118,948 research outputs found
Scoparia molestalis Inoue 1982
21. Scoparia molestalis Inoue, 1982 Scoparia molestalis Inoue, 1982: 312, pl. 36 figs. 40, 41, pl. 300 fig. 6, pl. 301 fig. 7; Inoue, 1994: 346, figs. 5, 6, 26, 38. Type locality: Kitakawa, S. Alps, Japan. Scoparia molestalis Inoue: Song & He, 1997, in Yang (ed.): 1166, fig. 146 (misidentification); Song, 2003, in Wang et al. (eds.): 192, fig. 238 (misidentification). Material examined. Holotype: Ƥ, "Holo- | type ", "Kitazawa | (2000 m) | S. Alps | 5.viii. 1958 | H. Yamamoto", "slide 6449 | (Ƥ)", "Inoue Coll. | B. M. 1992 - 71 ", " Holotype | Scoparia molestalis | Inoue (1982) ", " Type status | verified | K. Buckmaster 1997 ", " Type | photographed | in colour", BMNH. Distribution. Japan. Remarks. Scoparia molestalis was recorded by Song & He (1997) in Hubei and Sichuan provinces of China with two specimens (1 3, Longmenhe, Xingshan, Hubei Province; 1 3, Wangerbao, Wanxian, Sichuan Province). We regard it as a misidentification of Eudonia puellaris after having checked the specimens deposited in IZCAS. Song (2003) also reported S. molestalis in Fujian Province of China with eight specimens (Huanggangshan, Wuyishan, Fujian Province, 2150 m, 27.vii. 2000), but they were misidentified based on the correlative specimens deposited in IZCAS that we have checked. Actually, they are S. congestalis.Published as part of Li, Weichun, Li, Houhun & Nuss, Matthias, 2010, Taxonomic revision of Scoparia Haworth, 1811 (Lepidoptera: Crambidae: Scopariinae) from China, pp. 1-33 in Zootaxa 2609 on pages 28-29, DOI: 10.5281/zenodo.19778
Scoparia utsugii Inoue 1994
15. Scoparia utsugii Inoue, 1994 Scoparia utsugii Inoue, 1994: 347, figs. 15, 16, 31, 42. Type locality: Kitazawa Pass, Japan. Material examined: Holotype: 3, "Holo- | type ", "Kitazawa-pass | S. Alps | Yamanashi Pref. | 14.viii. 1992 | U. Jinbo", "slide 15331 | (3)", "Inoue Coll. | B. M. 1992 - 71 ", " Holotype | Scoparia utsugii | Inoue (1994) ", " Type status | verified | K. Buckmaster 1997 ", BMNH. Additional material: China: 3 33, 2 Ƥ, Taibaishan (33.57 °N, 107.47 °E), Qinling, Shaanxi Province, ca. 1700 m, 22-26.vi.1935, 9.v/ 20.viii. 1936, leg. H. Höne (genitalia slide nos. LWC08100, LWC09031), ZFMK. Diagnosis. Scoparia utsugii is distinguished by having a short and thick, S-shaped cornutus in the male genitalia. Distribution. China (Shaanxi); Japan. Remarks. This species is recorded here for the first time in China.Published as part of Li, Weichun, Li, Houhun & Nuss, Matthias, 2010, Taxonomic revision of Scoparia Haworth, 1811 (Lepidoptera: Crambidae: Scopariinae) from China, pp. 1-33 in Zootaxa 2609 on page 19, DOI: 10.5281/zenodo.19778
Photochemistry in Japan: the Inoue Photochirogenesis Project -a research profile
The Inoue Photochirogensis Project is part of the ERATO program (Exploratory Research for Advanced Technology) of the Japan Science and Technology Corporation (JST). The project began in 1996, and is located in Toyonaka, Osaka. The project director is Dr. Yoshihisa Inoue, who is a full professor of the Graduate School of Engineering at Osaka University. The project is divided into 3 sub-groups: (1) CPL Photochemistry Group, (2) Asymmetric Photosensitization Group and (3) Supramolecular Photochemistry Group
Scopria tohokuensis Inoue 1982
