35,597 research outputs found

    Tai hu feng guang

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    Tai hu, di chu chang jiang san jiao zhou de jin san jiao di dai, shi zhong guo wu da dan shui hu po zhi yi, zhe li di fu wu rao, ren wen hui cui, zi gu you " yu mi zhi xiang " zhi yu cheng. tai hu, hao cheng " san wan liu qian qing " , " qi shi er feng " . kai fa li shi you jiu, ju jin yi you 2400 yu nian. zhe li hu guang shan se, feng jing xiu li ; ming sheng gu ji lin ci zhi bi ; ceng ci zhong die, feng guang yi ni. ben shu jiu shi ji su zhou, wu xi, hu zhou, jia xing ji shang hai yi jiao zhi feng jing ming sheng jing hua, jiang tai hu di zai de feng guang lü you, ming sheng gu ji, li shi wen hua, zhi wu lei qun hui cui yu yi ce, yi xiang du zh

    Sphingius deelemanae Feng & Fu 2010, sp. n.

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    <i>Sphingius deelemanae</i> sp. n. <p>urn:lsid:zoobank.org:act: 31749410-B22D-4A45-BC39-A977D3A01D87</p> <p>Figs. 1–7</p> <p> <b>Type material.</b> Holotype male, CHINA: Hainan Province, Mt. Jianfengling [N 18.62°, E 108.98°], May 28, 2009, G. X. Han leg. (MHBU), paratype 1 <i>3</i>, same data as holotype (MHBU).</p> <p> <b>Diagnosis.</b> In the Chinese <i>Sphingius</i> species, such as <i>S</i>. <i>hainan</i> Zhang, Fu & Zhu, 2009, <i>S. pingtung</i> Tso et al., 2005, <i>S. sinensis</i> (Schenkel, 1963) and <i>S. zhangi</i> Zhang, Fu & Zhu, 2009, the new species can be easily distinguished from <i>S</i>. <i>hainan</i> by its broader embolus (Fig. 5), while in <i>S. hainan</i> the embolus is shorter and thinner (Zhang et al. 2009: fig. 6); by the chelicerae without a distal anterior tubercle (Fig. 4), while <i>S. hainan</i> (Zhang et al. 2009: fig. 3) has such a distal anterior tubercle on the chelicerae. Specifically compared to <i>S. pingtung</i>, the new species is also distinguished the embolus broader and shorter (Fig.5), while in <i>S. pingtung</i> the embolus thinner and longer (Zhang et al. 2009: fig. 10); by the tibial apophysis shorter (Fig. 5), while in <i>S. pingtung</i> the tibial apophysis very long (Zhang et al. 2009: fig. 12). The new species can be distinguished from <i>S. zhangi</i> by having a longer and broader embolus and with the embolus tip very near to the distal end of the cymbium (Fig. 6), while in <i>S. zhangi</i> the embolus thinner, shorter and far from the distal end of the cymbium (Zhang et al. 2009: figs. 29, 31).</p> <p>Comparing the new species with the seven species with known males found in nearby south east Asian countries, we find the new species can be distinguished from <i>S. scrobiculatus</i> (Myanmar), <i>S. songi</i> (Thailand) and <i>S. gothicus</i> (Thailand) by having a longer and broader embolus and the embolus tip very near to the distal end of the cymbium (Fig. 6), while in <i>S. scrobiculatus</i>, <i>S. songi</i> and <i>S. gothicus</i> the embolus thinner, shorter and far from the distal end of the cymbium (Deeleman-Reinhold 2001: figs. 840, 854, 844). The new species can be distinguished from <i>S. penicillus</i> (Thailand), <i>S. gracilis</i> (Myanmar) and <i>S. octomaculatus</i> (Myanmar) by the tibial apophysis shorter (Fig. 5), while in <i>S. penicillus</i>, <i>S. gracilis</i> and <i>S. octomaculatus</i> the tibial apophysis very long (Deeleman-Reinhold 2001: figs. 849, 839, 858). The new species can be distinguished from <i>S. punctatus</i> (Thailand, Indonesia) by the lump-shaped median apophysis (Fig. 5), while in <i>S. punctatus</i> the median apophysis ribbon-shaped (Deeleman-Reinhold 2001: fig. 864).</p> <p> <b>Etymology.</b> The specific name is a patronym in honor of Dr. Christa L. Deeleman- Reinhold, arachnologist.