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  • Source: Climate Dynamics. Unidade: IAG

    Subjects: PRECIPITAÇÃO ATMOSFÉRICA, MUDANÇA CLIMÁTICA, BALANÇO HÍDRICO

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      LLOPART, Marta et al. Assessing changes in the atmospheric water budget as drivers for precipitation change over two CORDEX-CORE domains. Climate Dynamics, v. no 2021, p. 1615-1628, 2021Tradução . . Disponível em: https://doi.org/10.1007/s00382-020-05539-1. Acesso em: 03 dez. 2022.
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      Llopart, M., Domingues, L. M., Torma, C., Giorgi, F., Rocha, R. P. da, Ambrizzi, T., et al. (2021). Assessing changes in the atmospheric water budget as drivers for precipitation change over two CORDEX-CORE domains. Climate Dynamics, no 2021, 1615-1628. doi:10.1007/s00382-020-05539-1
    • NLM

      Llopart M, Domingues LM, Torma C, Giorgi F, Rocha RP da, Ambrizzi T, Reboita MS, Alves LM, Coppola E, Silva ML da, Souza DO de. Assessing changes in the atmospheric water budget as drivers for precipitation change over two CORDEX-CORE domains [Internet]. Climate Dynamics. 2021 ; no 2021 1615-1628.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05539-1
    • Vancouver

      Llopart M, Domingues LM, Torma C, Giorgi F, Rocha RP da, Ambrizzi T, Reboita MS, Alves LM, Coppola E, Silva ML da, Souza DO de. Assessing changes in the atmospheric water budget as drivers for precipitation change over two CORDEX-CORE domains [Internet]. Climate Dynamics. 2021 ; no 2021 1615-1628.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05539-1
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: CLIMATOLOGIA, CICLONES, VENTO, CLIMA

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      JESUS, Eduardo Marcos de et al. Multi-model climate projections of the main cyclogenesis hot-spots and associated winds over the eastern coast of South America. Climate Dynamics, v. 56, n. 1-2, p. 537-557, 2021Tradução . . Disponível em: https://doi.org/10.1007/s00382-020-05490-1. Acesso em: 03 dez. 2022.
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      Jesus, E. M. de, Rocha, R. P. da, Crespo, N. M., Reboita, M. S., & Gozzo, L. F. (2021). Multi-model climate projections of the main cyclogenesis hot-spots and associated winds over the eastern coast of South America. Climate Dynamics, 56( 1-2), 537-557. doi:10.1007/s00382-020-05490-1
    • NLM

      Jesus EM de, Rocha RP da, Crespo NM, Reboita MS, Gozzo LF. Multi-model climate projections of the main cyclogenesis hot-spots and associated winds over the eastern coast of South America [Internet]. Climate Dynamics. 2021 ; 56( 1-2): 537-557.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05490-1
    • Vancouver

      Jesus EM de, Rocha RP da, Crespo NM, Reboita MS, Gozzo LF. Multi-model climate projections of the main cyclogenesis hot-spots and associated winds over the eastern coast of South America [Internet]. Climate Dynamics. 2021 ; 56( 1-2): 537-557.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05490-1
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: FONTES NÃO RENOVÁVEIS DE ENERGIA, ENERGIA SOLAR, ENERGIA EÓLICA, MUDANÇA CLIMÁTICA, ÁFRICA DO SUL

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      SAWADOGO, Windmanagda et al. Current and future potential of solar and wind energy over Africa using the RegCM4 CORDEX-CORE ensemble. Climate Dynamics, 2020Tradução . . Disponível em: https://doi.org/10.1007/s00382-020-05377-1. Acesso em: 03 dez. 2022.
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      Sawadogo, W., Reboita, M. S., Faye, A., Rocha, R. P. da, Odoulami, R. C., Olusegun, C. F., et al. (2020). Current and future potential of solar and wind energy over Africa using the RegCM4 CORDEX-CORE ensemble. Climate Dynamics. doi:10.1007/s00382-020-05377-1
    • NLM

