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Observed anomalous upwelling in the Lakshadweep Sea during the summer monsoon season of 2005

DRS at CSIR-National Institute of Oceanography

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Title Observed anomalous upwelling in the Lakshadweep Sea during the summer monsoon season of 2005
 
Creator Gopalakrishna, V.V.
Rao, R.R.
Nisha, K.
GirishKumar, M.S.
Pankajakshan, T.
Ravichandran, M.
Johnson, Z.
Girish, K.
Aneeshkumar, N.
Srinath, M.
Rajesh, S.
Rajan, C.K.
 
Subject Lakshadweep Sea
summer monsoon
upwelling
southwest coast of India
 
Description Repeat near-fortnightly expendable bathythermograph (XBT) transects made along Kochi-Kavaratti (KK) shipping lane in the Lakshadweep Sea (LS) during 2002–2006 are examined to describe the observed year-to-year variability of upwelling during summer monsoon season (SMS). Among all the years, the upwelling characterized by up-sloping of 25 degrees C isotherm is relatively weaker and persisted until November during SMS of 2005 and is stronger during the SMS of 2002. As a result of prolonged upwelling, the sea surface temperature has shown cooling extending into the postmonsoon season. The estimated marine pelagic fish landings along the southwest coast of India (SWCI) have also shown increase until December. The governing mechanisms both in terms of local and remote forcings are examined to explain the observed anomalous upwelling during SMS of 2005. The equatorward alongshore wind stress (WS) along the KK XBT transect persisted in a transient manner beyond September only during SMS of 2005. The westerly wind bursts over the equator during the winter of 2004–2005 are both short-lived and relatively weaker triggering weaker upwelling Kelvin waves that propagated into LS in the following SMS of 2005. The observed distribution of negative sea surface height anomaly in the LS is relatively weaker during the SMS of 2005 and lasted longer. The correlation analysis suggests that the local alongshore WS off the SWCI and the remote forcing from the southern coast of Sri Lanka has greater influence on the observed interannual variability of upwelling in the LS when compared to the remote forcing from the equator.
 
Date 2008-05-26T11:39:50Z
2008-05-26T11:39:50Z
2008
 
Type Journal Article
 
Identifier Journal of Geophysical Research, vol.113; C05001
http://drs.nio.org/drs/handle/2264/1083
 
Language en
 
Rights Copyright AGU[2008]. It is tried to respect the rights of the copyright holders to the best of the knowledge. If it is brought to our notice by copyright holder that the rights are voilated then the item would be withdrawn.
 
Publisher American Geophysical Union