小地老虎雄性外生殖器的肌肉系统及神经分布

小地老虎Agrotis ypsilon Rott.雄性外生殖器由第8腹节的5对肌肉支持,它具有充分功能的抱器(clasper)和第9腹节的侧骨片,具有8对外生殖器特有的肌肉。具有一对由第9,10,11节原始腹部神经节的侧神经组成的成对的粗大神经干9+10+11,神经干的神经分支分布神经到外生殖器。     

Musculature of the male genitalia of Xylophagus cinctus (De Geer) and relationships within the superfamily Xylophagoidea (Diptera, Brachycera)

There is no general agreement on relationships within Xylophagoidea (Diptera, Brachycera). The musculature of the male genitalia of Xylophagus cinctus (De Geer) (Xylophagidae, the most primitive family of Brachycera) is described and compared with that of some other Xylophagoidea: Exeretonevridae (Exeretonevra angustifrons Hardy), Coenomyiidae (Anacanthaspis biafasciata Röder), and Rhagionidae (Rhagio montanus Becker, Chrysopilus dives Loew, and Ch. helvolus Meigen) discussed earlier (Ovtshinnikova, 1989, 1998; Palmer et al., 2000). In spite of the differences in the structure of the genital sclerites, Xylophagidae possess all the muscles found in Coenomyiidae and Rhagionidae. The musculature of the male genitalia of Xylophagus cinctus includes two muscle pairs of the aedeagus sheath (M1 and M2); three muscle pairs of the ejaculatory complex (M30, M31, and M32); one muscle pair of the gonocoxites (M33); two muscle pairs of the gonostyli (M27 and M28); one muscle pair of the proctiger (M21), one muscle pair of the cerci (M29); two pairs of the tergosternal muscles (M5 ¹ and M5 ²); and two pairs of the pregenital muscles (M18 and M19). Muscles of the family Exeretonevridae are mostly the same, except for the muscles of the cerci M29, proctiger M29, and pregenital muscles M18 and M19, that are subdivided into two parts. This fact and also a different degree of the development of muscles M32 and M5 ² clearly distinguish Exeretonevridae from closely related families. The attachment places of the muscles of the aedeagus sheath M2 and of the gonostyli M28, as well as the split character of the tergosternal muscle pair M5 ¹ makes it possible to distinguish two sister groups, Xylophagidae plus Exeretonevridae, versus Coenomyiidae plus Rhagionidae. It should be noted that the muscles of the male genitalia of Xylophagidae, Exeretonevridae, Coenomyiidae, and Rhagionidae possess similar plesiomorphic characters, and these families should be united into the superfamily Xylophagoidea. This superfamily is the most primitive superfamily of Brachycera Orthorrhapha and possesses the most stable set and arrangement of male genital muscles within the entire suborder. An improved dendrogram of the phylogenetic relationships between the known groups of Xylophagoidea is proposed on the basis of the structure of male genital muscles.     

The morphological and histological characters of the male external genitalia of the house musk shrew, Suncus murinus

External genitalia are the reproductive organs necessary for efficient copulation and internal fertilization in various mammalian species. Their morphogeneses display significant morphological and developmental differences among species. The house musk shrew, Suncus murinus (hereafter described as suncus) is a species of the order Insectivora, which has been considered as primitive and one of the earliest eutheria phylogenetically. Comparative anatomical analyses of phylogenetically different mammals will contribute to the better understanding of morphological diversity of external genitalia. This study performed various anatomical and histological analyses concerning the organization of the external genitalia of male suncus. It was shown that the external genitalia of suncus possessed a muscular structure, which we proposed as musculus ischiocavernosus dorsalis of suncus. The musculus ischiocavernosus dorsalis is originated from the inner surface of the tuber ischiadicum and was allocated adjacent to the corpus cavernosum penis. In addition, a pair of alpha-smooth muscle actin positive muscles was located bilaterally to the urethra. This unique morphology of the external genitalia of suncus males may provide a unique model system to investigate genital morphogenesis.     

