Rf. Lauff et Cm. Wood, RESPIRATORY GAS-EXCHANGE, NITROGENOUS WASTE EXCRETION, AND FUEL USAGEDURING STARVATION IN JUVENILE RAINBOW-TROUT, ONCORHYNCHUS-MYKISS, Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology, 165(7), 1996, pp. 542-551
Oxygen consumption, CO2 excretion, and nitrogenous waste excretion (75
% ammonia-N and 25% urea-N) were measured daily in 4-g rainbow trout o
ver a 15-day starvation period. Oxygen consumption and CO2 excretion d
eclined while N excretion increased transiently in the mid-part of the
starvation period but was unchanged from control levels at the end. C
omponent losses (as percentage of total fuel used) of protein, lipid,
and carbohydrate were 66.5, 31.1, and 2.4% respectively, as measured f
rom changes in body weight and body composition, the latter relative t
o a control group at day 0. Instantaneous fuel use, as calculated from
the respiratory quotients and nitrogen quotients, indicated that rela
tive protein use rose during starvation, but contributed at most 24% o
f the aerobic fuel (as carbon). Lipid metabolism fell from about 68 to
37%, and was largely replaced by carbohydrate metabolism which rose f
rom 20 to 37%. We conclude that the two approaches measure different p
rocesses, and that the instantaneous method is preferred for physiolog
ical studies. The compositional method is influenced by greater error,
and measures the fuels depleted, not necessarily burned, because of p
ossible interconversion and excretion of fuels.