孵化温度对双斑锦蛇初生幼体行为和呼吸代谢的影响

以双斑锦蛇(Elaphe bimaculata)为对象,在24 、27和30 ℃下孵化双斑锦蛇卵,研究孵化温度对孵出幼蛇吐信频次、选择体温、二氧化碳代谢量、生长过程中的呼吸代谢、初次摄食个体数和初次摄食量的影响。结果显示:孵化温度对双斑锦蛇孵出幼蛇的各项行为指标均没有显著影响。自幼蛇孵出至体内剩余卵黄消耗完这一时间段内,呼吸代谢产生的二氧化碳量逐步减少到最低值。24 、27和30 ℃孵化温度下孵出幼体呼吸每分钟所产生的CO₂量分别为10.58、12.06和10.88 μL;初次摄食量分别为4.92、4.34和3.60 g,各温度下摄食个体的数目分别约占该温度下孵出幼体总数的46.2%、56.3%和40%。鉴于3个温度处理下孵出幼体的各项指标均无显著差异,24-30 ℃是双斑锦蛇适宜生存的温度区间。     

孵化温度对赤链蛇胚胎代谢和幼体行为的影响

研究了赤链蛇(Dinodon rufozonatum)在孵化过程中卵的生长、孵化期、胚胎代谢和孵出幼体行为表现的热依赖性。结果显示:孵化温度对孵化期、卵增重、孵化过程中消耗的总能量和孵出幼体的运动表现有显著影响,但不影响胚胎代谢率、孵化成功率和幼体吐信频次。孵化期随着孵化温度的升高而缩短,孵化过程中,24℃终末卵重和胚胎代谢率显著大于30℃,而27℃与其他两个温度没有差异;27℃孵出幼体游速较24℃快,30℃孵出幼体与其他两个温度孵出幼体的游速无显著差异。上述结果显示:24—30℃是赤链蛇适合的孵化温度范围,与赤链蛇所处的生境温度相近。     

孵化温度对灰鼠蛇卵孵化期、孵化成功率和孵出幼体特征的影响

用4个恒定温（24－32℃）孵化灰鼠蛇卵,检测温度对孵化期,孵化成功率和孵出幼体特征的影响。在24－32℃范围内,孵化温度显影响孵化期及孵出幼体的体长和剩余卵黄大小,但不影响孵化成功率和孵出幼体的性别,体重,躯干重和脂肪体重。24,26,30和32℃孵化期分别为99．0,72．2,54．7和48．7d。24℃和26℃孵出幼体的体筮大于30℃和32℃孵出幼体;24℃和32℃孵同幼体内的卵黄较多。不同温度下发育的胚胎对卵内物质和能量的利用一定的差异,但差异不显。雌性幼体的体长,尾长和总长均大于雄性幼体,这些两性差异与孵化温度无关。孵出幼体和新生卵内容的灰分含量无显差异,孵化前后卵壳灰分含量也无显差异,表明灰鼠蛇的卵黄可提供胚胎发育所需的所有无机物。     

孵化温度对中华鳖胚胎物质和能量利用的影响

用多重温度组合[7个恒温（23、24、27、28、30、33和34℃）和1个波动温度（22．3－32．8℃）]孵化中华鳖（Pellodiscus sinensis）卵,检测温度对胚胎利用卵内物质和能量的影响。卵在波动温度和温和温度下（27℃和28℃）孵化有较高的干物质、脂肪和能量转化率,卵出幼体因而含有较多的无机物,幼体躯干和脂肪体含有较高的能量。卵在极端高温（34℃和33℃）或极端低温（23℃）下孵化物质和能量转化率较低,使得孵出幼体中无机物较少,幼体射干和脂肪中含能量较低。孵化温度显著影响中华鳖孵出幼体内的能量分配;27℃和28℃孵出幼体含能量较高且相似,但27℃孵出幼体剩余卵黄能量小于28℃孵出幼体;34℃和23℃孵出幼体含能量较低且相似,但23℃孵出幼体剩余卵黄能量大于34℃孵出幼体。波动温度拓宽存活孵化温度范围。     