The male postabdomen of Stolotermes inopinus: a termite with unusually well-developed external genitalia (Dictyoptera: Isoptera: Stolotermitinae)

Klass, K.‐D., Thorne, B. L. and Lenz, M. 2000. The male postabdomen of Stolotermes inopinus: a termite with unusually well‐developed external genitalia (Dictyoptera: Isoptera: Stolotermitinae). —Acta Zoologica (Stockholm) 81 : 121–130 Stolotermes inopinus has large external male genitalia (phallic lobe), which contrast with the small genital papillae or lack of external genitalia of other Isoptera. As in the genital papilla of Mastotermesdarwiniensis, a ventral sclerite pair is present, the gonopore is located ventroterminally on the phallic lobe, and the genital area is entirely symmetrical – suggesting that this may be the groundplan condition of Isoptera. The relations of the phallic lobe to surrounding components like the subgenital plate, paraprocts, and certain muscles and nerves indicate that the lobe of S. inopinus is homologous with the phallomeres of other Dictyoptera. The bilateral symmetry and simple structure, however, are in strong contrast to the asymmetry and high complexity found in male genitalia of Blattaria and Mantodea. The postabdominal nervous system of S. inopinus resembles that of the cockroach Periplaneta americana. Indications are given that the Stolotermitinae are related to the Kalotermitidae, Rhinotermitidae, and Termitidae rather than to the Termopsinae.     

ACTION OF A JUVENILE HORMONE ANALOGUE,ALTOSID®, INSECT GROWTH REGULATOR,ON THE MORPHOGENESIS AND ADULT ECLOSION OF THE FLESHFLY,SARCOPHAGA BULLATA

Topical application of a juvenile hormone analogue, Altosid, onto the larvae of the fleshfly, Sarcophaga bullata, inhibited adult eclosion. While the head and thorax were resistant to the hormone analogue, the abdomen was highly sensitive. Depending on the dose of the compound applied, various morphogenetic effects were noticed on the abdomen such as failure of rotation of male genitalia, reduction in the number of bristles and microtrichiae, irregular orientation of bristles and inhibition of differentiation of genitalia.The affected flies were examined histologically. The muscles of the genitalia and abdomen failed to develop, while thoracic muscles exhibited dystrophic changes. The significance of these muscular effects is discussed in relation to the inhibition of adult eclosion of Altosid treated insects.

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Résumé L'application topique d'un analogue de l'hormone juvénle, l'Altosid, sur les larves de la mouche de la viande Sarcophaga bullata, inhibe l'éclosion imaginale. Tandis que la tête et le thorax sont résistants à cet analogue de l'hormone, l'abdomen y est très sensible. Selon la dose du produit appliquée, différents effets morphogénétiques ont été observés au niveau de l'abdomen, tels que l'absence de rotation des genitalia du mâle, la réduction du nombre des soies et microtriches, l'orientation irrégulière des soies et l'inhibition de la différenciation des genitalia.Les mouches traitées ont été examinées histologiquement. Les muscles des genitalia et de l'abdomen ne se sont pas développés cependant que les muscles thoraciques montraient des dystrophies. La signification de ces effets sur les muscles est discutée en rapport avec l'inhibition de l'élosion imaginale chez les insectes traités par l'Altosid.

     

Female genitalia are moderately informative for phylogenetic inference and not concerted with male genitalia in Saprininae beetles (Coleoptera: Histeridae)

Our study – the first of its kind within Histeridae (Coleoptera) – deals with the female genitalia in the subfamily Saprininae, with respect to their variation and utility for phylogenetic reconstruction. Morphology of female genitalia (chiefly characters of the spermatheca, and variation of the gonocoxites, articulating sclerites and gonostyli) is herein described and depicted. We perform parsimony‐based morphological phylogenetic analyses of Saprininae using combined datasets that comprise somatic, male and female genitalia characters. We assess phylogenetic utility of female genital characters and test for their correlation with male genital characters. We found that female genitalia are generally moderately informative for phylogenetic reconstruction. The somatic and male genitalia characters (on average) possess higher phylogenetic signal; female genitalia provide better support and diagnoses for particular clades (emphasizing their importance for systematics), in which the evolution of female genitalia can be linked to environmental factors imposed by the mode of life. Regardless of the degree of informativeness, structures of female genitalia represent an additional interesting and important source of information for systematics and taxonomy. We did not find any evidence of correlated evolution between male and female genitalia.     