      Sawadogo W, Reboita MS, Faye A, Rocha RP da, Odoulami RC, Olusegun CF, Adeniyi MO, Abiodun BJ, Sylla MB, Diallo I, Coppola E, Giorgi F. Current and future potential of solar and wind energy over Africa using the RegCM4 CORDEX-CORE ensemble [Internet]. Climate Dynamics. 2020 ;[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05377-1
    • Vancouver

      Sawadogo W, Reboita MS, Faye A, Rocha RP da, Odoulami RC, Olusegun CF, Adeniyi MO, Abiodun BJ, Sylla MB, Diallo I, Coppola E, Giorgi F. Current and future potential of solar and wind energy over Africa using the RegCM4 CORDEX-CORE ensemble [Internet]. Climate Dynamics. 2020 ;[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05377-1
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: METEOROLOGIA SINÓTICA, RASTREAMENTO, CICLONES, PRECIPITAÇÃO

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    • ABNT

      REBOITA, Michelle Simões et al. Future changes in the wintertime cyclonic activity over the CORDEX-CORE southern hemisphere domains in a multi-model approach. Climate Dynamics, n. ju 2020, 2020Tradução . . Disponível em: https://doi.org/10.1007/s00382-020-05317-z. Acesso em: 03 dez. 2022.
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      Reboita, M. S., Reale, M., Rocha, R. P. da, Giorgi, F., Giuliani, G., Coppola, E., et al. (2020). Future changes in the wintertime cyclonic activity over the CORDEX-CORE southern hemisphere domains in a multi-model approach. Climate Dynamics, ( ju 2020). doi:10.1007/s00382-020-05317-z
    • NLM

      Reboita MS, Reale M, Rocha RP da, Giorgi F, Giuliani G, Coppola E, Luna Nino RB, Llopart M, Torres JA, Cavazos T. Future changes in the wintertime cyclonic activity over the CORDEX-CORE southern hemisphere domains in a multi-model approach [Internet]. Climate Dynamics. 2020 ;( ju 2020):[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05317-z
    • Vancouver

      Reboita MS, Reale M, Rocha RP da, Giorgi F, Giuliani G, Coppola E, Luna Nino RB, Llopart M, Torres JA, Cavazos T. Future changes in the wintertime cyclonic activity over the CORDEX-CORE southern hemisphere domains in a multi-model approach [Internet]. Climate Dynamics. 2020 ;( ju 2020):[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05317-z
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: CLIMATOLOGIA, RECURSOS HÍDRICOS

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    • ABNT

      LLOPART, Marta e REBOITA, Michelle Simões e ROCHA, Rosmeri Porfirio da. Assessment of multi-model climate projections of water resources over South America CORDEX domain. Climate Dynamics, v. 54, n. 1-2, p. 99-116, 2020Tradução . . Disponível em: https://doi.org/10.1007/s00382-019-04990-z. Acesso em: 03 dez. 2022.
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      Llopart, M., Reboita, M. S., & Rocha, R. P. da. (2020). Assessment of multi-model climate projections of water resources over South America CORDEX domain. Climate Dynamics, 54( 1-2), 99-116. doi:10.1007/s00382-019-04990-z
    • NLM

      Llopart M, Reboita MS, Rocha RP da. Assessment of multi-model climate projections of water resources over South America CORDEX domain [Internet]. Climate Dynamics. 2020 ; 54( 1-2): 99-116.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-019-04990-z
    • Vancouver

      Llopart M, Reboita MS, Rocha RP da. Assessment of multi-model climate projections of water resources over South America CORDEX domain [Internet]. Climate Dynamics. 2020 ; 54( 1-2): 99-116.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-019-04990-z
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: PRECIPITAÇÃO ATMOSFÉRICA, CLIMATOLOGIA

