AHP) e sistema de informação geográfica (SIG). In: An XVI Simpósio Bras Sensoriamento Remoto—SBSR, pp 6564–6571 – reference: QuanH-CLeeB-GGIS-based landslide susceptibility mapping using analytic hierarchy process and artificial neural network in Jeju (Korea)KSCE J Civ Eng2012161258126610.1007/s12205-012-1242-0 – reference: INPE (2013) Manual Do Usuário. São José dos Campos. http://www.terrama2.dpi.inpe.br/manuais. Accessed 25 Aug 2016 – reference: CPRM (2011b) Levantamento da geodiversidade. Brasília/DF – reference: KumarSVaidyaOSAnalytic hierarchy process: an overview of applicationsEur J Oper Res200616912910.1016/j.ejor.2004.04.028 – reference: EMBRAPA (2011) Mapa de Solos do Brasil. Brasília/DF. https://www.embrapa.br/image/journal/article?img_id=14124385&t=1467725744269. Accessed 7 July 2016 – reference: van WestenCJCastellanosEKuriakoseSLSpatial data for landslide susceptibility, hazard, and vulnerability assessment: an overviewEng Geol200810211213110.1016/j.enggeo.2008.03.010 – reference: CPRM (2017) GeoSGB. http://geosgb.cprm.gov.br/geosgb/downloads.html. Accessed 21 Feb 2018 – reference: USGS (2013) Landsat-8 images. https://landsat.gsfc.nasa.gov/. Accessed 23 Feb 2016 – reference: GorsevskiPVDonevskaKRMitrovskiCDFrizadoJPIntegrating multi-criteria evaluation techniques with geographic information systems for landfill site selection: a case study using ordered weighted averageWaste Manag20123228729610.1016/j.wasman.2011.09.023 – reference: Mossri P (1998) Garganta do Embaú. https://pt.wikipedia.org/wiki/Garganta_do_Embaú. Accessed 15 Nov 2015 – reference: Blackbridge (2013) RapidEye images. http://geocatalogo.mma.gov.br/. Accessed 12 Dec 2015 – reference: NASA/METI (2015) ASTER GDEM 2. https://lpdaac.usgs.gov/data_access/usgs_earthexplorer. 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