黑斑侧褶蛙蝌蚪断尾后的补偿生长和发育研究

动物在经历不利的生长条件或环境后往往出现补偿生长。研究了黑斑侧褶蛙(Pelophylax nigromaculatus)蝌蚪经历来自食蚊鱼(Gambusia affinis)捕食造成断尾损伤后的补偿生长模式、断尾损失对蝌蚪游泳能力以及变态时间与大小的影响。结果表明,经历捕食压力后,全尾组和1/3断尾组蝌蚪的体长显著大于1/2断尾组蝌蚪的体长,全尾组和1/3断尾组之间的蝌蚪体长差异不显著;第19天时,1/2断尾组蝌蚪经过补偿生长后体长显著大于全尾组蝌蚪,1/3断尾组与全尾组和1/2断尾组之间的蝌蚪体长差异均不显著;三个实验组之间蝌蚪尾长差异不显著;全尾组蝌蚪的疾游速显著大于1/2断尾组蝌蚪的疾游速,1/3断尾组蝌蚪的疾游速与全尾组和1/2断尾组之间差异不显著,表明严重断尾对蝌蚪疾游速产生了消极影响。三个实验组蝌蚪的变态时间和变态前后形态差异均不显著。黑斑侧褶蛙蝌蚪能够在变态前调整生长轨迹补偿早期捕食风险造成的生长损失,断尾损失并不影响变态时间与大小,断尾超过一半的蝌蚪经过补偿生长后仍要付出一定的运动代价。     

断尾对蓝尾石龙子能量储存和运动表现的影响

在许多蜥蜴种类中,尾自切是一种主要的逃避天敌捕食的防御性策略。虽然断尾使蜥蜴获得短期的生存利益,但同时也需为此承受多方面的代价。利用从丽水采集的117条蓝尾石龙子来评价该种动物断尾的能量和运动代价。81条(约69%)石龙子至少经历过1次尾自切。断尾个体中,原先断尾事件的发生频率在不同尾区间存在显著差别,但两性间无差别。将实验组17条具完整尾的石龙子依次切去3个尾段,然后测定断尾前后石龙子的运动表现以及每个尾段、身体各部分中的脂肪含量。另15条具完整尾的石龙子作为对照组,仅测量其运动表现。尾部的脂肪含量与尾基部宽呈正相关,说明具较粗尾部的石龙子一般具有相当较多的尾部储能。尾部脂肪含量随尾长呈非等比例分布,大部分脂肪集中于尾近基部端。断尾几乎不影响蓝尾石龙子的运动表现,仅当大部分尾部被切除时疾跑速有较小程度的降低。显示了蓝尾石龙子因遭遇天敌捕食攻击或其它因素作用而产生的部分断尾可能并不会导致严重的能量和运动代价。由于野外种群蓝尾石龙子个体的断尾情况主要发生在尾近基部或中部位置,因此可以认为自然条件下该种动物的尾自切通常会遭受明显的能量和运动代价。     

密度对中国林蛙蝌蚪生长发育的影响

将中国林蛙（Rana chensinensis）蝌蚪分别饲养在40只／L、80只／L、120只／L、160只／L、200只／L和240只／L6个不同的密度条件下,通过定时定量喂食及测量其全长、尾长、体宽、体重和死亡率的变化,分析密度对中国林蛙蝌蚪生长发育的影响。实验结果表明：（1）饲养密度和生长发育时间及两者的交互作用对中国林蛙蝌蚪的生长发育影响都极其显著;（2）在40只／L的密度下,中国林蛙蝌蚪的全长、尾长、体宽、体重的增长速率最快,在240只／L的密度下,中国林蛙蝌蚪的全长、尾长、体宽、体重的增长速率最慢;（3）在相同时间内,40只／L的密度条件下中国林蛙蝌蚪的存活率最高,在240只／L的密度条件下中国林蛙蝌蚪的存活率最低;（4）中国林蛙蝌蚪的生长发育速度随饲养密度的升高而减慢。     

