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江西省发现泰坦尼亚彩蝠 总被引:2,自引:1,他引:1
2013年7月和8月,在江西井冈山国家级自然保护区石溪村(26°37.143′N,114°10.875′E,海拔777 m)和朱砂冲林场(26°33.703'N,114°11.232'E,海拔805 m)使用竖琴网分别采集到7号(6雄1雌)和5号(全雌)森林性蝙蝠标本。上述蝙蝠标本体型较小,前臂长30.16~33.85 mm,颅全长13.90~14.76 mm;无鼻叶,耳廓呈漏斗状,耳屏略呈披针形;脑颅骨略显扁平,齿式为2.1.3.3/3.1.3.3=38;核型中染色体数(2n)为32,常染色体臂数(FN)为52。经鉴定均为泰坦尼亚彩蝠(Kerivoula titania),是江西省翼手目分布新纪录,同时也为中国大陆地区(除海南和台湾)翼手目分布新纪录。本文给出了泰坦尼亚彩蝠的外形和头骨特征及其相关测量数据,并对江西产该种蝙蝠雌雄性标本间的形态数据以及江西产标本与东南亚产该种标本测量数据分别进行t检验,该种性二型分化不明显,但江西和东南亚两地区种群在形态上出现了一定的分化;同时对其染色体核型、生态及保护地位进行了分析和讨论。标本现保存于广州大学生命科学学院。 相似文献
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吉林省新纪录东方蝙蝠Vespertilio sinensis (Peters, 1880)的回声定位声波特征与分析 总被引:1,自引:0,他引:1
通过对吉林省长春市采集到的11只蝙蝠标本的外形、头骨、牙齿和阴茎骨进行测量与对照,鉴定为东方蝙蝠(Vespertilio sinensis),是吉林省翼手目新纪录.用实时录音的超声波仪录制其正常飞行状态下的回声定位声波.结果表明,东方蝙蝠发出短的、宽带的、多谐波的陡坡调频型回声定位声波,能量主要集中在第1谐波.起始频率为83.66±2.08 kHz,峰频为34.54±0.88 kHz,终止频率为24.78±0.41 kHz,带宽为58.84±2.10 kHz,声脉冲持续时间和声脉冲间隔分别为2.63±0.27 ms和61.67±7.5 ms. 相似文献
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于2014年4月在广东封开黑石顶省级自然保护区,使用竖琴网采集到4只体形较小的雌性蝙蝠样本,其形态特征为无鼻叶结构,具漏斗状耳廓和披针形耳屏,前臂长32.30~34.11 mm,胫骨长16.47~17.72 mm;头骨较扁平,颅全长13.99~14.59 mm,脑颅高4.66~5.17 mm;齿式为2.1.3.3/3.1.3.3=38。经鉴定为泰坦尼亚彩蝠(Kerivoula titania),是广东省翼手目分布新纪录。首次报道了该种蝙蝠的回声定位声波特征,声波类型属于调频(FM)型,峰频(114.3±3.9)k Hz,带宽(117.8±12.3)k Hz,脉冲持续时间(1.7±0.3)ms,脉冲间隔时间(12.9±1.3)ms。标本现保存于广州大学生命科学学院。 相似文献
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无尾蹄蝠的回声定位声波特征及分析 总被引:1,自引:0,他引:1
采用超声波监听仪U30录制无尾蹄蝠自由飞行状态的回声定位声波,经Batsound3.0分析,其声波为高频(145.4±10.9kHz)、宽带(62.6±9.2kHz)、具两个谐波的短(1.67±0.4ms)FM型,不同于蹄蝠科其他蝙蝠的CF型,表明该科内物种声波类型存在多态性。头骨的形态测定分析支持其通过鼻腔发射声波,与蹄蝠科其他蝙蝠一致,表明该科内声波发射方式的单一性。适应环境的选择压力及翼型和声波的适应性可能是其选择FM型叫声的重要原因。 相似文献
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2019年7月于海南岛儋州市石花水洞网捕到1只蝙蝠,形态特征、头骨特征及线粒体Cyt b基因序列鉴定证实其为长舌果蝠(Eonycteris spelaea),该物种为海南岛蝙蝠分布新记录种。其主要鉴别特征为:中等体型,前臂长69.6 mm;第二指无爪;有一短尾,尾长12.9 mm,明显突出于股膜之后;肛腺发达;头骨较大,头骨和吻部相对较长,颅全长35.2 mm,吻长11.4 mm。本文报道了海南岛长舌果蝠的外部形态、头骨特征以及基于Cyt b基因序列的系统发育树结果,并与该物种已报道的数据进行了比较。 相似文献
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Although the importance of the endosperm as a food store inmany angiosperm seeds is well known, its significance duringearly embryogenesis has been neglected. In many interspecifichybrids, and in some other situations, embryos do not developfully and abort. It has often been stated that this is causedby the endosperm failing to conduct sufficient nutrients tothe embryo, but seldom has it been suggested that the endospermactively controls most of the early stages of morphogenesisof the embryo. Information gleaned from a broad survey of theliterature, combined with additional evidence presented here,obtained fromSolanum incanumand