The Effect Of An Equatorial Continent On The Tropical Rain Belt. Part 2:
Summer Monsoons
Abstract
The TRACMIP ensemble includes slab-ocean aquaplanet control simulations
and experiments with a highly idealized narrow tropical continent
(0-45ºW; 30ºS - 30ºN). We compare the two setups to contrast the
characteristics of oceanic and continental rain bands and investigate
monsoon development in GCMs with CMIP5-class dynamics and physics. Over
land, the rainy season occurs close to the time of maximum insolation.
Other than in its timing, the continental rain band remains in an
ITCZ-like regime akin deep-tropical monsoons, with a smooth latitudinal
transition, a poleward reach only slightly farther than the oceanic
ITCZ’s (about 10º), and a constant width throughout the year. This
confinement of the monsoon to the deep tropics is the result of a tight
coupling between regional rainfall and circulation anomalies:
ventilation of the lower troposphere by the anomalous meridional
circulation is the main limiting mechanism, while ventilation by the
mean westerly jet aloft is secondary. Comparison of two sub-sets of
TRACMIP simulations indicates that a low heat capacity determines, to a
first degree, both the timing and the strength of the regional
solsticial circulation; this lends support to the choice of idealizing
land as a thin slab ocean in much theoretical literature on monsoon
dynamics. Yet, the timing and strength of the monsoon are modulated by
the treatment of evaporation over land, especially when moisture and
radiation can interact. This points to the need for a fuller exploration
of land characteristics in the hierarchical modeling of the tropical
rain bands.