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超重环境对斑马鱼仔鱼早期发育和耳石形态学与化学组成的影响 被引量:2

Influences of Hyper-gravity on Early Development,Otolith Morphology and Otolith Chemical Compositions of Zebrafish Larva,Danio Rerio
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摘要 目的本研究以模式动物斑马鱼为研究对象,通过研究超重下鱼体的早期发育和耳石变化,探讨了脊椎动物前庭系统对超重环境的适应机制。方法斑马鱼受精卵在受精后10h分别置于1G和5G重力环境中,观察鱼体发育状态和耳石的形态;使用Zeiss软件比较1G和5G下耳石大小;使用EDAX检测耳石微化学成分含量变化。结果1)斑马鱼从鱼卵向早期仔鱼发育过程中超重环境影响仔鱼发育,耳石形态在初期显著变大(P<0.01),其后耳石变小;2)EDAX检测表明,耳石中S和Sr含量升高,Na和Ca的含量减少;3)出现矢耳石与微耳石融合的现象。结论超重环境影响斑马鱼早期发育,耳石的形态与微化学组成发生变化,导致耳石的功能发生变化。 Objective To study zebrafish, as model vertebrate, on its early development and otolith changes under hypergravity, trying to disclose the adaptation mechanism of vestibular system of vertebrate animal to hypergravity. Methods Zabrafish zygotes were put into 1 G and 5 G instruments respectively. Their development status and otolith morphology were observed. Otolith size was measured with the software of Zeiss. Otolith trace elements were examined with EDAX. Results 1 ) Hypergravity influenced early development of zebrafish from zygote to early larva, and otolith size significantly larger in the early stage (P 〈 0.01 ) but decreased subsequently. 2) Examined with EDAX, the contents of sulfur and Sr increased while Ca and Na contents decreased. 3) It was observed that sagitta and lapilli otoliths were fused into one otolith. Conclusion Hypergravity influences early development of zebrafish and causes changes of otolith size, morphology and microchemistry, resulting in the change of otolith function.
作者 李小燕 王高鸿 刘永定
机构地区 中国科学院水生生物研究所 中国科学院研究生院
出处 《航天医学与医学工程》 CAS CSCD 北大核心 2009年第6期399-403,共5页 Space Medicine & Medical Engineering
基金 国家自然科学基金(30400093)资助
关键词 超重 耳石 形态 微化学 斑马鱼 hypergravity otolith morphology microchemistry zebrafish
分类号 R852.2 [医药卫生—航空、航天与航海医学]
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参考文献16

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同被引文献41

  • 1夏永泉,刘正东,杨静宇.不变矩方法在区域匹配中的应用[J].计算机辅助设计与图形学学报,2005,17(10):2152-2156. 被引量:21
  • 2史方,孙军,林小涛,刘汉生.唐鱼仔鱼耳石的形态发育及日轮[J].动物学杂志,2006,41(4):10-16. 被引量:28
  • 3叶振江,孟晓梦,高天翔,杨永桓,王英俊.两种花鲈(Lateolabraxsp.)耳石形态的地理变异[J].海洋与湖沼,2007,38(4):356-360. 被引量:43
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航天医学与医学工程
2009年 第6期

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