外来捕食者克氏原螯虾对黑斑侧褶蛙不同发育阶段幼体表型与运动能力的影响

外来物种入侵是造成本土无尾两栖类种群下降和灭绝的最严重威胁之一。在中国南部丽水地区,克氏原螯虾(Procambarus clarkiion)是一种捕食本土无尾类蝌蚪的入侵物种。在实验室条件下,通过对黑斑侧褶蛙(Pelophylax nigromaculatus)受精卵和蝌蚪先后进行克氏原螯虾捕食风险的不同处理,检测孵出蝌蚪的形态特征、中期蝌蚪的形态特征、游泳表现及活动水平、变态时间与大小以及幼蛙跳跃表现,评估克氏原螯虾的捕食风险对黑斑侧褶蛙不同生长阶段幼体生长发育、运动能力及行为的综合影响。单因素方差分析表明,捕食者长期存在条件下黑斑侧褶蛙孵出蝌蚪的体长、尾长和尾肌宽均显著短于无捕食者的空白对照组和捕食者仅存在2 d的实验组,后两者处理下的蝌蚪体长差异显著,但尾长和尾肌宽差异不显著。长期捕食者存在条件下黑斑侧褶蛙蝌蚪的游泳总路程和平均游速均显著小于无捕食者和捕食者存在2 d的实验组,而蝌蚪体长、尾长、尾鳍高和尾肌高的组间差异均不显著。有捕食者存在下黑斑侧褶幼蛙的体长和体重均显著大于无捕食者和捕食者存在2 d的实验组的情况,而变态时间和幼蛙跳跃距离组间差异不显著。两因素方差分析表明,测试时间、捕食者设置和两因素的相互作用均显著影响蝌蚪的活动频次。不同实验时间,长期捕食者存在实验组蝌蚪活动频次均小于无捕食者和捕食者存在2 d的实验组。无捕食者实验组蝌蚪的活动频次前期高于捕食者存在2 d的实验组,后期低于捕食者存在2 d的实验组。线性回归分析结果显示,捕食者存在2 d实验组蝌蚪相对活动频次与检测时间相关不显著,长期捕食者存在实验组相对蝌蚪活动频次与检测时间呈显著的正相关。本研究表明了黑斑侧褶蛙蝌蚪能够感知来自入侵捕食者克氏原螯虾的捕食风险,诱导产生较小的孵出个体、蝌蚪较低的活动水平,但这种不足可通过后期补偿生长,不影响进入陆地生境的变态个体的表型与运动能力。     

中国蛙类一新种(无尾目,蛙科)

描述了1种采自广西猫儿山国家级自然保护区的蛙类1新种,模式标本保存于沈阳师范大学自然博物馆.猫儿山林蛙,新种Rana maoershanensis sp.nov.(图1～17)正模:SYNU 06020120,雄性成体,李丕鹏和王绍能于2006年2月采集自广西壮族自治区猫儿山国家级自然保护区,海拔1 980 m.配模:SYNU 06020091,SYNU 06020122和SYNU06020124,雄性成体;SYNU06020121,SYNU06040153,SYN 0604154和SYNU 06040155,雌性成体.李丕鹏和王绍能于2006年2月和4月采集,采集地点与正模相同.蝌蚪:SYNU0602001和SYNU 0604001系列,采集信息与配模标本相同.新种具有如下主要鉴别特征:1)体略大;2)头宽略大于头长;3)背侧褶明显且略弯曲;4)胫跗关节前达眼角;5)雄性婚垫2团,无内声囊,腹部无雄性线;6)蝌蚪唇齿式多为Ⅰ:3-3/Ⅲ:1-1,少数为Ⅰ:3-3/Ⅳ.新种在头型上与中国林蛙相似,在体形上与昭觉林蛙相似.但与已知林蛙均有明显不同.新种的背侧褶略显弯曲,这一特点明显不同于主要分布于中国北方的黑龙江林蛙种组Rana amurensis group和中国林蛙种组R.chensinensis group的成员.新种与长肢林蛙种组R.longicrus group的镇海林蛙R.zhenhaiensis在背侧褶的弯曲特点上相似,但前者有别于后者的主要特点有:头型较宽扁,雌蛙后腿相对较长,蝌蚪唇齿式多为Ⅰ:3-3/Ⅲ:1-1.新种与长肢林蛙种组的其他林蛙不仅在背侧褶和头型等方面明显有别,而且蝌蚪唇齿式也显著不同.通过对四川、贵州和云南的昭觉林蛙R.chaochiaoensis成体和蝌蚪标本(包括地模标本)的核查和比较,新种的胫跗关节前达眼角,皮肤光滑,缺乏疣粒,雄性腹侧无雄性线,蝌蚪下唇乳突排列规则,中央无缺刻;而昭觉林蛙胫跗关节前达鼻孔或超过吻端,体侧和背部有圆疣或长疣,雄性背腹侧均有雄性线,蝌蚪下唇中央乳头排列稀疏或有缺刻.     