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      MAYTA, Victor C et al. Assessing the skill of all-season diverse Madden–Julian oscillation indices for the intraseasonal Amazon precipitation. Climate Dynamics, v. 54, n. 7-8, p. 3729-3749, 2020Tradução . . Disponível em: https://doi.org/10.1007/s00382-020-05202-9. Acesso em: 03 dez. 2022.
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      Mayta, V. C., Silva, N. P., Ambrizzi, T., Silva Dias, P. L. da, & Espinoza, J. C. (2020). Assessing the skill of all-season diverse Madden–Julian oscillation indices for the intraseasonal Amazon precipitation. Climate Dynamics, 54( 7-8), 3729-3749. doi:10.1007/s00382-020-05202-9
    • NLM

      Mayta VC, Silva NP, Ambrizzi T, Silva Dias PL da, Espinoza JC. Assessing the skill of all-season diverse Madden–Julian oscillation indices for the intraseasonal Amazon precipitation [Internet]. Climate Dynamics. 2020 ; 54( 7-8): 3729-3749.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05202-9
    • Vancouver

      Mayta VC, Silva NP, Ambrizzi T, Silva Dias PL da, Espinoza JC. Assessing the skill of all-season diverse Madden–Julian oscillation indices for the intraseasonal Amazon precipitation [Internet]. Climate Dynamics. 2020 ; 54( 7-8): 3729-3749.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-020-05202-9
  • Source: Climate Dynamics. Unidade: IAG

    Subject: CLIMATOLOGIA

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      GOMES, Helber B et al. Climatology of easterly wave disturbances over the tropical South Atlantic. Climate Dynamics, v. 53, n. 3–4, p. 1391-1411, 2019Tradução . . Disponível em: https://doi.org/10.1007/s00382-019-04667-7. Acesso em: 03 dez. 2022.
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      Gomes, H. B., Ambrizzi, T., Pontes da Silva, B. F., Hodges, K., Silva Dias, P. L. da, Herdies, D. L., et al. (2019). Climatology of easterly wave disturbances over the tropical South Atlantic. Climate Dynamics, 53( 3–4), 1391-1411. doi:10.1007/s00382-019-04667-7
    • NLM

      Gomes HB, Ambrizzi T, Pontes da Silva BF, Hodges K, Silva Dias PL da, Herdies DL, Silva MCL da, Gomes HB. Climatology of easterly wave disturbances over the tropical South Atlantic [Internet]. Climate Dynamics. 2019 ; 53( 3–4): 1391-1411.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-019-04667-7
    • Vancouver

      Gomes HB, Ambrizzi T, Pontes da Silva BF, Hodges K, Silva Dias PL da, Herdies DL, Silva MCL da, Gomes HB. Climatology of easterly wave disturbances over the tropical South Atlantic [Internet]. Climate Dynamics. 2019 ; 53( 3–4): 1391-1411.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-019-04667-7
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: METEOROLOGIA AMBIENTAL, CLIMATOLOGIA, CICLONES

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      GRAMCIANINOV, C. B e HODGES, K. I e CAMARGO, Ricardo de. The properties and genesis environments of South Atlantic cyclones. Climate Dynamics, v. 53, n. 7-8, p. 4115-4140, 2019Tradução . . Disponível em: https://doi.org/10.1007/s00382-019-04778-1. Acesso em: 03 dez. 2022.
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      Gramcianinov, C. B., Hodges, K. I., & Camargo, R. de. (2019). The properties and genesis environments of South Atlantic cyclones. Climate Dynamics, 53( 7-8), 4115-4140. doi:10.1007/s00382-019-04778-1
    • NLM

      Gramcianinov CB, Hodges KI, Camargo R de. The properties and genesis environments of South Atlantic cyclones [Internet]. Climate Dynamics. 2019 ; 53( 7-8): 4115-4140.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-019-04778-1
    • Vancouver

      Gramcianinov CB, Hodges KI, Camargo R de. The properties and genesis environments of South Atlantic cyclones [Internet]. Climate Dynamics. 2019 ; 53( 7-8): 4115-4140.[citado 2022 dez. 03 ] Available from: https://doi.org/10.1007/s00382-019-04778-1
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: CLIMATOLOGIA, ATMOSFERA