</p> <p> <b>Description.</b> Male (holotype). Total length 2.25: carapace 1.12 long, 0.85 wide; abdomen 1.13 long, 0.77 wide. Carapace ovoid in dorsal view (Fig. 1), with wedgeshaped posterior margin; reddish brown, surface covered with many seta-bearing granules, each sunk in a large round pit, lateral and posterior margins with triangular thorns, with a long seta arising from the side. Eyes in two transverse rows; AER slightly recurved and PER straight in dorsal view (Fig. 1). Eye diameters: AME 0.13, ALE 0.12, PME 0.14, PLE 0.13. Eye interdistances: AME–AME 0.17, AME–ALE 0.12,</p> <p>26 <i>Feng Zhang & Jian-Ying Fu / ZooKeys 49: 23–31 (2010)</i> <b>Figures Ι–7.</b> <i>Sphingius deelemanae</i> sp. n. <b>Ι</b> Male body, dorsal view <b>2</b> Male abdomen, ventral view <b>3</b> Endites, labium and sternum of male, ventral view <b>4</b> Male right chelicera, anterior view <b>5</b> Male left palp, ventral view <b>6</b> Same, prolateral view <b>7</b> Same, retrolateral view <b>c</b> conductor <b>e</b> embolus <b>es</b> epigastric scutum <b>is</b> intercoxal sclerites <b>ma</b> median apophysis <b>pt</b> precoxal triangles <b>sd</b> sperm duct <b>st</b> subtegulum <b>t</b> tegulum <b>ta</b> tibial apophysis <b>vs</b> ventral scutum. Scale bars: 1 mm (1–3); 0.4 mm (4–7).</p> <p>is pt 3 4 c e ma st sd t ta Ι 5 es c e ma st sd t vs 2 ta 6 7</p> <p>PME–PME 0.16, PME–PLE 0.14; MOA 0.28 long, front width 0.26, back width 0.25. Thoracic groove obsolete. Chelicerae reddish brown (Fig. 4), with three promarginal and three retromarginal teeth, anterior surface somewhat swollen. Endites, labium and sternum dark brown (Fig. 3). Sternum shield-shaped, lateral margin with precoxal triangles and intercoxal sclerites. Space above the coxae and below the carapace with longitudinal, sclerotized pleural bars. Leg spination: femora I-IV with one small dorsal spine, tibia III v1-1-0, p0-0-1, metatarsus III v0-2-0; tibia IV v2-2-1, r0- 0-1, metatarsus IV p0-1-0, v0-1-0, r0-1-0.Leg formula: 4123 (Table 1).</p> <p>Abdomen (Fig. 1) dark brown dorsally, with nearly entire dorsal scutum, epigastric and postgenital scutum fused to some extent, postgenital scutum relatively large, about two thirds of abdomen length; venter smooth, without longitudinal lines.</p> <p>Male palp as illustrated (Figs. 5–7). Tibia with short retrolateral apophysis. Bulb ovoid in ventral view (Fig. 5), tegulum straight at base; sperm duct distinctive Ushaped, originating from upper part of tegulum; subtegulum relatively large (Fig. 6); embolus bent, long and thick, originating from prolateral-apical tegulum, extending beyond tegulum (Fig. 5); conductor apical, corn-flake shaped; median apophysis nearly rectangular from retrolateral view, on distal-retrolateral sector of tegulum.</p> <p> <b>Distribution.</b> Presently known only from the type locality, Mt. Jianfengling, Hainan, China.</p>Published as part of <i>Feng, Zhang & Fu, Jianying, 2010, A new species of the genus Sphingius (Araneae, Liocranidae) from China, and first description of the female: Sphingius hainan Zhang, Fu & Zhu, 2009, pp. 23-31 in ZooKeys 49 (49)</i> on pages 25-27, DOI: 10.3897/zookeys.49.391, <a href="http://zenodo.org/record/576675">http://zenodo.org/record/576675</a&gt

    Changshou er Feng xian sheng ji /

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    Imprint date from postscript.[1-2] Moan xian sheng ji 10 juan fu lu feng shu zhu -- [3-6] Dun yin xian sheng ji: Feng shi xiao ji 3 juan Dun yin ji 3 juan bie ji Yu ji you xian ji 2 juan ji wai shi yu fu wen gao za lu 10 juan feng ban shu jiao kan ji.Mode of access: Internet