南草蜥和南滑蜥断尾及再生的研究

研究肇庆地区南草蜥和南滑蜥断尾和再生形态特征, 结果显示, 断尾位置、再生时间以及两者的交互作用对南滑蜥和南草蜥的尾长均具有显著影响。在自然断尾下, 南滑蜥和南草蜥较多的断尾位置位于近基部(断尾1/2), 断尾个体分别约占29.3%(87/297)和49.2%(29/59)。实验表明, 二者的尾自切处在2 天后开始愈合并长出再生尾, 南滑蜥在远基部(全断尾)的再生速度最高, 而南草蜥则在近基部(断尾3/4), 其尾再生率都明显高于南滑蜥。     

农药乐果对昭觉林蛙蝌蚪的耐受性研究

采用水生生物急性毒性试验方法,研究乐果对昭觉林蛙Rana chaochiaoensis蝌蚪的急性毒性影响,同时运用扫描取样法对正式实验的昭觉林蛙蝌蚪进行行为观察.结果 表明:昭觉林蛙蝌蚪在试验组中正常静止行为、异常静止行为、正常运动行为、异常运动行为分别占74.08%、9.41%、0.58%、2.36%;在对照组中,只有正常静止行为和正常运动行为,分别占90.99% 和9.01%.乐果对昭觉林蛙蝌蚪24 h、48 h、72 h、96 h的半致死浓度 (LC50) 分别为:76.97 mg/L、67.85 mg/L、56.61 mg/L、52.80 mg/L,呈现出线性关系,安全浓度 (SC) 为5.28 mg/L.因此,乐果对昭觉林蛙蝌蚪当属于低毒性农药.但是当乐果残留量超过安全浓度时,将会影响昭觉林蛙蝌蚪的正常生长发育,并对其行为产生影响.     

