Open Access
Subscription Access
Seasonal Surface Chlorophyll a Variability in the Seychelles–Chagos Thermocline Ridge
Seychelles–Chagos Thermocline Ridge (SCTR, 5°–10°S, 50°–75°E) in the southwestern tropical Indian Ocean is a unique area that experiences year-round upwelling. This is a response to the upward Ekman pumping prevalent in the region. Satellite data, model data and objectively analysed Argo temperature/salinity data have been used to study the seasonal surface chlorophyll a (chl a) variability in SCTR. Variability of surface chl a concentration in SCTR showed a weak semiannual signature. The western part of SCTR (WSCTR, 50°–62°E) is characterized by higher chl a concentration than the eastern part (ESCTR, 63°–75°E). Average chl a concentration in WSCTR/ESCTR showed a primary peak in July– August (~0.26/~0.16 mg/m3) and a secondary peak in January (~0.14/~0.12 mg/m3). Minimum chl a concentration (~0.12/~0.1 mg/m3) was observed during March– April and December–January. The high amplitude of chl a variability observed during July–August is associated with weak stratification and deep mixed layer depth (MLD). Deep MLD reaching to nutrient-rich thermocline entrains nutrients to the surface and thereby increases the surface chl a concentration. However, the low surface chl a concentration is a result of shallow MLD in the region. The deep MLD (30–40 m) observed during June–October is dominated by wind mixing and supported by buoyancy mixing. Shallow MLD (<30 m) observed during rest of the year is due to weak wind mixing and high surface buoyancy. The high surface buoyancy is a manifestation of ocean surface warming and presence of low saline surface waters in the SCTR region.
Keywords
Buoyancy Flux, Chlorophyll a, Climatology, Wind Mixing.
User
Font Size
Information
- Hermes, J. C. and Reason, C. J. C., Annual cycle of the South Indian Ocean (Seychelles–Chagos) thermocline ridge in a regional ocean model. J. Geophys. Res., 2008, 113, C04035; doi:10.1029/2007JC004363.
- Vialard, J. et al., Air–sea interactions in the Seychelles–Chagos thermocline ridge region. Bull. Am. Meteorol. Soc., 2009, 90, 45–61.
- Mccreary, J. P., Kundu, P. K. and Molinari, R. L., A numerical investigation of dynamics, thermodynamics and mixed-layer processes in the Indian Ocean. Prog. Oceanogr., 1993, 31, 181–244.
- Yokoi, T., Tozuka, T. and Yamagata, T., Seasonal variation of the Seychelles dome. J. Climate, 2008, 21, 3740–3754.
- Kawamiya, M. and Oschlies, A., Formation of a basin-scale surface chl pattern by Rossby waves. Geophys. Res. Lett., 2001, 28, 4139–4142.
- Schott, F. A., Xie, S. P. and Mccreary, J. P., Indian Ocean circulation and climate variability. Rev. Geophys., 2009, 47, RG1002.
- Mccreary, J. P. et al., Biophysical processes in the Indian Ocean. In Indian Ocean Biogeochemical Processes and Ecological Variability, Geophysical Monograph Series 185, American Geophysical Union, Washington, DC, 2009, pp. 9–32.
- Resplandy, L., Vialard, J., Lévy, M., Aumont, O. and Dandonneau, Y., Seasonal and intraseasonal biogeochemical variability in the thermocline ridge of the southern tropical Indian Ocean. J. Geophys. Res., 2009. 114, C07024.
- Beckmann, A. and Hense, I., Beneath the surface: characteristics of oceanic ecosystems under weak mixing conditions – a theoretical investigation. Prog. Oceanogr., 2007, 75, 771–796.
- Wilson, C. and Qiu, X., Global distribution of summer chl blooms in the oligotrophic gyres. Prog. Oceanogr., 2008, 78, 107–134.
- Vinayachandran, P. N. and Saji, N. H., Mechanisms of South Indian Ocean intraseasonal cooling. Geophys. Res. Lett., 2008, 35, L23607.
- Waliser, D. E., Murtugudde, R., Strutton, P. and Li, J. L., Subseasonal organization of ocean chl: prospects for prediction based on Madden–Julian Oscillation. Geophys. Res. Lett., 2005, 32, L23602.
- Jayakumar, A. and Gnanaseelan, C., Study the mechanism of surface chl a variability in the southern tropical Indian Ocean using an OGCM. Mar. Geodesy, 2012, 35, 246–256; doi:10.1080/01490419.2011.637874.
- Daria, H. and Tong, L., Mechanisms controlling seasonal mixed layer temperature and salinity in the southwestern tropical Indian Ocean. Dyn. Atmos. Oceans, 2011, 51, 77–93.
- Conkright, M. E., Locarnini, R. A., Garcia, H. E., O’Brien, T. D., Boyer, T. P., Stephens, C. and Antonov, J. I., World Ocean Atlas 2001: Objective Analyses, Data Statistics, and Figures, CD-ROM Documentation, National Oceanographic Data Center, Silver Spring, MD, 2002, p. 17.
- Shigeki, H., Ohira, T. and Nakamura, T., A monthly mean data set of global oceanic temperature and salinity derived from Argo float observations. JAMSTEC Report of Research Development, 2008, vol. 8, pp. 47–59.
