广西玉林市翼手类多样性初步调查

从2006年6月至2009年11月对玉林市翼手类物种多样性进行了初步调查.玉林市共有蝙蝠15种,隶属5科7属.其中东洋型种类有13种,占86.7%,季风型(东亚伏翼Pipistrellus abramus)和南中国型(灰伏翼Pipistrellus pulveratus)各1种,分别占蝙蝠种类的6.67%.玉林市蝙蝠可分为3种栖息类型:菊头蝠属Rhinolophus、蹄蝠属Hipposideros和棕果蝠Rousettus leschenaultia为洞穴型蝙蝠;犬蝠Cynopterus sphinx为树栖型蝙蝠;东亚伏翼和灰伏翼为房屋型蝙蝠.蝙蝠在该地区自然生态系统中占有重要地位,食虫蝙蝠捕食蚊、蛾等害虫,是控制害虫的有效天敌之一,食果蝙蝠对荔枝、龙眼、香蕉等水果造成一定危害.目前,由于栖息环境破坏和乱捕滥杀,蝙蝠种类和种群数量均有所下降,应加大保护力度.     

蝙蝠和鲸都是种名吗

初中《动物学》课本在讲哺乳纲的翼手目和鲸目时,介绍了蝙蝠和鲸。我们查阅了《辞海》(生物分册)553页,书中写到:“蝙蝠,哺乳纲、翼手目动物的通称,是具有飞翔能力的哺乳动物……分大蝙蝠和小蝙蝠两大类。前者体型大,第一和第二指均有爪,以果实为食,如狐蝠、果蝠、犬蝠。后者体型较小,仅第一指具爪,种类较多,一般以昆虫为食,如菊头蝠、蹄蝠、伏翼(家蝠)、山蝠、大耳蝠等。可见,     

日本伏翼的翼型、回声定位信号及出飞时间特征

对日本伏翼的翼型、回声定位信号及晚间出飞时间进行研究。结果表明,日本伏翼的翼型具有高翼载、低翼展比和中等偏高的翼型特征。日本伏翼发出具有1 - 2 个谐波结构的调频型(FM)回声定位信号叫声,其叫声时程、主频率的平均值分别为3.26 ms 和56. 27 kHz,所有叫声特征参数,个体间变异系数CVb 比个体内变 异系数CVw 大。日本伏翼的晚间出飞时间具有明显月变化,与当地日落时间、气温呈现显著相关。通过与文献比较,发现日本伏翼的回声定位信号特征与录音状态、飞行生境有关;此外,晚间出飞时间存在一定的地理差异。本研究结果将为蝙蝠回声定位信号特征的种属特异性及其生境选择的进一步研究提供有用的信息。     

基于部分线粒体细胞色素氧化酶亚基Ⅰ(mtCOI)DNA 序列的6种蝙蝠(翼手目:蝙蝠科)的分子系统进化关系

对贵州5种蝙蝠科蝙蝠的部分线粒体细胞色素氧化酶亚基ⅠDNA序列进行了测定,并结合从Genbank获得的爪哇伏翼的相应序列,以Pteropus dasymallus,P.scapulatus,Rousettus aegyptiacus为外群,运用贝叶斯法(Bayes-ian),最大似然法(Maximum Likelihood,ML)分析了这6种蝙蝠科蝙蝠的分子系统进化关系。结果表明:在贝叶斯,ML树中,这6种蝙蝠科的蝙蝠可分为3个分支:亚洲长翼蝠是第1个独立出来的分支;白腹管鼻蝠是继亚洲长翼蝠之后第2个分离出来的分支;第3个分支又分为两支,一支由大鼠耳蝠和小鼠耳蝠组成,另一支由南蝠和爪哇伏翼组成,支持将这4种蝙蝠同归于蝙蝠亚科的结论,从一定程度上否定了鼠耳蝠属和管鼻蝠亚科之间的姐妹类群关系,也不支持将鼠耳属提升为亚科。     

