中国大口涡虫属一新种记述(大口虫目,大口虫科)

记述大口涡虫属1新种,即厦门大口涡虫Macrostomum xiamensis sp.nov..新种的主要鉴别特征是几丁质交接刺光滑、较细长,表面无几丁质瓣膜.其远端呈螺旋状弯曲,弯曲部的平面上夹角达60度,压片后的夹角达100度,螺旋部超过半圈,交接刺末端呈注射器针的末端,开口于螺旋状弯曲面的外侧.标本采自厦门市区菩陀寺的淡水荷花池塘内,水质属富营养型.所有标本保存在深圳大学生命科学学院实验室.     

中国涡虫一新纪录科肠口涡虫属一新纪录种格氏肠口涡虫(原卵黄目, 柱口科)

原卵黄目(Prolecithophora)柱口科(Cylindrostomidae)肠口涡虫属(Enterostomula)为海栖涡虫,全球记录3种,在中国未见报道。作者在广东省深圳市深圳湾海边(22°31'N,113°56'E)采集到一种海栖涡虫。本文对该种涡虫进行了较为详细的比较研究,鉴定为柱口科肠口涡虫属格氏肠口涡虫(E.graffi de Beauchamp,1913),为中国新纪录科新纪录属一新纪录种。该种涡虫多数个体背部具2条黑色横纹,部分个体背部花纹有明显变化。眼点2对。雌雄同体,精巢、卵巢各1个。受精囊位于卵巢与子宫之间;子宫位于体末端,后接一微小的外阴道。本文发现:①该涡虫的尾部腹面具有一个交配囊及一根雌性生殖管,交配囊是一个由肌肉层组成的袋状囊,同时与子宫、雌性生殖管相连;②雌性生殖管外围有明显的生殖腺包裹;③雌性生殖管孔、阴茎孔与口孔一起通往体外;④此种涡虫喜分泌黏液将微小杂质粘结呈半球状窝,虫体隐藏于窝内。     

中国涡虫一新纪录科达氏涡虫属一新种(单肠目,达氏科)

记述了中国涡虫纲单肠目1新纪录科达氏科达氏涡虫属1新种,即中国达氏涡虫Dalyellia sinensis sp.nov..新种的主要鉴别特征是:表皮下有许多单细胞绿藻Chlorella sp.,体表呈绿色;体长2 200 μm,体中部宽475μm,几丁质阴茎长178 μm,柄2根,柄长100μm,柄宽13～15 μm,两柄间距188 μm,分支2条,呈心形排列,阴茎上有几丁质刺22根,分支末端的刺长是基部刺长的1/5.标本保存在深圳大学生命科学学院形态学研究室.     

中国涡虫一新纪录科(扁形动物门,单肠目,盲扁虫科)背睾涡虫属一新种

记述了中国涡虫单肠目1新纪录科背睾涡虫属1新种,即中国背睾涡虫Phaenocor asinensis sp.nov.。新种的主要鉴别特征是:外轮廓呈长子弹形,后缘呈刀切状;精巢长度占体长的2/3,位于卵黄腺的背部。阴茎表面小刺呈犬牙状,其内折部中段具4个矩形的粗刺。子宫有2个开口,一端连接卵巢,另一端连接生殖腔。卵黄腺呈条形,具短分支,左右卵黄腺无衔接。生活于淡水。标本保存在深圳大学生命科学学院形态学研究室。     

铲形杰氏涡虫(单肠目,达氏科)新纪录的形态学描述及其分子系统学分析

本文对分布于广东省深圳市侨城湿地(113°58'E,22°31'N)咸淡水的一种单肠目Rhabdocoel涡虫进行了形态、发育及18S r DNA与28S r DNA分子系统学的分析与比较。结果表明,此涡虫为达氏科Dalyelliidae铲形杰氏涡虫Gieysztoria knipovici Beklemischev,1953,为中国新纪录种。该物种模式标本分布于欧洲黑海近岸。本研究详细描述了其外部形态与内部结构特征,首次发现该涡虫精巢超长,前端达咽部,后端至腹侧,呈长条形(该属涡虫2个精巢呈球形或椭圆形,位于肠后腹侧);除了骨质阴茎之外还具有可再生的骨质阴茎鞘。阴茎鞘位于骨质阴茎外侧,半包裹骨质阴茎,呈长条形骨质结构。交配后的个体常在交配囊内发现阴茎鞘1~5个。鉴于该物种特殊的形态学特征,其分类地位还有待进一步研究。     

