11,078 research outputs found

    Psyra moderata Inoue 1982

    No full text
    Psyra moderata Inoue, 1982 Figs 15, 33, 46, 60, 69 Psyra moderata Inoue, 1982 a, Bull. Fac. domestic Sci., Otsuma Woman‘s Univ., 18: 190 fig. 51 b. Holotype 3, Nepal: near Nilgiri, lete, 2400 m (BMNH). Material examined. NEPAL (BMNH): 13 (Holotype), Lete, 2400 m near Nilgiri, C. Nepal, 23.VI. 1969, coll. T. Miyashita, Inoue Coll., B.M. 1992 - 71 (Geometridae genitalia slide no. 16391); 1 Ƥ, Kalbani, 2400 m, Kaligandaki, C-Nepal, 12.VII. 1969, coll. T. Miyashita, Inoue Coll., BM 1992 - 71 (Inoue slide no. 9068). CHINA: Tibet (IZCAS): 1 Ƥ, Gyirong, Xiao Gyirong, 2800 m, 25.VII. 1975, coll. Wang Ziqing (slide no. Geom- 1990). Diagnosis. P. moderata resembles P. similaria in having smaller antemedial and postmedial black patches: these patches are elongate in P. moderata, but appear as small dots in P. similaria. The male genitalia are similar to those of P. boarmiata, P. conferta and P. fulvaria. They can be distinguished by the following features: the uncus of P. m o d e r a t a is narrower than that of P. conferta; the distal part of the valva is less up-curved than in P. boarmiata, and the gnathos is narrower than that of P. fulvaria; the aedeagus shares one bundle of spines on the vesica with P. conferta, P. crypta and P. fulvaria, but the spines are longer than in P. conferta. The female genitalia are close to those of P. similaria and P. conferta, but the ductus bursae is narrower than in P. conferta, and the antrum is longer than in P. s i m i l a r i a. Distribution. China (Tibet), Nepal; newly recorded here for China.Published as part of Liu, Zulian, Xue, Dayong, Wang, Wenkai & Han, Hongxiang, 2013, A review of Psyra Walker, 1860 (Lepidoptera, Geometridae, Ennominae) from China, with description of one new species, pp. 459-474 in Zootaxa 3682 (3) on pages 466-467, DOI: 10.11646/zootaxa.3682.3.7, http://zenodo.org/record/21867

    Psyra conferta Inoue 1983

    No full text
    Psyra conferta Inoue, 1983 Figs 14, 32, 45, 59 Psyra conferta Inoue, 1983, Tinea, 11 (16): 153, figs 22 a, b, 23, 24. Holotype 3, China: Taiwan: Chiayi Hsien, Alishan, 2200 m (BMNH). Material examined. CHINA: Taiwan (BMNH): 13 (Holotype), Chiayi, Alishan, 2200 m, 9–11.VII. 1964, coll. H. Inoue, Inoue Coll., B.M. 1992 - 71, BMNH (E)# 1008379; 131 Ƥ, BMNH genitalia slides examined (Paratypes, Inoue slide no. 6040, 9509). Diagnosis. P. conferta is characterized by having much clearer black patches for the antemedial, postmedial and submarginal lines; the patches of the antemedial and postmedial lines are larger than in other species, as is the W-shaped forewing discal spot. The male genitalia are close to those of P. boarmiata, P. m o d e r a t a and P. fulvaria, but the uncus is broader than in those three species, the valva is less up-curved than in P. boarmiata and P. moderata, and shorter than in P. fulvaria; the aedeagus shares one bundle of spines on the vesica with P. m o d e r a t a, P. crypta and P. fulvaria, but the spines are shorter than in P. moderata. The female genitalia are close to those of P. similaria, but the ductus bursae is much broader, and the spines of the discoid signum are slenderer than in P. similaria. Distribution. China (Taiwan).Published as part of Liu, Zulian, Xue, Dayong, Wang, Wenkai & Han, Hongxiang, 2013, A review of Psyra Walker, 1860 (Lepidoptera, Geometridae, Ennominae) from China, with description of one new species, pp. 459-474 in Zootaxa 3682 (3) on page 466, DOI: 10.11646/zootaxa.3682.3.7, http://zenodo.org/record/21867

    Lecideoid lichens of Prince Olav Coast and Soya Coast, Enderby Land, East Antarctica

    No full text
    Five species of lecideoid lichens belonging to three genera are reported as new to the flora of the Prince Olav Coast and the Soya Coast, Enderby Land, East Antarctica; they are Carbonea capsulata (DODGE & BAKER) HALE, Lecidea andersonii R. FILSON, Lecidea cancriformis DODGE & BAKER, Lecidea soyaensis M. INOUE and Lecidella siplei (DODGE & BAKER) M. INOUE. All are endemic to Antarctica. An examination was made of the collections from the region, which were collected mainly by the author under the project of the 27th Japanese Antarctic Research Expedition (JARE-27,during January 1986 and February 1987). The type and authentic specimens of possibly related species have been restudied. Lecidea soyaensis M. INOUE is new to science and Lecidella siplei (DODGE & BAKER) M. INOUE is proposed as a new combination. Taxonomic and chemical data as well as a key to the known taxa are provided