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      HALL, Nicholas M. J e LEROUX, Stephanie e AMBRIZZI, Tércio. Transient contributions to the forcing of the atmospheric annual cycle: a diagnostic study with the DREAM model. Climate Dynamics, v. 52 n. 11, p. 6719-6733 , 2019Tradução . . Acesso em: 03 dez. 2022.
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      Hall, N. M. J., Leroux, S., & Ambrizzi, T. (2019). Transient contributions to the forcing of the atmospheric annual cycle: a diagnostic study with the DREAM model. Climate Dynamics, 52 n. 11, 6719-6733 . doi:10.1007/s00382-018-4539-y
    • NLM

      Hall NMJ, Leroux S, Ambrizzi T. Transient contributions to the forcing of the atmospheric annual cycle: a diagnostic study with the DREAM model. Climate Dynamics. 2019 ; 52 n. 11 6719-6733 .[citado 2022 dez. 03 ]
    • Vancouver

      Hall NMJ, Leroux S, Ambrizzi T. Transient contributions to the forcing of the atmospheric annual cycle: a diagnostic study with the DREAM model. Climate Dynamics. 2019 ; 52 n. 11 6719-6733 .[citado 2022 dez. 03 ]
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: CLIMATOLOGIA, TEMPERATURA ATMOSFÉRICA, PRECIPITAÇÃO ATMOSFÉRICA

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      VILLAMAYOR, Julián e AMBRIZZI, Tércio e MOHINO, Elsa. Influence of decadal sea surface temperature variability on northern Brazil rainfall in CMIP5 simulations. Climate Dynamics, v. 51, n. 1–2, p. 563–579, 2018Tradução . . Acesso em: 03 dez. 2022.
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      Villamayor, J., Ambrizzi, T., & Mohino, E. (2018). Influence of decadal sea surface temperature variability on northern Brazil rainfall in CMIP5 simulations. Climate Dynamics, 51( 1–2), 563–579. doi:10.1007/s00382-017-3941
    • NLM

      Villamayor J, Ambrizzi T, Mohino E. Influence of decadal sea surface temperature variability on northern Brazil rainfall in CMIP5 simulations. Climate Dynamics. 2018 ; 51( 1–2): 563–579.[citado 2022 dez. 03 ]
    • Vancouver

      Villamayor J, Ambrizzi T, Mohino E. Influence of decadal sea surface temperature variability on northern Brazil rainfall in CMIP5 simulations. Climate Dynamics. 2018 ; 51( 1–2): 563–579.[citado 2022 dez. 03 ]
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: CLIMATOLOGIA, CLIMA, METEOROLOGIA DINÂMICA

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      CUSTODIO, Maria de Souza et al. Impact of increased horizontal resolution in coupled and atmosphere-only models of the HadGEM1 family upon the climate patterns of South America. Climate Dynamics, v. 48, n. 9-10, p. 3341-3364, 2017Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-016-3271-8. Acesso em: 03 dez. 2022.
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      Custodio, M. de S., Rocha, R. P. da, Ambrizzi, T., Vidale, P. L., & Demory, M. E. (2017). Impact of increased horizontal resolution in coupled and atmosphere-only models of the HadGEM1 family upon the climate patterns of South America. Climate Dynamics, 48( 9-10), 3341-3364. doi:10.1007/s00382-016-3271-8
    • NLM

      Custodio M de S, Rocha RP da, Ambrizzi T, Vidale PL, Demory ME. Impact of increased horizontal resolution in coupled and atmosphere-only models of the HadGEM1 family upon the climate patterns of South America [Internet]. Climate Dynamics. 2017 ; 48( 9-10): 3341-3364.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-016-3271-8
    • Vancouver

      Custodio M de S, Rocha RP da, Ambrizzi T, Vidale PL, Demory ME. Impact of increased horizontal resolution in coupled and atmosphere-only models of the HadGEM1 family upon the climate patterns of South America [Internet]. Climate Dynamics. 2017 ; 48( 9-10): 3341-3364.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-016-3271-8
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: MUDANÇA CLIMÁTICA, CLIMATOLOGIA

