高保温质量的栖息地有助于怀孕雌性响尾蛇提高体温调节的准确性。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-01 DOI:10.1016/j.jtherbio.2024.103948
Haley A. Moniz , Jack H. Buck , Hayley L. Crowell , Scott M. Goetz , Trevor D. Ruiz , Emily N. Taylor , Scott M. Boback
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引用次数: 0

摘要

温度是影响生物体发育的一个主要因素,而温带气候中每日和季节性的温度变化可能会对胎生爬行动物在妊娠期间优化体温的能力提出挑战。测试胎生爬行动物如何驾驭多变的热条件(如相对寒冷的夜晚和/或剧烈波动的温度)是了解它们如何利用微生境获得体温调节益处的有力方法。我们评估了在科罗拉多州西北部高海拔山地灌木丛中栖息的怀孕和未怀孕雌性草原响尾蛇(Crotalus viridis)在其短暂的夏季活动季节中的热生态,重点研究了怀孕雌性草原响尾蛇在公共栖息地的体温调节情况,探讨了微生境选择的热后果。我们利用工作温度模型收集蛇类所使用的微生境的热质量数据,并通过比较蛇类的野外活动体温与热梯度中蛇类的首选体温,计算蛇类的体温调节精度。怀孕的雌蛇栖息在多岩石的山顶栖息地,与周围草原的微生境相比,这些栖息地的夜间温度较高且变化较小,因此热质量较高。因此,怀孕雌鸟的体温调节比未怀孕雌鸟更准确。这种差异在夜间最为明显,与草原上的非怀孕雌蛇相比,卵巢中的怀孕雌蛇能保持更高的体温。我们的研究结果支持了这样的假设,即高纬度和/或高海拔地区的雌性响尾蛇放弃迁徙并在多岩石的山顶公共栖息地妊娠的一个主要原因是,相对于草原的微生境,这些栖息地为妊娠期间的体温调节提供了更好的条件。
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High thermal quality rookeries facilitate high thermoregulatory accuracy in pregnant female rattlesnakes

Temperature is a primary factor influencing organismal development, and the fluctuating daily and seasonal thermal regimes of temperate climates may challenge the ability of viviparous reptiles to optimize body temperatures during gestation. Testing how viviparous reptiles navigate highly variable thermal conditions (e.g., relatively cold nights and/or highly fluctuating temperatures) is a powerful way to understand how they use microhabitats for thermoregulatory benefits. We assessed the thermal ecology of pregnant and non-pregnant female Prairie Rattlesnakes (Crotalus viridis) inhabiting a high-elevation, montane shrubland in northwest Colorado throughout their short summer active season, addressing the thermal consequences of microhabitat selection with a focus on thermoregulation of pregnant females at communal rookery sites. We deployed operative temperature models to collect data on the thermal quality of microhabitats used by the snakes, and calculated thermoregulatory accuracy of the snakes by comparing their field-active body temperatures with preferred body temperatures of snakes placed in a thermal gradient. Pregnant females inhabited rocky, hilltop rookeries that had higher thermal quality due to higher and less variable nighttime temperatures compared to microhabitats in the surrounding prairie. Pregnant females therefore thermoregulated more accurately than non-pregnant females. The difference was most pronounced during the night, when pregnant females at rookeries maintained higher body temperatures than non-pregnant snakes in the prairie. Our results support the hypothesis that one major reason female rattlesnakes at high latitudes and/or high elevations forgo migration and gestate at communal, rocky, hilltop rookeries is that, relative to prairie microhabitats, they provide better conditions for thermoregulation during pregnancy.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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