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266FERNANDO E. HIRATA ET ALLItal changes in the Tramandaí Lagoon,Southern Brazil, and climatic oscillationsduring the 20th century. Journal of CoastalResearch, 26(4): 736-742.Möller, O. O., Casting, P., Salomon, J. C. & Lazure,P. 2001. The Influence of Local and Non-Local Forcing Effects on the Subtidal Circulationof Patos Lagoon. Estuaries, 24: 297-311.Moron, V., Bigot, S. & Roucou, P. 1995. Rainfallvariability in subequatorial America andAfrica and relationship with the main SSTmodes (1951-1990). International Journalof Climatology, 15: 1297-1322.Nogués-Paegle, J. & Mo, K. 1997. Alternating wetand dry conditions over South America duringsummer. Monthly Weather Review, 125:279-291.Overbeck, G. E., Müller, S. C., Fidelis, A., Pfadenhauer,J., Pillar, V. D., Blanco, C. C., Boldrini,I. I., Both, R. & Forneck, E. D. 2007.Brazil's neglected biome: The South BrazilianCampos. Perspectives in Plant Ecology,Evolution and Systematics, 9: 101-116.Overland, J., Rodionov, S., Minobe, S. & Bond, N.2008. North Pacific regime shifts: Definitions,<strong>issue</strong>s and recent transitions. Progress inOceanography, 77: 92-102.Paes, E. T. & Moraes, L. E. S. 2007. A new hypothesison the impact of the El Niño/La Niñaupon the biological productivity, ecology andfisheries of the Southern Brazilian Bight.Pan-American Journal of Aquatic Sciences,2: 94-102.Paeth, H. & Hense, A. 2004. SST versus climatechange signals in West African rainfall: 20thcentury variations and future projections.Climatic Change, 65:179-208.Raicich, F. 2008. A review of sea level observationsand low frequency sea-level variability inSouth Atlantic. Physics and Chemistry ofthe Earth, 33: 239-249.Robertson, A. W. & Mechoso, C. R. 1998.Interannual and decadal cycles in river flowsof Southeastern South America. Journal ofClimate, 11: 2570-2581.Robertson, A. W., Mechoso, C. R. & Kim, Y-.J.2000. The influence of Atlantic sea surfacetemperature anomalies on the North AtlanticOscillation. Journal of Climate, 13: 122-138.Rodionov, S. N. 2004. A sequential algorithm fortesting climate regime shifts. GeophysicalResearch Letters, 31, L09204, doi: 10.1029/2004GL019448.Rodionov, S. N. 2006. Use of prewhitening inclimate regime shifts detection. GeophysicalResearch Letters, 33, L12707, doi:10.1029/2006GL025904.Stech, J. L. & Lorenzetti, J. A. 1992. The responseof the South Brazil Bight to the passage ofwintertime cold fronts. Journal ofGeophysical Research, 97(C6): 9507-9520.Torrence, C. & Compo, G. P. 1998. A practicalguide to wavelet analysis. Bulletin of the A-merican Meteorological Society, 79: 61-78.von Storch, H. 2005. Misuses of statistical analysisin climate research. Pp 11-26. In: von Storch,H. & A. Navarra (Eds). Analysis of ClimateVariability Applications of Statistical Techniques.Springer, New York, USA, 352 p.Zhang, Y., Wallace, J. M. & Batistti, D. S. 1997.ENSO-like interdecadal variability: 1900-93.Journal of Climate, 10: 1004-1020.Received December 2009Accepted August 2010Published online January 2011Pan-American Journal of Aquatic Sciences (2010), 5(2): 254-266
Potential vulnerability to climate change of the beach-dune system ofthe Peró coastal plain - Cabo Frio, Rio de Janeiro state, BrazilDIETER MUEHE 1 , FÁBIO M. BELLIGOTTI 1 , FLÁVIA M. LINS-DE-BARROS 2 ,JULIO F. DE OLIVEIRA 3 & LUIZ F. P. G. MAIA 41 Programa de Pós-Graduação em Geografia, Instituto de Geociências, Universidade Federal do Rio de Janeiro(IGEO/UFRJ), Cidade Universitária - Ilha do Fundão. Caixa Postal 68537, Rio de Janeiro. CEP 21941-972E-mail: dieter.muehe@gmail.com.2 Instituto Multidisciplinar– Universidade Federal Rural do Rio de Janeiro. Rua. Governador Roberto Silveira s/n,Moquetá, Nova