Costanzo J P, Lee R E, Wright M F
Department of Zoology, Miami University, Oxford, OH 45056.
J Comp Physiol B. 1991;161(3):225-9. doi: 10.1007/BF00262302.
Wood frogs (Rana sylvatica) were frozen to -2.5 degrees C under five distinct cooling regimes to investigate the effect of cooling rate on survival. Frogs survived freezing when cooled at -0.16 degrees C.h-1 or -0.18 degrees C.h-1, but mortality resulted at higher rates (-0.30 degrees C.h-1, -1.03 degrees C.h-1, and -1.17 degrees C.h-1). Surviving frogs in the latter groups required longer periods to recover, and transient injury to the neuromuscular system was evident. Some of the frogs that died had patches of discolored, apparently necrotic skin; vascular damage, as indicated by hematoma, also occurred. It is concluded that slow cooling may be critical to the freeze tolerance of wood frogs. Additional studies examined the effect of cooling rate on physiological responses promoting freeze tolerance. Mean glucose concentrations measured in plasma (15-16 mumol.ml-1) and liver (42-45 mumol.g-1) following a 2-h thaw did not differ between slowly- and rapidly-cooled frogs but in both groups were elevated relative to unfrozen controls. Thus, freezing injury to rapidly-cooled frogs apparently was not mitigated by the presence of elevated glucose. Water contents of liver tissue, measured 2 h post-thawing, did not differ between slowly-cooled (mean = 77.6%) and rapidly-cooled (mean = 78.5%) frogs. However, the mean hematocrit of slowly-cooled frogs (48%) was significantly higher than that (37%) of frogs cooled rapidly, possibly owing to differences in the dynamics of tissue water during freezing.
为了研究降温速率对存活率的影响,将林蛙(Rana sylvatica)在五种不同的降温模式下冷冻至-2.5摄氏度。当以-0.16摄氏度/小时或-0.18摄氏度/小时的速率降温时,林蛙能够在冷冻状态下存活,但在较高的降温速率(-0.30摄氏度/小时、-1.03摄氏度/小时和-1.17摄氏度/小时)下会导致死亡。后一组中存活的林蛙需要更长的时间来恢复,并且神经肌肉系统出现明显的短暂损伤。一些死亡的林蛙有变色的斑块,显然是坏死的皮肤;也出现了如血肿所示的血管损伤。得出的结论是,缓慢降温可能对林蛙的耐寒性至关重要。另外的研究考察了降温速率对促进耐寒性的生理反应的影响。在解冻2小时后,缓慢降温和快速降温的林蛙血浆(15 - 16微摩尔/毫升)和肝脏(42 - 45微摩尔/克)中测得的平均葡萄糖浓度没有差异,但两组相对于未冷冻的对照组均有所升高。因此,快速降温的林蛙的冷冻损伤显然没有因葡萄糖升高而减轻。解冻后2小时测量的肝脏组织含水量,缓慢降温的林蛙(平均 = 77.6%)和快速降温的林蛙(平均 = 78.5%)之间没有差异。然而,缓慢降温的林蛙的平均血细胞比容(48%)显著高于快速降温的林蛙(37%),这可能是由于冷冻过程中组织水动态的差异所致。
