The variability in boundary-layer structure over the Indian Ocean during a
north-east monsoon and the factors influencing it are investigated. This st
udy was made possible as a component of the Indian Ocean Experiment (INDOEX
), conducted from February 19 to March 30, 1998. The data used are, surface
-layer mean and turbulence measurements of temperature, humidity and wind,
and vertical soundings of temperature and humidity. Significant spatio-temp
oral variability was observed in the boundary-layer structure throughout th
e cruise. The ITCZ was characterized as the region with strongest winds and
maximum surface turbulent fluxes of momentum and heat. One of the importan
t findings from this study was a strong influence of continental air masses
on the boundary-layer structure in the Northern Hemisphere, even at a dist
ance of 600 km off the Indian coast. This was generally evident in the form
of an elevated plume of dry continental air between altitudes of 1500 m an
d 2700 m. Advection of continental aerosols in this layer presents potentia
l for significant entrainment into shallow clouds in this region, which eve
ntually feed deeper clouds at the ITCZ. This finding provides an explanatio
n for anomalous higher aerosol concentrations found during previous studies
. The structure of the marine boundary layer was influenced by various fact
ors such as proximity to land, an anomalous warm pool in the ocean and the
ITCZ. In the southern hemisphere, the boundary-layer height was primarily g
overned by surface-layer sensible heat flux and was found to be highest in
the vicinity of the ITCZ. North of the equator it was strongly influenced b
y land-air-sea interactions. In addition to this synoptic modulation, there
was also a significant diurnal variability in the boundary-layer height.