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      LLOPART, Marta et al. Sensitivity of simulated South America climate to the land surface schemes in RegCM4. Climate Dynamics, v. 49, n. 11-12, p. 3975-3987, 2017Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-017-3557-5. Acesso em: 03 dez. 2022.
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      Llopart, M., Rocha, R. P. da, Reboita, M. S., & Cuadra, S. (2017). Sensitivity of simulated South America climate to the land surface schemes in RegCM4. Climate Dynamics, 49( 11-12), 3975-3987. doi:10.1007/s00382-017-3557-5
    • NLM

      Llopart M, Rocha RP da, Reboita MS, Cuadra S. Sensitivity of simulated South America climate to the land surface schemes in RegCM4 [Internet]. Climate Dynamics. 2017 ; 49( 11-12): 3975-3987.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-017-3557-5
    • Vancouver

      Llopart M, Rocha RP da, Reboita MS, Cuadra S. Sensitivity of simulated South America climate to the land surface schemes in RegCM4 [Internet]. Climate Dynamics. 2017 ; 49( 11-12): 3975-3987.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-017-3557-5
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: ATMOSFERA, ONDAS DE ROSSBY

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      FREITAS, Ana C. V et al. Simulated austral winter response of the Hadley circulation and stationary Rossby wave propagation to a warming climate. Climate Dynamics, v. 49, n. 1-2, p. 521-545, 2017Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-016-3356-4. Acesso em: 03 dez. 2022.
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      Freitas, A. C. V., Frederiksen, J. S., O'Kane, T. J., & Ambrizzi, T. (2017). Simulated austral winter response of the Hadley circulation and stationary Rossby wave propagation to a warming climate. Climate Dynamics, 49( 1-2), 521-545. doi:10.1007/s00382-016-3356-4
    • NLM

      Freitas ACV, Frederiksen JS, O'Kane TJ, Ambrizzi T. Simulated austral winter response of the Hadley circulation and stationary Rossby wave propagation to a warming climate [Internet]. Climate Dynamics. 2017 ; 49( 1-2): 521-545.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-016-3356-4
    • Vancouver

      Freitas ACV, Frederiksen JS, O'Kane TJ, Ambrizzi T. Simulated austral winter response of the Hadley circulation and stationary Rossby wave propagation to a warming climate [Internet]. Climate Dynamics. 2017 ; 49( 1-2): 521-545.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-016-3356-4
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: SECA, OCEANOS, TEMPERATURA, VERÃO, PRECIPITAÇÃO ATMOSFÉRICA

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      COELHO, Caio Augusto dos Santos et al. The 2014 southeast Brazil austral summer drought: regional scale mechanisms and teleconnections. Climate Dynamics, v. 46, n. 11, p. 3737-3752, 2016Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-015-2800-1. Acesso em: 03 dez. 2022.
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      Coelho, C. A. dos S., Oliveira, C. P. de, Ambrizzi, T., Reboita, M. S., Carpenedo, C. B., Campos, J. L. P. S., et al. (2016). The 2014 southeast Brazil austral summer drought: regional scale mechanisms and teleconnections. Climate Dynamics, 46( 11), 3737-3752. doi:10.1007/s00382-015-2800-1
    • NLM

      Coelho CA dos S, Oliveira CP de, Ambrizzi T, Reboita MS, Carpenedo CB, Campos JLPS, Tomaziello ACN, Pampuch LA, Custódio M de S, Dutra LMM, Rocha RP da, Rehbein A. The 2014 southeast Brazil austral summer drought: regional scale mechanisms and teleconnections [Internet]. Climate Dynamics. 2016 ;46( 11): 3737-3752.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-015-2800-1
    • Vancouver

      Coelho CA dos S, Oliveira CP de, Ambrizzi T, Reboita MS, Carpenedo CB, Campos JLPS, Tomaziello ACN, Pampuch LA, Custódio M de S, Dutra LMM, Rocha RP da, Rehbein A. The 2014 southeast Brazil austral summer drought: regional scale mechanisms and teleconnections [Internet]. Climate Dynamics. 2016 ;46( 11): 3737-3752.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-015-2800-1
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: EL NIÑO, METEOROLOGIA TROPICAL, CLIMATOLOGIA

