ABSTRACT
Cockroaches, Gromphadorhina portentosa, were run at different speeds for 20 min on a miniature treadmill enclosed in a lucite respirometer while oxygen consumption 
was continuously monitored. The data collected on these 5 g insects are remarkably similar to those obtained on vertebrates.
rises rapidly with the onset of exercise ; the 
on-response was about 1 min with steady-state reached within 4 min at the fastest speed, 0-12 km/h. Recovery was rapid ; the 
off-response was 4-6 min, with total recovery achieved in less than 1 h. The tracheal system appears to be a highly efficient mode of O2 conductance in contrast to the crustacean method of delivery involving gills and circulation.
(ml O2/g.h) at steady-state running varies directly with velocity (V). The regression equation at 24 °C is 
. The F-intercept, at zero velocity, is 2·4 times the actual resting 
rate of 0-19 ml O2/g.h. Temperature does not change the slope of the regression line but shifts it up or down in accordance with a simple Q10 effect. Incline running produces no changes compared to level running.
The minimum cost of transport, the lowest 
necessary to transport a given mass a specific distance, is high in cockroaches (4-92 ml O2/g.km) and comparable to that expected for a small quadrupedal or bipedal pedestrian vertebrate.