8. Scopria tohokuensis Inoue, 1982 Scopria tohokuensis Inoue, 1982: 313, pl. 36 figs. 44, 45, pl. 301 fig. 9. Type locality: Nuruyu, Miyagi pref., Japan. Scoparia magnipunctalis Sasaki, 1991: 98, figs. 5, 19. Type locality: Narugu, Miyagi pref., Honshu, Japan. Material examined. Holotype of S. tohokuensis: Ƥ, "Holo- | type ", "Nuruyu | Miyagi Pref. | 29. ix. 1968 | T. Watanabe", "slide 7432 | (Ƥ)","Inoue Coll. | B. M. 1992 - 71 ", " Holotype | Scoparia tohokuensis | Inoue (1982) ", " Type status | verified | K. Buckmaster 1993 ", " Type | photographed | in colour", BMNH. Additional material: China: Zhejiang Province: 6 33, 1 Ƥ, West Tianmushan (30.26 °N, 119.34 °E), 8.vii- 24.ix. 1932, leg. H. Höne (genitalia slide nos. LWC08113, LWC08131); 1 3, Wenzhou (28.01 °N, 120.39 °E), 21.v. 1939, leg. H. Höne (genitalia slide no. LWC08106), ZFMK. 1 3, 1 Ƥ, Guadun, Wuyishan (26.54 °N, 116.42 °E), Fujian Province, 1100 m, 23.v. 2004, leg. Haili Yu (genitalia slide nos. LWC06011, LWC06053); 1 3, Shayuan, Hefeng (29.53 °N, 110.02 °E), Hubei Province, 1260 m, 17.vii. 1999, leg. Houhun Li et al.; Guizhou Province: 1 3, Dashahe, Daozhen (28.53 °N, 107.36 °E), 1350 m, 24.viii. 2004, leg. Yunli Xiao (genitalia slide no. LWC07479); 1 3, Linjiang, Xishui (28.19 °N, 106.12 °E), 500 m, 25.ix. 2000, leg. Haili Yu (genitalia slide no. LWC06299); 1 3, Fangxiang, Leishan (26.22 °N, 108.03 °E), 900 m, 14.ix. 2005, leg. Jialiang Zhang (genitalia slide no. LWC08084), NKUM. Diagnosis. Scoparia tohokuensis is similar to S. spinosa sp. n. The differences between the two species are stated under S. spinosa sp. n. Distribution. China (Fujian, Guizhou, Hubei, Sichuan, Zhejiang); Japan, Russia.Published as part of Li, Weichun, Li, Houhun & Nuss, Matthias, 2010, Taxonomic revision of Scoparia Haworth, 1811 (Lepidoptera: Crambidae: Scopariinae) from China, pp. 1-33 in Zootaxa 2609 on page 14, DOI: 10.5281/zenodo.19778
Sesquilinear forms as eigenvectors in quasi *-algebras, with an application to ladder elements
We consider a particular class of sesquilinear forms on a Banach quasi *-algebra (A[parallel to.parallel to],A0[parallel to.parallel to 0]) that we call eigenstates of an element a is an element of A, and we deduce some of their properties. We further apply our definition to a family of ladder elements, that is, elements of A obeying certain commutation relations physically motivated, and we discuss several results, including orthogonality and biorthogonality of the forms, via Gelfand-Naimark-Segal (GNS) representation
Scoparia nipponalis Inoue 1982
11. Scoparia nipponalis Inoue, 1982 Scoparia nipponalis Inoue, 1982: 311, pl. 36 figs. 34, 36, pl. 300 fig. 1, pl. 301 fig. 1; Inoue, 1994: 347, figs. 13, 14, 30, 41; Kirpichnikowa, 1999: 333, figs. 2, 5; Seino & Mano, 2002: 388, figs. 1, 2; Li, 2009, in Li et al: 185, pl. XI fig. 155, pl. XLV fig. 155, pl. LXXXIII fig. 155. Type locality: Akan, Hokkaido, Japan. Material examined. Holotype: Ƥ, "Holo- | type ", "Akan | Hokkaido | 13 ~ 17.VII. 1958 | K. Jinbo", "slide 6715 | (Ƥ)", "Inoue Coll. | B. M. 1992 - 71 ", " Holotype | Scoparia nipponalis | Inoue (1982) ", " Type status | verified | K. Buckmaster 1993 ", " Type | photographed | in colour", BMNH. Additional material: China: 1 3, Mianshan, Jiexiu (37.02 °N, 111.55 °E), Shanxi Province, ca. 2000 m, 16.vii. 1937, leg. H. Höne (genitalia slide no. LWC08102), ZFMK. Henan Province: 6 33, Baotianman, Neixiang (34.02 °N, 111.05 °E), 1200 m, 26-31.v. 2006, leg. Jinmei Lv and Xu Zhang (genitalia slide nos. LWC06281, LWC08080); 1 Ƥ, Wangwushan (35.16 °N, 112.10 °E), Jiyuan, 700 m, 3.vi. 2000, leg. Haili Yu (genitalia slide no. ZDD01798); 1 Ƥ, Dakuaidi, Lushi (34.03 °N, 111.02 °E), 1100 m, 6.viii. 2006, leg. Hui Zhen and Denghui Kuang (genitalia slide no. LWC08210), NKUM. Diagnosis. Scoparia nipponalis is similar to S. caradjai. The differences between the two species are stated under S. caradjai. Distribution. China (Henan, Shanxi); Japan, Russia.Published as part of Li, Weichun, Li, Houhun & Nuss, Matthias, 2010, Taxonomic revision of Scoparia Haworth, 1811 (Lepidoptera: Crambidae: Scopariinae) from China, pp. 1-33 in Zootaxa 2609 on page 16, DOI: 10.5281/zenodo.19778
