多肠目薄背涡虫生殖系统结构及一氧化氮合酶组化研究

运用常规组织学方法和NADPH-d组织化学方法,研究了薄背涡虫 Notoplana humilis 生殖系统的组织结构和一氧化氮合酶的分布.其雄性生殖系统包括精巢、储精囊、阴茎、雄性生殖孔,精巢壁由一薄层薄膜组成,每个精巢内都含有不同发育时期的雄性生殖细胞,且精子发育无明显同步性;储精囊呈螺旋状排列在雄性生殖孔附近,囊壁由单层扁平上皮组成;阴茎为粗大的球形,外壁由柱状上皮细胞和数层肌细胞组成.雌性生殖系统包括输卵管、生殖腔、雌性生殖孔和受精囊,但不形成集中的卵巢和卵黄腺.雌雄生殖孔、生殖腔、受精囊、阴茎等部位呈NADPH-d强阳性反应.     

斑衣蜡蝉雌性生殖系统超微结构

【目的】明确斑衣蜡蝉Lycorma delicatula雌成虫生殖系统整体形态及超微结构特征,为蜡蝉总科昆虫分类及系统发育探讨提供更多形态学证据。【方法】采用光学显微镜与透射电子显微镜,观察斑衣蜡蝉雌成虫生殖系统整体形态和各主要器官的超微结构。【结果】斑衣蜡蝉雌成虫生殖系统主要包括1对卵巢、1个中输卵管、1个交配囊、1个交配囊管、1个前阴道、1个后阴道、1个受精囊、1个受精管和2根受精囊附腺。卵巢为端滋式,由14根卵巢小管组成,卵室由固有膜、滤泡细胞和卵细胞组成,卵巢小管中的滋养细胞清晰可见;中输卵管位于前阴道基部,由中输卵管腔、上皮细胞、肌肉鞘和基膜组成;交配囊膨大呈圆球状,囊壁由上皮细胞、肌肉层和基膜组成;交配囊管呈圆柱状,连接交配囊和后阴道,由肌肉鞘、上皮细胞层和管腔组成;前、后阴道超微结构相似,主要由肌肉鞘、基膜、上皮细胞和管腔组成,但后阴道上皮细胞细胞核周围存在分泌颗粒,且管腔内有大量微绒毛,而前阴道壁内包含有大量囊泡结构;受精管从中输卵管末端延伸至受精囊,由基膜、厚层肌肉鞘和管腔组成;受精囊为受精管近末端略膨大的囊状结构,由肌肉鞘、基膜、上皮细胞和囊腔构成;雌性受精囊附腺着生于受精囊末端,为均匀的螺旋管状,主要由肌肉层、上皮细胞层和附腺中心管腔组成。【结论】斑衣蜡蝉雌性生殖系统与已报道的蜡蝉总科其他类群的雌性生殖系统结构相似,但卵巢小管数目有差异;蝉亚目中不同总科雌成虫雌性附腺与受精囊附腺的形态特征存在明显区别;斑衣蜡蝉雌性生殖系统超微结构与叶蝉总科和沫蝉总科昆虫也存在部分差异。这些差异是否可以作为头喙亚目高级阶元的划分依据仍有待于进一步研究。     

黑脊倒刺鲃精巢结构和精子发生的研究

用光学显微镜和电子显微镜研究了黑脊倒刺鲃精巢的组织结构和精子发生过程。精巢属于小叶型,由精小叶、小叶间质、壶腹腔和输出管构成。精小叶由各期生精细胞和支持细胞构成。除初级精原细胞以外的各期生精细胞和支持细胞组成了精小囊。每一精小囊中的生精细胞发育同步。成熟的精子从精小囊中释放出来,进入小叶腔中。在精巢的腹侧,小叶腔与壶腹腔连接。在壶腹腔的外侧,有一条与壶腹腔平行的输出管。壶腹腔与输出管相通。在壶腹腔和输出管中都充满精子。精巢的后端与贮精囊相连。贮精囊中充满形状不规则的腔隙。腔隙中有精子分布。输出管从精巢延伸出来,进入贮精囊中,位于贮精囊的一侧。左右两个贮精囊通向一条共同的输精管。输精管上皮具有分泌功能。精子发生在精小叶中进行。精子发生经历了初级精原细胞、次级精原细胞、初级精母细胞、次级精母细胞和精子细胞阶段。精子细胞经过精子形成过程,形成精子。     