水热环境对中国石龙子孵化卵、孵化成功率及孵化幼体特征的影响

用8种水热条件孵化中国石龙子（Eumeces chinensis）卵,观测孵化卵质量变化、胚胎利用卵内物质和能量及孵出坳体特征,孵化卵因净吸水增重,卵增重与入孵卵质量、孵化温度和基质湿度有关。孵出幼体湿重的处理间差异主要是因为幼体水分含量不同。温度显著影响孵化期、孵化卵吸水量、胚胎利用孵内物质和能量几乎所有被检的幼体特征;温度甚至影响胚胎动用卵壳无机物。然而,在24－32℃范围内,温度对卵孵化成功率无显著的影响。32℃孵出幼体比较低于此温度的孵出幼体发育差,表现为躯干小、未利用的卵黄多。此外,32℃孵出幼体的运动表现比低温孵出幼体差,表现为特定体长（snout-vent length,SVL）的疾跑速小于低温孵出幼体,表明高温孵化卵对孵出幼体的运动能力有不利的影响,潮湿基质中旗子同幼体的体长和尾长大于干燥基质中孵出的幼体,并特征性地具有较小的剩余卵黄。24℃胚胎发育能耗较大,胚胎从卵壳动用的无机物较少。温度影响孵出幼体的体形和头部大小,30℃孵出幼体的尾长最大,32℃孵出幼体的头部最小,其质湿度对孵出幼体的体形和头部大小无显著的影响。温度对孵出幼体特征的影响与湿度的影响无关。孵化水热环境诱导的幼体大小、质量和形态差异可能对幼体的生存和适应性具有重要的影响。26－30℃为孵化中国石龙子卵的适宜温度范围。     

孵化温度对白条草蜥孵出幼体大小、形态和运动表现的影响

实验用白条草蜥(Takydrous wolteri）卵由1999年和2000年4月捕自安徽滁州的19条成年雌体产出。用4个恒定温度（24-33℃）孵化白条草蜥卵,检测孵化温度对孵出幼体大小、形态和运动表现的影响。孵化卵从环境中吸不导致生量增加,卵重量增加与卵初始重量和孵化温度有关。24、27、30和33℃孵化期的平均值分别为41.9、30.6、6.25和22.6d。温度显著影响孵化成功率及孵出幼体的湿重、躯干干重和剩余卵黄干重,但对孵出幼体的性别、体长、尾长和干重无显著影响。24℃和27℃孵出幼体湿重和躯干干重大于33℃孵出幼体,剩余卵黄干则小于33℃孵出幼体;30℃和33℃孵出幼体的湿重、躯干干重和剩余卵黄干重无显著差异。孵化温度显著影响孵出幼体一些局部形态特征：24℃和27℃孵出幼体头长和头宽矫正值显著大于高温（33℃）孵出幼体,24℃孵出幼体耳径正值一般小于较高温度孵出的幼体。疾跑速与幼体体长成正相关,与幼体尾长和状态无关。高温孵出幼体运动能力较差。雄笥幼体腹鳞行数少于雌性幼体,尾长和后肢长大于雌性幼体,这些特征的两性差异与孵化温度无关。孵化热环境能诱导白条草蜥部分表型特征的变异,这些特征的变异可能对个体的适应性具有长期的影响。     

孵化水热环境对渔异色蛇孵化卵和孵出幼体的影响

渔异色蛇卵孵化时能从环境中吸收水分导致质量增加,卵质量的增加与初始卵质量和孵化基质湿度有关。较大幅度的孵化基质湿度变化对孵化期、孵化成功率、胚胎动用孵内物质和能量、孵出幼体的性比、大小和质量无显著影响。孵化期随温度升高而缩短,并显示极强的窝间差异。温度对孵出幼体的性别无影响,但显著影响孵化成功率、胚胎对卵内物质和能量的动用、幼体的大小和质量、躯干和剩余卵黄的质量。孵出幼体总长的两性差异不显著,但雌体体长大于雄体而尾长小于雄体。３２℃不适于孵化渔异色蛇卵,该温度下孵出的幼体躯干发育不良,剩余孵黄较多,尾部均呈畸形,孵化过程中能量转化率较低。２４℃和２６℃中孵出的幼体躯干发育良好,孵化过程中能量转化率较高,各项被测定的幼体特征指标均极相似。     

