Seasonal changes in the mixed and barrier layers in the western Equatorial Atlantic

Silva, Alex; Araujo, Moacyr; Medeiros, Carmen; Silva, Marcus; Bourles, Bernard

Abstracts

Climate is closely related to the dynamics of the surface layer of the tropical Atlantic and the exchange between this latter and the atmosphere, and wearther forecasting will improve with increasing understanding of the processes that govern the relative distribution of thermodynamic properties of the water column. This paper focuses on the isolation of warm surface waters from the cold ones of the deep ocean by a salinity induced barrier layer (BL) in the western equatorial Atlantic (3ºS-7ºN; 40º-52ºW), based on 487 CTD profiles (REVIZEE - 1995-2001). The main process contributing to the seasonal BL formation is the discharge of low salinity waters from the Amazon river. During boreal late winter/spring (Mar-May; high river discharge), deeper isothermal (Z T) and mixed layers (Z M) prevail and the formation of a 16m-thick BL was clearly determined the formation of a salt-induced marked pycnocline within a deeper isothermal layer. However, during the boreal autumn (Oct-Dec; low river discharge), density stratification was mainly determined by temperature distribution (Z M m Z T; BLT = Z M - Z T m 0). There was no clear register of a BL on the Amazon shelf, but a maximum BL (40 m) formed near the shelf break at 45°W.

Halocline; Thermocline; Heat exchange; Coastal waters; Barrier layer; Amazon; Lat 3°S-7°N; Long 40°W-52°W

O clima está fortemente relacionado com a dinâmica da camada superficial do Atlântico tropical e com as trocas entre esta e a atmosfera, e a previsão do tempo melhorará à medida em que ganhemos um melhor entendimento dos processos que governam a distribuição relativa das propriedades termodinâmicas na coluna d'água. O presente trabalho focaliza o isolamento das águas quentes superficiais das águas frias profundas pela camada de barreira (CB) induzida pela salinidade no Atlântico Equatorial Oeste (3ºS-7ºN; 40º-52ºW), com base em 487 perfis de CTD (REVIZEE - 1995-2001). O principal processo que contribue para a formação sazonal da CB é a descarga fluvial de águas doces do rio Amazonas. Durante o final do inverno/primavera boreal (Mar-Mai; alta descarga), prevalecem camadas isotérmica (Z T) e de mistura (Z M) mais profundas e a formação de uma CB com 16m de espessura foi governada pelo estabelecimento de uma forte picnoclina induzida pela salinidade, no interior da camada isotérmica. Entretanto, durante o outono boreal (Out-Dez; baixa descarga), estratificações em densidade foram principalmente controladas pela distribuição de temperatura (Z M m Z T; ECB = Z M - Z T m 0). Embora não tenha registrado uma CB sobre a plataforma Amazônica, uma CB máxima (40m) foi formada próxima à quebra da plataforma a 45°W.

Haloclina; Termoclina; Trocas de Calor; Águas Costeiras; Camada Barreira; Amazonas; Lat 3°S-7°N; Long 40°W-52°W