北京市区越冬长耳的食性分析

2004年11月至2005年4月,采用食团分析法对北京市区内天坛生物制药厂和国子监公园内栖息越冬的长耳鸮(Asiootus)的食物组成进行了分析。发现天坛生物制药厂长耳鸮的食物中啮齿类占41.0%,翼手类占29.5%,鸟类占29.3%,食虫类占0.2%;国子监长耳鸮的食物组成中翼手类占53.8%,啮齿类占21.5%,鸟类占24.7%。翼手目主要种类有山蝠(Nyctalus noctula)和普通伏翼(Pipistrellus abramus)等。长耳鸮三类主要食物所占比例的逐月变化显示,翼手类所占百分比不断上升,啮齿类所占比例先上升而到翌年1、2月开始下降,鸟类所占百分比一直在下降。蝙蝠大量出现于温带冬季鸮类的食物中属首次发现。     

潇水河永州零陵段沿岸蝙蝠物种多样性调查

2011年5月—2013年8月对潇水河永州零陵段沿岸蝙蝠物种多样性进行了初步调查。共记录到蝙蝠8种,分属3科5属。从分布型看,东洋型种类占多数(62.5%);从种群数量看,东亚伏翼Pipistrellus abramus与大蹄蝠Hipposideros armiger占优势,斑蝠Scotomanes ornatus数量最为稀少。区域内蝙蝠喜栖于竹丛、树冠、岩壁、洞穴、民居与古建筑等处。上、下游所栖蝙蝠种类存在差异,但均喜好在水体与植被交接处活动而形成活动聚集地,且洞穴冬眠型蝙蝠的年活动周期较房屋冬眠型蝙蝠的短。调查结果增加了对潇水河沿岸蝙蝠生存现状的了解,可为进一步开展蝙蝠研究和保护提供参考。     

食鱼蝙蝠形态和行为特化研究

总结了食鱼蝙蝠种类、分布 ,及其形态结构、回声定位功能和捕食行为的研究成果。比较食鱼蝙蝠与近水面“拖网式”食虫蝙蝠在形态、回声定位信号及捕食行为方面的异、同 ,推测食鱼蝙蝠起源于“拖网式”食虫蝙蝠类 ;体形和回声定位信号的几种特异性是捕食行为进化压力 ,而环境是决定因素。     

贵州省松桃县东部地区翼手目物种多样性

2008年7月至2009年2月,对贵州省松桃县东部地区的14个镇(乡)47洞穴翼手目的种类、数量、分布及生境进行调查研究。通过标本的采集、鉴定,确定该地区共有翼手目动物3科14种,其中2种为待定种;爪哇伏翼(Pipistrellus javanicus)、棒茎伏翼(P.paterculus)、单角菊头蝠(Rhinolophusmonoceros)3种在贵州省首次发现,其中单角菊头蝠是在中国大陆首次发现。另外,还对该地区蝙蝠的冬眠行为、对冬眠地的选择以及栖息环境的受胁现状进行了初步调查,发现不同种类蝙蝠的冬眠行为是不一样的;同时发现,洞外捕食生境的不同会造成洞穴内分布翼手目种类的不同。     

蝙蝠回声定位与捕食对策的研究

蝙蝠的回声定位可以在相当程度上反映出其捕食对策以及栖息环境的特点,回声定位在强度、持续时间及频率等方面的变化模式显示出这类声学信号的多样性,而这种多样性与蝙蝠的捕食对策相关。这方面的研究在国际上历经几十年不衰,然而,在我国,蝙蝠回声定位的研究基本上是空白?..     

蝙蝠的食性

蝙蝠属翼手目,是哺乳动物中第二个大的类群,共有950种,分为两个亚目(大蝙蝠亚目和小蝙蝠亚目)19个科。在系统发生上,翼手类来源于古食虫类。它们本以昆虫为食(现在大多数仍食虫子),但在长期适应辐射的过程中,食性变得极为复杂,有些已经适应成依靠果、蜜、血或肉为食了。按其食物的类别大致可分为下列六类。一、食虫类种类最多,约有80％以上的蝙蝠种类吃虫或兼吃虫子。小蝙蝠亚目中除吸血蝠科(Demodontidae)的3种外,其他17个科     

Roosting and foraging behaviour of Natterer's bats (Myotis nattereri) close to the northern border of their distribution

