Abstract
The South Pacific low latitude western boundary currents (LLWBCs) carry waters of subtropical origin through the Solomon Sea before joining the equatorial Pacific. Changes in their properties or transport are assumed to impact El Niño Southern Oscillation (ENSO) dynamics. At ENSO timescales, the LLWBCs transport tends to counterbalance the interior geostrophic one. When transiting through the complex geography of the Solomon Sea, the main LLWBC, the New Guinea Coastal Undercurrent, cannot follow a unique simple route to the equator. Instead, its routes and water mass properties are influenced by the circulation occurring in the Solomon Sea. In this study, the response of the Solomon Sea circulation to ENSO is investigated based on a numerical simulation. The transport anomalies entering the Solomon Sea from the south are confined to the top 250 m of the water column, where they represent 7.5 Sv (based on ENSO composites) for a mean transport of 10 Sv. The induced circulation anomalies in the Solomon Sea are not symmetric between the two ENSO states because of (1) a bathymetric control at Vitiaz Strait, which plays a stronger role during El Niño, and (2) an additional inflow through Solomon Strait during La Niña events. In terms of temperature and salinity, modifications are particularly notable for the thermocline water during El Niño conditions, with cooler and fresher waters compared to the climatological mean. The surface water at Vitiaz Strait and the upper thermocline water at Solomon Strait, feeding respectively the equatorial Pacific warm pool and the Equatorial Undercurrent, particularly affect the heat and salt fluxes. These fluxes can change by up to a factor of 2 between extreme El Niño and La Niña conditions.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bessières L, Madec G, Lyard F (2008) Global tidal residual mean circulation: does it affect a climate OGCM? Geophys Res Lett 35:L03609
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 23:1363–1388
Blanke B, Raynaud S (1997) Kinematics of the Pacific Equatorial Undercurrent: an eulerian and Lagrangian approach from GCM results. J Phys Oceanogr 27:1038–1053
Blanke B, Arhan M, Madec G, Roche S (1999) Warm water paths in the equatorial Atlantic as diagnosed with a general circulation model. J Phys Oceanogr 29:2753–2768
Bratcher A, Giese B (2002) Tropical Pacific decadal variability and global warming. Geophys Res Lett 29(19):1918
Capotondi A, Alexander MA, Deser C (2003) Why are there Rossby waves maxima in the Pacific at 10°S and 13°N? J Phys Oceanogr 33:1549–1563
Chang P, Giese B, Ji L, Seidel H, Wang F (2001) Decadal change in the south tropical Pacific in a global assimilation analysis. Geophys Res Lett 28:3461–3464
Cravatte S, Ganachaud A, Duong Q-P, Kessler WS, Eldin G, Dutrieux P (2011) Observed circulation in the Solomon Sea from SADCP data. Prog Oceanogr 88:116–130
Davis RE, Kessler WS, Sherman JT (2012) Gliders measure western boundary current transport from the south Pacific to the equator. J Phys Oceanogr. doi:10.1175/JPO-D-12-022.1
Delcroix T (1998) Observed surface oceanic and atmospheric variability in the Tropical Pacific at seasonal and ENSO time scales: a tentative overview. J Geophys Res 103:18611–18633
Delcroix T, Henin C (1989) Mechanisms of subsurface thermal structure and sea surface thermohaline variability in the southwestern tropical Pacific during 1979–85. J Mar Res 47:777–812
Folland CK, Renwick JA, Salinger MJ, Mullan AB (2002) Relative influences of the Interdecadal Pacific Oscillation and ENSO on the South Pacific Convergence Zone. Geophys Res Lett 29(13):1643. doi:10.1029/2001GL014201
Fukumori I, Lee T, Cheng B, Menemenlis D (2004) The origin, pathway, and destination of Niño-3 water estimated by a simulated passive tracer and its adjoint. J Phys Oceanogr 34:582–604