- Simons, R. A., ERDDAP – The Environmental Research Division’s Data Access Program, NOAA/NMFS/SWFSC/ERD, Pacific Grove, CA, USA; http://coastwatch.pfeg.noaa.gov/erddap
- Bonjean, F., and Lagerloef, G. S. E., Diagnostic model and analysis of the surface currents in the tropical Pacific Ocean. J. Phys. Oceanogr., 2002, 32, 2938–2954.
- Yu, L., Jin, X. and Weller, R. A., Global Flux Datasets from the Objectively Analyzed Air-sea Fluxes (OAFlux) Project: latent and sensible heat fluxes, ocean evaporation, and related surface meteorological variables. OAFlux Project Technical Report OA-200801, Woods Hole Oceanographic Institution, Woods Hole, Massachusetts, USA, 2008, p. 64.
- Strickland, J. D. H. and Parsons, T. R., A practical handbook of seawater analysis. Can. Bull. Fish. Aquat. Sci., 1972, 167, 310.
- Weller, R. A., Baumgartner, M. F., Josey, S. A., Fischer, A. S. and KIndle, J. C., A one-year record of atmospheric forcing from the Arabian Sea. Deep Sea Res., 1998, 45, 1961–1999.
- Pond, S. and Pickard, G. L., Introductory Dynamic Oceanography. Pergamon Press, New York, 1978.
- Gill, A. E., Atmosphere–Ocean Dynamics, Acadamic Press, New York, USA, 1982, p. 662.
- George, J. V. et al., Role of physical processes in chlorophyll distribution in the western tropical Indian Ocean. J. Mar. Syst., 2013, 113, 1–12.
- Xie, S. P., Annamali, H., Schot, F. A. and McCreary Jr, J. P., Structure and mechanisms of South Indian Ocean climate variability. J. Climate, 2002, 15(8), 864–878.
- McCreary, J. P., Equatorial beams. J. Mar. Res., 1984, 42, 395–430.
- Matano, R. P., Beier, E. J., Strub, P. T. and Tokmakian, R., Large-scale forcing of the Agulhas variability: the seasonal cycle. J. Phys. Oceanogr., 2002, 32, 1228–1241.
- Saji, N. H., Xie, S.-P. and Tam, C.-Y., Satellite observations of intense intraseasonal cooling events in the tropical south Indian Ocean. Geophys. Res. Lett., 2006, 33, L14704; doi:10.1029/2006GL026525.
- Murtugudde, R., Mccreary, J. P. and Busalacchi, A. J., Oceanic processes associated with anomalous events in the Indian Ocean with relevance to 1997–1998. J. Geophys. Res., 2000, 105, 3295–3306.
- Wiggert, J. D., Murtugudde, R. G. and Mcclain, C. R., Processes controlling interannual variations in wintertime (northeast monsoon) primary productivity in the central Arabian Sea. Deep Sea Res., Part II, 2002, 49, 2319–2343.
- Keerthi, M. G., Lengaigne, M., Vialard, J., De Boyer Montegut, C. and Muraleedharan. P. M., Interannual variability of the tropical Indian Ocean mixed layer depth. Climate Dyn., 2013, 40, 743–759.
- New, A., Alderson, S., Smeed, D. and Stansfield, K., On the circulation of water masses across the Mascarene Plateau in the South Indian Ocean. Deep Sea Res., 2007, 54, 42–74.
- Sengupta, D. G. N., Bharath Raj and Shenoi, S. S. C., Surface freshwater from Bay of Bengal runoff and Indonesian throughflow in the tropical Indian Ocean. Geophys. Res. Lett., 2006, 33, L22609.
- Foltz, G. R., Vialard, J., Praveen Kumar, B. and McPhaden, M. J., Seasonal mixed layer heat balance of the southwestern tropical Indian Ocean. J. Climate, 2010, 23, 947–965; doi:10.1175/2009JCLI3268.1.
- Yokoi, T., Tozuka, T. and Yamagata, T., Seasonal and interannual variations of the SST above the Seychelles Dome. J. Climate, 2012, 25, 800–814.
- Latelier, R. M., Karl, D. M., Abott, M. R. and Bidigare, R. R., Light driven seasonal patterns of chlorophyll and nitrate in the lower euphotic zone of the North Pacific Subtropical Gyre. Limnol. Oceanogr., 2004, 49(2), 508–519.
- Anitha, G., Ravichandran, M. and Sayanna, R., Surface buoyancy flux in Bay of Bengal and Arabian Sea. Ann. Geophys., 2008, 26, 395–400; doi:10.5194/angeo-26-395-2008.
- New, A. L., Stansfield, K., Smythe-wright, D., Smeed, D. A., Evans, A. J. and Alderson, S. G., Physical and biochemical aspects of the flow across the Mascarene Plateau in the Indian Ocean. Philos. Trans. R. Soc. London, Ser. A, 2005, 363, 151–168.
- Konyaev, K. V., Sabinin, K. D. and Serebryany. A. N., Large-amplitude internal waves at the Mascarene Ridge in the Indian Ocean. Deep Sea Res. Part I, 1995, 42, 2075–2091.
- Morozov, E. G. and Vlasenko, V. I., Extreme tidal internal waves near the Mascarene Ridge. J. Mar. Syst., 1996, 9, 203–210.
- Wunsch, C. and Ferrari. R., Vertical mixing, energy, and the general circulation of the oceans. Annu. Rev. Fluid Mech., 2004, 36, 281–314.
Abstract Views: 347
PDF Views: 129