贵州五种菊头蝠的核型分析 *

采用常规骨髓细胞空气干燥法,研究了贵州5种菊头蝠的核型。贵州菊头蝠和中菊头蝠2n=62,两者染色体臂数(NF)均为60;托氏菊头蝠、小菊头蝠和栗黄菊头蝠的染色体数是2n=36,其中托氏菊头蝠和小菊头蝠染色体臂数(NF)是58,栗黄菊头蝠是60。5种菊头蝠的性别决定机制均是xY。     

贵州6种蝙蝠的核型

采用常规骨髓细胞空气干燥法,研究了贵州6种蝙蝠的核型。白腹管鼻蝠(Murina leucogaster)2n=44,染色体臂数(FN)为58;普通长翼蝠(Miniopterus schreibersi)染色体数是2n=46,FN为50,黄大蹄蝠(Hipposideros pratti)2n=32,FN为60;角菊头蝠(Rhinolophus cornutus)2n=62,FN为60;云南菊头蝠(R.yunnanensis)2n=44,FN是60;犬蝠(Cynopterus sphinx)2n=34,FN=58。其中白腹管鼻蝠、云南菊头蝠和犬蝠为国内首次报道。     

广东五种菊头蝠的核型分析

本用蝙蝠的新鲜肺组织和尾椎进行组织培养,然后在光学显微镜下计数30个染色体分散良好的中期分裂相细胞,并进行摄影、剪贴和测量。分析了广东地区5种菊头蝠的核型,即小菊头蝠的核型为2n=62,FN=60;角菊头蝠的核型为2n=62,FN=60;中菊头蝠的核型为2n=62,FN=60;大耳菊头蝠的核型为2n=62,FN=60;中华(栗黄)菊头蝠的核型为2n=36,FN=60。大耳菊头蝠的核型为首次报道。角菊头蝠和中菊头蝠的核型与前人报道的结果基本相同。中华(栗黄)菊头蝠的核型(2n=36)与张维道报道的鲁氏菊头蝠相同,而与印度和斯里兰卡产R．rouxii的核型2n=56迥异。最后对东亚地区菊头蝠多样性进行了探讨。     

四川产中菊头蝠喜马拉雅亚种和马铁菊头蝠日本亚种外部形态及头骨的比较

对四川产中菊头蝠喜马拉雅亚种(Rhinolophus affinis himalayanus)和马铁菊头蝠日本亚种(R.ferrumequinum nippon)的23项外部形态指标和22项头骨形态指标进行了测量,并进行数理统计分析。结果表明,(1)中菊头蝠喜马拉雅亚种和马铁菊头蝠日本亚种的23项外部形态测量指标中有2项差异显著(P<0.05),16项差异极显著(P<0.01),其中:中菊头蝠喜马拉雅亚种(n=14)体长小于59 mm(47.30~58.40),尾长小于26 mm(21.69~25.68),耳长小于22 mm(18.36~21.88),前臂长小于56 mm(50.9~54.20),第Ⅲ掌骨第一指节长小于16 mm(13.2~15.53),第Ⅲ掌骨第二指节小于32 mm(27.38~31.74);而马铁菊头蝠日本亚种(n=6)体长大于62 mm(62.43~66.76),尾长大于30 mm(30.56~36.18),耳长大于24 mm(24.47~27.20),前臂长大于56 mm(58.78~63.46),第Ⅲ掌骨第一指节大于19 mm(19.38~21.39),第Ⅲ掌骨第二指节大于34 mm(34.42~38.11),这些差异可作为区分四川产这两个种的依据。(2)中菊头蝠喜马拉雅亚种和马铁菊头蝠日本亚种的22项头骨形态测量指标中,除颅高、听泡间距差异不显著(P>0.05)外,其他20项指标都存在极显著差异(P<0.01)。     

蝙蝠科七种蝙蝠的核型

报道了贵州7 种蝙蝠科蝙蝠的核型。伏翼和印度伏翼的染色体数为2n = 26 , 常染色体都由10 对双臂染色体和2 对微小点状染色体组成, N.F = 44 , 性染色体是大小悬殊的端着丝粒染色体; 两者核型的主要区别在于前者的No.3 是中着丝粒染色体, 后者为亚中着丝粒染色体; 大鼠耳辐(四川亚种) 、水鼠耳蝠和西南鼠耳蝠的染色体数都是2n = 44 , 常染色体都由4 对中着丝粒染色体和17 对端着丝粒染色体组成, N.F = 50 , 其中大鼠耳蝠(四川亚种) 和水鼠耳蝠核型非常相似, 西南鼠耳蝠与前二者有一定区别; 山蝠(福建亚种) 是2n = 36 , 常染色体包括7 对中着丝粒染色体、1 对亚中着丝粒染色体和9 对端着丝粒染色体, N.F = 50 ; 南蝠2n = 50 , 常染色体由24 对端着丝粒染色体组成, N.F = 48 , X染色体是最大的中着丝粒染色体。     