Iguaçu, Rio de Janeiro, RJ. CEP 26020-740.3 Programa de Pós-Graduação em Geociências - Universidade Federal do Rio Grande do Sul. Av. Bento Gonçalves9500, Prédio 43.113 S-207B – Agronomia, Porto Alegre, RS. Cx. P. 15.001. CEP 91509-900.4 Departmento de Meteorologia, Instituto de Geociências, Universidade Federal do Rio de Janeiro (IGEO/UFRJ),Cidade Universitária - Ilha do Fundão. Caixa Postal 68537, Rio de Janeiro. CEP 21941-972.Abstract. The Peró coastal plain is one of the three morphological compartments located between Búziosand Arraial do Cabo, on the east coast of Rio de Janeiro State, characterized by the occurrence of dunefields, driven by northeasterly winds, obliquely oriented in relation to the coastline. In order to evaluate thestability of the coastline as well as of the dune system a topographical and sedimentologicalcharacterrization of the different morphodynamic units was made, consisting of topographic andbathymetric profiling, evaluation of eolian sediment transport through sediment traps, sediment samplingfor grain size analysis and comparison of aerial photographs. The results indicate that during the period ofinvestigation sediment transport from the beach-foredune to the main dune field was largely inhibited bythe presence of vegetation, and that sediment transport was limited to the reworking of its own sedimentstock. Climatic oscillation toward drier periods, whether the result of global climate change or localvariation in the duration of the dry period, will probably trigger the eolian sediment transport due to thereduction of the vegetation cover resulting in the migration of the main dune field towards urban areas. Nocoastal erosion was observed, whether through comparison of aerial photographs of 1970 and 2000 orduring one year of monthly topographic profiling. Nevertheless, a rise in sea level might result in anerosive adjustment of the shoreline as well as in an increase in the flooding of the low lying areas.Key words: Eolian transport, dune stability, beach profile, shoreface profileResumo: Vulnerabilidade potencial às mudanças climáticas do sistema duna-praia da planície costeirado Peró - Cabo Frio, Rio de Janeiro, Brasil. A planície costeira do Peró é um dos três compartimentoscosteiros localizados entre Armação dos Búzios e Arraial do Cabo, no litoral leste do Rio de Janeiro,que se caracterizam pela presença de campos de dunas dispostas obliquamente à linha de costa porefeito do transporte induzido pelo vento nordeste. Para a avaliação da estabilidade da linha de costa e dosistema de dunas foi efetuada uma caracterização topográfica e sedimentológica das diversas unidadesmorfológicas. Os levantamentos consistiram de perfis topográficos e batimétricos, avaliação do transporteeólico por meio de armadilhas de areia durante doze meses consecutivos, coleta de sedimentos para análisegranulométrica e análise de fotos aéreas. Os resultados mostram que no momento atual o sistema dedunas se alimenta do seu próprio estoque sedimentar, sem aporte significativo do sistema praia-dunafrontal. Oscilações do clima para o mais seco, independentemente de mudanças globais, podem reativar otransporte eólico em função da redução do recobrimento vegetal reiniciando a migração das dunas emdireção a áreas urbanizadas. A linha de costa não apresentou tendência de erosão, no entanto uma elevaçãodo nível do mar implicará num ajuste erosivo através de retrogradação da mesma, e aumento dadificuldade de escoamento com resultante inundação das áreas baixas à retaguarda das dunas frontais.Palavras-chave: Transporte eólico, duna, perfil de praia, antepraiaPan-American Journal of Aquatic Sciences (2010) 5(2): 267-276
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