Psyra conferta Inoue 1983
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
In vivo pain-inhibitory role of nociceptin/orphanin FQ in spinal cord
Because nociceptin/orphanin FQ (N/OFQ) has both pronociceptive (hyperalgesia) and antinociceptive actions in pharmacological experiments, and there is no significant difference in the nociceptive responses between NOP(-/-) mice and their wild-type (NOP(+/+)) littermates, the physiological role of N/OFQ in pain regulation remains to be determined. Under the hypothesis that the use of molecularly distinct nociception test may reveal the pain modality-specific role of N/OFQ, we attempted to examine the physiological role of N/OFQ in pain transmission by using newly developed algogenic-induced nociceptive flexion test in NOP(-/-) and NOP(+/+) mice or NOP antagonist-treated mice. The nociceptive flexor responses upon intraplantar injection of bradykinin or substance P, which stimulates polymodal substance P-ergic fibers, were markedly potentiated in NOP(-/-) mice, compared with those in its NOP(+/+) mice. However, there were no significant changes in NOP(-/-) mice with adenosine triphosphate or prostaglandin I(2) agonist, which stimulates glutamatergic but not substance P-ergic fibers. The nocifensive responses induced by substance P (i.t.) were also potentiated in NOP(-/-) mice. On the other hand, there were no significant differences in NK1-like immunoreactivity, [(3)H]substance P binding, or NK1 gene expression in the dorsal horn of the spinal cord between NOP(-/-) and NOP(+/+) mice. In addition, NOP antagonists decreased the threshold in nociception tests driving spinal substance P neurotransmission. All these findings suggest that the N/OFQ-ergic neuron may play an in vivo inhibitory role on the second-order neurons for primary polymodal substance P-ergic fibers in the spinal cord
Eupithecia supercastigata Inoue 1958
Eupithecia supercastigata Inoue, 1958 (Fig. 14) Eupithecia supercastigata Inoue, 1958, Tinea 4 (2): (248), text-fig 2. Holotype ♂ (BMNH; examined), [Japan], Yokosuka, Funakoshi. Examined material: 1 ♂, China, NE. Sichuan, NE. Guangyuan, Longmen Shan, 32°36.009ʹ N, 105°31.913ʹ E, H– 630 m, 5.x.2016, A. Floriani leg. Gen. prep. J. Procházka 20140; Photo J. Šumpich 22/141 (NMPC). Note. This species belongs to the subfuscata species group (Mironov & Galsworthy 2014). It has previously been recorded from Japan (Honshu, Shikoku, Kyushu, Tsushima), Korea and the Chinese provinces of Zhejiang, Shaanxi, Hunan and Yunnan. A new species for Sichuan province. The male genitalia of this specimen are illustrated (Fig. 19).Published as part of Mironov, Vladimir & Šumpich, Jan, 2022, New species of the genus Eupithecia (Lepidoptera, Geometridae) from China Part IX, pp. 276-286 in Zootaxa 5219 (3) on page 285, DOI: 10.11646/zootaxa.5219.3.5, http://zenodo.org/record/741750
Scoparia spinata Inoue 1982
2. <i>Scoparia spinata</i> Inoue, 1982 <p> <i>Scoparia spinata</i> Inoue, 1982: 312, pl. 36 fig. 53, pl. 300 fig. 4; Sasaki, 1991: 96, figs. 6, 7, 18, 25; Inoue, 1994: 345, figs. 3, 4, 25, 36. Type locality: Tobira Pass, Nagano pref., Japan.</p> <p> <i>Scoparia kiangensis</i> Leraut, 1986: 127, figs. 5, 6. <b>syn. n.</b> Type locality: Lijiang, Yunnan Province, China.</p> <p> <b>Material examined.