Polycentropus cianficconiae sp. n. from Sicily and Descriptions of the Females of the Polycentropus Species Found in Sicily (Trichoptera,Polycentropodidae)

The male and female of Polycentropus cianficconiae sp. n. (Peloritani Mountains, Northeast Sicily) are described. This new species is related to P. divergens Mosely, 1930, of which the variability of some characters of male genitalia is examined. Female genitalia of the new species are compared to those of P. divergens, P. malickyi Moretti, 1981 and P. mortoni Mosely, 1930. The characters of female genitalia are useful for evaluating the relatedness and differences among the species. They agree with the findings of the study on male genitalia.     

The male abdominal,genital and pregenital sclerites and musculature in <Emphasis Type="Italic">Neria commutata</Emphasis> (Czerny, 1930) (Diptera,Micropezidae)

The muscles of the male abdomen and genitalia of Micropezidae were studied for the first time by the example of Neria commutata (Czerny, 1930). Based on analysis of the sclerites and musculature of the male genitalia of Micropezidae as compared to those of the previously studied Acalyptratae and Aschiza, we revealed several apomorphies of this group. The hypandrial complex is characterized by the presence of the phallic retractors and protractors M1 and M2, and the epandrial complex, by the presence of muscles M3 of the subepandrial sclerite, muscles M4 of the surstyli, muscles M7 of the cerci, and also the tergosternal muscles M5; all these muscles correspond to the ground plan of Cyclorrhapha. The following characters are considered apomorphic: the splitting of intersegmental sternal muscles ISM5–6 into 4 pairs that ensure the functioning of the forcipate appendages of sternite V; development of syntergosternite VII and reduction of muscles ISM6–7; the splitting of muscles M3 of the subepandrial sclerite into 4 pairs, enhancing the function of this sclerite; the appearance of pregonites with the associated muscles M42, which probably occurred independently several times in the evolution of different groups of Cyclorrhapha; asymmetry of syntergosternites VII and VIII and their muscles. The sclerites and muscles of the epandrium and hypandrium are characterized by complete symmetry.     

The male genitalia in the subfamily Agathidinae (Hymenoptera: Braconidae): Morphological information of species on generic level

The morphology of the male genitalia of 46 Agathidinae species belonging to 20 genera has been investigated. Samples from various geographical regions were used to discover the evolution of the male genitalia within the subfamily Agathidinae. Those male genitalia may contain important phylogenetic information at least in certain groups of Braconidae. For the New World, three of four investigated species of Cremnops (C. haematodes, C. montrealensis and C. vulgaris) could suggest the form of the new genus with the other members of New World Cremnops, partly because of the deviating morphology of the male genitalia. Comparative morphology of the male genitalia of Bassus confirms that it is polyphyletic. The status of Lytopylus (L. erythrogaster) is again actualised. Once synonymised as Aerophilopsis, this species could be excluded from other Lytopylus species. The statistical analysis showed that smaller specimens (<6.67 mm) give less details on the morphology of the male genitalia comparing to larger.     

The use of muscle morphology of Chrysopolomidae (Lepidoptera) genitalic appendages in developing a family system

The male genitalia of Chrysopolomidae were found to include by nine pairs of muscles: m1, m2(10), m3(2), m4, m5(7), m6(5), m7(6), m8(3), m20, and the unpaired muscle m21, fully corresponding to their ground plan in Zygaenoidea. The archaic muscles m20 were found in both Chrysopolomidae and Limacodidae, for the first time for the superfamily Zygaenoidea. Muscles m3(2) and m4 in all the studied chrysopolomids are attached to the base of a gnathos-like complex sclerite, which proves its origin from the transtilla. The genital apparatus of Chrysopolomidae and its muscles are completely symmetrical. The bases of intravalval muscles m5(7) have moved from the sacculus to the juxta; this feature is not found in any other related family of the limacoid complex. The gnathos of Chrysopolomidae is reduced and functionally replaced by the transtilla separated from the valvae; some parts of the true gnathos may be incorporated in the gnathos-like structure of the transilla. A characteristic feature is the presence of strong muscles m3(2), which are reduced in all the studied limacodids. These muscles are running from the modified transtilla deep inside the uncus and provide not the abduction of the valvae but the depression of the uncus and the lifting of the arms of the transtilla. Thus, Chrysopolomidae are morphologically separated from Limacodidae; it is suggested that the former group should be treated as a separate family closely related to Limacodidae. The tribe Achroceridini is transferred from Chrysopolominae into Ectropinae based on the similar structure of the male genitalia and the presence of two pairs of spurs on the hind tibia.     