亚洲柑橘木虱内生殖系统形态变化规律研究

亚洲柑橘木虱Diaphorina citri Kuwayama是柑橘黄龙病的传播媒介。本文利用Ste REO Discovery V20体视显微镜对亚洲柑橘木虱成虫内生殖系统进行解剖观察,并探索了亚洲柑橘木虱雌雄成虫内生殖系统的形态变化规律。结果表明:雄虫内生殖系统由1对精巢、1对输精管、1个精泵、1个射精管、1对附腺和1个贮精囊组成。雌虫内生殖系统由1对卵巢、1对侧输卵管、1个中输卵管、2个附腺、1个黏腺和1个受精囊组成。交配前期和交配期的雄虫精巢饱满,精巢在交配后期明显萎缩。交配期和交配后期的雄虫贮精囊都明显大于交配前期的贮精囊。雌虫受精囊在交配前期、交配期和交配后期依次增大,交配前期的受精囊呈不饱满状态,交配期和交配后期受精囊呈饱满状态,内有白色精包。交配后期的雌虫卵巢内有大量成熟的橙黄色卵。     

3种蛾类雄性内生殖系统形态学研究

为了探究蛾类昆虫新的有效分类特征,本研究对直脉青尺蛾Geometra valida、白雪灯蛾Chionarctia niveus和多斑豹蠹蛾Zeuzera multistrigata雄性内生殖系统进行了解剖观察和形态学比较。结果表明：3种蛾类雄性内生殖系统均由精巢、贮精囊（前贮精囊和后贮精囊）、输精管、复射精管、单射精管（单射精管原节和单射精管表皮节）和附腺组成;种间形态差异表现在贮精囊的形状及连接方式、复射精管的形状及长短、单射精管和附腺的长度等方面,这些鉴别特征可为蛾类分类及系统发育研究提供形态学借鉴。     

角马蜂贮精囊及精子的形态学观察

昆虫贮精囊和精子的形态多样性是重要的分类和系统发育分析特征之一, 然而在马蜂亚科乃至整个胡蜂科中却鲜有涉及。本文首次解剖了角马蜂Polistes chinensis antennalis Pérez的雄性生殖系统, 着重对其贮精囊的超微结构进行描述, 并简要报道了精子的外部形态。角马蜂的贮精囊由输精管亚前端膨大而成, 有一层发达的柱状上皮细胞贴在基底膜内壁： 细胞核位于柱状细胞基部, 上皮细胞端半部线粒体密集, 顶膜特化成微绒毛。角马蜂精子头长21.4 μm, 体长94 μm, 是已报道胡蜂科精子中长度最短、 相对头长最长的种类。研究结果为胡蜂科昆虫系统发育以及繁殖生理提供理论依据。     