葡萄糖和维生素C对镇海林蛙蝌蚪生长 及其三种酶活性的影响

营养源对动物生长发育具有重要作用。本文采用静水实验浸泡法探究葡萄糖和维生素C对镇海林蛙(Rana zhenhaiensis)蝌蚪生长及其苹果酸脱氢酶、乳酸脱氢酶及淀粉酶活性的影响。在葡萄糖实验组共分为0.5、1.0和2.0 g/L三个浓度组,维生素C实验组共分为10.0、20.0和30.0 mg/L浓度组,另设1组加曝气水作为对照组。在葡萄糖实验组中,蝌蚪存活率在不同实验组间的差异不显著(P0.05)。变态时间在0.5 g/L和1.0 g/L实验组最短,分别为(43.0±4.0)d和(43.0±3.4)d,2.0 g/L实验组最长,为(46.2±5.4)d,且实验组间差异显著(P 0.05)。变态时,0.5 g/L实验组的体重和体全长最大,且各实验组间的体重差异显著(P 0.01),但体全长差异不显著(P 0.05)。增重率在0.5 g/L实验组最高,为(9.67±1.71)mg/d,对照组最低,为(7.54±1.22)mg/d,且各实验组之间差异显著(P0.05)。维生素C实验组中,存活率在各实验组间差异不显著(P 0.05)。所有实验组蝌蚪的发育历期在实验第7、14、21和28天时均大于对照组。变态时间在所有的实验组相似,为43 d左右(P 0.05)。变态时,蝌蚪的体重(P 0.05)和体全长(P 0.05)在20.0 mg/L实验组和30.0 mg/L实验组最大,对照组最小,但各实验组间差异不显著。蝌蚪的增重率在20.0 mg/L和30.0 mg/L实验组最高,10.0 mg/L实验组最低,但不同实验组间差异不显著(P 0.05)。生化酶活性检测中,苹果酸脱氢酶(MDH)活性在葡萄糖实验组和维生素C实验组中均随实验浓度的增加而增加。乳酸脱氢酶(LDH)和淀粉酶(AMS)活性分别在葡萄糖的1.0 g/L实验组和维生素C的10.0 mg/L实验组达到最高。本研究结果表明,10.0mg/L维生素C或1.0g/L葡萄糖为镇海林蛙蝌蚪的最适外源物添加浓度,能促进蝌蚪的生长和体内酶活性。该研究结果将为镇海林蛙的养殖提供一定的理论参考数据。     

中国林蛙蝌蚪变态过程中甲状腺的发育

两栖动物幼体变态过程是受甲状腺激素所精密调控的。对中国林蛙Rana chensinensis变态前期、临近变态期、变态高峰期和变态完成期的蝌蚪进行了外部形态指标(全长、体长、尾长和后肢长等)的测定,采用解剖和组织学方法对其甲状腺进行了组织学观察,并对蝌蚪外部形态指标与甲状腺形态机能之间的相关性进行了统计分析。结果显示,中国林蛙蝌蚪甲状腺分泌甲状腺激素机能活性的峰值出现于变态高峰期的前肢伸出期。统计分析表明,蝌蚪外部形态指标全长和后肢长的发育信息也可以反映其甲状腺分泌甲状腺激素的机能活性。     

单独隔离孵化对镇海林蛙蝌蚪生长发育、社交行为和运动表现的影响

两栖类胚胎呈卵群一起孵化在反捕食、维持胚胎间的温度平衡和促进胚胎的同步发育等方面具有重要作用。在实验条件下探究孵化条件(单独隔离孵化和卵群一起孵化)对镇海林蛙(Rana zhenhaiensis)蝌蚪的生长发育、社交行为及其运动表现能力的影响。结果表明,孵出2天后,单独隔离孵化组蝌蚪的体长和发育历期均显著大于卵群一起孵化组。以体长为协变量的协方差分析表明,特定体长的单独隔离孵化组蝌蚪的体宽和体重均显著大于卵群一起孵化组的个体。在蝌蚪的活动行为中,单独隔离孵化组蝌蚪在水体上层和中层出现的频次显著小于卵群一起孵化组,而在水体底层的出现频次显著大于卵群一起孵化组。单独隔离孵化组蝌蚪个体的分布面积率、最近邻个体的距离、个体间的距离均显著大于卵群一起孵化组,但个体间的接触频次显著小于卵群一起孵化组。在运动表现方面,单独隔离孵化组胚胎的摆尾搏动频次显著小于卵群一起孵化组。单独隔离孵化组蝌蚪的运动时长和运动频次均显著小于卵群一起孵化组。本研究结果将为无尾两栖类幼期的生长发育规律提供参考数据。     

Interacting effects of predation risk and resource level on escape speed of amphibian larvae along a latitudinal gradient

