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@Article{EichholzCamp:2014:PhFeMe,
               author = "Eichholz, Cristiano Wickboldt and Campos, Cl{\'a}udia Rejane 
                         Jacondino de",
          affiliation = "{Instituto Nacional de Pesquisas Espaciais (INPE)} and 
                         {Universidade Federal de Pelotas}",
                title = "Physics features of mesoscale convective systems that reached Rio 
                         Grande do Sul State in 2006 / Caracter{\'{\i}}sticas 
                         F{\'{\i}}sicas dos sistemas convectivos de Mesoescala que 
                         Afetaram o Rio Grande do Sul em 2006",
              journal = "Anu{\'a}rio do Instituto de Geoci{\^e}ncias",
                 year = "2014",
               volume = "37",
               number = "1",
                pages = "70--80",
             keywords = "sensoriamento remoto, ForTrACC, SCM, cloud, convective cloud, 
                         GOES, life cycle, mesoscale meteorology, remote sensing, satellite 
                         data, satellite imagery, trajectory, Brazil, Rio Grande do Sul.",
             abstract = "Estudou-se as caracter{\'{\i}}sticas f{\'{\i}}sicas sazonais 
                         dos Sistemas Convectivos de Mesoescala que afetaram o Estado do 
                         Rio Grande do Sul-RS (SCMRS) no ano de 2006, utilizando a 
                         t{\'e}cnica ForTrACC (Forecasting and Tracking of Active Cloud 
                         Clusters). Foram utilizadas imagens brutas do sat{\'e}lite 
                         GOES-12 (Geostationary Operational Environmental Satellite) do 
                         canal 4, com resolu{\c{c}}{\~a}o espacial no seu ponto 
                         subsat{\'e}lite de 4 km x 4 km e resolu{\c{c}}{\~a}o temporal 
                         de  hora, do per{\'{\i}}odo de 01/01/2006 a 31/12/2006. Essas 
                         imagens foram fornecidas pela Divis{\~a}o de Sat{\'e}lites e 
                         Sistemas Ambientais do Centro de Previs{\~a}o de Tempo e Estudos 
                         Clim{\'a}ticos do Instituto Nacional de Pesquisas Espaciais 
                         (DSA/CPTEC/INPE) e serviram como base de dados para a 
                         utiliza{\c{c}}{\~a}o da t{\'e}cnica ForTrACC. Os resultados 
                         mostraram que: i) a maioria dos SCMRS ocorreu nos trimestres mais 
                         quentes do ano e apresentou tempo de vida entre 6 e 12h; ii) SCMRS 
                         com maior tempo de vida cobriram {\'a}reas maiores; iii) SCMRS 
                         maiores e mais longos foram observados em JAS (jul, ago, set); iv) 
                         os SCMRS apresentaram as 3 fases do seu ciclo de vida 
                         distribu{\'{\i}}da ao longo do dia; v) os SCMRS tiveram 
                         inicia{\c{c}}{\~a}o preferencial sobre o continente e vi) os 
                         SCMRS apresentaram trajet{\'o}ria m{\'e}dia preferencial de 
                         oeste para leste. ABSTRACT: It was studied the seasonal physics 
                         features of the Mesoscale Convective Systems that reached Rio 
                         Grande do Sul (RS) State (MCSRS) in 2006, using ForTrACC tool 
                         (Forecasting and Tracking of Active Cloud Clusters). Channel 4 
                         GOES-12 (Geostationary Operational Environmental Satellite) images 
                         from 2006 year, with 4 km  4 km spatial resolution in the 
                         subsatellite point and 1/2 hour temporal resolution were used. 
                         These images were provided by DSA/CPTEC/INPE (Divis{\~a}o de 
                         Sat{\'e}lites e Sistemas Ambientais do Centro de Previs{\~a}o de 
                         Tempo e Estudos Clim{\'a}ticos do Instituto Nacional de Pesquisas 
                         Espaciais) and were the data basis to the ForTrACC tool. The 
                         results showed that: i) most MCSRS occurred in the warmest 
                         quarters and showed lifetime between 6 and 12h, ii) MCSRS with 
                         higher lifetime covered larger areas, iii) the largest and most 
                         long MCSRS were observed in JAS (Jul, Aug, Sep); iv) MCSRS 
                         presented the three phases of their life cycle distributed 
                         throughout the day; v) MCSRS had preferential initiation over the 
                         continent, and vi) MCSRS presented mean preferential trajectory 
                         from west to east.",
                  doi = "10.11137/2014_1_70_80",
                  url = "http://dx.doi.org/10.11137/2014_1_70_80",
                 issn = "0101-9759",
                label = "scopus 2014-05 EichholzCamp:2014:PhFeMe",
             language = "pt",
           targetfile = "Eichholz_caracteristicas.pdf",
        urlaccessdate = "22 jan. 2021"
}


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