雄性中华乌塘鳢贮精囊的结构与功能

应用组织学、透射电镜及酶联免疫吸附分析法研究了雄性中华乌塘鳢贮精囊的形态结构 ,并探讨其功能。结果表明 ,贮精囊是一对精巢的附属腺体 ,结缔组织隔膜将贮精囊分隔成为许多小室腔。被膜和隔膜中含有平滑肌纤维、毛细血管、成纤维和纤维细胞以及间质细胞。隔膜上排列单层上皮细胞 ,呈柱形、立方形或扁平形 ,生殖季节粗面内质网、管状嵴线粒体和高尔基复合体发达 ,上皮细胞顶部聚集许多无膜包裹的分泌颗粒 ,分泌后细胞器退化 ,胞质中出现大量的大空泡。成纤维细胞具有合成分泌胶原蛋白的结构特征。贮精囊中的间质细胞与精巢中的Leydig型间质细胞形态特征相似。在生殖高峰期不论贮精囊的近端、中央或远端均先后贮存大量的精子 ,混合在分泌物中 ,贮精囊不同小室的上皮细胞发育并不同步。精液加贮精囊液的实验表明 ,贮精囊液有助于增强精子活率和延长精子寿命 ,并能促进受精率的提高。贮精囊纤维丝状分泌物呈深紫红色的PAS阳性反应 ,提示分泌物为粘多糖蛋白 ,贮精囊液含有 17α羟孕酮、PGE2 和PGF2α,能体外诱发雌亲鱼产卵 ,具有性外激素的重要作用     

贻贝雄性生殖系统的组织学和超微结构

贻贝雄性生殖系统中精巢由树枝状的生殖管,输精管民。生殖管反复分枝成生精小管而末端膨大的泡囊,二者皆由位于基膜上的生殖上皮和管壁上皮构成,生殖上皮是由圆形或卵圆形的精原细胞组成,精原细胞最大,核内染色质稀疏,靠核膜内侧分布,核仁一个,明显。初级精母细胞上,染色质开始集成小团块,线粒体向细胞的一侧集中,次级精母细胞与表母细胞结构相似,染色质浓缩成数大块,核膜或散布于核内,精细胞内开始出现顶体颗粒并逐渐     

孟氏隐唇瓢虫生殖系统结构和卵子发生的研究

【目的】孟氏隐唇瓢虫Cryptolaemus montrouzieri Mulsant生殖系统结构和卵细胞发生将为昆虫的系统进化关系及瓢虫分类提供依据,同时可作为瓢虫人工饲料研究开发的参考。【方法】利用组织石蜡切片技术和光学显微镜,观察孟氏隐唇瓢虫生殖系统结构,以及自成虫羽化后不同发育阶段卵巢发育状况和成熟卵巢管卵子发生过程。【结果】孟氏隐唇瓢虫雄性生殖系统包括2对附腺、1对精巢、1对输精管、1对贮精囊、射精管、弯管和阳基。雌性生殖系统包括2片生殖板、生殖腔、受精囊、中输卵管、1对侧输卵管和1对卵巢。单侧卵巢管数量在11~14根之间,卵巢管端部延伸出细长的端丝。卵巢管属于端滋式,分为原卵区和生长区。滋养细胞分散且细胞核几乎充满整个细胞,未见合胞体。卵细胞稀疏地集中在原卵区下端,并且可见营养索向卵巢管顶端延伸。根据卵细胞位置和形态,卵黄积累情况,滤泡细胞形态变化,将卵细胞发生分为前期,中期,中后期和后期。卵细胞发育后期,营养索消失,滤泡细胞排列疏松,细胞间隙增大。【结论】孟氏隐唇瓢虫卵巢管的滋养细胞是端滋式卵巢管滋养细胞中的原始类型,且推测瓢虫科昆虫卵巢管滋养细胞均属于此类。卵细胞早期发育过程中,卵细胞通过营养索从滋养细胞获取营养物质。     

沙棘木蠹蛾生殖系统形态学和组织学观察

沙棘木蠹蛾Holcocerus hippophaecolus Hua,Chou,Fang et Chen属鳞翅目(Lepidoptera)木蠹蛾科(Cossidae),是我国的特有种.2001年以来,沙棘木蠹蛾在我国大面积爆发,是屹今为止我国沙棘林最大的蛀干害虫,给我国的沙棘产业造成了巨大的损失.本论文从形态学和组织学2个方面确定了沙棘木蠹蛾雌、雄生殖系统的特征,同时,对比了雄性交尾前后生殖系统各部位的差异.未交尾雄蛾的生殖系统贮精囊、附腺管和射精管呈白色,其内包含大量的精子束待交尾,已交尾雄蛾的生殖系统呈透明或半透明状.除雄性附腺外,在交尾后的精巢、贮精囊和射精管中都能观察到真核精子束.通过上述对雄性生殖系统的形态学和组织学观察,尤其是对贮精囊和射精管中精子束观察,可判断精子束的填充状态,从而判断雄蛾交尾与否,能够检验性信息素引诱剂对沙棘木蠹蛾的防治效果,确立判断雄蛾交尾与否的标准对指导沙棘木蠹蛾防治具有重要意义.     

