Surface heat fluxes and thermohaline variability in the Ross Sea and in Terra Nova Bay polynya

The Ross Sea is an important area for the ventilation of the deeplayers of the Southern Ocean(e. g. [Jacobs, S. S., Fairbanks, R. G., Horibe, Y., 1985. Origin and evolution of water masses near the Antarctic continental margin: evidence from H218O/H216 Oratios in seawater. In: Jacobs, S. S.(Ed.), Oceanology of the Antarctic Continental Shelf. Antarctic Research Series, vol. 43. pp. 59-85; Orsi, A. H., Johnson, G. C., Bullister, J. L., 1999. Circulation, mixing, and the production of Antarctic bottom water. Progress in Oceanography 109, 43-55]). These processes are driven by the atmospheric forcing which, at high latitude, plays a key role in the formation and thickness of seaice. In order to investigate the effect of the atmospheric forcing variability at different time scales, we analysed the surface heat budget over the Ross Sea continental shelf and in Terra Nova Bay (TNB) polynya, using analyses for the period 1990-2006 provided by European Centre for Medium-range Weather Forecast (ECMWF). This study was also performed using thermohaline data collected within the activities of Climatic Long-term Interaction for the mass-balance in Antarctic a project of the Italian National Programme for Antarctic Research for the summer periods from 1994 until 2001. The annual average of the heat budget over the continental shelf of the Ross Sea estimated in the period 1990-2006 shows an inter annual variability ranging between -97 and -123 Wm(-2). Assuming that the heat loss must be compensated by the sensible heat carried by the Circumpolar Deep Water we estimated its transport (3.1 Sv) and its variability (0.2 Sv). Similarly in the TNB polynyathe heat loss reaches its maximum in 2003 (-313 Wm(-2)) and its minimum (-58 Wm(-2)) in 1996. The related production of sea ice and the High Salinity Shelf Water (HSSW) were also estimated. The HSSW production switched from the lowest values during the first 10 years of the investigated period (1990-2000) to the highest values for the remaining period (2001-2006). The thermohaline characteristics of the water column in TNB show a general decrease in salinity with a superimposed variability. Comparison between the estimated HSSW production and the salinity observed within the TNB water column show similar tendency in the last years after 2002, while during the period 1995-1998 the behaviour is different. Our hypothesis concern a possible role of the CDW in flow in the TNB area and our results could be explained by a different contribution of CDW transport and HSSW production to the salt content within the water column. (C) 2009 Elsevier Ltd. All rights reserved.