The Open Marine Biology Journal

2012, 6 : 38-52
Published online 2012 May 17. DOI: 10.2174/1874450801206010038
Publisher ID: TOMBJ-6-38

Interannual Changes in the Sea of Oman Ecosystem

Sergey A. Piontkovski , Hamed M.H. Al-Gheilani , Barry P. Jupp , Adnan R. Al-Azri and Khalid A. Al-Hashmi
Department of Marine Science and Fisheries, Sultan Qaboos University, P.O. Box 34, Al-Khod 123, Sultanate of Oman.

ABSTRACT

Historical data were used to estimate interannual tendencies for the Sea of Oman over the past 50 years. Declining trends were shown for the atmospheric surface level pressure in the region affected by the Siberian High atmospheric anomaly, the zonal component of wind speed, concentration of nitrates, biomass of diatoms and sardine landings. Changes in Zooplankton biomass showed no clear trend. These trends were associated with and accompanied by rising atmospheric temperature, sea surface temperature, annual variability of the kinetic energy of mesoscale eddies, frequency of fish kills (along with the death of other animals- dolphins, turtles, and sea birds) and harmful algal bloom incidents. In terms of interannual coupling between physical and biological processes, the evaluated trends imply that the weakening of the Siberian High atmospheric anomaly results in the decline of the zonal wind speed and a regional increase of air temperature. This in turn increases the temperature in the mixed layer which strengthens thermo-haline stratification of the water column. Increasing stratification prevents the penetration of nutrients into the mixed layer and does not favor the interannual increase of biological productivity, although annual variation of biological productivity has increased, from 1997 to 2008.

Keywords:

Gulf of Oman, long term changes oceanography, chlorophyll α.