排序方式: 共有10条查询结果,搜索用时 15 毫秒
1
1.
川东南古蔺铁索桥剖面志留系兰多维列统沉积时的古地理位置处于滇黔桂古陆之北的陆表海环境。埃隆阶上部石牛栏组从下段薄层泥状灰岩形成之后,相变为上段的生屑-砂屑灰岩夹含少量粉砂质泥岩,展示海水深度变浅的过程。本文基于该剖面露头和灰岩薄片鉴定,专述石牛栏组上段生物-沉积类型并分析浅海环境指标。石牛栏组上段粉砂质泥岩中大化石稀少,而灰岩层中底栖型后生动物壳相化石具有中等多样性,少量出现能鉴定属级的大化石密集层,可识别3种不同水动力强度改造的腕足类介壳滩;该段上部赋存珊瑚-层孔海绵原地格架生长建造的小型点礁,标定了该时期最接近滇黔桂古陆的后生动物造礁群落生态域分布点。石牛栏组上段不同粒度的壳相生屑颗粒与泥状灰岩砂屑构成灰岩的重要组分;海底环境指标,特别是不同水动力强度作用主导了灰岩中颗粒与灰泥含量的差异。 相似文献
2.
3.
人体及动物生理学是研究生物机体功能的科学,是生物科学专业的基础课。笔者结合教学实践,精选教学内容,尝试了5种教学方法:(1)运用多媒体教学、(2)语言形象直观教学、(3)联系实际法、(4)归纳比较法、(5)问题情境法等,取得了良好的教学效果。 相似文献
4.
5.
2008年6~9月在中国科学院海北高寒草甸生态系统定位站通过自助餐式食物选择实验测定了高原鼠兔对20种植物的取食量,采用紫外可见分光光度计法测定了不同季节20种植物中黄酮、缩合单宁、简单酚和总酚4种植物次生代谢物的含量,分析了植物次生代谢物含量与高原鼠兔食物选择之间的相互关系.结果表明,在选定的20种植物中高原鼠兔喜食的植物有7种,可食的植物有7种,厌食的植物有6种.植物次生代谢物的含量在不同的植物间表现出一定的差异,且有生长季节早期含量低,随后逐渐增高的季节性变化趋势.高原鼠兔对植物的选择性与植物中黄酮含量有显著的负相关性,喜食植物的黄酮含量显著低于厌食植物,喜食植物的单宁含量显著小于可食植物,可食植物的单宁含量显著大于厌食植物.在喜食植物中,高原鼠兔取食量与简单酚和总酚含量呈显著负相关性.以上结果部分验证了植物次生代谢物作为植物的防御对策明显影响高原鼠兔对食物选择的假说.黄酮类次生代谢物明显抑制高原鼠兔的取食,缩合单宁对高原鼠兔食物选择也有一定的抑制作用,高原鼠兔有少量取食但避免大量取食简单酚和总酚含量高的植物的选择策略. 相似文献
6.
7.
中国八种麻蜥(蜥蜴科,麻蜥属)形态学研究 总被引:2,自引:0,他引:2
对8种麻蜥外部形态进行主成分分析,可分为4个种组:1)丽斑麻蜥Eremias argus与山地麻蜥Eremiasbrenchleyi;2)快步麻蜥Eremias velox与虫纹麻蜥Eremias vermiculata;3)密点麻蜥Eremias multiocellata、荒漠麻蜥Eremias przewalskii与敏麻蜥Eremias arguta;4)网纹麻蜥Eremias grammica.研究表明丽斑麻蜥前额鳞数不稳定;密点麻蜥莎车亚种Eremias multiocelfata yarkandensis可能为独立物种;荒漠麻蜥物种有效性值得怀疑. 相似文献
8.
报道麻蜥属(Eremias ,Lacertidae) 6种15个不同居群的染色体核型及银分带核型。丽斑麻蜥(E. argus)、快步麻蜥(E. velox)、敏麻蜥(E. arguta)、密点麻蜥(E. multiocellata)、网纹麻蜥(E. grammica )的核型一致:2n=38=36I+ 2m,NF=38;虫纹麻蜥(E. vermiculata) 2n=38=12V+2sI+22I+2m, NF=50。中国麻蜥属的核型可分为3个类型:(1)丽斑麻蜥型(2)山地麻蜥(E. brenchleyi)型(3)虫纹麻蜥型。虫纹麻蜥核型演化有两种可能性(1)经历三倍体阶段,并通过罗伯逊易位形成;(2)通过染色体臂间倒位形成,倒位成因可能和天山山脉以及青藏高原的隆起有关。密点麻蜥、快步麻蜥、敏麻蜥、网纹麻蜥、虫纹麻蜥均观察到一对NOR于一对较小染色体对上。雌雄个体中均未发现性异型染色体。Abstract: Based on the Giemsa-dyeing karyotypes and silver-staining bands of 15 populations from different localities in China belonging to 6 species of the genus Eremias , We found all species studied have 19 pairs of chromosomes, the size of chromosomes reduces gradually and there are no marked differences between the arranged pairs of macrochromosomes except the last pair of microchromosome. There are the same karyotype formula as 2n=38=36I+2m with NF=38 in E. argus、 E. multiocellata、 E. velox、 E. arguta and E. grammica; but the karyotype formula of E.vermiculata is different as 2n=38=12V+2sI+22I+2m with NF=50. The NOR are all located on one small pair in female of E. velox, and E. arguta , in male of E. grammica and E. vermiculata ,and in both male and female of E. multiocellata. We have not found two or more than two pairs of NOR. Having one pair of NOR may be common in Genus Eremias and also the trait of Eremias. We speculate that the derivation of the karyotype of E.vermiculata had two possible way: one experienced the stage of triploid, and later the Robertsonian transposal of chromosomes; the other way was through the inversions between the arms on the chromosome and the phenomenon of inversions might occur during or subsequently after the upheaval of the Tibet and Qinghai plateau and the founding of the Tianshan . With regard to the trend of the evolution of chromosomes in the lizards [1], the karyotype of E.vermiculata is more advanced. Making specialties of E. vermiculata will help in building the phylogenic tree of Eremias. In both male and female of the species studied, the heteromorphic sex-chromosomes were not found. 相似文献
9.
10.
1