Ganachaud A, Kessler W, Wijffels S, Ridgway K, Cai W, Holbrook N, Bowen M, Sutton P, Qiu B, Timmermann A, Roemmich D, Sprintall J, Cravatte S, Gourdeau L, Aung T (2007) Southwest Pacific Ocean Circulation and Climate Experiment (SPICE). Part I: scientific background. CLIVAR/NOAA report
Giese BS, Urizar SC, Fuckar NS (2002) Southern hemisphere origins of the 1976 climate shift. Geophys Res Lett 29:1014
Gouriou Y, Delcroix T (2002) Seasonal and ENSO variations of sea surface salinity and temperature in the South Pacific Convergence Zone during 1976–2000. J Geophys Res 107(C12):8011
Grenier M, Cravatte S, Blanke B, Menkes C, Koch-Larrouy A, Durand F, Melet A, Jeandel C (2011) From the western boundary currents to the Pacific Equatorial Undercurrent: modeled pathways and water mass evolutions. J Geophys Res Oceans 116:C12044
Guilyardi E, Braconnot P, Jin F-F, Kim ST, Kolasinski M, Li T, Musat I (2009) Atmosphere feedbacks during ENSO in a Coupled GCM with a modified atmospheric convection scheme. J Clim 22:5698–5718
Hoerling MP, Zhong AKM (1997) El niño, la niña, and the nonlinearity of their teleconnections. J Clim 10:1769–1786
Holland CL, Mitchum GT (2005) Interannual temperature variability in the tropical Pacific and Lagrangian heat transport pathways. J Geophys Res 110:C03017
Holland M, Raphael M (2006) Twentieth century simulation of the southern hemisphere climate in coupled models. Part II: sea ice conditions and variability. Clim Dyn 26:229–245
Hristova H, Kessler W (2012) Surface circulation in the Solomon Sea derived from Lagrangian drifter observations. J Phys Oceanogr 42:448–458
Ishida A, Hosoda S, Ando K (2008) North-south asymmetry of warm water volume transport related with El Niño variability. Geophys Res Lett 35:L18612
Izumo T, Picaut J, Blanke B (2002) Tropical pathways, equatorial undercurrent variability and the 1998 La Niña. Geophys Res Lett 29:280
Jayne S, St Laurent LC (2001) Parameterizing tidal dissipation over rough topography. Geophys Res Lett 28(5):811–814
Jin F (1997) An equatorial ocean recharge paradigm for ENSO. Part I: conceptual model. J Atmos Sci 54:811–829
Kang I-S, Kug J-S (2002) El Niño and La Niña sea surface temperature anomalies: asymmetry characteristics associated with their wind stress anomalies. J Geophys Res 107(D19):4372
Kessler W (1999) Interannual variability of the subsurface high salinity tongue south of the equator at 165°E. J Phys Oceanogr 29:2038–2049
Kleeman R, McCreary JP, Klinger BA (1999) A mechanism for the decadal variation of ENSO. Geophys Res Lett 26:743–747
Koch-Larrouy A, Madec G, Bourruet-Aubertot P, Gerkema T, Bessières L, Molcard R (2007) On the transformation of Pacific Water into Indonesian Throughflow Water by internal tidal mixing. Geophys Res Lett 34:L04604
Kug J, Kang I, An S (2003) Symmetric and antisymmetric mass exchanges between the equatorial and off-equatorial Pacific associated with ENSO. J Geophys Res 108(C8):32
Large W, Yeager S (2009) The global climatology of an interannually varying air–sea flux data set. Clim Dyn 33:341–364
Lee T, Fukumori I (2003) Interannual-to-decadal variations of tropical–subtropical exchange in the Pacific Ocean: boundary versus interior pycnocline transports. J Clim 16(24):4022–4042
Lengaigne M, Hausmann U, Madec G, Menkes C, Vialard J, Molines J (2012) Mechanisms controlling warm water volume interannual variations in the equatorial Pacific: diabatic versus adiabatic processes. Clim Dyn. doi:10.1007/s00382-011-1051-z
Levitus S, Boyer T, Conkright M, Brien TO, Antonov J, Stephens C, Stathoplos L, Johnson D, Gelfeld R (1998) NOAA atlas NESDIS 18, world ocean database 1998: volume 1: introduction. US Government Printing Office, Washington, p 346
Li J, Clarke AJ (2007) Interannual sea level variations in the south Pacific from 5° to 28°S. J Phys Oceanogr 37:2882–2894