Ando, K. & McPhaden, M. J. 1997. Variability of surface layer hydrography in the tropical Pacific Ocean. J. geophys. Res., 102:23063-23078.
²
Beardsley, R. C.; Candela, J.; Limeburner, R.; Geyer, W. R.; Lentz, S. J., Castro, B. M.; Cacchione, D. & Carneiro, N. 1995. The M₂ tide on the Amazon shelf. Continent. Shelf Res., 100:2283-2319.
Blanck, H. F. 1999. Using TOPEX Satellite El-Niño altimetry data to introduce thermal expansion and heat capacity concepts in chemistry courses. J. Chem. Educ., 76:1635-1646.
Boebel, O.; Davis, R. E.; Ollitrault, M.; Peterson, R. G.; Richardson, P. L.; Schmid, C. & Zenk, W. 1999. The intermediate depth circulation of the western south Atlantic. Geophys Res. Letts, 26:3329-3332.
Bourlès, B.; D'Orgeville, M.; Eldin, G.; Gouriou, Y.; Chuchla, R.; DuPenhoat, Y. & Aranault, S. 2002. On the evolution of the thermocline and subthermocline eastward currents in the equatorial Atlantic. Geophys Res. Letts, 29, 10.1029/2002GL015098.
Bourlès, B., Molinari, R.L., Johns, E., Wilson, W.D., Leaman, K.D., 1999. Upper layer currents in the western tropical north Atlantic (1989-1991). J. Geophys. Res., 104, 1361-1375.
Brainerd, K. E. & Gregg, M. C. 1995. Surface mixed and mixing layer depths. Deep-Sea Res. I, 42: 1521-1543.
Carton, J. A. 1991. Effect of seasonal surface freshwater flux on sea surface temperature in the Tropical Atlantic Ocean. J. geophys. Res., 96:12593-12598.
Chang, P.; Ji, L. & Li, H. 1997. A decadal climate variation in the tropical Atlantic ocean from thermodynamic air-sea interactions. Nature, 385:516-518.
Cronin, M. F. & McPhaden, M. J. 2002. Barrier layer formation during westerly wind bursts. J. geophys. Res, 107(C12):2101-2112.
Curtin, T. B. 1986. Physical observations in the plume region of the Amazon River during peak discharge - II. Water masses. Continent. Shelf Res., 6:53-71.
da Silva, A.; Young, A. C. & Levitus, S. 1994. Atlas of surface marine data 1994, Vol. I : Algorithms and procedures. NOAA Atlas NESDIS 6, U.S Washington, D.C. Department of Commerce.
Defant, A., 1961. Physical oceanography, vol. I. New York, Pergamon Press. 729 p.
DHN (Diretoria de Hidrografia e Navegação), 2003. Tábuas das Marés. Marinha do Brasil, Divisão de Hidrografia e Navegação. 7 p.
Enfield, D.B., 1996. Relationships of inter-American rainfall to tropical Atlantic and Pacific SST variability. Geophys. Res. Lettes 23:3505-3508.
Enfield, D. B. & Mayer, D. A. 1997. Tropical Atlantic SST variability and its relation to El-Niño Southern Oscillation. J. geophys Res. 102, 929-945.
Folland, C. K.; Palmer, T. N. & Parker, D. E. 1986. Sahel rainfall and worldwide sea temperatures. Nature, 320:602-607.
Geyer, W. R.; Beardsley, R. C.; Lentz, S. J.; Candela, J.; Limeburner, R.; Johns, W. E.; Castro, B. M. & Soares, I. D. 1996. Physical oceanography of the Amazon shelf. Continent. Shelf Res., 16:575-616.
Hastenrath, S. 1977. Hemispheric asymmetry of ocean heat budget in the equatorial Atlantic and eastern Pacific. Tellus, 29:523-529.
Hu, C.; Montgomery, E. T.; Schmitt, R. W. & Müller-Karger, F. E. 2004. The Amazon and Orinoco river plumes in the tropical Atlantic and Caribbean sea: observation from space and S-PALACE floats. Deep-Sea Res. II, 51:1151-1171.
Huang, B. & Shukla, J. 1997. Characteristics of the interannual and decadal variability in a general circulation model of the tropical Atlantic ocean. J. phys. Oceanogr., 27:1693-1712.
Johns, W. E.; Lee, T. N.; Schott, F. A.; Zantopp, R. J. & Evans, R. H. 1990. The North Brazil Current retroflection: seasonal structure and eddy variability. J. geophys Res., 95:22103-22120.
Johns, W. E.; Lee, T. N.; Beardsley, R. C.; Candela, J.; Limeburner, R. & Castro, B. M. 1998. Annual cycle and variability of the North Brazil Current. J. geophys. Res., 28:103-128.
Kara, A. B.; Rochford, P. A. & Hurlburt, H. E. 2000. Mixed layer depth variability and barrier layer formation over the north Pacific Ocean. J. Geophys. Res., 105:16783-16801.
Lau, N. C. & Nath, M. J. 1994. A modelling study of the relative roles of tropical and extra tropical anomalies in the variability of the global atmosphere-ocean system. J. Climate, 7:1184-1207.
Levitus, S. 1982. Climatological atlas of the World Ocean. NOAA Prof. Paper 13. U.S. Govt. Printing Office. 173 p.
Lukas, R. & Lindström, E. 1991. The mixed layer of the western equatorial Pacific Ocean. J. geophys. Res., (Suppl.), 96:3343-3357.
Masson, S. & Delecluse, P. 2001. Influence of the Amazon River runoff on the tropical Atlantic. Phys. Chem. Earth. B, 26:137-142.
Metcalf, W. 1968. Shallow currents along the northeastern coast of South America. J. mar. Res 26:232-243.