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      REBOITA, Michelle Simões et al. Trend and teleconnection patterns in the climatology of extratropical cyclones over the Southern Hemisphere. Climate Dynamics, v. 45, p. 1929-1944, 2015Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-014-2447-3. Acesso em: 03 dez. 2022.
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      Reboita, M. S., Rocha, R. P. da, Ambrizzi, T., & Gouveia, C. D. (2015). Trend and teleconnection patterns in the climatology of extratropical cyclones over the Southern Hemisphere. Climate Dynamics, 45, 1929-1944. doi:10.1007/s00382-014-2447-3
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      Reboita MS, Rocha RP da, Ambrizzi T, Gouveia CD. Trend and teleconnection patterns in the climatology of extratropical cyclones over the Southern Hemisphere [Internet]. Climate Dynamics. 2015 ; 45 1929-1944.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-014-2447-3
    • Vancouver

      Reboita MS, Rocha RP da, Ambrizzi T, Gouveia CD. Trend and teleconnection patterns in the climatology of extratropical cyclones over the Southern Hemisphere [Internet]. Climate Dynamics. 2015 ; 45 1929-1944.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-014-2447-3
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: TEMPERATURA, PRECIPITAÇÃO ATMOSFÉRICA, CLIMA, INTERAÇÃO AR-MAR

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      FREITAS, Ana C. V et al. Observed and simulated inter‑decadal changes in the structure of Southern Hemisphere large‑scale circulation. Climate Dynamics, 2015Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-015-2519-z. Acesso em: 03 dez. 2022.
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      Freitas, A. C. V., Frederiksen, J. S., Whelan, J., O’Kane, T. J., & Ambrizzi, T. (2015). Observed and simulated inter‑decadal changes in the structure of Southern Hemisphere large‑scale circulation. Climate Dynamics. doi:10.1007/s00382-015-2519-z
    • NLM

      Freitas ACV, Frederiksen JS, Whelan J, O’Kane TJ, Ambrizzi T. Observed and simulated inter‑decadal changes in the structure of Southern Hemisphere large‑scale circulation [Internet]. Climate Dynamics. 2015 ;[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-015-2519-z
    • Vancouver

      Freitas ACV, Frederiksen JS, Whelan J, O’Kane TJ, Ambrizzi T. Observed and simulated inter‑decadal changes in the structure of Southern Hemisphere large‑scale circulation [Internet]. Climate Dynamics. 2015 ;[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-015-2519-z
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: CLIMA, PRECIPITAÇÃO, ANDES

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      SAURRAL, Ramiro Ignacio e CAMILLONI , Inés Angela e AMBRIZZI, Tércio. Links between topography, moisture fluxes pathways and precipitation over South America. Climate Dynamics, v. 45, p. 777-789, 2015Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-014-2309-z. Acesso em: 03 dez. 2022.
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      Saurral, R. I., Camilloni , I. A., & Ambrizzi, T. (2015). Links between topography, moisture fluxes pathways and precipitation over South America. Climate Dynamics, 45, 777-789. doi:10.1007/s00382-014-2309-z
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      Saurral RI, Camilloni IA, Ambrizzi T. Links between topography, moisture fluxes pathways and precipitation over South America [Internet]. Climate Dynamics. 2015 ; 45 777-789.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-014-2309-z
    • Vancouver

      Saurral RI, Camilloni IA, Ambrizzi T. Links between topography, moisture fluxes pathways and precipitation over South America [Internet]. Climate Dynamics. 2015 ; 45 777-789.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-014-2309-z
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: CLIMA (MODELOS), MUDANÇA CLIMÁTICA, AMÉRICA DO SUL