Fast‐growing genotypes living in time‐constrained environments are often more prone to predation, suggesting that growth‐predation risk trade‐offs are important factors maintaining variation in growth along climatic gradients. However, the mechanisms underlying how fast growth increases predation‐mediated mortality are not well understood. Here, we investigated if slow‐growing, low‐latitude individuals have faster escape swimming speed than fast‐growing high‐latitude individuals using common frog (Rana temporaria) tadpoles from eight populations collected along a 1500 km latitudinal gradient. We measured escape speed in terms of burst and endurance speeds in tadpoles raised in the laboratory at two food levels and in the presence and absence of a predator (Aeshna dragonfly larvae). We did not find any latitudinal trend in escape speed performance. In low food treatments, burst speed was higher in tadpoles reared with predators but did not differ between high‐food treatments. Endurance speed, on the contrary, was lower in high‐food tadpoles reared with predators and did not differ between treatments at low food levels. Tadpoles reared with predators showed inducible morphology (increased relative body size and tail depth), which had positive effects on speed endurance at low but not at high food levels. Burst speed was positively affected by tail length and tail muscle size in the absence of predators. Our results suggest that escape speed does not trade‐off with fast growth along the latitudinal gradient in R. temporaria tadpoles. Instead, escape speed is a plastic trait and strongly influenced by the interaction between resource level and predation risk.     

Nonlethal injury caused by an invasive alien predator and its consequences for an anuran tadpole

Nonlethal tail injury resulting from unsuccessful predation attempts is common in anuran larvae and can potentially induce significant fitness costs in terms of survival and growth. We tested the hypotheses that the alien red swamp crayfish, Procambarus clarkii, is an important inducer of tail injury in tadpoles of the Iberian spadefoot toad, Pelobates cultripes, and that tail damage can have important consequences for the tadpoles’ life history and morphology. This was investigated by first estimating frequencies of caudal injury in P. cultripes tadpoles in temporary ponds, with and without crayfish. Secondly, we performed a laboratory experiment in which four levels of tail injury frequency were combined with two levels of food availability.The frequency of tadpoles with damaged tails was higher in ponds with crayfish and the presence of this predator was the strongest predictor of tail injury frequency in a pond. Induced tail loss decreased larval survivorship and affected tail morphology, with injured tadpoles developing deeper tail muscles and shallower tail fins. The magnitude of these effects depended on injury frequency, as well as on food availability. The results suggest that P. clarkii is inflicting tail injuries at much higher levels than those occurring before its introduction; these injuries affect tadpole morphology and may induce delayed fitness costs.     

Functional mechanisms of an inducible defence in tadpoles: morphology and behaviour influence mortality risk from predation

In many amphibian larvae a suite of morphological and behavioural characters varies together in an induced defence against predators, but it remains unclear which features are functionally related to defence. We independently manipulated behaviour and morphology in tadpoles of Hyla versicolor and assessed their consequences for swimming performance and predator escape. Data on burst swimming showed that tadpoles which accelerated rapidly were elongate, with shallow bodies and tails. Predator escape was measured by exposing tadpoles to predators (larval Anax dragonflies or larval Ambystoma salamanders) and recording time until death. Tadpoles were first reared for 30 days in ponds containing either caged Anax or no predators; individuals responded to predators by developing large brightly coloured tails and short bodies. We placed tadpoles of both morphological phenotypes into plastic tubs, and manipulated their behaviour using food and chemical cues from predators. Mortality risk experienced by the predator‐induced phenotype was about half that of the no‐predator phenotype, and risk increased with time spent swimming. An interaction between morphology and behaviour arose because increasing activity caused higher risk for tadpoles with deep tail fins but not shallow tail fins.     

The effects of acute and developmental temperature on burst swimming speed and myofibrillar ATPase activity in tadpoles of the Pacific tree frog, Hyla regilla

The effects of acute and developmental temperature on maximum burst swimming speed, body size, and myofibrillar ATPase activity were assessed in tadpoles of the Pacific tree frog, Hyla regilla. Tadpoles from field-collected egg masses were reared in the laboratory at 15 degrees (cool) and 25 degrees C (warm). Body size, maximum burst swimming speed from 5 degrees to 35 degrees C, and tail myofibrillar ATPase activity at 15 degrees and 25 degrees C were measured at a single developmental stage. Burst speed of both groups of tadpoles was strongly affected by test temperature (P<0. 001). Performance maxima spanned test temperatures of 15 degrees -25 degrees C for the cool group and 15 degrees -30 degrees C for the warm group. Burst speed also depended on developmental temperature (P<0.001), even after accounting for variation in body size. At most test temperatures, the cool-reared tadpoles swam faster than the warm-reared tadpoles. Myofibrillar ATPase activity was affected by test temperature (P<0.001). Like swimming speed, enzyme activity was greater in the cool-reared tadpoles than in the warm-reared tadpoles, a difference that was significant when assayed at 15 degrees C (P<0. 01). These results suggest a mechanism for developmental temperature effects on locomotor performance observed in other taxa.     