Internal anatomy and ultrastructure of the male reproductive system of the spider crab Maja brachydactyla (Decapoda: Brachyura)

The morphology and function of the male reproductive system in the spider crab Maja brachydactyla, an important commercial species, is described using light and electron microscopy. The reproductive system follows the pattern found among brachyuran with several peculiarities. The testis, known as tubular testis, consists of a single, highly coiled seminiferous tubule divided all along by an inner epithelium into germinal, transformation, and evacuation zones, each playing a different role during spermatogenesis. The vas deferens (VD) presents diverticula increasing in number and size towards the median VD, where spermatophores are stored. The inner monostratified epithelium exocytoses the materials involved in the spermatophore wall formation (named substance I and II) and spermatophore storage in the anterior and median VD, respectively. A large accessory gland is attached to the posterior VD, and its secretions are released as granules in apocrine secretion, and stored in the lumen of the diverticula as seminal fluids. A striated musculature may contribute to the formation and movement of spermatophores and seminal fluids along the VD. The ejaculatory duct (ED) shows a multilayered musculature and a nonsecretory pseudostratified epithelium, and extrudes the reproductive products towards the gonopores. A tissue attached to the ED is identified as the androgenic gland.     

Ultrastructure and function of the seminal vesicle of Bittacidae (Insecta: Mecoptera)

The fine structure of the seminal vesicle and reproductive accessory glands was investigated in Bittacidae of Mecoptera using light and transmission electron microscopy. The male reproductive system of Bittacidae mainly consists of a pair of testes, a pair of vasa deferentia, and an ejaculatory sac. The vas deferens is greatly expanded for its middle and medio-posterior parts to form a well-developed seminal vesicle. The seminal vesicle is composed of layers of developed muscles and a mono-layered epithelium surrounding the small central lumen. The epithelium is rich in rough endoplasmic reticulum and mitochondria, and secretes vesicles and granules into the central lumen by merocrine mechanisms. A pair of elongate mesodermal accessory glands opens into the lateral side of the seminal vesicles. The accessory glands are similar to the seminal vesicle in structure, also consisting of layers of muscle fibres and a mono-layered elongated epithelium, the cells of which contain numerous cisterns of rough endoplasmic reticulum and mitochondria, and a few Golgi complexes. The epithelial cells of accessory glands extrude secretions via apocrine and merocrine processes. The seminal vesicles mainly serve the function of secretion rather than temporarily storing spermatozoa. The sperm instead are temporarily stored in the epididymis, the greatly coiled distal portion of the vas deferens.     

Spermatogenesis and spermatophore production in the hawaiian red lobster Enoplometopus occidentalis (Randall) (Crustacea,nephropidae)

Light microscopy of the male reproductive tract of the Hawaiian red lobster Enoplometopus occidentalis documented the cyclic nature of spermatogenesis and spermatophore formation. Testes are composed of a convoluted collecting tubule bearing many spermatogenic follicles, all within a supporting mesentery. Spermatogonia are restricted to the basal side of the follicular epithelium and proliferate at onset of spermateleosis within the same follicle. Two generations of spermatogenic cells thus occupy each follicle, and accessory cells in the follicle form a basophilic epithelium between them. These accessory cells may detach with the spermatozoa at spermiation. The vas deferens lies outside the testicular mesentery and consists of a coiled proximal portion in which spermatophore production commences. Clusters of spermatozoa are here surrounded by a PAS-positive primary spermatophore layer, and a PAS-negative outer bounding layer is initiated. Completed further distally in the vas deferens, the outer bounding layer is thinner on the side of the spermatophore which adheres to the substratum after ejaculation; the thick side of this layer forms a broad cap. Outer circular and inner longitudinal muscular layers become well developed in the distal loop and descending portions of the vas deferens. The terminal portion of this duct contains no spermatophore prior to ejaculation. It has a longitudinally folded epithelium and an attached tubular gland which produces an extra-spermatophoral, gelatinous secretion. The androgenic gland is associated with this terminal segment of the vas deferens. These features are compared with those reported for other lobsters.     