    Otacilia bawangling Fu, Zhang & Zhu 2010

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    Otacilia bawangling Fu, Zhang & Zhu, 2010 (Figs 59–65) Otacilia bawangling Fu, Zhang & Zhu, 2010: 645, f. 3A–F. Material examined. Holotype ♂, China, Hainan Province, Changjiang County, Mt. Bawangling (19.3°N, 109.1°E), 7 November 2008, Ming-Sheng Zhu leg. Paratypes: 1♂, 4♀, same data as holotype, Guang-Xin Han, Sheng-Tao Guo and Jian-Yu Guo leg. © Zoological Systematics, 40(4): 436–450 © Zoological Systematics, 40(4): 436–450 Description. See Fu, Zhang & Zhu (2010). Male (holotype) habitus shown in Fig. 59, male palp in Figs 61–63; female (paratype) habitus in Fig. 60, epigyne and vulva in Figs 64–65. Distribution. China (Hainan). Funding This work was supported by the National Natural Science Foundation of China (31093430, 31372154), and in part by the Program of Ministry of Science and Technology of the Republic of China (2012 FY110803) to Prof. Feng Zhang. Acknowledgments We are grateful to Dr. Bao-Shi Zhang and Chi Jin for collecting the valuable specimens. We are particularly grateful to Dr. Xin-Ping Wang for reading and improving the manuscript.Published as part of Fu, Li-Na, He, Jing-Chao & Zhang, Feng, 2015, Species of the genus Otacilia from Hainan Island, China (Araneae: Phrurolithidae), pp. 436-450 in Zoological Systematics 40 (4) on pages 448-450, DOI: 10.11865/zs.20150402, http://zenodo.org/record/461752

    Xian feng ming ju tuan di ba jie yan chu: "Zai shi hong mei ji" te kan

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    書名據封面.附《再世紅梅記》英文故事簡介.本電子書乃根據《香港版權條例(第528章)》而複製, 並只可在大學圖書館系統內的獨立電子書系統上使用.Shu ming ju feng mian.Fu "Zai shi hong mei ji" Ying wen gu shi jian jie.Ben dian zi shu nai gen ju "Xianggang ban quan tiao li (Di 528 zhang)" er fu zhi, bing zhi ke zai da xue tu shu guan xi tong nei de du li dian zi shu xi tong shang shi yong

    Comparisons of lactation of the giant panda female YANG YANG of the single cubs FU LONG (FL) 2007, FU HU (FH) 2010 and the twins FU FENG (FF) & FU BAN (FB) 2016) during the first 12 weeks after parturition.

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    Comparisons of lactation of the giant panda female YANG YANG of the single cubs FU LONG (FL) 2007, FU HU (FH) 2010 and the twins FU FENG (FF) & FU BAN (FB) 2016) during the first 12 weeks after parturition.</p

    Otacilia jianfengling Fu, Zhang & Zhu 2010

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    &lt;i&gt;Otacilia jianfengling&lt;/i&gt; Fu, Zhang &amp; Zhu, 2010 (Figs 52&ndash;58) &lt;p&gt; &lt;i&gt;Otacilia jianfengling&lt;/i&gt; Fu, Zhang &amp; Zhu, 2010: 641, f. 1A&ndash;H, 2A&ndash;E.&lt;/p&gt; &lt;p&gt;Material examined. Holotype &male;, paratypes 1&male;, 4&female;, China, Hainan Province, Ledong County, Mt. Jianfengling (18.61&deg;N, 108.93&deg;E), 9 August 1980, Ming-Sheng Zhu leg. Other materials. China, Hainan Province, Ledong County, Mt. Jianfengling, Tianchi Lake (18&deg;44&prime;25&Prime;N, 108&deg;51&prime;44&Prime;E), 2&male;, 3&female;, 31 January 2015, Li-Na Fu leg.; Jianfengling National Forest Park (18&deg;44&prime;27&Prime;N, 108&deg;51&prime;36&Prime;E), 4&male;, 4&female;, 1 February 2015, Chi Jin leg.&lt;/p&gt; &lt;p&gt;Description. See Fu, Zhang &amp; Zhu (2010). Male (holotype) habitus shown in Fig. 52, male palp in Figs 54&ndash;56; female (paratype) habitus in Fig. 53, epigyne and vulva in Figs 57&ndash;58.&lt;/p&gt; &lt;p&gt;Distribution. China (Hainan).&lt;/p&gt;Published as part of &lt;i&gt;Fu, Li-Na, He, Jing-Chao &amp; Zhang, Feng, 2015, Species of the genus Otacilia from Hainan Island, China (Araneae: Phrurolithidae), pp. 436-450 in Zoological Systematics 40 (4)&lt;/i&gt; on page 448, DOI: 10.11865/zs.20150402, &lt;a href="http://zenodo.org/record/4617522"&gt;http://zenodo.org/record/4617522&lt;/a&gt

