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contributor authorKumar, B. Praveen;Cronin, Meghan F.;Joseph, Sudheer;Ravichandran, M.;Sureshkumar, N.
date accessioned2018-01-03T11:00:21Z
date available2018-01-03T11:00:21Z
date copyright9/23/2016 12:00:00 AM
date issued2016
identifier otherjcli-d-16-0285.1.pdf
identifier urihttp://138.201.223.254:8080/yetl1/handle/yetl/4245932
description abstractAbstractA global analysis of latent heat flux (LHF) sensitivity to sea surface temperature (SST) is performed, with focus on the tropics and the north Indian Ocean (NIO). Sensitivity of LHF state variables (surface wind speed Ws and vertical humidity gradients ?q) to SST give rise to mutually interacting dynamical (Ws driven) and thermodynamical (?q driven) coupled feedbacks. Generally, LHF sensitivity to SST is pronounced over tropics where SST increase causes Ws (?q) changes, resulting in a maximum decrease (increase) of LHF by ~15 W m?2 (°C)?1. But the Bay of Bengal (BoB) and north Arabian Sea (NAS) remain an exception that is opposite to the global feedback relationship. This uniqueness is attributed to strong seasonality in monsoon Ws and ?q variations, which brings in warm (cold) continental air mass into the BoB and NAS during summer (winter), producing a large seasonal cycle in air?sea temperature difference ?T (and hence in ?q). In other tropical oceans, surface air is mostly of marine origin and blows from colder to warmer waters, resulting in a constant ?T ~ 1°C throughout the year, and hence a constant ?q. Thus, unlike other basins, when the BoB and NAS are warming, air temperature warms faster than SST. The resultant decrease in ?T and ?q contributes to decrease the LHF with increased SST, contrary to other basins. This analysis suggests that, in the NIO, LHF variability is largely controlled by thermodynamic processes, which peak during the monsoon period. These observed LHF sensitivities are then used to speculate how the surface energetics and coupled feedbacks may change in a warmer world.
publisherAmerican Meteorological Society
titleLatent Heat Flux Sensitivity to Sea Surface Temperature: Regional Perspectives
typeJournal Paper
journal volume30
journal issue1
journal titleJournal of Climate
identifier doi10.1175/JCLI-D-16-0285.1
journal fristpage129
journal lastpage143
treeJournal of Climate:;2016:;volume( 030 ):;issue: 001
contenttypeFulltext


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