东亚飞蝗雄性生殖系统组织结构观察及三维可视化数字模型

本文研究东亚飞蝗Locusta migratoria manilensis(Meyen)雄性生殖系统组织解剖结构及三维可视化数字模型的构建。采用石蜡切片技术对东亚飞蝗进行组织切片,脱水、透明、HE染色和拍照;并应用冰冻切片技术将冰冻包埋剂包埋后的飞蝗雄性个体进行连续切片,进行截面图像信息采集,建立数据集;通过Photoshop、Image-Pro Plus(IPP)软件对雄性生殖器官截面图像进行分割、处理、序列化和三维重建。通过试验观察分析东亚飞蝗雄性生殖器官精巢、附腺、输精管、精球囊和射精囊及交配器的组织构造;并成功构建了飞蝗雄性生殖系统的三维结构可视化数字模型。该模型可以任意旋转,能从不同角度观察,该试验为研究和教学提供了理论基础。     

平疣桑椹石磺生殖系统结构及精子储存场所

雌雄同体贝类精子的储存和利用规律一直是国内外贝类生物学研究的难点之一,本文利用活体解剖、显微观察、组织切片和扫描电镜技术,综合研究了平疣桑椹石磺(Platevindex mortoni)的生殖系统及精子储存场所。结果显示,其生殖系统包括生殖器本部、雌性生殖部分和雄性生殖部分。生殖器本部由两性腺、两性输送管、蛋白腺、黏液腺、支囊组成;雌性生殖部分包括输卵管、受精囊、阴道,位于身体中后方体腔内;雄性生殖部分包括输精管、刺激器、阴茎、阴茎鞘和阴茎牵引肌,位于身体前端右侧体腔内;其阴茎有阴茎鞘,阴茎表面布满倒刺。平疣桑椹石磺阴茎为直线状,无雄性附属腺。未交配的性成熟个体支囊内充满细长精子,受精囊内无精子;而交配后充当雌性个体的支囊内均为细长的自体精子,受精囊内有大量活力较强的粗短精子,其支囊为自体精子的存储场所,而受精囊为异体精子的存储场所。其精子储运情况为:两性腺内精子成熟后暂存于支囊,交配时通过输精管运输至阴茎,由阴茎输送精子至对方的阴道,异体精子进入受精囊内存储待用。     

Ultrastructure of the male reproductive system and spermatophore formation in Labidocera aestiva (Crust.: Copepoda)

Summary The male reproductive system of Labidocera aestiva produces a flask-shaped spermatophore connected to a chitin-like coupling apparatus. As immature spermatozoa leave the anterior region of the testis, they pass through the lumen of a long, sinuous duct composed of a ductus deferens and seminal vesicle. Ultrastructural examination of the ductus deferens reveals a highly glandular, columnar epithelium. The cells contain arrays of rough endoplasmic reticulum and abundant, well-developed Golgi complexes. This region produces and releases into the lumen, a flocculent substance and two granular secretions that constitute the seminal fluid. In its terminal part, the ductus deferens synthesizes another secretion that forms the spermatophore wall enclosing the spermatozoa and seminal fluid. Final synthesis of the spermatophore wall occurs within the thin-walled seminal vesicle, although this region functions primarily as a storage organ. Contiguous to the seminal vesicle is an elongate, highly glandular spermatophore sac. The chitin-like coupling apparatus, which functions to attach the spermatophore to the female, is formed in the anterior region of the sac by secretions from eight cell types. The posterior region of the sac stores the flask-shaped spermatophore and produces secretions that aid ejaculation of the entire spermatophore complex.Contribution No. 236, Harbor Branch Foundation, Inc.     