The functional morphology of the male genitalia in the Gelichiid-moth genera Holcophora Stgr., Ananarsia Ams., and Nothris Hbn. (Lepidoptera, Gelechiidae: Gelechiini, Dichomeridini)

The functional morphology of the male genitalia of Holcophora statices Stgr., Nothris verbascella (Den. et Schiff.) and Ananarsia lineatella (Zell.) is described. The genus Holcophora Hbn. is placed into the tribe Gelechiini based on the peculiarities of the skeleton-muscular apparatus of the male genitalia. Ananarsia Ams. is treated as a separate genus owing to a complex of differences from the genus Anarsia Zell. in skeleton-muscular apparatus of the male genitalia. The relationships between Nothris Hbn. and the tribe Chelariini is confirmed by characters of the functional morphology of the male genitalia.     

Genital Morphology and Copulatory Mechanism in Zygaena trifolii (Esper, 1783) (Insecta,Lepidoptera, Zygaenidae)

The coremata and male genital structures together with the associated muscles of Zygaena trifolii are described and illustrated in detail. Of the female genitalia only the external parts are dealt with. The closure of the male coremata pouch was found to be effected by a special muscle. Mating pairs were quickly fixed while in copula and dissected afterwards in order to examine the mechanism of copulation. It turns out that the female is held by the male at three points: first, the gonopods (= valvae) grip the female abdominal tip laterally. Secondly, the praephallus together with the everted endotheca (= vesica) are tightly locked inside the female ductus bursae. Thirdly, female postvaginal structures become evaginated and are then held between the spined anellus and the eighth abdominal tergum of the male.     

Mechanisms of sperm removal and sperm transfer in Orthetrum coerulescens (Fabricius) (Odonata: Libellulidae)

ABSTRACT An account of the structure of the secondary genitalia of male Orthetrum coerulescens (Fabricius) is given together with an outline of the internal genitalia of the female. Observations on the experimental inflation of the penis are described. No sperm was released during fast inflations and deflations of the penis, but sustained inflation of the penis led to the release of a clear fluid followed by the slow discharge of sperm. Examination of natural copulations in the field has shown that rapid rhythmic movements at up to 5 Hz take place in the male's third abdominal segment throughout most of copulation, but towards the end they cease though inflation is maintained. It is suggested that the rapid movements coincide with the removal of rival sperm from the female and that sperm is transferred to the female only during the maintained inflation. Possible mechanisms of sperm translocation, sperm removal and sperm transfer are discussed with reference to male and female genital structures and the action of relevant muscles.     

初论蜘蛛目的种内变异类型

研究蜘蛛目中的种内变异，初步探讨蜘蛛的外生殖器结构的变异类型，并提出在蜘蛛分类学中树立种群分类概念的重要性。     

Evolutionary transformation from muscular to hydraulic movements in spider (Arachnida, Araneae) genitalia: a study based on histological serial sections

The male genitalia of 107 spider species representing 73 families were serially sectioned and studied with an emphasis on muscles moving the genital bulb. As a rule, most non-Entelegynae have two bulbal muscles, most Entelegyne have none, but many exceptions occur. Variation also occurs with regard to origin and attachment of bulbal muscles. There appears to be a trend towards a shift of the origin from proximal (Liphistius, Atypus) to more distal palpal segments (Haplogynae). In most Entelegynae the muscular movement is replaced by hydraulic movement caused by expanding membranes (hematodochae). Hematodochae probably permit increased bulbal rotation and movements of higher complexity. New evidence is presented arguing against Palpimanidae being representatives of Entelegynae. Bulbal glands other than those discharging into the sperm duct (previously known in Amaurobiidae and Dictynidae only) are described in several entelegyne families.