Seven nursery roosts and four roosts of male Myotis nattereri , Kuhl 1818 were found in central Scotland at latitude 56–57 N. Most were in crevices in the stonework of man-made structures other than occupied houses. Emergence occurred late in the evening, at an average light intensity of 3.5 lux and emerging bats circled in dark, sheltered areas outside roosts before departing along flyways towards foraging areas. Individuals departed from, and returned to, roosts in groups of 2-6, and circling behaviour was repeated on returning to the roost. During pregnancy, bats from anursery roost made one flight each per night. This increased to an average maximum of 1.84 early in lactation and then decreased again to one around weaning. Night roosts were situated in foraging areas and were used by M. nattereri for resting and grooming, for suckling volant but incompletely weaned young and also, possibly, for information transfer. Important foraging habitats were woodland edges, parkland, roadside vegetation and sheltered areas of water. Arthropod prey was captured both on the wing and by gleaning from foliage, and the bats were able to vary their diet according to arthropod availability. Overall, important prey included Diptera (both Nematocera and higher flies), Trichoptera, Coleoptera and non-flying groups such as Hemiptera, Dermaptera, Arachnida and Opiliones.     

EFFECT OF HABITAT AND FORAGING HEIGHT ON BAT ACTIVITY IN THE COASTAL PLAIN OF SOUTH CAROLINA

Abstract: We compared bat activity levels in the Coastal Plain of South Carolina among 5 habitat types: forested riparian areas, clearcuts, young pine plantations, mature pine plantations, and pine savannas. We used time-expansion radio-microphones and integrated detectors to simultaneously monitor bat activity at 3 heights (30, 10, 2 m) in each habitat type. Variation in vegetative clutter among sampling heights and among habitat types allowed us to examine the differential effect of forest vegetation on the spatial activity patterns of clutter-adapted and open-adapted bat species. Moreover, monitoring activity at 30, 10, and 2 m permitted us to also compare bat activity above and below the forest canopy. We detected calls of 5 species or species groups: eastern red/Seminole bats (Lasiurus borealis/L. seminolus), eastern pipistrelles (Pipistrellus subflavus), evening bats (Nycticeius humeralis), big brown bats (Eptesicus fuscus), and hoary bats (Lasiurus cinerius). At 2 and 10 m, bat activity was concentrated in riparian areas, whereas we detected relatively low levels of bat activity in upland habitats at those heights. Activity was more evenly distributed across the landscape at 30 m. Bat activity levels above the forest canopy were almost 3 times greater than within or below the canopy. We detected significantly greater activity levels of 2 open-adapted species (hoary and big brown bats) above rather than within or below the forest canopy. However, activity levels of 2 clutter-adapted species (eastern red/Seminole bats and eastern pipistrelles) did not differ above, within, or below the forest canopy. Despite classification as a clutter-adapted species, evening bat activity was greater above rather than within or below the forest canopy. We believe our results highlight the importance of riparian areas as foraging habitat for bats in pine-dominated landscapes in the southeastern United States. Although acoustical surveys conducted below forest canopies can provide useful information about species composition and relative activity levels of bats that forage in cluttered environments, our results showing activity above canopy suggest that such data may not accurately reflect relative activity of bats adapted to forage in more open conditions, and therefore may provide an inaccurate picture of bat community assemblage and foraging habitat use.     

Activity patterns of pipistrelle bats (Pipistrellus pipistrellus) in Oxfordshire

A maternity colony of pipistrelle bats ( Pipisfrellus pipistrellus ), in Oxfordshire, was monitored between 1 March 1989 and 6 October 1989. An infra-red 'automatic bat counter' was installed at the roost, to record the number of bats entering and leaving each minute throughout the night. Air temperature, light intensity at sunset, cloud cover, wind speed and rain were recorded on each night of monitoring. Insect abundance was estimated on 18 nights.
The nightly activity pattern was found to be unimodal in pregnancy, bimodal during lactation and unimodal post-weaning. The mean time that each bat spent outside the roost ranged from 103–483 min, with a mean of 321 min.
Ambient air temperature and length of night were significant factors affecting mean time spent outside the roost. The percentage of the night which the bats spent away from the roost ranged from 22 to 88%, with a mean of 64%. There was a significant positive correlation between ambient air temperature and percentage of the night spent away from the roost. Insect abundance showed no significant correlation with the time that bats spent outside the roost. Wind and rain had no apparent effect on time spent outside the roost.     