Merle, J. 1980. Seasonal heat budget in the equatorial Atlantic ocean. J. phys. Res., 10:464-469.
Miller, J. R. 1976. The salinity effect on a mixed layer ocean model. J. phys. Res., 6:29-35.
Minster, J.-F.; Genco, M.-L. & Brossier, C. 1995. Variations of the sea level in the Amazon estuary. Continent. Shelf. Res., 15:1287-1302.
Molinier, M.; Guyot, J. L.; Callède, J.; Guimarães, V.; Oliveira, E. & Filizola, N. 1997. Hydrologie du bassin amazonien. In: Thery, H. (ed.), Environnement et développement en Amazonie brésilienne. Berlin, Springer. p. 24-41.
Molinier, M.; Guyot, J. L.; Callède, J.; Guimarães, V. & Oliveira, E. 1999. La variabilité hydrologique du bassin amazonien et la circulation atmosphérique océanique. In: INTERNATIONAL SYMPOSIUM ON HYDROLOGICAL AND GEOCHEMICAL PROCESSES IN LARGE SCALE RIVER BASINS. Manaus, 1999. Extended abstracts. Brasília, HIBAM, 1999.
Monterrey, G. & Levitus, S. 1997.Seasonal variability of mixed layer depth for the world ocean. NOAA Atlas NESDIS 14. Washington, D.C., U.S. Department of Commerce. 100 p.
Müller-Karger, F. E.; McClain, C. R. & Richardson, P. 1988. The dispersal of Amazon's water. Nature, 333:56-59.
Nittrouer, C. A. & DeMaster, D. J. 1996. The Amazon shelf setting - tropical, energetic and influenced by a large river. Continent. Shelf Res., 16:553-573.
Nobre, P. & Shukla, J. 1996. Variations of sea surface temperature, wind stress, and rainfall over the tropical Atlantic and South America. J. Climate, 10:2725-2742.
Ohlmann, J. C.; Siegel, D. A. & Gautier, C. 1996. Ocean mixed layer depth heating and solar penetration: A global analysis. J. Climate, 9:2265-2280.
Pailler, K.; Bourlès, B. & Gouriou, Y. 1999. The barrier layer in the western Atlantic Ocean. Geophys. Res. Lettes., 26:2069-2072.
Penland, C. & Matrasova, L. 1998. Prediction of tropical Atlantic sea surface temperatures using linear inverse modelling. J. Climate 11, 483-496.
Perry, G. D.; Duffy, P. B. & Miller, N. L. 1996. An extended data set of river discharges for validation of general circulation models. J. geophys. Res.,, 101:21339-21349.
Project HiBAm - Hidrologia e Geoquímica da Bacia Ama-zônica, 2003. http://www.unb.br/ig/hibam/hibam.htm Access: Oct. 29, 2003.
Saravanan, R. & Chang, P. 2000. Interaction between Pacific ENSO and tropical Atlantic climate variability. J. Climate, 13:2177-2194.
Schott, F. A.; Stramma, L. & Fischer, J. 1995. The warm water inflow into the western tropical Atlantic boundary regime, Spring 1994. J. Geophys. Res., 100:24745-24760.
Schott, F. A.; Fischer, J. & Stramma, L. 1998. Transports and pathways of the upper-layer circulation in the western tropical Atlantic. J. phys. Oceanogr., 28:1904-1928.
Servain, J. 1991. Simple climatic indices for the tropical Atlantic ocean and some applications. J. Geophys. Res., 96:15137-15146.
Silva, A. C. & El-Robrini, M. 2003. Programa Nacional de Avaliação do Potencial Sustentável de Recursos Vivos da Zona Econômica Exclusiva. Sub-comitê para a região Norte - SCORE/NO. Relatório Final Oceanografia Física. Belém do Pará, Universidade Federal do Pará. 59 p.
Spall, M. A. 1991. A diagnostic study of wind- and buoyancy- driven north Atlantic circulation. J. geophys. Res., 96:18509-18518.
Sprintall, J. & Tomczak, M. 1990. Salinity considerations in the oceanic surface mixed layer. Ocean Sciences Institute Rep., 36:1-170.
Sprintall, J. & Tomczak, M. 1992. Evidences of the barrier layer in the surface layer of the tropics. J. geophys. Res., 97:7305-7316.
Stramma, L.; Fischer, J. & Reppin, 1995. The North Brazil Undercurrent. Deep-Sea Res. I, 42:773-795.
Stramma, L.; Rhein, M.; Brandt, P.; Dengler, M.; Boning, C. & Walter, M. 2005. Upper ocean circulation in the western tropical Atlantic in boreal fall 2000. Deep-Sea Res. I, 52:221-240.
Swenson, M. S. & Hansen, D. V. 1999. Tropical Pacific ocean mixed layer heat budget: The Pacific cold tongue. J. phys. Oceanogr., 29:69-81.
Vialard, J. & Delecluse, P. 1998a. An OGCM study for TOGA decade. Part I: Role of salinity in the physics of the western Pacific fresh pool. J. phys. Oceanogr., 28:1071-1088.
Vialard, J. & Delecluse, P. 1998b. An OGCM study for TOGA decade. Part II: Barrier layer formation and variability. J. phys. Oceanogr., 28:1089-1106.
Wyrtki, K. 1964. The thermal structure of the eastern Pacific Ocean. Deutsche Hydrographische Zeitung, Ergänzungsheft A 6, 84 pp.
You, Y. 1998. Rain-formed barrier layer of the western equatorial Pacific warm pool: A case study. J. Geophys. Res., 103:5361-5378.
Zebiak, S.E., 1993. Air-sea interaction in the equatorial Atlantic region. J. Climate, 6:1567-1586.