    On the classification of Inoue surfaces

    No full text
    We prove that any Inoue surface admits a unique holomorphic connection. Using this result we show that two Inoue surfaces S=H×C/GS=H\times\mathbb{C}/G, S=H×C/GS'=H\times\mathbb{C}/G' are biholomorphic if and only if GG, GG' are conjugate in the group of affine transformations of H×CH\times\mathbb{C}. This result allows us to prove explicit classification theorems for Inoue surfaces: Let M\mathcal{M} be the set of SL(3,Z){\rm SL}(3,\mathbb{Z})-matrices MM with a real eigenvalue α>1\alpha>1 and two non-real eigenvalues, and N±\mathcal{N}^\pm the set of GL(2,Z){\rm GL}(2,\mathbb{Z})-matrices NN with a real eigenvalue α>1\alpha>1 and det(N)=±1\det(N)=\pm 1. We prove that: For any GL(3,Z){\rm GL}(3,\mathbb{Z})-similarity class MM/\mathfrak{M}\in \mathcal{M}/\sim, there exists exactly two biholomorphism classes of type I Inoue surfaces. For any GL(2,Z){\rm GL}(2,\mathbb{Z}) similarity class N=[N]N+/\mathfrak{N}=[N]\in \mathcal{N}^+/\sim and positive integer rNr\in\mathbb{N}^*, we have a finite set of deformation classes of type II Inoue surfaces. This set is parameterised by the quotient of Z2/(I2N)Z2+rZ2\mathbb{Z}^2/(I_2-N)\mathbb{Z}^2+r\mathbb{Z}^2 by an action of the "positive centraliser" ZGL(2,Z)+(N)Z^+_{{\rm GL}(2,\mathbb{Z})}(N) of NN in GL(2,Z){\rm GL}(2,\mathbb{Z}). The set of biholomorphism types corresponding to a deformation class, endowed with its natural topology, can be identified with either C\mathbb{C}^* or C\mathbb{C}. For any GL(2,Z){\rm GL}(2,\mathbb{Z})-similarity class N=[N]N/\mathfrak{N}=[N]\in \mathcal{N}^-/\sim and positive integer rNr\in\mathbb{N}^*, we have a finite set of biholomorphism classes of type III Inoue surfaces. This set is parameterised by the quotient of Z2/(I2+N)Z2+rZ2\mathbb{Z}^2/(I_2+N)\mathbb{Z}^2+r\mathbb{Z}^2 by an action of ZGL(2,Z)+(N)Z^+_{{\rm GL}(2,\mathbb{Z})}(N). In both cases the group ZGL(2,Z)+(N)Z^+_{{\rm GL}(2,\mathbb{Z})}(N) is infinite cyclic (see section 5).Comment: 43 page

    Nipponasura Inoue 1965

    No full text
    Subgenus Nipponasura Inoue, 1965, stat. n. Nipponasura Inoue, 1965: 241 (as genus). T y p e s p e c i e s: Nipponasura sanguinea Inoue, 1965 (by original designation). Diagnosis. The single known member of the subgenus is significantly smaller than both species of the subgenus Sesapa. The male genitalia are similar to those of Sesapa, but differ by the horseshoe-like merged transtillae with long and narrow transtillar processes covered with spinules, absence of medial costal processes and the narrower vesica (in Sesapa the vesica is broad, globular). The female genitalia differ from those of Sesapa by the rugose antevaginal plate, the longer and broader ductus bursae and the more or less globular corpus bursae. D i s t r i b u t i o n. Japan: Ryukyu Islands.Published as part of Volynkin, A. V., 2017, On The Taxonomy Of The Genera Sesapa And Nipponasura (Lepidoptera, Erebidae, Arctiinae), pp. 369-374 in Vestnik Zoologii 51 (5) on page 373, DOI: 10.1515/vzoo-2017-0044, http://zenodo.org/record/644941

    Capacitors

    No full text
    This webpage is part of a larger site by the author about electronic circuit engineering. This page introduces the reader to capacitors, including the principles behind how they work. Explanations of several different types of capacitors (including Electrolytic, Tantalum, and Mica) are accompanied by detailed color illustrations of the concepts

    Verification on the use of the Inoue method for precisely determining glomerular filtration rate in Philippine pediatrics

    No full text
    The objective of this study is to validate the Inoue method so that it would be the preferential choice in determining glomerular filtration rate (GFR) in Philippine pediatrics. The study consisted of 36 patients ranging from ages 2 months to 19 years old. The subjects used were those who were previously subjected to in-vitro method. The scintigrams of the invitro method was obtained and processed for split percentage uptake and for parameters needed to obtain Inoue GFR. The result of this paper correlates the Inoue GFR and In-vitro method (r = 0.926). Thus, Inoue method is a viable, simple, and practical technique in determining GFR in pediatric patients

    The Hobby of Electronic Circuit Engineering

    No full text
    This website (originally created in Japanese and translated into English using translation software) by a Japanese systems engineer, Seiichi Inoue, provides an extensive overview of electronic circuit engineering. Topics covered include: Basic knowledge of Electronic parts, Basic knowledge of Engineering Instruments, an Introduction of Engineering Method, and the Assembly Process. A variety of electronic circuits and their uses are provided, as well as a separate section on PIC electronic circuits. The language may be difficult to follow at times given the translation, but still a gem of a site for anyone wanting to build some circuits! Keep in mind that in some sections, the author notes that he is "describing while studying, there seems to be mistakes in the contents. Do at your own risk." For some further browsing, he includes sections on his other interests, such as 3D photography, java programming, CAD, Japanese customs and the Japanese language

    A tribute to Shinya Inoue and innovation in light microscopy

    No full text
    The 2003 International Prize for Biology was awarded to Shinya Inoue for his pioneering work in visualizing dynamic processes within living cells using the light microscope. He and his scientific descendants are now pushing light microscopy even further by developing new techniques such as imaging single molecules, visualizing processes in living animals, and correlating results from light and electron microscopy
    corecore