Ecophysiological adaptations to dry thermal environments measured in two unrestrained Namibian scorpions, Parabuthus villosus (Buthidae) and Opisthophthalmus flavescens (Scorpionidae)

被引:18
作者
Bridges, CR [1 ]
leRoux, JM [1 ]
vanAardt, WJ [1 ]
机构
[1] DESERT ECOL RES UNIT, GOBABEB, NAMIBIA
来源
PHYSIOLOGICAL ZOOLOGY | 1997年 / 70卷 / 02期
关键词
D O I
10.1086/639587
中图分类号
Q4 [生理学];
学科分类号
071003 ;
摘要
The daily changes in body temperature experienced by Parabuthus villosus (Buthidae), a scorpion found on the gravel plains around Gobabeb, Namibia, and by Opisthophthalmus flavescens (Scorpionidae), a dune-dwelling species from the same area, were measured under similar held conditions. Thermocouples implanted under the segments of the mesosoma measured maximum temperatures as high as 43 degrees C in the shade. Air temperatures reached a maximum of 33 degrees C during the daytime and a minimum of 12 degrees C at night. Very low metabolic rates compared with those of other nonsedentary invertebrates were recorded in both species; oxygen consumption ranged from 8 mu L g(-1) h(-1) at 16 degrees C to 115 mu L g(-1) h(-1) at 40 degrees C. A pulsed Doppler system was used to measure heart rate in situ in free-moving scorpions. At night, heart rate declined to about 4 beats min(-1) in resting undisturbed scorpions. During daylight excursions and while scorpions hunted for food, heart rates as high as 180 beats min(-1) were observed. Heart rate was linearly correlated with temperature in P. villosus, with a slope of 2.37 (Q(10) = 2.18), but in O. flavescens only a limited correlation was observed, with a slope of 1.18 (Q(10) = 1.69). In O. flavescens, heart rate showed hysteresis as body temperature rose during daylight and then decreased during the late afternoon and evening; the reverse was observed in P. villosus. In bath species, haemocyanin-oxygen affinity was independent of temperature, with a higher oxygen affinity and a larger pH sensitivity in O. flavescens. The Q(10)'s of oxygen consumption and heart rate are quite different in O. flavescens but not as different in P. villosus. Although changes in the cardiovascular system, such as stroke volume, may also play a role in meeting increased oxygen demand, the features of the haemocyanin oxygen transport system, such as the absence of temperature sensitivity and a marked pH sensitivity, can also influence the maintenance of VO2 under temperature stress. The differences in the normal thermal habitats of the two species may be used to explain the distinctions between the evolved physiological responses to temperature increase shown by the two species.
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页码:244 / 256
页数:13
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