Indiana bat summer maternity distribution: effects of current and future climates

Temperate zone bats may be more sensitive to climate change than other groups of mammals because many aspects of their ecology are closely linked to temperature. However, few studies have tried to predict the responses of bats to climate change. The Indiana bat (Myotis sodalis) is a federally listed endangered species that is found in the eastern United States. The northerly distribution of Indiana bat summer maternity colonies relative to their winter distributions suggests that warmer climates may result in a shift in their summer distribution. Our objectives were to determine the climatic factors associated with Indiana bat maternity range and forecast changes in the amount and distribution of the range under future climates. We used Maxent to model the suitable climatic habitat of Indiana bats under current conditions and four future climate forecasts for 2021–30, 2031–40, 2041–50, and 2051–60. Average maximum temperature across the maternity season (May–August) was the most important variable in the model of current distribution of Indiana bat maternity colonies with suitability decreasing considerably above 28ºC. The areal extent of the summer maternity distribution of Indiana bats was forecasted to decline and be concentrated in the northeastern United States and Appalachian Mountains; the western part of the current maternity range (Missouri, Iowa, Illinois, Kentucky, Indiana, and Ohio) was forecasted to become climatically unsuitable under most future climates. Our models suggest that high temperatures may be a factor in roost‐site selection at the regional scale and in the future, may also be an important variable at the microhabitat scale. When behavioral changes fail to mitigate the effects of high temperature, range shifts are likely to occur. Thus, habitat management for Indiana bat maternity colonies in the northeastern United States and Appalachian Mountains of the Southeast is critical as these areas will most likely serve as climatic refugia.     

两种鼠耳蝠的核型、G带和C带研究

使用肺、心脏等组织进行培养,用空气干燥法制作染色体标本,以胰酶法制作G带,BSG法制作c带,分析了贵州2种鼠耳蝠的核型、G带和c带.水鼠耳蝠Myotis daubentoni和小鼠耳蝠Myotis dividii的染色体数均为2n=44,拥有3对大型和1对中型中着丝粒染色体,染色体臂数(FN)=52;这2种鼠耳蝠的G带...     

大卫鼠耳蝠回声定位声波、翼型特征及夏季食性分析

2005 ～2009年,野外采集大卫鼠耳蝠(Myotis davidii)的回声定位声波、翼型数据及粪便样本,分析了其回声定位声波、翼型特征和夏季食性.结果表明,大卫鼠耳蝠回声定位声波主频为(60.4±10.0)kHz (Mean±SD),带宽为(54.7±8.5)kHz,能率环为7.4％±3.5％;翼展比为6.2±0...     

Infestation and seasonal activity of Ixodes vespertilionis Koch, 1844 (Acari: Ixodidae) on the Maghreb mouse‐eared bat,Myotis punicus Felten, 1977, in northeastern Algeria

Infestation of Ixodes vespertilionis Koch, 1844 on Myotis punicus Felten, 1977 from two sites (Trios Tunnel and Sidi Trad cave) in northeastern Algeria was studied. An overall infestation of 41.4% for all stages was found among bats collected from both sites. By stage, a total of eight females, 70 nymphs, and 107 larvae were recovered from both populations. The number of females recovered per bat at Sidi Trad ranged from 0‐1, for nymphs 0‐2, and for larvae 0‐2. While no female ticks were collected at Trios Tunnel, the number of nymphs ranged from 0‐2 and for larvae 0‐2. At Trios Tunnel, the number of nymphs was significantly higher during April and June but not for July and September. On the other hand, the number of larvae increased from July to November, while at Sidi Trad cave, female ticks were recovered during April and May and then disappeared until the end of the study period. Significant differences were noted during all the months when compared with all stages. Nymphs infested bats significantly during April and May, declined in June and July, and then became steady until October. Larvae peaked in July, with low frequency in April, and then fluctuated from August to November.     