    Review of Structural Analysis and Design to Prevent Disproportionate Collapse by Feng Fu

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    Adam Martínez, JM. (2016). Review of Structural Analysis and Design to Prevent Disproportionate Collapse by Feng Fu. Journal of Performance of Constructed Facilities. 07516003:1-2. doi:10.1061/(ASCE)CF.1943-5509.0000976S120751600

    Table1_GC-MS Profile of Hua-Feng-Dan and RNA-Seq Analysis of Induced Adaptive Responses in the Liver.xlsx

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    Background: Hua-Feng-Dan is a patent Chinese medicine for stroke recovery and various diseases. This study used GC-MS to profile its ingredients and RNA-Seq to analyze the induced adaptive response in the liver.Methods: Hua-Feng-Dan was subjected to steam distillation and solvent extraction, followed by GC-MS analysis. Mice were orally administered Hua-Feng-Dan and its “Guide drug” Yaomu for 7 days. Liver pathology was examined, and total RNA isolated for RNA-Seq, followed by bioinformatic analysis and quantitative real-time PCR (qPCR).Results: Forty-four volatile and fifty liposoluble components in Hua-Feng-Dan were profiled and analyzed by the NIST library and their concentrations quantified. The major components (>1%) in volatile (5) and liposoluble (10) were highlighted. Hua-Feng-Dan and Yaomu at hepatoprotective doses did not produce liver toxicity as evidenced by histopathology and serum enzyme activities. GO Enrichment revealed that Hua-Feng-Dan affected lipid homeostasis, protein folding, and cell adhesion. KEGG showed activated cholesterol metabolism, bile secretion, and PPAR signaling pathways. Differentially expressed genes (DEGs) were identified by DESeq2 with p Conclusion: GC-MS primarily profiled volatile and liposoluble components in Hua-Feng-Dan. Hua-Feng-Dan at the hepatoprotective dose did not produce liver pathological changes but induced metabolic and signaling pathway activations. The effects of Hua-Feng-Dan on liver transcriptome changes point toward induced adaptive responses to program the liver to produce hepatoprotective effects.</p

    Table2_GC-MS Profile of Hua-Feng-Dan and RNA-Seq Analysis of Induced Adaptive Responses in the Liver.xlsx

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    Background: Hua-Feng-Dan is a patent Chinese medicine for stroke recovery and various diseases. This study used GC-MS to profile its ingredients and RNA-Seq to analyze the induced adaptive response in the liver.Methods: Hua-Feng-Dan was subjected to steam distillation and solvent extraction, followed by GC-MS analysis. Mice were orally administered Hua-Feng-Dan and its “Guide drug” Yaomu for 7 days. Liver pathology was examined, and total RNA isolated for RNA-Seq, followed by bioinformatic analysis and quantitative real-time PCR (qPCR).Results: Forty-four volatile and fifty liposoluble components in Hua-Feng-Dan were profiled and analyzed by the NIST library and their concentrations quantified. The major components (>1%) in volatile (5) and liposoluble (10) were highlighted. Hua-Feng-Dan and Yaomu at hepatoprotective doses did not produce liver toxicity as evidenced by histopathology and serum enzyme activities. GO Enrichment revealed that Hua-Feng-Dan affected lipid homeostasis, protein folding, and cell adhesion. KEGG showed activated cholesterol metabolism, bile secretion, and PPAR signaling pathways. Differentially expressed genes (DEGs) were identified by DESeq2 with p Conclusion: GC-MS primarily profiled volatile and liposoluble components in Hua-Feng-Dan. Hua-Feng-Dan at the hepatoprotective dose did not produce liver pathological changes but induced metabolic and signaling pathway activations. The effects of Hua-Feng-Dan on liver transcriptome changes point toward induced adaptive responses to program the liver to produce hepatoprotective effects.</p
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