The objective of this work was to obtain information for designing mod
ified-atmosphere packages for storing and transporting cherimoyas. Res
piration rates of 'Concha Lisa' cherimoyas at 10C were monitored in a
flow-through system using O2 consumption and CO2 production under atmo
spheres containing 5%, 10%, 15%, or 20% O2. Under normal atmosphere (2
0% O2), the respiration curve exhibited a typical climacteric rise 15
days after harvest, while 15% and 10% O2 delayed this event. Fruit kep
t in 5% O2 did not show a detectable climacteric rise and did not prod
uce ethylene. All fruit ripened normally after being transferred to ai
r storage at 20C; however, the time needed to reach an edible conditio
n differed with treatment and was inversely proportional to O2 content
. Delay of the climacteric by 5% O2, coupled with the continued abilit
y to ripen, makes this procedure suitable for controlled- or modified-
atmosphere cherimoya packaging.