Luo J, Yamagata T (2001) Long-term El Niño-Southern Oscillation (ENSO)-like variation with special emphasis on the South Pacific. J Geophys Res 106:22,211–22,227
Luo J-J, Masson S, Behara S, Delecluse P, Gualdi S, Navarra A, Yamagata T (2003) South Pacific origin of the decadal ENSO-like variation simulated by a coupled GCM. Geophys Res Lett 30:2250
Luo Y, Rothstein L, Zhang R, Busalacchi A (2005) On the connection between South Pacific subtropical spiciness anomalies and decadal equatorial variability in an ocean general circulation model. J Geophys Res 110:2000–2001
Madec G (2008) NEMO ocean engine. Institut Pierre Simon Laplace (IPSL), France, (Note du Pole de Modélisation, 27) p 300
McCreary J, Lu P (1994) On the interaction between the subtropical and the equatorial oceans: the subtropical cell. J Phys Oceanogr 24:466–497
Meinen C, McPhaden M (2001) Interannual variability in warm water volume transports in the equatorial Pacific during 1993-1999. J Phys Oceanogr 31:1324–1345
Melet A, Gourdeau L, Kessler W, Verron J, Molines J (2010a) Thermocline circulation in the Solomon Sea: a modeling study. J Phys Oceanogr 40:1302–1319
Melet A, Gourdeau L, Verron J (2010b) Variability of the Solomon Sea circulation from altimetry sea level data. Ocean Dyn 60(4):883–900
Melet A, Verron J, Gourdeau L, Koch-Larrouy A (2011) Solomon Sea water masses pathways to the equator and their modifications. J Phys Oceanogr 41:810–826
Murray S, Lindstrom E, Kindle J, Weeks E (1995) Transport through Vitiaz Strait. WOCE Notes 7:21–23
Nonaka M, Sasaki H (2007) Formation mechanism for isopycnal temperature–salinity anomalies propagating from the eastern South Pacific to the equatorial region. J Clim 20:1305–1315
Ridgway KR, Godfrey JS, Meyers G, Bailey R (1993) Sea level response to the 1986-1987 El Niño Southern Oscillation event in the Western Pacific in the vicinity of Papua New Guinea. J Geophys Res 98:16387–16395
Schneider N (2004) The response of the tropical climate to the equatorial emergence of spiciness anomalies. J Clim 17:1083–1095
Sokolov S, Rintoul S (2000) Circulation and water masses of the southwest Pacific: WOCE section 11, Papua New Guinea to Tasmania. J Mar Res 58:223–268
SPICE Community, Burrage D, Ganachaud A, Hugues R, Kessler W, Melet A, Steinberg C, Schiller A (2012) Naming a western boundary current from Australia to the Solomon Sea. CLIVAR Newslett 16:28
Springer SR, McPhaden MJ, Busalacchi AJ (1990) Oceanic heat content variability in the tropical Pacific during the 1982–1983 El Niño. J Geophys Res 95:22089–22101
Tsuchiya M, Lukas R, Fine R, Firing E, Lindstrom E (1989) Source waters of the Pacific Equatorial Undercurrent. Prog Oceanogr 23:101–147
Vincent GD (1994) The South Pacific Convergence Zone (SPCZ): a review. Mon Weather Rev 122:1949–1970
Acknowledgments
This work is (co-)funded by the ANR project ANR-09-BLAN-0233-01; it is a contribution to the CLIVAR/SPICE International programme. The calculations were performed using HPC resources from GENCI-IDRIS (grant 2010-011279). We acknowledge the use of the ARIANE Lagrangian tool (http://www.univ-brest.fr/lpo/ariane/). We thank the two anonymous reviewers for helpful comments leading to improvements in the manuscript. This work was supported by the Centre National d’Etude Spatiales (CNES), the Centre National de Recherche Scientifique (CNRS), and the Institut de Recherche pour le Développement (IRD).
Author information
Authors and Affiliations
Corresponding author
Additional information
Responsible Editor: Aida Alvera-Azcárate
Rights and permissions
About this article
Cite this article
Melet, A., Gourdeau, L., Verron, J. et al. Solomon Sea circulation and water mass modifications: response at ENSO timescales. Ocean Dynamics 63, 1–19 (2013). https://doi.org/10.1007/s10236-012-0582-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10236-012-0582-0