中国涡虫一新纪录科宫孔科米罗涡虫属一新种(扁形动物门,三肠目)

三肠目Tricladida海栖亚目Maricola宫孔科Uteriporidae涡虫在中国尚无记录,其科内的米罗涡虫属Miroplana全球仅记录2种,对其生境与属征,乃存争议.本文报道米罗涡虫属1新种,深圳米罗涡虫M.shenzhensis Wang et Yu,sp.nov..此新种生境位于广东珠江支流-东江惠州市上游江边沉水植物间,离珠江220 km,江水是深圳与香港的生活供水水源.研究对采自广东多处淡水与微咸水生境的深圳米罗涡虫新种个体,进行形态学、繁殖、个体发育、食性、习性、组织学等做了较为详细的比较研究.鉴别特征:生活标本前端圆钝,尾部“V”形,眼1对,呈横向“V”形,黑色,位于头端2侧.背部有3条粗的黑色横纹.雌性同体,阴茎位于雌性生殖管左侧,其表面分布有密集的骨质三角形小刺,远端部分顺射精管内翻.游泳敏捷,喜捕猎水溞.交配后产卵1枚,1枚卵平均孵化7只幼虫.刚孵化幼体背部无横纹,之后分别增加.尾部横纹发生数天后性成熟.最后对其生境及生态学意义做了简要讨论.     

中国大口涡虫属三新种(扁形动物门,大口虫目,大口虫科)

报道中国广东地区生活于淡水的大口涡虫属3新种:即中国大口涡虫Macrostomum sinensis sp.nov.;针大口涡虫M.acus sp.nov.;钝大口涡虫M.obtusa sp.nov..对其形态特征作了详细描述,并与近似种进行了比较.所有标本保存在深圳大学生命科学学院实验室.     

双雄性交配器官大口涡虫的首次发现

大口涡虫属所有物种均为雌雄同体,具一套交配器官。作者于2015年在广东省的两处淡水环境,首次发现2个具有双雄性交配器官的大口涡虫(Macrostomum sp.)标本。通过对活体、整装片、连续组织切片的显微镜观测,发现2只标本的两套交配器官呈左右排列;每套交配器官具备完整的假储精囊、储精囊、颗粒囊与交配刺;假储精囊与储精囊内具有精子;雄孔分别为1个与2个;交配刺的结构与中国已经记录的物种都不相同。本研究对其做了较为详细的描述,并初步探讨了大口涡虫多交配器官发生的原因。     

杰氏涡虫属一新种(扁形动物门,单肠目,达氏科)

报道单肠目达氏科杰氏涡虫属1新种,武夷山杰氏涡虫Gieysztoria wuyishanensis Wang et Lai,sp.nov.,隶属于杰氏涡虫属异刺群钩刺亚群,该亚群涡虫在中国属首次报道.标本由张宇于2005年5月6日采自福建省南平市武夷山九曲溪(27°45′N,118°1′E)的溪边水草间,水温18℃,pH7.8.详细描述了新种形态特征,所有标本保存于中国科学院动物研究所.     

杰氏涡虫属一新种及中国一新纪录种(扁形动物门,单肠目,达氏科)

报道中国杰氏涡虫属1新种:丽杰氏涡虫Gieysztoria pulchra sp.nov.,标本采于广东省梅州市郊区鱼塘,对新种涡虫的形态特征作了详细描述,并与杰氏涡虫属所有物种进行了比较;中国1新纪录亚种:大变杰氏涡虫九刺亚种Gieysztoria macrovariata 9-spinosa Luther,1955,标本分别采自安徽芜湖市和湖北省武汉市东湖.所有标本保存在深圳大学生命科学学院形态学研究室.     

Investigation of the mechanism of temperature sensitivity of the electroreceptors of ampullae of lorenzini

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.     

Principles of organization and evolution of systems of regulation of functions

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