Abundance, biology, and human exploitation of bats in the Palau Islands

Three species of bats, Pteropus pilosus, P. muriannus pelewensis , and Embullonura semicaudata palauensis , were surveyed by observations, systematic counts, and interviews with local residents in the Palau Islands of Micronesia during a one-month period in 1991. Pteropus pilosus is presumed extinct, with no observations made this century. Pteropus m. pelewensis occurred throughout the archipelago. It is less colonial than other subspecies of P. muriannus , with most of the population appearing to roost solitarily or in small groups of a few bats. Colonies were uncommon and typically ranged in size from about 30–200 animals. Evidence of two larger roosting concentrations, one of which may have held as many as 3,000 bats, was also found. These fruit bats forage and roost in a variety of forested habitats and have diverse diets known to contain the fruits of 54 species, the flowers of 28 species, and the leaves of one species. At dusk, most bats began foraging within several kilometres of their day roosts, but some flew at least 12 km to reach feeding sites. The largest numbers of P. m. pelewensis roosted on rugged and fairly inaccessible limestone islands near the centre of the archipelago, near where most people also lived. We were unable to estimate population size or determine population trend in the island chain. The bats are heavily harvested for commercial export, with more than 180,000 animals shipped to the Mariana Islands from 1975–1994. Smaller numbers are also killed as a local food source. Emballonura s. palauensis , the only insectivorous bat in the islands, was seen at 65% of the evening count locations and was also widespread in the archipelago. Recommendations for managing bats in Palau include a prohibition on the export of fruit bats and the establishment of several protected areas.     

Scale-Dependent Effects of Landscape Structure and Composition on Diurnal Roost Selection by Forest Bats

Abstract: Forest management affects the quality and availability of roost sites for forest-dwelling bats, but information on roost selection beyond the scale of individual forest stands is limited. We evaluated effects of topography (elevation, slope, and proximity of roads and streams), forest habitat class, and landscape patch configuration on selection of summer diurnal roosts by 6 species of forest-dwelling bats in a diverse forested landscape of the Ouachita Mountains, Arkansas, USA. Our objectives were to identify landscape attributes that potentially affect roost placement, determine whether commonalities exist among species in their response to landscape attributes, and evaluate the effects of scale. We modeled roost selection at 2 spatial scales (250- and 1,000-m radius around each roost). For each species, parameters included in models differed between the 2 scales, and there were no shared parameters for 2 species. Average coefficients of determination (R²) for small-scale models were generally higher than for large-scale models. Abundance of certain forest habitat classes were included more often than patch configuration or topography in differentiating roost from random locations, regardless of scale, and most species were more likely to roost in areas containing abundant thinned forest. Among topographic metrics, big brown bats (Eptesicus fuscus) were more likely to roost at higher elevations; roosts of big brown bats, northern long-eared bats (Myotis septentrionalis), and Seminole bats (Lasiurus seminolus) were influenced by slope; and big brown bats, evening bats (Nycticeius humeralis), and Seminole bats were more likely to roost closer to water than random. Northern long-eared bats and red bats (Lasiurus borealis) were more likely to roost closer to roads, whereas eastern pipistrelles (Perimyotis subflavus) were more likely to roost further from roads than random. Common parameters in most models included 1) positive associations with group selection (5 of 6 species) and thinned mature forest (4 species) at the small scale; 2) negative associations with unmanaged mixed pine-hardwood forest 50–99 years old at the large scale (4 species); 3) negative association with stands of immature pine 15–29 years old at the small scale (3 species); and 4) a positive association with largest patch index at the large scale (3 species). Our results suggest that, in a completely forested landscape, a variety of stand types, seral stages, and management conditions, varying in size and topographic location throughout the landscape, would likely provide the landscape components for roosting required to maintain a diverse community of forest bats in the Ouachita Mountains.     

Activity patterns of Pipistrelle bats (Pipistrellus pipistrellus) in north-east Scotland

Pipistrellus pipistrellus emerge from their nursery roosts in north-east Scotland about 35 minutes after sunset, at light intensities of between 15 and 35 lux. Cloud cover, windspeed, ambient temperature, rain, light mist and moonlight have no apparent effect on the time or pattern of emergence. Throughout pregnancy and lactation, emergence lasts for about an hour. After weaning, when the adult females have left the roost, their young take about 40 minutes to emerge. The average rate of initial emergence is proportional to colony size, and the maximum rate of emergence occurs half way through the exodus.
During pregnancy in May and June most bats leave the roost once each night soon after dusk and return between midnight and dawn. After parturition in late June the activity pattern becomes bimodal and the numbers of bats outside the roost show peaks after dusk and immediately before dawn. There is intermittent activity in the vicinity of the roost all night and bats make two or three flights each night. After weaning in August the activity pattern gradually ceases to be bimodal, and the number of flights per bat falls to between one and two. The average time spent outside the roost varies between 2–5 and 5 hours during the summer. The recorded activity patterns of night-flying insects are all bimodal, with peaks after dusk and before dawn, corresponding with the maximum number of bats outside the roost during lactation.     