Publication Dates

Publication in this collection
08 July 2009
Date of issue
Dec 2005

History

Accepted
16 Sept 2005
Reviewed
03 June 2005
Received
22 Feb 2005

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] Ando, K. & McPhaden, M. J. 1997. Variability of surface layer hydrography in the tropical Pacific Ocean. J. geophys. Res., 102:23063-23078.

[2] ²
Beardsley, R. C.; Candela, J.; Limeburner, R.; Geyer, W. R.; Lentz, S. J., Castro, B. M.; Cacchione, D. & Carneiro, N. 1995. The M₂ tide on the Amazon shelf. Continent. Shelf Res., 100:2283-2319.

[3] Blanck, H. F. 1999. Using TOPEX Satellite El-Niño altimetry data to introduce thermal expansion and heat capacity concepts in chemistry courses. J. Chem. Educ., 76:1635-1646.

[4] Boebel, O.; Davis, R. E.; Ollitrault, M.; Peterson, R. G.; Richardson, P. L.; Schmid, C. & Zenk, W. 1999. The intermediate depth circulation of the western south Atlantic. Geophys Res. Letts, 26:3329-3332.

[5] Bourlès, B.; D'Orgeville, M.; Eldin, G.; Gouriou, Y.; Chuchla, R.; DuPenhoat, Y. & Aranault, S. 2002. On the evolution of the thermocline and subthermocline eastward currents in the equatorial Atlantic. Geophys Res. Letts, 29, 10.1029/2002GL015098.

[6] Bourlès, B., Molinari, R.L., Johns, E., Wilson, W.D., Leaman, K.D., 1999. Upper layer currents in the western tropical north Atlantic (1989-1991). J. Geophys. Res., 104, 1361-1375.

[7] Brainerd, K. E. & Gregg, M. C. 1995. Surface mixed and mixing layer depths. Deep-Sea Res. I, 42: 1521-1543.

[8] Carton, J. A. 1991. Effect of seasonal surface freshwater flux on sea surface temperature in the Tropical Atlantic Ocean. J. geophys. Res., 96:12593-12598.

[9] Chang, P.; Ji, L. & Li, H. 1997. A decadal climate variation in the tropical Atlantic ocean from thermodynamic air-sea interactions. Nature, 385:516-518.

[10] Cronin, M. F. & McPhaden, M. J. 2002. Barrier layer formation during westerly wind bursts. J. geophys. Res, 107(C12):2101-2112.

[11] Curtin, T. B. 1986. Physical observations in the plume region of the Amazon River during peak discharge - II. Water masses. Continent. Shelf Res., 6:53-71.

[12] da Silva, A.; Young, A. C. & Levitus, S. 1994. Atlas of surface marine data 1994, Vol. I : Algorithms and procedures. NOAA Atlas NESDIS 6, U.S Washington, D.C. Department of Commerce.

[13] Defant, A., 1961. Physical oceanography, vol. I. New York, Pergamon Press. 729 p.

[14] DHN (Diretoria de Hidrografia e Navegação), 2003. Tábuas das Marés. Marinha do Brasil, Divisão de Hidrografia e Navegação. 7 p.

[15] Enfield, D.B., 1996. Relationships of inter-American rainfall to tropical Atlantic and Pacific SST variability. Geophys. Res. Lettes 23:3505-3508.

