摘要
以超纯水为对照,利用普通温控培养箱,在(24.0±1.0)℃条件下对三角帆蚌钩介幼虫进行了15d的体外培养实验.结果显示:钩介幼虫排出体外24h内存活率显著下降为50.7%(p=0.006);A组(MEM高糖)、B组(RPMI1640)、C组(MEM 199)幼虫变态率分别为(7.5±3.9)%、(13.3±12.0)%、(42.1±10.0)%;D组(L-15)的幼虫变态率最高,为(66.1±3.8)%,极显著高于C组(p=0.007).相关分析表明,培养液中葡萄糖含量与钩介幼虫变态率存在显著负相关(r=-0.886).利用光镜和扫描电镜对体外培养变态发育的稚贝形态观察发现:稚贝双壳表面圆形凹陷数量和深度比幼虫显著减少,双壳边缘外套膜增厚,在外套膜、斧足表面分布有大量乳状突起,但形态不同.体外培养稚贝的外部形态和内部器官均发生了显著改变,完成了变态发育过程.
Glochidia of the freshwater pearl mussel Hyriopsis cumingii was cultured at(24±1)℃ in common incubator and completed metamorphosis development in artificial media.The results showed that the survival rate of glochidia decreased to 50.7% after rejection in fresh water.The duration of glochidia development until the juvenile stage was 15 days in artificial media.The proportion undergoing metamorphosis was(7.5±3.9)%,(13.3±12.0)%,(42.1±10.0)% respectively in three different media(Group A,B,C) which had glucose from high ratio to low.There was significant negative relationship between the content of glucose in artificial media and metamorphosis rate of glochidia(r=-0.886).The proportion undergoing metamorphosis was(66.1±3.8)% in Group D(L-15) and significantly higher than in Group C(MEM 199)(p=0.007).The microstructure of juvenile was observed by microscope and scanning electron microscopy.The number of pit and depth on the surface of shell of newly transformed juvenile decreased,the margin of mantle became thicker than glochidia and foot developed fast.Numerous protuberances with different patterns were found on the surface of margin of mantle and foot respectively.There were great variations that took place in exterior morphology and interior organs,and all results indicated that golchidia underwent nonparasitic metamorphosis development successfully in artificial media.
出处
《武汉大学学报(理学版)》
CAS
CSCD
北大核心
2011年第1期57-62,共6页
Journal of Wuhan University:Natural Science Edition
基金
国家公益性行业科研专项基金(200903028)
中国水产科学研究院重点开放实验室基金(YM2007-02
2007A003)资助项目
2007年财政部修购淡水贝类实验室项目
关键词
三角帆蚌
钩介幼虫
人工培养
变态发育
Hyriopsis cumingii
glochidia
artificial culture
metamorphosis development