孵化温度对黄喉拟水龟胚胎发育和幼体特征的影响

用3个恒定温度(24、26和28℃)孵化黄喉拟水龟南方种群卵,检测孵化温度对孵化期、孵化成功率和孵出幼体特征的影响。孵化温度显著影响孵化期和孵化成功率、以及幼体的性别、大小和早期生长。黄喉拟水龟幼体的性别取决于孵化温度(属TSDⅠa型),26℃和28℃孵出幼体偏雄性,30℃孵出幼体都是雌性。随着孵化温度的升高,孵化期呈非线性缩短,而孵化成功率略微增加。较高温度下孵出的幼体较大且具有较好的功能表现,但生长较慢。低温孵出幼体较小,但胚后生长速率较快。低温孵出幼体较小可能与胚胎发育期长、总代谢消耗大有关;而生长速率快则可能是因为低温产生的雄性幼体生长快于高温产生的雌性幼体。与已报道的黄喉拟水龟北方种群卵孵化结果相比较,26℃和28℃条件下南方种群卵的孵化期和产生1∶1性比的关键温度较大。这种地理上的变异可能反映不同种群对当地热环境适应性上的差异。     

孵化温度对乌龟胚胎能量利用及矿物质代谢的影响

在24℃、27℃、30℃和33℃条件下孵化乌龟(Chinemysreevesii)卵,检测温度对胚胎利用卵内能量和矿物质的影响。孵化温度显著影响乌龟胚胎的能量利用。卵在温和温度下(27℃和30℃)比在高温(33℃)和低温(24℃)孵化有较高的干物质、脂肪和能量转化率。因而,27℃和30℃新生幼体的总能量高于33℃和24℃下孵出的幼体。新生幼体内剩余卵黄随温度升高而增大。27℃下新生幼体的躯干能量显著高于其它温度。此外,孵化温度显著影响乌龟胚胎钙代谢,但对镁和钾代谢影响微弱。24℃下胚胎从卵黄和卵壳吸收的总钙量小于其它温度条件下胚胎,与之相对应,24℃下孵出卵卵壳内残留较多的钙。由此可见,温和温度(27-30℃)可提高胚胎能量转化效率,促进胚胎从卵黄和卵壳吸收较多的矿物质,有利于孵出发育良好的乌龟幼体     

水热环境对中国石龙子孵化卵、孵化成功率及孵出幼体特征的影响

用 8种水热条件孵化中国石龙子 (Eumeceschinensis)卵 ,观测孵化卵质量变化、胚胎利用卵内物质和能量及孵出幼体特征。孵化卵因净吸水增重 ,卵增重与入孵卵质量、孵化温度和基质湿度有关。孵出幼体湿重的处理间差异主要是因为幼体水分含量不同。温度显著影响孵化期、孵化卵吸水量、胚胎利用卵内物质和能量几乎所有被检的幼体特征 ;温度甚至影响胚胎动用卵壳无机物。然而 ,在 2 4～ 32℃范围内 ,温度对卵孵化成功率无显著的影响。 32℃孵出幼体比较低于此温度的孵出幼体发育差 ,表现为躯干小、未利用的卵黄多。此外 ,32℃孵出幼体的运动表现比低温孵出幼体差 ,表现为特定体长 (snout ventlength ,SVL)的疾跑速小于低温孵出幼体 ,表明高温孵化卵对孵出幼体的运动能力有不利的影响。潮湿基质中孵出幼体的体长和尾长大于干燥基质中孵出的幼体 ,并特征性地具有较小的剩余卵黄。 2 4℃胚胎发育能耗较大 ,胚胎从卵壳动用的无机物较少。温度影响孵出幼体的体形和头部大小 ,30℃孵出幼体的尾长最大 ,32℃孵出幼体的头部最小。基质湿度对孵出幼体的体形和头部大小无显著的影响。温度对孵出幼体特征的影响与湿度的影响无关。孵化水热环境诱导的幼体大小、质量和形态差异可能对幼体的生存和适应性具有重要的影响。 2     