[16] Enfield, D. B. & Mayer, D. A. 1997. Tropical Atlantic SST variability and its relation to El-Niño Southern Oscillation. J. geophys Res. 102, 929-945.

[17] Folland, C. K.; Palmer, T. N. & Parker, D. E. 1986. Sahel rainfall and worldwide sea temperatures. Nature, 320:602-607.

[18] Geyer, W. R.; Beardsley, R. C.; Lentz, S. J.; Candela, J.; Limeburner, R.; Johns, W. E.; Castro, B. M. & Soares, I. D. 1996. Physical oceanography of the Amazon shelf. Continent. Shelf Res., 16:575-616.

[19] Hastenrath, S. 1977. Hemispheric asymmetry of ocean heat budget in the equatorial Atlantic and eastern Pacific. Tellus, 29:523-529.

[20] Hu, C.; Montgomery, E. T.; Schmitt, R. W. & Müller-Karger, F. E. 2004. The Amazon and Orinoco river plumes in the tropical Atlantic and Caribbean sea: observation from space and S-PALACE floats. Deep-Sea Res. II, 51:1151-1171.

[21] Huang, B. & Shukla, J. 1997. Characteristics of the interannual and decadal variability in a general circulation model of the tropical Atlantic ocean. J. phys. Oceanogr., 27:1693-1712.

[22] Johns, W. E.; Lee, T. N.; Schott, F. A.; Zantopp, R. J. & Evans, R. H. 1990. The North Brazil Current retroflection: seasonal structure and eddy variability. J. geophys Res., 95:22103-22120.

[23] Johns, W. E.; Lee, T. N.; Beardsley, R. C.; Candela, J.; Limeburner, R. & Castro, B. M. 1998. Annual cycle and variability of the North Brazil Current. J. geophys. Res., 28:103-128.

[24] Kara, A. B.; Rochford, P. A. & Hurlburt, H. E. 2000. Mixed layer depth variability and barrier layer formation over the north Pacific Ocean. J. Geophys. Res., 105:16783-16801.

[25] Lau, N. C. & Nath, M. J. 1994. A modelling study of the relative roles of tropical and extra tropical anomalies in the variability of the global atmosphere-ocean system. J. Climate, 7:1184-1207.

[26] Levitus, S. 1982. Climatological atlas of the World Ocean. NOAA Prof. Paper 13. U.S. Govt. Printing Office. 173 p.

[27] Lukas, R. & Lindström, E. 1991. The mixed layer of the western equatorial Pacific Ocean. J. geophys. Res., (Suppl.), 96:3343-3357.

[28] Masson, S. & Delecluse, P. 2001. Influence of the Amazon River runoff on the tropical Atlantic. Phys. Chem. Earth. B, 26:137-142.

[29] Metcalf, W. 1968. Shallow currents along the northeastern coast of South America. J. mar. Res 26:232-243.

[30] Merle, J. 1980. Seasonal heat budget in the equatorial Atlantic ocean. J. phys. Res., 10:464-469.

[31] Miller, J. R. 1976. The salinity effect on a mixed layer ocean model. J. phys. Res., 6:29-35.

[32] Minster, J.-F.; Genco, M.-L. & Brossier, C. 1995. Variations of the sea level in the Amazon estuary. Continent. Shelf. Res., 15:1287-1302.

[33] Molinier, M.; Guyot, J. L.; Callède, J.; Guimarães, V.; Oliveira, E. & Filizola, N. 1997. Hydrologie du bassin amazonien. In: Thery, H. (ed.), Environnement et développement en Amazonie brésilienne. Berlin, Springer. p. 24-41.

[34] Molinier, M.; Guyot, J. L.; Callède, J.; Guimarães, V. & Oliveira, E. 1999. La variabilité hydrologique du bassin amazonien et la circulation atmosphérique océanique. In: INTERNATIONAL SYMPOSIUM ON HYDROLOGICAL AND GEOCHEMICAL PROCESSES IN LARGE SCALE RIVER BASINS. Manaus, 1999. Extended abstracts. Brasília, HIBAM, 1999.

[35] Monterrey, G. & Levitus, S. 1997.Seasonal variability of mixed layer depth for the world ocean. NOAA Atlas NESDIS 14. Washington, D.C., U.S. Department of Commerce. 100 p.

[36] Müller-Karger, F. E.; McClain, C. R. & Richardson, P. 1988. The dispersal of Amazon's water. Nature, 333:56-59.