三种共栖蝙蝠的回声定位信号特征及其夏季食性的比较

2005年6至9月,对桂林市郊区两个山洞中高颅鼠耳蝠(Myotissiligorensis)、菲菊头蝠(Rhinolo-phuspusillus)和黑髯墓蝠(Taphozousmelanopogon)的回声定位叫声特征和食性进行分析,并结合其形态特征与野外观察,推断其捕食生境和捕食策略。研究结果发现:黑髯墓蝠体型最大,声音特征属短调频型多谐波,一般为4个谐波,能量主要集中在第二谐波上,主频率为(32·84±1·17)kHz,选择鞘翅目和双翅目昆虫为主要食物;高颅鼠耳蝠(长调频型)和菲菊头蝠(长恒频-调频型),体型都较小,主频率分别是(84·44±8·13)kHz和(110·78±1·65)kHz,以双翅目昆虫为主要食物;而菲菊头蝠则以鞘翅目和双翅目昆虫为主要食物。上述结果证明,高颅鼠耳蝠、菲菊头蝠和黑髯墓蝠在声音和食物组成等方面出现了明显分化。     

Microsatellite Evolution in the Mitochondrial Genome of Bechstein’s Bat (Myotis bechsteinii)

Being highly polymorphic, microsatellites are widely used genetic markers. They are abundant throughout the nuclear genomes of eukaryotes but rare in the mitochondrial genomes (mtDNA) of animals. We describe a short but highly polymorphic AT microsatellite in the mtDNA control region of Bechstein’s bat and discuss the role of mutation, genetic drift, and selection in maintaining its variability. As heteroplasmy and hence mutation rate were positively correlated with repeat number, a simple mutation model cannot explain the observed frequency distribution of AT copy numbers. Because of the unimodal distribution of repeat numbers found in heteroplasmic individuals, single step mutations are likely to be the predominant mechanism of copy number alternations. Above a certain copy number (seven repeats), deletions of single dinucleotide repeats seem to be more common than additions, which results in a decrease in frequency of long alleles. Heteroplasmy was inherited from mothers to their offspring and no evidence of paternal inheritance of mitochondria was found. Genetic differences accumulated with more distant ancestry, which suggests that microsatellites can be useful genetic markers in population genetics.[Reviewing Editor: Dr. Rafael Zardoya]     

单耳堵塞对蝙蝠下丘GABA阳性反应神经元的影响

已有的研究表明,单耳堵塞可以使中脑下丘神经元的听空间反应特性改变,而神经元听空间特性的形成与中枢中的周边抑制有关,是神经元的兴奋性中心区域与抑制性周边区域相互作用的结果［１］。γ－氨基丁酸（Ｇａｍｍａ－ａｍｉｎｏｂｙｔｒｉｃａｃｉｄ,ＧＡＢＡ）作为中...     

No evidence for memory retention of a learned association between a cue and roost quality after hibernation in free-ranging bats

Hibernation is a physiological adaptation that allows animals to survive adverse environmental conditions. A commonly assumed cost of hibernation is impaired memory retention. So far, however, the effects of hibernation on memory retention have been assessed on only a few behavioral tasks, and exclusively under laboratory conditions. Taking advantage of the longevity and strict colony fidelity of female Bechstein's bats, we were able to evaluate memory retention in the same individuals over two consecutive summers in the field. We used a pairwise roost choice experiment with automatic monitoring of RFID-tagged bats. Roosts’ suitability as day roost was associated with a distinctive external echo-acoustic cue. Experiments were separated by a natural hibernation period of eight months. We determined associative learning and memory retention by comparing the bats’ proportion of visits to suitable roosts within and between breeding seasons, respectively. During the first breeding season, bats quickly learned to associate the suitable roosts with their external cue. After hibernating, we found no evidence that individuals remembered the association between the roosts’ suitability and their respective external cue, suggesting a lack of memory retention. Nevertheless, bats quickly re-learned the same association during the second breeding season, emphasizing the high behavioral flexibility of Bechstein's bats.