Male reproductive system of the arrow crab Stenorhynchus seticornis (Inachoididae)

Our aim was to describe the reproductive system of males and the formation of sperm packages in the seminal receptacle (SR) of recently mated females of the arrow crab Stenorhynchus seticornis. The male reproductive system was analyzed, and was described using light microscopy and histological and histochemical methods. The first pair of gonopods was described by means of scanning electron microscopy. Additionally, the dehiscence of spermatophores was tested using samples obtained from the vas deferens of males and from the seminal receptacle of recently mated females. Testes were tubular type, and each vas deferens consisted of three regions: the anterior vas deferens (AVD), including a proximal portion that was filled with free spermatozoa and a distal portion contained developing spermatophores; the median vas deferens (MVD) that contained completely formed spermatophores; and the posterior vas deferens (PVD), which contained only granular secretions. The accessory gland, which was filled with secretions, was located in the transition region between the MVD and the PVD. The spermatophores from the MVD were of different sizes, and none of them showed dehiscence in seawater, whereas those spermatophores in contact with the seminal receptacle were immediately broken. The ultrastructure of the gonopods revealed the presence of denticles at the distal portion, which contribute to the mechanical rupture of the spermatophore wall during the transfer of sperm. The contents of the PVD and accessory gland of males are transferred together with the spermatophores, and are responsible for the secretions observed among the sperm packets in the SR of the female. We suggest that these secretions formed the layers found in the SR of recently mated females, and may play a role in sperm competition in arrow crabs.     

The Vas Deferens of the Spanish Lobster,Scyllarus chacei

Summary

The male reproductive tract of Scyllarus chacei consists of paired testes and vasa deferentia that conduct sperm containing spermatophores to the genital pores at the base of each fifth walking leg. The testis is joined to the vas deferens which can be divided into four regions: (1) the anterior vas deferens can be further divided into three regions. It is highly convoluted and is the region in which the sperm become encapsulated in ovoid spermatophores of approximately 100 sperm as well as produces seminal fluids. (2) The middle vas deferens is the primary site of sperm storage and adds to seminal fluids which formed in the anterior region. (3) The posterior region is highly muscularized and may serve for limited sperm storage. (4) The most distal portion is the ejaculatory duct which is highly muscularized for extruding the spermatophoric mass for transfer to the female. A final seminar product is added here.     

Female mating receptivity after injection of male-derived extracts in Callosobruchus maculatus

The effects of male-derived extracts on female receptivity were investigated in Callosobruchus maculatus (Coleoptera: Bruchidae). Injection of aqueous extracts of the male reproductive tract into the abdomen of females reduced receptivity. Aqueous extracts of male reproductive tracts were divided to three molecular weight (MW) fractions by ultrafiltration: Fractions: (I) MW<3 kDa, (II) 3-14 kDa, and (III)>14 kDa. Fraction II reduced female receptivity from 3h after injection, and Fraction III reduced female receptivity from 2 days after injection. On the other hand, no effect on receptivity was found for Fraction I. Furthermore, male reproductive tract organs were divided into accessory gland, testis, and seminal vesicle including the ejaculatory duct. Aqueous extracts of the seminal vesicle reduced receptivity of females immediately following injection, while aqueous extracts of the accessory gland reduced receptivity at the second day. The results suggest that the components of Fraction II existed in the seminal vesicle, and those of Fraction III in the accessory gland. The results of the present and the previous studies in Callosobruchus chinensis, a species closely related to C. maculatus, were compared and are discussed from the viewpoint of the significance of ejaculation in the two species.