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      SANCHEZ, E et al. Regional climate modelling in CLARIS‑LPB: a concerted approach towards twentyfirst century projections of regional temperature and precipitation over South America. Climate Dynamics, n. 10 Ja 2015, 2015Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-014-2466-0. Acesso em: 03 dez. 2022.
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      Sanchez, E., Solman, S., Remedio, A. R. C., Berbery, H., Samuelsson, P., Rocha, R. P. da, et al. (2015). Regional climate modelling in CLARIS‑LPB: a concerted approach towards twentyfirst century projections of regional temperature and precipitation over South America. Climate Dynamics, ( 10 Ja 2015). doi:10.1007/s00382-014-2466-0
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      Sanchez E, Solman S, Remedio ARC, Berbery H, Samuelsson P, Rocha RP da, Mourão C, Li L, Marengo J, Castro M de, Jacob D. Regional climate modelling in CLARIS‑LPB: a concerted approach towards twentyfirst century projections of regional temperature and precipitation over South America [Internet]. Climate Dynamics. 2015 ;( 10 Ja 2015):[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-014-2466-0
    • Vancouver

      Sanchez E, Solman S, Remedio ARC, Berbery H, Samuelsson P, Rocha RP da, Mourão C, Li L, Marengo J, Castro M de, Jacob D. Regional climate modelling in CLARIS‑LPB: a concerted approach towards twentyfirst century projections of regional temperature and precipitation over South America [Internet]. Climate Dynamics. 2015 ;( 10 Ja 2015):[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-014-2466-0
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: TEMPERATURA, OCEANOS, INTERAÇÃO AR-MAR, OCEANO ATLÂNTICO

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      JORGETTI, Tatiana e SILVA DIAS, Pedro Leite da e FREITAS, Edmílson Dias de. The relationship between South Atlantic SST and SACZ intensity and positioning. Climate Dynamics, v. 42, p. 3077\20133086, 2014Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-013-1998-z. Acesso em: 03 dez. 2022.
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      Jorgetti, T., Silva Dias, P. L. da, & Freitas, E. D. de. (2014). The relationship between South Atlantic SST and SACZ intensity and positioning. Climate Dynamics, 42, 3077\20133086. doi:10.1007/s00382-013-1998-z
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      Jorgetti T, Silva Dias PL da, Freitas ED de. The relationship between South Atlantic SST and SACZ intensity and positioning [Internet]. Climate Dynamics. 2014 ; 42 3077\20133086.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-013-1998-z
    • Vancouver

      Jorgetti T, Silva Dias PL da, Freitas ED de. The relationship between South Atlantic SST and SACZ intensity and positioning [Internet]. Climate Dynamics. 2014 ; 42 3077\20133086.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-013-1998-z
  • Source: Climate Dynamics. Unidade: IAG

    Subjects: RADIAÇÃO ATMOSFÉRICA, CLIMA, AMÉRICA DO SUL

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      PESSACG, Natalia L et al. The surface radiation budget over South America in a set of regional climate models from the CLARIS-LPB project. Climate Dynamics, v. 43, p. 1221-1239, 2014Tradução . . Disponível em: http://dx.doi.org/10.1007/s00382-013-1916-4. Acesso em: 03 dez. 2022.
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      Pessacg, N. L., Solmán, S. A., Samuelsson, P., Sanchez, E., Marengo, J., Li, L., et al. (2014). The surface radiation budget over South America in a set of regional climate models from the CLARIS-LPB project. Climate Dynamics, 43, 1221-1239. doi:10.1007/s00382-013-1916-4
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      Pessacg NL, Solmán SA, Samuelsson P, Sanchez E, Marengo J, Li L, Remedio ARC, Rocha RP da, Mourão C, Jacob D. The surface radiation budget over South America in a set of regional climate models from the CLARIS-LPB project [Internet]. Climate Dynamics. 2014 ; 43 1221-1239.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-013-1916-4
    • Vancouver

      Pessacg NL, Solmán SA, Samuelsson P, Sanchez E, Marengo J, Li L, Remedio ARC, Rocha RP da, Mourão C, Jacob D. The surface radiation budget over South America in a set of regional climate models from the CLARIS-LPB project [Internet]. Climate Dynamics. 2014 ; 43 1221-1239.[citado 2022 dez. 03 ] Available from: http://dx.doi.org/10.1007/s00382-013-1916-4

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