产卵于温暖且热稳定巢内的蜥蜴具有相对较高但较窄范围的孵化温度

作者用蜡皮蜥(Leiolepis reevesii)为模型动物,检验产卵于温暖且热稳定巢内的蜥蜴应有相对较高但较窄的孵化温度的假设。卵在三个恒定温度(27、30和33℃)、一个波动温度处理下孵化。温度的平均值而非方差影响孵化期,27、30和33℃的平均孵化期分别为101.1、69.6和55.3d。幼体性别不受孵化温度影响。不同处理孵出的幼体仅有稍许形态差异,但运动表现差异显著。27℃孵出幼体在跑道上的表现比其它处理孵出幼体差。卵能在27℃和33℃下孵化,但这两个孵化温度并不适宜。蜡皮蜥适宜的孵化温度范围可能处于最频繁的巢温变化范围(28℃-32℃)内。与其它在低温生境或温暖生境但产卵于浅巢的有鳞类爬行动物相比较,蜡皮蜥有相对较高但较窄适宜的卵孵化温度。因此,作者的数据支持上述假设。     

Influence of incubation temperature on morphology, locomotor performance, and early growth of hatchling wall lizards (Podarcis muralis)

Eggs of wall lizards (Podarcis muralis) were incubated at three temperatures approaching the upper limit of viability for embryonic development in this species (26, 29, and 32 degrees C) to assess the influence of temperature on various aspects of hatchling phenotype likely affecting fitness. The thermal environment affected size and several morphometric characteristics of hatchling lizards. Hatchlings from eggs incubated at 32 degrees C were smaller (snout-vent length, SVL) than those from 26 and 29 degrees C and had smaller mass residuals (from the regression on SVL) as well as shorter tail, head, and femur relative to SVL. Variation in the level of fluctuating asymmetry in meristic and morphometric traits associated with incubation temperatures was quite high but not clearly consistent with the prediction that environmental stress associated with the highest incubation temperatures might produce the highest level of asymmetry. When tested for locomotor capacity in trials developed at body temperatures of 32 and 35 degrees C, hatchlings from the 32 degrees C incubation treatment exhibited the worst performance in any aspect considered (burst speed, maximal length, and number of stops in the complete run). Repeated measures ANCOVAs (with initial egg mass as covariate) of snout-vent length and mass of lizards at days 0 and 20 revealed significant effects of incubation temperature only for mass, being again the hatchlings from eggs incubated at 32 degrees C those exhibiting the smallest final size. All together, our results evidenced a pervasive effect of thermal regime during incubation (and hence of nest site selection) on hatchling phenotypes. However, incubation temperature does not affect hatchling phenotypes in a continuous way; for most of the analysed traits a critical threshold seems to exist between 29 and 32 degrees C, so that hatchlings incubated at 32 degrees C exhibited major detrimental effects. J. Exp. Zool. 286:422-433, 2000.     

安徽宿州山地麻蜥卵孵化温度效应

用3个恒定温度(27、30、33℃)和波动温度(14.0～37.5℃)孵化山地麻蜥(Eremias brenchleyi)卵。结果表明,各温度处理下卵孵化成功率差异不显著,但温度对孵化期、孵出幼体表型特征及疾跑速度有显著影响;27、30℃和波动温度下孵出幼体的SVL、重量及躯干干重比33℃的要大,33℃孵出幼体的运动能力比其他3个温度处理弱。波动温度处理下山地麻蜥卵虽短期经历潜在致死的极端温度,但对孵化成功率、孵出幼体表型特征和运动表现均无负效应。     

The effects of thermal and hydric environments on hatching success, embryonic use of energy and hatchling traits in a colubrid snake, Elaphe carinata.

