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记述了云南隆头蛛属1新种:大理隆头蛛Eresus daliensis sp.nov.。新种与草隆头蛛Eresus cinnaberinus (Olivier,1789)近似,但本种雌蛛外雌器的凹陷呈倒“U”字形,雄蛛腹部背面中部具一宽的暗色横带,引导器的内侧面近顶部具1个三角形裂片,而不同于后者。 相似文献
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采用DNA测序方法,获得了中国狼蛛科Lycosidae4亚科6属26种mtDNA-16S rRNA基因的部分序列,比较来自北美狼蛛科豹蛛属2种豹蛛的同一基因序列,并选取漏斗蛛科1种蜘蛛作为外群,采用Bayesian方法和最大简约法(MP)构建分子系统树.两种建树方法均支持娲蛛属和豹蛛属形成一大的单系;这一结果与现行狼蛛科传统分类体系中娲蛛属的分类地位有差别.据此,作者认为:娲蛛属和豹蛛属可以归为同一个分类亚单位.狼蛛科6属间的分子系统关系为(Rirata(Hippasa(Trochsa Arctosa(Pardosa Wadicosa)))). 相似文献
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本文记述隅蛛属一新种和漏斗蛛属两新种:刺隅蛛,新种Tegenaria aculeata sp.nov.三角漏斗蛛,新种Agelena triangulata sp.nov.,小斑漏斗蛛,新种Agelena micropunetulata sp.nov.。 相似文献
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实验室恒温条件下,研究了园蛛属3种园蛛——角园蛛(Araneus cornutus),叶斑园蛛(A.sta),大腹园蛛(A.ventricosus)的各龄幼蛛。描述它们各自的形态特征;指出它们之间的形态差异。 相似文献
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记述了我国湖南省马利蛛属 1新种 :龚氏马利蛛Mallinellagongisp .nov .和茂兰马利蛛MallinellamaolanensisWang ,RanetChen ,1999的雌蛛 相似文献
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记述采自安徽黄山的蜘蛛目皿蛛科微蛛亚科瓦蛛属1新种,定名为walckenaeriacylindrica sp.nov. 相似文献
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In experiments on Black Sea skates (Raja clavata), the potential of the receptor epithelium of the ampullae of Lorenzini and spike activity of single nerve fibers connected to them were investigated during electrical and temperature stimulation. Usually the potential within the canal was between 0 and –2 mV, and the input resistance of the ampulla 250–400 k. Heating of the region of the receptor epithelium was accompanied by a negative wave of potential, an increase in input resistance, and inhibition of spike activity. With worsening of the animal's condition the transepithelial potential became positive (up to +10 mV) but the input resistance of the ampulla during stimulation with a positive current was nonlinear in some cases: a regenerative spike of positive polarity appeared in the channel. During heating, the spike response was sometimes reversed in sign. It is suggested that fluctuations of the transepithelial potential and spike responses to temperature stimulation reflect changes in the potential difference on the basal membrane of the receptor cells, which is described by a relationship of the Nernst's or Goldman's equation type.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. I. M. Sechenov, Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Pacific Institute of Oceanology, Far Eastern Scientific Center, Academy of Sciences of the USSR, Vladivostok. Translated from Neirofiziologiya, Vol. 12, No. 1, pp. 67–74, January–February, 1980. 相似文献
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N. P. Vesselkin Yu. V. Natochin 《Journal of Evolutionary Biochemistry and Physiology》2010,46(6):592-603
Evolution of living organisms is closely connected with evolution of structure of the system of regulations and its mechanisms.
The functional ground of regulations is chemical signalization. As early as in unicellular organisms there is a set of signal
mechanisms providing their life activity and orientation in space and time. Subsequent evolution of ways of chemical signalization
followed the way of development of delivery pathways of chemical signal and development of mechanisms of its regulation. The
mechanism of chemical regulation of the signal interaction is discussed by the example of the specialized system of transduction
of signal from neuron to neuron, of effect of hormone on the epithelial cell and modulation of this effect. These mechanisms
are considered as the most important ways of the fine and precise adaptation of chemical signalization underlying functioning
of physiological systems and organs of the living organism 相似文献
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