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1
GOLDSCHMIDT, TOM, KANTO NISHIKAWA, SHIMPEI F. HIRUTA, and SATOSHI SHIMANO. "Description of three new water mite species of Hygrobates Koch, 1837 (Lurchibates Goldschmidt & Fu, 2011) (Acari, Hydrachnidia, Hygrobatidae), parasitic in newts of the genera Paramesotriton and Pachytriton (Amphibia, Caudata, Salamandridae) from China." Zootaxa 4768, no. 1 (April 30, 2020): 25–42. http://dx.doi.org/10.11646/zootaxa.4768.1.3.
Full textAbstract:
Males and females of three new water mite species of the genus Hygrobates Koch, 1837, subgenus Lurchibates Goldschmidt & Fu, 2011 (Acari, Hydrachnidia, Hygrobatidae) are described. The diagnosis of the subgenus is extended based upon the new material. The new species were all just found on one newt species each: Hygrobates (Lurchibates) intermedius sp. nov. Goldschmidt, Nishikawa & Shimano was collected from newts of the species Paramesotriton qixilingensis Yuan, Zhao, Jiang, Hou, He, Murphy & Che, 2014 from Jiangxi Province, China; H. (L.) robustipalpis sp. nov. Goldschmidt, Nishikawa & Shimano on Pachytriton inexpectatus Nishikawa, Jiang, Matsui & Mo, 2011 from Guizhou Province, China and H. (L.) pilosus sp. nov. Goldschmidt, Nishikawa & Shimano on Paramesotriton yunwuensis Wu, Jiang & Hanken, 2010 found in a pet shop.
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Keightley, David N. "Neolithic and Shang Periods." Journal of Asian Studies 54, no. 1 (February 1995): 128–45. http://dx.doi.org/10.1017/s0021911800021604.
Full textAbstract:
The common occurrence of cults of the dead in Neolithic and early Bronze Age societies around the world raises at least one major question about early Chinese religion: what factors account for the elaboration of ancestor worship in China and for the degree to which—compared to its role in other cultures—it endured? The study of Chinese religion in the Neolithic and Shang periods (ca. 4000–1050 B.C.E.) can contribute to our understanding of such matters, but the bulk of recent scholarship is inevitably and properly focused on technical analyses of sites, artifacts, rituals, and spiritual Powers. Many studies address problems of definition, such as the nature of Ti, the high god of the Shang, and his cult (Akatsuka 1977:471–537; Ikeda 1981:25–39; Eno 1990); images of T'ien (Heaven, Sky) (Hayashi 1989a); the nature of the Earth Power and its associated altar of the soil (Tai Chia-hsiang 1986); the role of sun, bird, and other totems in Neolithic and Shang belief (Hu Hou-hsüan 1977; Allan 1981; Tu Chin-p'eng 1992; Wu Hung 1985; Paper 1986; Ch'ien Chihch'iang 1988; Juyü 1991; Wang Chi-huai 1992; Xiong Chuanxin 1992; Chang Teshui 1993; Chang Wen 1994; Wang Lu-ch'ang 1994); methods and objects of sacrifice (Ikeda 1980; Ch'iu Hsi-kuei 1985; Childs-Johnson 1987; Lien Shao-ming 1989; Itō 1990; Hao Pen-hsing 1992); the religious dimensions of illness (Takashima 1980) and of settlement building (Akatsuka 1977:494–99).
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Wu, Yuping, Shiyou Guan, and Guoxiu Wang. "Preface." Pure and Applied Chemistry 84, no. 12 (January 1, 2012): iv. http://dx.doi.org/10.1351/pac20128412iv.
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In 2005 at the centennial anniversary of Fudan University, Shanghai, China, a new conference venue began [1]. This venue, the International Conference on Novel Materials and Synthesis (NMS) together with the International Symposium on Fine Chemistry and Functional Polymers (FCFP), is targeted to provide high-level academic exchange for both local and international chemists, materialists, physicists, engineers, and technologists in the fields of materials and synthesis. The year 2011 was the International Year of Chemistry, and it is well known that chemistry is an essential creative science for the sustainable development of humankind. As a result, the joint NMSVII/ FCFP-XXI event (www.nms-iupac.org), held in Shanghai, China, 16-21 October 2011, was more important than ever. The Conference received much support from IUPAC, The National Natural Science Foundation of China, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, the Science and Technology Commission of the Shanghai Municipality, and the National Basic Research Program of China (2007CB209700), and was carried out under the auspices of IUPAC. The Conference was attended by 430 participants from 40 countries and areas. The scientific program comprised 10 plenary lectures, 56 keynote lectures, 206 invited lectures, and 94 posters. Detailed, active, and lively discussions were covered by the following themes: - innovative chiral and achiral compounds - innovative bio- and biobased materials and composites - innovative polymers such as conducting, semiconducting ones, supramolecular (supermolecular, dynamers) - innovative energy systems including fuel cells, solar cells, lithium batteries, and supercapacitors - innovative nanomaterials such as 1D, 2D, and 3D nanomaterials - new ceramic materials such as superconductors, electronic, diaelectronic, ferroelectric, piezoelectric, optoelectric, and magnetic materials - new metallic materials including alloys - other novel materials including drugs, perfumes, agricultural chemicals, and photosensitive materials, displaying materials and fine ceramics; and - neutron scattering and its application in fundamental and applied research on new materials. The program served to emphasize that novel materials and their preparation are dynamic research areas that are attracting growing interest from researchers, engineers, industries, and policy-makers. Furthermore, novel materials continue to find applications that serve the needs and interests of producers and consumers. A selection of 13 papers based on specially invited presentations at NMSVII/ FCFP-XXI is published in this issue to demonstrate the quality and scope of the themes of this Conference. During the Conference, the role and contributions of this high-level academic platform to novel materials and their synthesis are well realized by the participants, sponsors, and exhibitors. In addition, the organization committee established the Distinguished Award 2011 for Novel Materials and their Synthesis along with IUPAC; Prof. Guoxiu Wang (Australia), Dr. Dr. Fusayoshi Masuda (Japan), Prof. Dr. André-Jean Attias (France), and Prof. Bao-Lian Su (Belgium) received the award for their excellent work. The IUPAC Prof. Jiang Novel Materials Youth Prize was awarded to two winners, Prof. Zhibo Li (China) and Dr. Jr-Hau He (Taiwan, China), for the first time. This will next be awarded in 2013. Three winners for the IUPAC Poster Prize were also awarded. Yuping Wu, Shiyou Guan, and Guoxiu Wang Conference Editors [1] Y. P. Wu. Pure Appl. Chem. 78 (10), iii (2006).