Social Organization and Foraging Behaviour of the Fishing Bat,Noctilio leporinus (Chiroptera:Noctilionidae)

Female Noctilio leporinus roost in groups that remain together, associated with the same individuals and in the same location, for several years regardless of turnover in resident males and movements of the group to alternate roosts. Females scent marked themselves with the sub-axial secretions of other females by rubbing their heads beneath other bats' wings. Males residing with female groups retain their tenure for two or more reproductive seasons. Bachelor males roost solitarily or in small groups apart from females. Together, these characteristics appear to form the basis of a polygynous social organization. Female N. leporinus foraged solitarily or in small groups with other females from the same roost group. Stable female roost groups forage together and return to the same foraging areas over long periods of time. Bats assembled into small groups outside of the roost and flew together to foraging areas. Females from one roost group were monitored using the same foraging area for over a year. Bats foraged close enough to each other to communicate the location of prey either passively or actively. Roosts were not used as information centres, as bats rarely followed each other from the roost to forage. Males foraged solitarily, utilizing areas that were different from, and larger than, those of the females.     

The influence of reproductive condition and concurrent environmental factors on torpor and foraging patterns in female big brown bats (Eptesicus fuscus)

Unlike many othe r mammals, bats in temperate regions employ short bouts of torpor throughout the reproductive period to maintain a positive energy balance. In addition to decreasing energy expenditure during the day, they typically alter foraging patterns as well. It is well known that various environmental conditions influence both torpor and foraging patterns, but studies of these factors often have focussed on one element in isolation thus it is not known how the two behaviours are collectively influencing temperate bats. The objective of our study was to assess how reproductive condition and environmental factors concurrently affect energy balance in female big brown bats (Eptesicus fuscus). We equipped pregnant and lactating bats in southwest Saskatchewan, Canada with temperature-sensitive radio-transmitters. While transmitters were active, skin temperature data were collected and foraging patterns were determined using triangulation. Of the various environmental and physiological parameters used to model torpor characteristics, roost type was the most important factor. Bats roosting in trees used deeper and longer torpor bouts than those roosting in buildings. Lactating bats had a tendency to forage for longer durations than pregnant bats, and often made more foraging trips. When taken together, we found that foraging duration and torpor duration were not directly related during pregnancy, but exhibited an inverse relationship during lactation. This provides support for the hypothesis that there are physiological trade-offs for reproductive bats and suggests that how bats compensate is not entirely predictable based on current environmental conditions.     

Roosting and Foraging Social Structure of the Endangered Indiana Bat (Myotis sodalis)

Social dynamics are an important but poorly understood aspect of bat ecology. Herein we use a combination of graph theoretic and spatial approaches to describe the roost and social network characteristics and foraging associations of an Indiana bat (Myotis sodalis) maternity colony in an agricultural landscape in Ohio, USA. We tracked 46 bats to 50 roosts (423 total relocations) and collected 2,306 foraging locations for 40 bats during the summers of 2009 and 2010. We found the colony roosting network was highly centralized in both years and that roost and social networks differed significantly from random networks. Roost and social network structure also differed substantially between years. Social network structure appeared to be unrelated to segregation of roosts between age classes. For bats whose individual foraging ranges were calculated, many shared foraging space with at least one other bat. Compared across all possible bat dyads, 47% and 43% of the dyads showed more than expected overlap of foraging areas in 2009 and 2010 respectively. Colony roosting area differed between years, but the roosting area centroid shifted only 332 m. In contrast, whole colony foraging area use was similar between years. Random roost removal simulations suggest that Indiana bat colonies may be robust to loss of a limited number of roosts but may respond differently from year to year. Our study emphasizes the utility of graphic theoretic and spatial approaches for examining the sociality and roosting behavior of bats. Detailed knowledge of the relationships between social and spatial aspects of bat ecology could greatly increase conservation effectiveness by allowing more structured approaches to roost and habitat retention for tree-roosting, socially-aggregating bat species.     

Pteropus lylei primarily forages in residential areas in Kandal,Cambodia

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