[37] Nittrouer, C. A. & DeMaster, D. J. 1996. The Amazon shelf setting - tropical, energetic and influenced by a large river. Continent. Shelf Res., 16:553-573.

[38] Nobre, P. & Shukla, J. 1996. Variations of sea surface temperature, wind stress, and rainfall over the tropical Atlantic and South America. J. Climate, 10:2725-2742.

[39] Ohlmann, J. C.; Siegel, D. A. & Gautier, C. 1996. Ocean mixed layer depth heating and solar penetration: A global analysis. J. Climate, 9:2265-2280.

[40] Pailler, K.; Bourlès, B. & Gouriou, Y. 1999. The barrier layer in the western Atlantic Ocean. Geophys. Res. Lettes., 26:2069-2072.

[41] Penland, C. & Matrasova, L. 1998. Prediction of tropical Atlantic sea surface temperatures using linear inverse modelling. J. Climate 11, 483-496.

[42] Perry, G. D.; Duffy, P. B. & Miller, N. L. 1996. An extended data set of river discharges for validation of general circulation models. J. geophys. Res.,, 101:21339-21349.

[43] Project HiBAm - Hidrologia e Geoquímica da Bacia Ama-zônica, 2003. http://www.unb.br/ig/hibam/hibam.htm Access: Oct. 29, 2003.

[44] Saravanan, R. & Chang, P. 2000. Interaction between Pacific ENSO and tropical Atlantic climate variability. J. Climate, 13:2177-2194.

[45] Schott, F. A.; Stramma, L. & Fischer, J. 1995. The warm water inflow into the western tropical Atlantic boundary regime, Spring 1994. J. Geophys. Res., 100:24745-24760.

[46] Schott, F. A.; Fischer, J. & Stramma, L. 1998. Transports and pathways of the upper-layer circulation in the western tropical Atlantic. J. phys. Oceanogr., 28:1904-1928.

[47] Servain, J. 1991. Simple climatic indices for the tropical Atlantic ocean and some applications. J. Geophys. Res., 96:15137-15146.

[48] Silva, A. C. & El-Robrini, M. 2003. Programa Nacional de Avaliação do Potencial Sustentável de Recursos Vivos da Zona Econômica Exclusiva. Sub-comitê para a região Norte - SCORE/NO. Relatório Final Oceanografia Física. Belém do Pará, Universidade Federal do Pará. 59 p.

[49] Spall, M. A. 1991. A diagnostic study of wind- and buoyancy- driven north Atlantic circulation. J. geophys. Res., 96:18509-18518.

[50] Sprintall, J. & Tomczak, M. 1990. Salinity considerations in the oceanic surface mixed layer. Ocean Sciences Institute Rep., 36:1-170.

[51] Sprintall, J. & Tomczak, M. 1992. Evidences of the barrier layer in the surface layer of the tropics. J. geophys. Res., 97:7305-7316.

[52] Stramma, L.; Fischer, J. & Reppin, 1995. The North Brazil Undercurrent. Deep-Sea Res. I, 42:773-795.

[53] Stramma, L.; Rhein, M.; Brandt, P.; Dengler, M.; Boning, C. & Walter, M. 2005. Upper ocean circulation in the western tropical Atlantic in boreal fall 2000. Deep-Sea Res. I, 52:221-240.

[54] Swenson, M. S. & Hansen, D. V. 1999. Tropical Pacific ocean mixed layer heat budget: The Pacific cold tongue. J. phys. Oceanogr., 29:69-81.

[55] Vialard, J. & Delecluse, P. 1998a. An OGCM study for TOGA decade. Part I: Role of salinity in the physics of the western Pacific fresh pool. J. phys. Oceanogr., 28:1071-1088.

[56] Vialard, J. & Delecluse, P. 1998b. An OGCM study for TOGA decade. Part II: Barrier layer formation and variability. J. phys. Oceanogr., 28:1089-1106.

[57] Wyrtki, K. 1964. The thermal structure of the eastern Pacific Ocean. Deutsche Hydrographische Zeitung, Ergänzungsheft A 6, 84 pp.

[58] You, Y. 1998. Rain-formed barrier layer of the western equatorial Pacific warm pool: A case study. J. Geophys. Res., 103:5361-5378.

[59] Zebiak, S.E., 1993. Air-sea interaction in the equatorial Atlantic region. J. Climate, 6:1567-1586.

Brasil

Brasil

Seasonal changes in the mixed and barrier layers in the western Equatorial Atlantic

Abstracts

Publication Dates

History