基于核基因RAG1部分序列探讨菊头蝠科和蹄蝠科的系统发育关系

应用核基因重组激活基因1(Recombination activating gene,RAG1)部分序列对贵州9种菊头蝠和5种蹄蝠的系统发育关系进行了研究,运用贝叶斯法(Bayesian inference,BI)、最大似然法(Maximum likelihood,ML)和邻接法(Neighbor-joining,NJ)构建了系统进化树。研究结果表明:1.菊头蝠科和蹄蝠科形成两个平行的分支,支持它们是两个平行科的结论。2.马铁菊头蝠是菊头蝠科中第一个独立出来的亚分支,与其余8种菊头蝠的亲缘关系最远;Rhinolophus sp.与大菊头蝠聚合为一支,推测Rhinolophus sp.可能是大菊头蝠,或者是大菊头蝠的近缘种,它们是继马铁菊头蝠之后分离出来的第二亚分支;中华菊头蝠、栗黄菊头蝠、中菊头蝠聚合为第三亚分支,贵州菊头蝠、大耳菊头蝠、菲菊头蝠聚合为第四亚分支,此两分支形成姊妹群。3.在蹄蝠科的亚分支中,三叶蹄蝠、小蹄蝠、普氏蹄蝠依次分离出来,最后分出的是大蹄蝠和中蹄蝠。     

四种菊头蝠染色体组型分析

本文分析了皮氏菊头蝠(R. pearsoni chinensis),鲁氏菊头蝠(R.rouxi sinicus),角菊头蝠(R.cornutus pumilus)及中菊头蝠(R.affinis)的常规核型,现报道如下。     

马铁菊头蝠捕食活动与猎物资源的关系

捕食者与猎物的关系研究对了解物种捕食行为及种群空间格局具有重要意义。采用Avisoft Bioacoustics超声波仪录制马铁菊头蝠自然状态下的声波以确定其捕食活动强度,用灯诱法、扫网法和飞行阻隔法相结合采集昆虫,搜集蝙蝠粪便并分析其食物组成。结果表明,马铁菊头蝠在8月份活动最频繁,昆虫丰富度在8月份最丰富,马铁菊头蝠捕食活动与鳞翅目丰富度呈显著正相关。马铁菊头蝠主要以鳞翅目和鞘翅目为食,但食性存在明显的月份变化。卡方检验结果表明,马铁菊头蝠捕食的猎物与环境中可利用的昆虫猎物存在显著差异。在食物资源丰富时,马铁菊头蝠选择性地捕食营养丰富的鞘翅目昆虫。     

河南省马铁菊头蝠肠道寄生吸虫

2003年8月至2006年12月对河南省7个产地35只马铁菊头蝠肠道检查, 发现吸虫5种, 隶属于3科4属.即:软体肠前腺吸虫、长形肠前腺吸虫、软体亚睾吸虫、朝鲜斜睾吸虫和中孔吸虫未定种.马铁菊头蝠是软体亚睾吸虫的新宿主.软体肠前腺吸虫、长形肠前腺吸虫、软体亚睾吸虫是河南省蝙蝠寄生虫的首次报道.     

基于线粒体16S rRNA基因部分序列探讨贵州9种菊头蝠(翼手目:菊头蝠科)的分子系统进化关系

依据部分线粒体16S rRNA基因序列,我们对贵州九种菊头蝠进行了分子系统进化关系研究.结果表明:马铁菊头蝠与其他菊头蝠亲缘关系较远,它可能是最原始的种类.中华菊头蝠和贵州菊头蝠聚在同一分支,表明它们之间亲缘关系非常接近,高鞍菊头蝠和贵州菊头蝠的DNA差异百分比最小(1.13%),因此认为这两个种亲缘关系也非常接近.     

四川七种蝙蝠的核型

本报道了四川地区7种蝙蝠的核型。菊头蝠科2种,即角菊头蝠(Rhinolophus comutus)的核型为2n=62,FN=60;栗黄菊头蝠(R．ssinicus)的核型为2n=36,FN=60。蹄蝠科1种,即大蹄蝠(H．armiger)的核型为2n=32,FN=60。蝙蝠科3种,即伏翼(Pipistrellus abramns)的核型为2n=26,FN=44;南蝠(Iaio)的核型为2n=50,FN=48;山蝠(Nyctalus velutinus)的核型为2n=36,FN=50。犬吻蝠科的皱唇蝠(Tadarida teniotis)的核型为2n=48,FN=62。南蝠的核型为首次报道,但栗黄菊头蝠的核型2n=36与安徽张维道报道相同,而与印度和斯里兰卡同种R．rouxii的核型2n=56迥异。分布在中国的栗黄菊头蝠R．sinicus应为独立种而不是R．rouxii的中国亚种。另5种蝙蝠的核型与前人研究结论基本一致。     

