TY - JOUR
T1 - Coupled response of the trade wind, SST gradient, and SST in the caribbean sea, and the potential impact on loop current's interannual variability
AU - Chang, Y. L.
AU - Oey, L. Y.
PY - 2013
Y1 - 2013
N2 - Air-sea coupling in the IntraAmerican seas (IAS; Caribbean Sea and Gulf of Mexico) is studied through analyses of observational data from satellite, reanalysis products, and in situ measurements.Astrong coupling is found between the easterly trade wind 2U and meridional SST gradient ≥T/≥y across a localized region of the southern-central Caribbean Sea from seasonal and interannual to decadal time scales. The ≥T/≥y anomaly is caused by a variation in the strength of coastal upwelling off the Venezuelan coast by the wind, which in turn strengthens (weakens) for stronger (weaker) ≥T/≥y. Wind speeds and seasonal fluctuations in IAS have increased in the past two decades with a transition near 1994 coinciding approximately with when the Atlantic multidecadal oscillation (AMO) turned from cold to warm phases. In particular, the seasonal swing from summer's strong to fall's weak trade wind has become larger. The ocean's upper-layer depth has also deepened, by as much as 50% on average in the eastern Gulf of Mexico. These conditions favor the shedding of eddies from the Loop Current, making it more likely to shed at a biannual frequency, as has been observed from altimetry data.
AB - Air-sea coupling in the IntraAmerican seas (IAS; Caribbean Sea and Gulf of Mexico) is studied through analyses of observational data from satellite, reanalysis products, and in situ measurements.Astrong coupling is found between the easterly trade wind 2U and meridional SST gradient ≥T/≥y across a localized region of the southern-central Caribbean Sea from seasonal and interannual to decadal time scales. The ≥T/≥y anomaly is caused by a variation in the strength of coastal upwelling off the Venezuelan coast by the wind, which in turn strengthens (weakens) for stronger (weaker) ≥T/≥y. Wind speeds and seasonal fluctuations in IAS have increased in the past two decades with a transition near 1994 coinciding approximately with when the Atlantic multidecadal oscillation (AMO) turned from cold to warm phases. In particular, the seasonal swing from summer's strong to fall's weak trade wind has become larger. The ocean's upper-layer depth has also deepened, by as much as 50% on average in the eastern Gulf of Mexico. These conditions favor the shedding of eddies from the Loop Current, making it more likely to shed at a biannual frequency, as has been observed from altimetry data.
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U2 - 10.1175/JPO-D-12-0183.1
DO - 10.1175/JPO-D-12-0183.1
M3 - Article
AN - SCOPUS:84879768197
SN - 0022-3670
VL - 43
SP - 1325
EP - 1344
JO - Journal of Physical Oceanography
JF - Journal of Physical Oceanography
IS - 7
ER -