We examined the effects of thermal and hydric environments on hatching success, the embryonic use of energy and hatchling traits in a colubrid snake, Elaphe carinata. The eggs were incubated at four temperatures ranging from 24 to 32 degrees C on substrates with water potentials of 0 and -220 kPa using a 4x2 factorial design. Both thermal and hydric environments affected the water exchange between eggs and their surroundings. Eggs incubated in wetter substrates gained mass throughout the course of incubation, whereas eggs in drier substrates gained mass during the first half of incubation and lost mass thereafter. Hatching success was noticeably higher at 26 and 30 degrees C than at 24 and 32 degrees C, but among treatments, differences in hatching success were not significant. Temperature significantly affected the duration of incubation and most hatchling traits examined. Deformed hatchlings were found in all temperature treatments, with more deformities observed at 32 degrees C. Hatchlings from eggs incubated at different temperatures differed in wet body mass, but the differences stemmed mainly from variation in water contents. Embryos at different temperatures completed development at nearly the same expenditure of energy and catabolized nearly the same amount of lipids, but hatchlings from different temperatures differed in the development condition of carcass at hatching. Hatchlings from eggs incubated at 26 degrees C were larger in SVL than those from other higher or lower incubation temperatures, characteristically having larger carcasses; hatchlings from 32 degrees C eggs were smaller in SVL and had smaller carcasses but larger residual yolks than those from lower incubation temperatures. Hatchlings from eggs incubated at 24 degrees C were shorter in tail length but greater in size (SVL)-specific body wet mass than those from higher incubation temperatures. Within the range from -220 to 0 kPa, the substrate water potential did not affect hatching success, the embryonic use of energy and all hatchling traits examined, and the effects of temperature were independent of the effects of substrate water potential. Therefore, our data add evidence showing that embryonic development in reptiles with pliable-shelled eggs is relatively insensitive to variation in hydric environments during incubation.     

Influence of incubation temperature on hatching success,energy expenditure for embryonic development,and size and morphology of hatchlings in the oriental garden lizard,Calotes versicolor (Agamidae)

We incubated eggs of Calotes versicolor at four constant temperatures ranging from 24 degrees C to 33 degrees C to assess the effects of incubation temperature on hatching success, embryonic use of energy, and hatchling phenotypes that are likely to affect fitness. All viable eggs increased in mass throughout incubation due to absorption of water, and mass gain during incubation was dependent on initial egg mass and incubation temperature. The average duration of incubation at 24 degrees C, 27 degrees C, 30 degrees C, and 33 degrees C was 82.1 days, 60.5 days, 51.4 days, and 50.3 days, respectively. Incubation temperature affected hatching success, energy expenditure for embryonic development, and several hatchling traits examined, but it did not affect the sex ratio of hatchlings. Hatching success was lowest (3.4%) at 33 degrees C, but a higher incidence of deformed embryos was recorded from eggs incubated at this temperature compared to eggs incubated at lower temperatures. Most of the deformed embryos died at the last stage of incubation. Energy expenditure for embryonic development was, however, higher in eggs incubated at 33 degrees C than those similarly incubated at lower temperatures. A prolonged exposure of eggs of C. versicolor at 33 degrees C appears to have an adverse and presumably lethal effect on embryonic development. Hatching success at 24 degrees C was also low (43.3%), but hatchlings incubated at 24 degrees C did not differ in any of the examined traits from those incubated at two intermediate temperatures (27 degrees C and 30 degrees C). Hatchlings incubated at 33 degrees C were smaller (snout-vent length, SVL) than those incubated at lower incubation temperatures and had larger mass residuals (from the regression on SVL) as well as shorter head length, hindlimb length, tympanum diameter, and eye diameter relative to SVL. Hatchlings from 33 degrees C had significantly lower scores on the first axis of a principal component analysis representing mainly SVL-free head size (length and width) and fore- and hindlimb lengths, but they had significantly higher scores on the second axis mainly representing SVL-free wet body mass. Variation in the level of fluctuating asymmetry in eye diameter associated with incubation temperatures was quite high, and it was clearly consistent with the prediction that environmental stress associated with the highest incubation temperatures might produce the highest level of asymmetry. Newly emerged hatchlings exhibited sexual dimorphism in head width, with male hatchlings having larger head width than females.     