Phylogenetic analysis of G-banded karyotypes among the South American subterranean rodents of the genus Ctenomys (Caviomorpha: Octodontidae), with special reference to chromosomal evolution and speciation

The chromosomes of subterranean rodents of the South American genus Ctenomys are highly variable with diploid numbers ranging from 10 to 70. The phylogenetic relationships of this group have been analysed cladistically using G-banded karyotypes as have the chromosomal rearrangements involved in its karyotypic differentiation. One group, called the 'Corrientes group', has very variable chromosomes but low allozymic and morphological differentiation among its members. This group has been analysed with respect to chromosomal speciation. Using a member of another subfamily (Octodontomys gliroides) as an outgroup, the results indicate that karyotypes with low diploid and fundamental numbers are plesiomorphic. The range of diploid numbers studied here is between 22 and 70, while the fundamental numbers are between 40 and 86. It was found that the main chromosomal rearrangement that transforms karyotypes towards higher diploid and fundamental numbers is the acquisition of new chromosomal material via unknown mechanisms, followed by pericentric inversions that generate new chromosomal arms, centric fusions and centric fissions. In spite of their low differentiation regarding allozymic and morphological features, it was found that the karyomorphs of the Corrientes group have enough chromosomal differentiation to consider them as distinct species. Beside the range of diploid and fundamental numbers of this group (42–70 and 80–84 respectively), their pairwise chromosomal differences are high. The most closely related of them differ in one nonhomologous arm, one Robertsonian change and a whole chromosome duplication. The most differentiated taxa differ in 20 arms with lack of homology, 12 Robertsonian changes (one with monobrachial homology), six pericentric inversions and the above mentioned probable arm duplication. For these reasons, it is probable that some kind of chromosomal speciation has occurred in the Corrientes group.     

The chromosomes of a catfishParasilurus aristotelis from Greece

The karyotype of the catfish,Parasilurus aristotelis, from Lake Trichonis, Greece, shows that the species has a diploid chromosome number of 2n = 58. Comparison with published data on the karyotypes of other species belonging toParasilurus shows the same chromosome number but different arm numbers. Reported karyological data of the European populations ofSilurus indicate that they have a diploid number of 2n=60. A reduction in chromosome number is assumed to be connected with speciation and, therefore,Parasilurus probably forms a separate group from that ofSilurus.     

小山蛙和中国雨蛙的核型及其C—带和银染的研究

采用骨骼细胞直接制备染色体标本法和BSG及Ag-NORs显带技术,研究了小山蛙(Rana minimus)和中国雨蛙(Hyla chinensis)的常规核型、C-带和Ag-NORs。小山蛙2n=26,有5对大型和8对小型染色体。第6对染色体短臂近着丝点处具次缢痕,并为C-带染色阳性,银带显示此次缢痕处,即是标准NORs。C-带显现于几乎所有染色体的着丝点区,插入型C-带少且弱,无端位带。中国雨蛙2n=24,有6对大型和6对小型染色体。次缢痕在第10对染色体长臂上,亦为C-带染色阳性,并与银染显示的标准NORs相一致。C-带分析表明,亦以着丝点C-带为主,插入型C-带少,无端位带。本文初步讨论了蛙科和雨蛙科的核学特征以及它们间的演化关系。     

Polyphyletic allopolyploid origin ofRanunculus cantoniensis (4x) fromR. silerifolius (2x) ×R. chinensis (2x)

Both diploid and tetraploid experimental interspecific hybrids betweenRanunculus silerifolius (2x) andR. chinensis (2x) exhibit normal bivalent pairing. However, microspores of diploid hybrids do not undergo mitosis and their pollen grains are highly sterile, whereas tetraploid hybrids form good pollen grains after microspore division. Evidence is forwarded for the assumption thatR. cantoniensis (4x) has originated by hybridization between these two diploid parental species and by polyploidization of the diploid hybrids. Parallelisms between the different karyotypes ofR. cantoniensis (4x) andR. silerifolius (2x) suggest that the former is a species of polyphyletic origin.     

三种食肉目动物的核型分析

本文报道了产于我国华北地区的艾鼬、貉和果子狸的核型。其中艾鼬2n=36。组型由20条双臂染色体、14条单臂染色体和一对性染色体组成。貉2n=65,它与wuster等报道过的貉的2n=42的核型表现出同种动物核型间的多态现象。果子狸2n=44,其c带带型中具有一对带有较大异染色质的中部着丝点染色体。