Dynamical contribution to sea surface salinity variations in the eastern Gulf of Guinea based on numerical modelling
详细信息    查看全文
  • 作者:Henrick Berger (1) (2)
    Anne Marie Treguier (1)
    Nicolas Perenne (2)
    Claude Talandier (1)
  • 关键词:Gulf of Guinea ; Salinity ; Modelling ; Congo ; Bight of Biafra ; Mixed layer budget
  • 刊名:Climate Dynamics
  • 出版年:2014
  • 出版时间:December 2014
  • 年:2014
  • 卷:43
  • 期:11
  • 页码:3105-3122
  • 全文大小:6,397 KB
  • 参考文献:1. Barnier B, Madec G, Penduff T, Molines JM, Treguier AM, Le Sommer J, Beckmann A, Biastoch A, B?ning C, Dengg J et al (2006) Impact of partial steps and momentum advection schemes in a global ocean circulation model at eddy-permitting resolution. Ocean Dyn 56(5-):543-67
    2. Berger H (2012) Origine des variations de la salinité de surface dans le Golfe de Guinée: analyse saisonnière et interannuelle à partir d’un modèle numérique. PhD thesis, Universite de Bretagne Occidentale, Ecole Doctorale des Sciences de la Mer
    3. Blanke B, Delecluse P (1993) Variability of the tropical atlantic ocean simulated by a general circulation model with two different mixed-layer physics. J Phys Oceanogr 23(7):1363-388 CrossRef
    4. Blanke B, Arhan M, Lazar A (2002) A lagrangian numerical investigation of the origins and fates of the salinity maximum water in the atlantic. J Geophys Res Oceans (1978-012) 107(C10):1-7
    5. Bourlès B, Lumpkin R, McPhaden MJ, Hernandez F, Nobre P, Campos E, Yu L, Planton S, Busalacchi AJ, Moura AD et al (2008) The pirata program: history, accomplishments, and future directions. Bull Am Meteorol Soc 89:1111-125 CrossRef
    6. Brodeau L, Barnier B, Treguier AM, Penduff T, Gulev S (2010) An era40-based atmospheric forcing for global ocean circulation models. Ocean Model 31(3):88-04 CrossRef
    7. Da-Allada CY, Alory G, Penhoat Yd, Kestenare E, Durand F, Hounkonnou N (2013a) Seasonal mixed-layer salinity balance in the tropical atlantic ocean: Mean state and seasonal cycle. J Geophys Res Oceans?118(1). doi:10.1029/2012JC008357
    8. Da-Allada CY, Penhoat Yd, Alory G, Jouanno J, Hounkonnou N (2013b) Modeled mixed layer balance in the gulf of guinea; seasonal and inter annual variability. Submitted to Ocean dynamic
    9. Dai A, Trenberth KE (2002) Estimates of freshwater discharge from continents: latitudinal and seasonal variations. J Hydrometeorol 3(6):660-87 CrossRef
    10. Dai A, Qian T, Trenberth KE, Milliman JD (2009) Changes in continental freshwater discharge from 1948 to 2004. J Clim 22(10):2773-792 CrossRef
    11. de Boyer Montegut, C, Madec G, Fischer AS, Lazar A, Iudicone D (2004) Mixed layer depth over the global ocean: an examination of profile data and a profile-based climatology. J Geophys Res Oceans (1978-012) 109(C12). doi:10.1029/2004JC002378
    12. Debreu L, Blayo E (2008) Two-way embedding algorithms: a review. Ocean Dyn 58(5-):415-28 CrossRef
    13. Delcroix T, McPhaden MJ, Dessier A, Gouriou Y (2005) Time and space scales for sea surface salinity in the tropical oceans. Deep Sea Res Part I Oceanogr Res Pap 52(5):787-13 CrossRef
    14. Dessier A, Donguy JR (1994) The sea surface salinity in the tropical atlantic between 10 s and 30 seasonal and interannual variations (1977-989). Deep Sea Res Part I Oceanogr Res Pap 41(1):81-00 CrossRef
    15. Eisma D, Van Bennekom A (1978) The zaire river and estuary and the zaire outflow in the atlantic ocean. Neth J Sea Res 12(3):255-72 CrossRef
    16. Ferry N, Reverdin G (2004) Sea surface salinity interannual variability in the western tropical atlantic: an ocean general circulation model study. J Geophys Res Oceans (1978-012) 109(C5). doi:10.1029/2003JC002122
    17. Gaillard F, Autret E, Thierry V, Galaup P, Coatanoan C, Loubrieu T (2009) Quality control of large argo datasets. J Atmos Oceanic Technol 26(2):337-51 CrossRef
    18. Giordani H, Caniaux G (2011) Diagnosing vertical motion in the equatorial atlantic. Ocean Dyn 61(12):1995-018
文摘
In this study, we analyse the seasonal variability of the sea surface salinity (SSS) for two coastal regions of the Gulf of Guinea from 1995 to 2006 using a high resolution model (1/12°) embedded in a Tropical Atlantic (1/4°) model. Compared with observations and climatologies, our model demonstrates a good capability to reproduce the seasonal and spatial variations of the SSS and mixed layer depth. Sensitivity experiments are carried out to assess the respective impacts of precipitations and river discharge on the spatial structure and seasonal variations of the SSS in the eastern part of the Gulf of Guinea. In the Bight of Biafra, both precipitations and river runoffs are necessary to observe permanent low SSS values but the river discharge has the strongest impact on the seasonal variations of the SSS. South of the equator, the Congo river discharge alone is sufficient to explain most of the SSS structure and its seasonal variability. However, mixed layer budgets for salinity reveal the necessity to take into account the horizontal and vertical dynamics to explain the seasonal evolution of the salinity in the mixed layer. Indeed evaporation, precipitations and runoffs represent a relatively small contribution to the budgets locally at intraseasonal to seasonal time scales. Horizontal advection always contribute to spread the low salinity coastal waters offshore and thus decrease the salinity in the eastern Gulf of Guinea. For the Bight of Biafra and the Congo plume region, the strong seasonal increase of the SSS observed from May/June to August/September, when the trade winds intensify, results from a decreasing offshore spread of freshwater associated with an intensification of the salt input from the subsurface. In the Congo plume region, the subsurface salt comes mainly from advection due to a strong upwelling but for the Bight of Biafra, entrainment and vertical mixing also play a role. The seasonal evolution of horizontal advection in the Bight of Biafra is mainly driven by eddy correlations between salinity and velocities, but it is not the case in the Congo plume.
NGLC 2004-2010.National Geological Library of China All Rights Reserved.
Add:29 Xueyuan Rd,Haidian District,Beijing,PRC. Mail Add: 8324 mailbox 100083
For exchange or info please contact us via email.