恒定和波动温度下丽斑麻蜥孵出幼体的表型变异

作者以丽斑麻蜥(Eremias argus)为模型动物研究恒定和波动孵化温度对孵化成功率和孵出幼体表型的影响。卵在四个恒定[24 ,27 ,30 and 33 (±0·3)℃]、一个波动温度下孵化。不同温度处理下的孵化成功率相同,但孵出幼体表型不同。孵化期随孵化温度升高呈指数式缩短;在相同平均温度下,波动温度孵化卵的孵化期比恒温孵化卵长。在所有被检表型特征中,幼体的干重、剩余卵黄干重和运动表现更易受孵化温度影响。总体而言,低温(24℃、27℃)孵出幼体运动表现最佳,高温(33℃)孵出幼体最差、温和温度(30℃和波动温度)孵出幼体居中。本文研究数据显示: (1)丽斑麻蜥卵每日短期暴露于潜在致死的极端温度下对孵化成功率和孵出幼体形态特征无明显的不利效应; (2)温度波动对孵出幼体运动表现无促进作用,对孵化期的影响则不同于平均值相同的恒定温度。     

Swimming performance of hatchling green turtles is affected by incubation temperature

In an experiment repeated for two separate years, incubation temperature was found to affect the body size and swimming performance of hatchling green turtles (Chelonia mydas). In the first year, hatchlings from eggs incubated at 26°C were larger in size than hatchlings from 28 and 30°C, whilst in the second year hatchlings from 25.5°C were similar in size to hatchings from 30°C. Clutch of origin influenced the size of hatchlings at all incubation temperatures even when differences in egg size were taken into account. In laboratory measurements of swimming performance, in seawater at 28°C, hatchlings from eggs incubated at 25.5 and 26°C had a lower stroke rate frequency and lower force output than hatchlings from 28 and 30°C. These differences appeared to be caused by the muscles of hatchlings from cooler temperatures fatiguing at a faster rate. Clutch of origin did not influence swimming performance. This finding that hatchling males incubated at lower temperature had reduced swimming ability may affect their survival whilst running the gauntlet of predators in shallow near-shore waters, prior to reaching the relative safety of the open sea.     

Comparisons of egg incubation and hatchling traits among captive cohorts of the Chinese three-keeled pond turtle, Chinemys reevesii

Freshly-laid eggs of the Chinese three-keeled pond turtle (Chinemys reevesii) from captive cohorts in Hunan, Shanghai and Jiangxi were incubated at four constant temperatures of 24, 26, 28 and 30 °C to assess the effects of incubation temperature and cohort origin on incubation duration and hatchling phenotypes. Eggs from the three cohorts differed in size and shape. Egg mass and width were greatest in the Hunan cohort, smallest in the Jiangxi cohort, with the Shanghai cohort in between. Incubation duration decreased with increasing temperature and differed among the cohorts, with longer incubation duration for eggs from the Jiangxi cohort than those from the Hunan or Shanghai cohorts. Incubation temperatures significantly affected hatchling size and hatchlings from 30 °C were smaller than those from the lower temperatures in terms of carapace size and body mass. When incubated at a common temperature, hatchlings from the Hunan and Shanghai cohorts were larger than those from the Jiangxi cohort. The swimming capacity of hatchlings was affected by incubation temperature, but did not differ among the cohorts. The characteristics of eggs and hatchlings were similar among the Hunan and Shanghai cohorts, but they differed significantly from the Jiangxi cohort.     

Comparisons of egg incubation and hatchling traits among captive cohorts of the Chinese three-keeled pond turtle, Chinemys reevesii

Freshly-laid eggs of the Chinese three-keeled pond turtle (Chinemys reevesii) from captive cohorts in Hunan, Shanghai and Jiangxi were incubated at four constant temperatures of 24, 26, 28 and 30 °C to assess the effects of incubation temperature and cohort origin on incubation duration and hatchling phenotypes. Eggs from the three cohorts differed in size and shape. Egg mass and width were greatest in the Hunan cohort, smallest in the Jiangxi cohort, with the Shanghai cohort in between. Incubation duration decreased with increasing temperature and differed among the cohorts, with longer incubation duration for eggs from the Jiangxi cohort than those from the Hunan or Shanghai cohorts. Incubation temperatures significantly affected hatchling size and hatchlings from 30 °C were smaller than those from the lower temperatures in terms of carapace size and body mass. When incubated at a common temperature, hatchlings from the Hunan and Shanghai cohorts were larger than those from the Jiangxi cohort. The swimming capacity of hatchlings was affected by incubation temperature, but did not differ among the cohorts. The characteristics of eggs and hatchlings were similar among the Hunan and Shanghai cohorts, but they differed significantly from the Jiangxi cohort.