Farmer C G, Carrier D R
Department of Ecology and Evolutionary Biology, University of California, Irvine 92697, USA.
Respir Physiol. 2000 Mar;120(1):81-7. doi: 10.1016/s0034-5687(00)00098-0.
Low respiratory exchange ratios (R) occur in reptiles. In crocodilians they have been attributed to the loss of respiratory CO2 into the urine and to the immediate exercise-history of an animal. In this study, expired ventilation (V(E)), oxygen consumption (V(O2)), and carbon dioxide excretion (V(CO2)) were measured during recovery from treadmill-exercise in the American alligator. Both V(O2) and V(CO2) decreased exponentially during recovery, but the decrease of V(CO2) was greater than that of V(O2). By 55 min into recovery R fell to 0.3 +/- 0.02 (mean +/- S.E.M). These low values of R may be partially attributable to hyperventilation that occurred during exercise. These data suggest that both hyperventilation during exercise and a metabolic acidosis deplete blood bicarbonate stores, contributing to a low R during recovery. We propose that the right to left cardiac shunt could facilitate restoration of these alkaline reserves and blood pH.
低呼吸交换率(R)出现在爬行动物中。在鳄鱼中,它们被归因于呼吸性二氧化碳进入尿液以及动物的即时运动史。在这项研究中,测量了美国短吻鳄在跑步机运动恢复期间的呼出通气量(V(E))、耗氧量(V(O2))和二氧化碳排出量(V(CO2))。在恢复过程中,V(O2)和V(CO2)均呈指数下降,但V(CO2)的下降幅度大于V(O2)。恢复到55分钟时,R降至0.3±0.02(平均值±标准误)。这些低R值可能部分归因于运动期间发生的过度通气。这些数据表明,运动期间的过度通气和代谢性酸中毒都会消耗血液中的碳酸氢盐储备,导致恢复期间R值较低。我们提出,心脏右向左分流可能有助于恢复这些碱性储备和血液pH值。