interspecific hybrids, indicatethat the endosperm is dynamic and very active in regulatingearly embryo development. This requires highly integrated geneticcontrol of rapidly changing metabolism in the endosperm. Ininterspecific hybrids, lack of coordination may cause unbalancedproduction of growth regulating substances by the endospermand hence abortion of the embryo, or even unregulated productionof nucleases and proteases resulting firstly in autolysis ofthe endosperm and then digestion of the embryo. The endospermmay thus serve to detect inappropriate hybridization of speciesor ploidy levels and so prevent waste of resources by producingseeds that would result in sterile hybrids or unthrifty subsequentgenerations. This discriminatory function of the endosperm hasdiminished during evolution and domestication of the crop plantSolanummelongenaL.Copyright 1998 Annals of Botany Company Solanum, embryo morphogenesis, endosperm, hybrid, seed development. 相似文献
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Höpfl G Ogunshola O Gassmann M 《American journal of physiology. Regulatory, integrative and comparative physiology》2004,286(4):R608-R623
For most organisms oxygen is essential fo life. When oxygen levels drop below those required to maintain the minimum physiological oxygen requirement of an organism or tissue it is termed hypoxia. To counter act possible deleterious effects of such a state, an immediate molecular response is initiated causing adaptation responses aimed at cell survival. This response is mediated by the hypoxia-inducible factor-1 (HIF-1), which is a heterodimer consisting of an alpha- and a beta-subunit. HIF-1 alpha protein is stabilized under hypoxic conditions and therefore confers selectivity to this response. Hypoxia is characteristic of tumors, mainly because of impaired blood supply resulting from abnormal growth. Over the past few years enormous progress has been made in the attempt to understand how the activation of the physiological response to hypoxia influences neoplastic growth. In this review some aspects of HIF-1 pathway activation in tumors and the consequences for pathophysiology and treatment of neoplasia are discussed. 相似文献
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环腺苷酸应答元件结合蛋白与学习记忆 总被引:2,自引:0,他引:2
环腺苷酸(cAMP)应答元件结合蛋白(cAMP response element binding protein,CREB)是一种核转录因子,可与cAMP反应元件结合,调节基因转录,具有调节精子生成,昼夜节律,学习记忆等功能.近年来关于其在学习记忆中的作用成为医学研究热点.CREB是神经元内多条信息传递途径的汇聚点,参与长时记忆形成和突触可塑性.长时记忆(long-term memory)形成需依赖CREB介导的基因转录,干扰或抑制CREB活性可破坏长时记忆.长时程增强(long-term potentiation,LTP)是研究学习记忆的理想模型,在LTP诱导和维持过程中均可观察到CREB活性持续升高.但增龄过程中,海马CREB活性下降,影响学习记忆功能,与许多神经退行性疾病发生有关. 相似文献
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