1,726,569 research outputs found
Pristidia ramosa Yu, Sun & Zhang 2012
No full textPristidia ramosa Yu, Sun & Zhang, 2012 Figs 9–17 Pristidia ramosa Yu, Sun & Zhang, 2012: 45, f. 1–16. (male holotype; 6 male and 2 female paratypes from China, Jiangxi Province, Mt. Jinggang) Clubiona expansa Huang & Chen, 2012: 55, f. 15A–G. (male holotype; 1 male and 1 female paratypes from China, Taiwan Province, New Taipei City). Syn. N. Material examined. CHINA: Taiwan, New Taipei City, District Pinglin (24o55’55.78"N, 121°42′41.10"E, 210m), 19 July 2013, F. Liu and W.Gan leg., 1 male (HUBU-TW- 130177) and 1 female (HUBU-TW- 130178); Guizhou, Mt. Fanjing, Taiping village (24o55’55.78"N, 121o42’41.10"E, 634m), 24 May 2015, M. Yan and J.Li leg., 1 female (HUBU-GZ- 150249). Diagnosis. Pristidia ramosa can be easily distinguished from P. cervicornuta sp. nov. by the embolus distinctly longer, the presence of basal teeth on the RTA, RTA expanded, with a blunt tip, and by the absence of TA (Figs 13, 14). Yu, Sun & Zhang (2012: 45) highlighted the differences of this species from P. prima. Description. See Yu, Sun & Zhang (2012). Intraspecific variation. There is almost no difference between the male from Taiwan (HUBU-TW- 130177, Figs 10, 12–14) and the holotype from Jiangxi (Yu, Sun & Zhang 2012: figs 1–7, 12–14). However, some intraspecific variation is exhibited by females from different localities, mostly related to different degrees of sclerotization. The female from Taiwan (HUBU-TW- 130178, Fig. 11) is distinctly larger in size and darker in color than the paratype from Jiangxi (Yu, Sun & Zhang, 2012: fig. 8). Furthermore, in HUBU-TW- 130178, the epigynal ventral plate is more sclerotized (Fig. 15) than in the paratype (Yu, Sun & Zhang 2012: fig. 9); both spermathecae and bursae are totally transparent in HUBU-TW- 130178 (Fig. 16), while more sclerotized in the paratype (Yu, Sun & Zhang 2012: figs 10, 16). Natural history. The spiders inhabit forests in low mountain areas (210–800 m). This is in accordance with data of the type locality provided by Yu, Sun & Zhang (2012) and Huang & Chen (2012). Distribution. Mt. Jinggang in Jiangxi, Mt. Fanjing in Guizhou and New Taipei City in Taiwan, China. The present data showed the extension of the known range of this species of about 560 km to the northwest (Mt. Fanjing) and of 750 km to the southeast (Taiwan) from the type locality (Fig. 17). Remark. Although we have not examined the type specimens of C. expansa, the long filiform embolus, the expanded RTV with a subapical flange, the bell-shaped atrium, and the course of vulvar duct system shown in the original illustrations (Huang & Chen 2012, fig. 15A–G), leave no doubts on this synonymy. Huang & Chen (2012) was published in May, 2012 (day of publication not specified), while Yu, Sun & Zhang (2012) was published in May, 3, 2012. According to the article 21.3 of the International Code of Zoological Nomenclature, the publication date of Huang & Chen (2012) must be specified as May, 31, 2012. Consequently, C. expansa is here considered as a junior synonym of P. ramosa.Published as part of Yu, Hao, Zhang, Jianshuang & Chen, Jian, 2017, Taxonomy of the genus Pristidia Deeleman-Reinhold, 2001 (Araneae: Clubionidae) in China, pp. 411-418 in Zootaxa 4306 (3) on pages 413-416, DOI: 10.11646/zootaxa.4306.3.7, http://zenodo.org/record/84452
Systematic review (2023) - reporting of peri-implant gas accumulation after Mg implantation in preclinical and clinical studies
No full textResearch initiated by Yu Sun at the Institute of Metallic Biomaterials, Helmholtz-Zentrum Hereon;
Searching, summarizing and analyzing research evidence regarding the formation, accumulation and resorption of peri-implant gas after implantation of Mg-based biomaterials
Perspectives on Identity, Migration, and Displacement
Full text linkPerspectives on Identity, Migration, and Displacement -- edited by Steven Tötösy de Zepetnek, I-Chun Wang, and Hsiao-Yu Sun (Kaohsiung: National Sun Yat-sen University Press, 2010. ISBN 9789860235418 209 pages, bibliography, index) is a collection of articles about sociological and literary aspects of identity formation as a consequence of (im)migration. (Im)migration results in the problematics of assimilation and hybridity and in postcolonial scholarship, in particular, attention is paid to the concept of migration termed Creolization on the ground that cultural contact, cultural transmission, and cultural transformation result in the creation of new cultures. Copyright release by National Sun Yat-sen University to the authors 2013
Schistochila simulans Xiao L. He et Yu Sun, Polish Bot. J.
No full textSchistochila simulans (C.Massal.) Xiao L.He et Yu Sun, Polish Bot. J. 58 (2): 473, 2013 (see He & Sun 2013). BASIONYM: Cephalozia simulans C.Massal., Nuovo Giorn. Bot. Ital. 17 (3): 236, 1885 (see Massalongo 1885).Published as part of Söderström, Lars, Hagborg, Anders & Konrat, Matt Von, 2016, Early Land Plants Today: Index of Liverworts & Hornworts 2013 - 2014, pp. 133-185 in Phytotaxa 269 (3) on page 164, DOI: 10.11646/phytotaxa.269.3.1, http://zenodo.org/record/477969
Systematic review for preclinical rat femoral defect models
No full textA systematic review planned to evaluate the surgical methods for inducing rat femoral defect models.
Researchers: Yu Sun, Heike Helmholz, Regine Willumeit-Römer.
Institute of Metallic Biomaterials, Helmholtz-Zentrum Hereon, Geesthacht 21502, Germany.
Background information: Bone defect is a common clinical situation requiring surgical intervention and application of graft materials. An evidence-based literature analysis of rodent models for bone defect, may facilitate future preclinical research for developing novel therapeutic strategies
sj-docx-2-cix-10.1177_11769351221126285 – Supplemental material for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer
No full textSupplemental material, sj-docx-2-cix-10.1177_11769351221126285 for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer by Yu Sun and Jun Zhao in Cancer Informatics</p
sj-pdf-4-cix-10.1177_11769351221126285 – Supplemental material for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer
No full textSupplemental material, sj-pdf-4-cix-10.1177_11769351221126285 for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer by Yu Sun and Jun Zhao in Cancer Informatics</p
sj-pdf-3-cix-10.1177_11769351221126285 – Supplemental material for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer
No full textSupplemental material, sj-pdf-3-cix-10.1177_11769351221126285 for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer by Yu Sun and Jun Zhao in Cancer Informatics</p
sj-docx-1-cix-10.1177_11769351221126285 – Supplemental material for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer
No full textSupplemental material, sj-docx-1-cix-10.1177_11769351221126285 for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer by Yu Sun and Jun Zhao in Cancer Informatics</p
sj-pdf-5-cix-10.1177_11769351221126285 – Supplemental material for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer
No full textSupplemental material, sj-pdf-5-cix-10.1177_11769351221126285 for Transcription Elongation Factor A (SII)-Like (TCEAL) Gene Family Member-TCEAL2: A Novel Prognostic Marker in Pan-Cancer by Yu Sun and Jun Zhao in Cancer Informatics</p
- …