</b> Holotype of <i>S. spinata</i>: 3, "Holo- | type ", "Tobira Pass | ca. 1400m | Nagano Pref. | 28.vii.1978 | H. Inoue", "slide 7442 | (3)”, “Inoue Coll. | B. M. 1992-71", " Type status | verified | K. Buckmaster 1993", " Type | Photographed | In Colour", " Holotype | <i>Scoparia spinata</i> | Inoue”, BMNH. <b>China:</b> Holotype of <i>S. kiangensis</i>: Holotype: Ƥ " Holotype ", " Holotype | <i>Scoparia</i> | <i>kiangensis</i> | Ƥ Leraut", "Li-kiang. (China). | Provinz Nord-Yuennan. | 12.8.1934. H. Höne.", " <i>Scoparia</i> | <i>crataegella</i> | Hb", "P. Leraut det. | prép. n° 1395 | <i>Scoparia</i> Ƥ | <i>kiangensis</i> Leraut ", MINGA. Paratype: 3, same locality data as holotype except dated 13.8.1934, MINGA.</p> <p> <b>Additional material:</b> 1 Ƥ, Lianhuachi, Wulingshan (40.36°N, 117.29°E), Xinglong, Hebei Province, 1800 m, 1.viii.2000, leg. Yanli Du and Zhendong Li (genitalia slide no. LWC08215), NKUM. Zhejiang Province: 1 3, 2 Ƥ, Tianmushan (30.26°N, 119.34°E), 22.vi-9.ix. 1932, leg. H. Höne, ZFMK. 18 33, 7 Ƥ, Xianrending, Tianmushan, 1500 m, 18.viii.1999, leg. Houhun Li <i>et al.</i> (genitalia slide nos. LWC05014, LWC05041, LWC05042, LWC05054, LWC06042, LWC06094, LWC06095, LWC06099, DYL00064, DYL00091, DYL00151); 8 33, 2 Ƥ, Kaishanlaodian, Tianmushan, 1140 m, 17.viii.1999, leg. Houhun Li <i>et al.</i> (genitalia slide nos. LWC06086, LWC06092, LWC06091, RYD04083); Henan Province: 20 33, 8 Ƥ, Baiyunshan, Songxian (34.08°N, 112.05°E), 1400 m, 14-17.viii.2008, leg. Houhun Li <i>et al</i>. (genitalia slide nos. LWC08155, LWC08207, LWC08208); 2 33, Baiyunshan, Songxian, 1500 m, 8.ix.2000, leg. Houhun Li and Karsholt, NKUM. 1 3, Hengshan (27.18°N, 112.42°E), Hunan Province, 1.vii.1933, leg. H. Höne (genitalia slide no. LWC08107), ZFMK. Sichuan Province: 1 3, Kangding (33.04°N, 101.57°E), 2400 m, 8.vii.2001, Houhun Li and Xinpu Wang (genitalia slide no. LWC06047); 2 Ƥ, Yonghong, Mabian (28.51°N, 103.31°E), 1500 m, 23.vii.2004, leg. Yingdang Ren (genitalia slide no. LWC08157); Yunnan Province: 8 33, 7 Ƥ, Wenquan (24.59°N, 102.27°E), Kunming, 1900 m, 29-30.viii.2005, leg. Yingdang Ren (genitalia slide nos. LWC06007, LWC06249, LWC06308, LWC08064), NKUM. 16 33, 6 Ƥ, Lijiang (26.52°N, 100.14°E), ca. 2000 m, 9.vii-11.ix.1934, 26-30.viii.1935, leg. H. Höne, ZFMK. <b>Thailand</b>: 8 33, 1 Ƥ, Doi Phahompok, Chiang Mai Province, 20°07.826'N 99°09.845'E, 2033 m, 28-29.vii.2006, leg. G. Martin (genitalia slide no. LWC09059); 3 33, Doi Phahompok, Chiang Mai Province, 20°07.644'N 99°08.890'E, 2000 m, 24.vii.2006, leg. G. Martin; 1 3, Doi Phahompok, Chiang Mai Province, 20°07.846'N 99°09.647'E, 2047 m, 23.vii.2006, leg. G. Martin, BMNH.</p> <p> <b>Diagnosis.</b> <i>Scoparia spinata</i> is very similar to <i>S. sinensis</i> in the wing pattern and male genitalia. It also resembles <i>S. metaleucalis</i> in the female genitalia. The differences are stated under <i>S. sinensis</i> and <i>S. metaleucalis</i>.</p> <p> <b>Distribution.</b> China (Hebei, Henan, Hunan, Sichuan, Yunnan, Zhejiang); Japan, Thailand.</p> <p> <b>Remarks.</b> <i>Scoparia kiangensis</i> Leraut, 1986 <b>syn. n.</b> is regarded as being conspecific with <i>S. spinata</i> Inoue, 1982, and therefore synonymized herein. This species varies in the male genitalia: the distal part of the uncus varies from short to conspicuously elongate; the cornuti usually consist of two groups of long spines, but some individuals have one group of cornuti consisting of small spines, which are easily obscured by the large spines. <i>Scoparia spinata</i> is here recorded for the first time in Thailand.</p>Published as part of <i>Li, Weichun, Li, Houhun & Nuss, Matthias, 2010, Taxonomic revision of Scoparia Haworth, 1811 (Lepidoptera: Crambidae: Scopariinae) from China, pp. 1-33 in Zootaxa 2609</i> on pages 7-8, DOI: <a href="http://zenodo.org/record/197783">10.5281/zenodo.197783</a>
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