Effects of behavioral and morphological plasticity on risk of predation in a Neotropical tadpole

Predator-induced phenotypic plasticity is widespread among aquatic animals, however the relative contributions of behavioral and morphological shifts to reducing risk of predation remain uncertain. We tested the phenotypic plasticity of a Neotropical tadpole (Rana palmipes) in response to chemical cues from predatory Belostoma water bugs, and how phenotype affects risk of predation. Behavior, morphology, and pigmentation all were plastic, resulting in a predator-induced phenotype with lower activity, deeper tail fin and muscle, and darker pigmentation. Tadpoles in the predator cue treatment also grew more rapidly, possibly as a result of the nutrient subsidy from feeding the caged predator. For comparison to phenotypes induced in the experiment, we quantified the phenotype of tadpoles from a natural pool. Wild-caught tadpoles did not match either experimentally induced phenotype; their morphology was more similar to that produced in the control treatment, but their low swimming activity was similar to that induced by predator cues. Exposure of tadpoles from both experimental treatments and the natural pool to a free-ranging predator confirmed that predator-induced phenotypic plasticity reduces risk of predation. Risk of predation was comparable among wild-caught and predator-induced tadpoles, indicating that behavioral shifts can substantially alleviate risk in tadpoles that lack the typical suite of predator-induced morphological traits. The morphology observed in wild-caught tadpoles is associated with rapid growth and high competition in other tadpole species, suggesting that tadpoles may profitably combine a morphology suited to competition for food with behaviors that minimize risk of predation.     

Tail loss, body condition and swimming performances in tiger snakes, Notechis ater occidentalis

In limbless tetrapods such as snakes, propulsive forces are generated by lateral undulations of the body and of the tail. In a large population of tiger snakes from Western Australia, tail loss was extremely common (58% of the individuals) and often very severe (more than two-thirds of the tail was missing in 14% of the cases, and in some instances, the tail was totally lost). Tail loss was not however correlated with body size, mass or body condition of wild individuals, and hence did not influence their abilities to acquire resources. These large venomous snakes exhibit marked aquatic habits. Locomotor tests in controlled conditions revealed that tail loss had a significant negative influence on burst swimming performances. However, no effect was found on routine swimming speed and total distance travelled over 5 min. These results suggest that a long and slender tail, although important for maximal speed, is not necessarily relevant for the locomotor abilities required for successful hunting. Tail-damaged individuals outnumbered intact snakes, suggesting that tail loss did not severely compromise survival. Overall, in this species, a slight deterioration of maximal speed due to severe tail loss probably has a low (undetectable) ecological impact, at least for adults.     

Predator-induced morphological changes in an amphibian: predation by dragonflies affects tadpole shape and color

Predator-induced defenses are well studied in plants and invertebrate animals, but have only recently been recognized in vertebrates. Gray treefrog (Hylachrysoscelis) tadpoles reared with predatory dragonfly (Aeshnaumbrosa) larvae differ in shape and color from tadpoles reared in the absence of dragonflies. By exposing tadpoles to tail damage and the non-lethal presence of starved and fed dragonflies, we determined that these phenotypic differences are induced by non-contact cues present when dragonflies prey on Hyla. The induced changes in shape are in the direction that tends to increase swimming speed; thus, the induced morphology may help tadpoles evade predators. Altering morphology in response to predators is likely to influence interactions with other species in the community as well. Received: 17 April 1996 / Accepted: 18 September 1996