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Helmholz, P., S. Zlatanova, J. Barton, and M. Aleksandrov. "GEOINFORMATION FOR DISASTER MANAGEMENT 2020 (Gi4DM2020): PREFACE." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XLIV-3/W1-2020 (November 18, 2020): 1–3. http://dx.doi.org/10.5194/isprs-archives-xliv-3-w1-2020-1-2020.
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Abstract. Across the world, nature-triggered disasters fuelled by climate change are worsening. Some two billion people have been affected by the consequences of natural hazards over the last ten years, 95% of which were weather-related (such as floods and windstorms). Fires swept across large parts of California, and in Australia caused unprecedented destruction to lives, wildlife and bush. This picture is likely to become the new normal, and indeed may worsen if unchecked. The Intergovernmental Panel on Climate Change (IPCC) estimates that in some locations, disaster that once had a once-in-a-century frequency may become annual events by 2050.Disaster management needs to keep up. Good cooperation and coordination of crisis response operations are of critical importance to react rapidly and adequately to any crisis situation, while post-disaster recovery presents opportunities to build resilience towards reducing the scale of the next disaster. Technology to support crisis response has advanced greatly in the last few years. Systems for early warning, command and control and decision-making have been successfully implemented in many countries and regions all over the world. Efforts to improve humanitarian response, in particular in relation to combating disasters in rapidly urbanising cities, have also led to better approaches that grapple with complexity and uncertainty.The challenges however are daunting. Many aspects related to the efficient collection and integration of geo-information, applied semantics and situational awareness for disaster management are still open, while agencies, organisations and governmental authorities need to improve their practices for building better resilience.Gi4DM 2020 marked the 13th edition of the Geoinformation for Disaster Management series of conferences. The first conference was held in 2005 in the aftermath of the 2004 Indian Ocean earthquake and tsunami which claimed the lives of over 220,000 civilians. The 2019-20 Australian Bushfire Season saw some 18.6 million Ha of bushland burn, 5,900 buildings destroyed and nearly three billion vertebrates killed. Gi4DM 2020 then was held during Covid-19 pandemic, which took the lives of more than 1,150,000 people by the time of the conference. The pandemic affected the organisation of the conference, but the situation also provided the opportunity to address important global problems.The fundamental goal of the Gi4DM has always been to provide a forum where emergency responders, disaster managers, urban planners, stakeholders, researchers, data providers and system developers can discuss challenges, share experience, discuss new ideas and demonstrate technology. The 12 previous editions of Gi4DM conferences were held in Delft, the Netherlands (March 2005), Goa, India (September 2006), Toronto, Canada (May 2007), Harbin, China (August 2008), Prague, Czech Republic (January 2009), Torino, Italy (February 2010), Antalya, Turkey (May 2011), Enschede, the Netherlands (December, 2012), Hanoi, Vietnam (December 2013), Montpellier, France (2015), Istanbul, Turkey (2018) and Prague, Czech Republic (2019). Through the years Gi4DM has been organised in cooperation with different international bodies such as ISPRS, UNOOSA, ICA, ISCRAM, FIG, IAG, OGC and WFP and supported by national organisations.Gi4DM 2020 was held as part of Climate Change and Disaster Management: Technology and Resilience for a Troubled World. The event took place through the whole week of 30th of November to 4th of December, Sydney, Australia and included three events: Gi4DM 2020, NSW Surveying and Spatial Sciences Institute (NSW SSSI) annual meeting and Urban Resilience Asia Pacific 2 (URAP2).The event explored two interlinked aspects of disaster management in relation to climate change. The first was geo-information technologies and their application for work in crisis situations, as well as sensor and communication networks and their roles for improving situational awareness. The second aspect was resilience, and its role and purpose across the entire cycle of disaster management, from pre-disaster preparedness to post-disaster recovery including challenges and opportunities in relation to rapid urbanisation and the role of security in improved disaster management practices.This volume consists of 22 scientific papers. These were selected on the basis of double-blind review from among the 40 short papers submitted to the Gi4DM 2020 conference. Each paper was reviewed by two scientific reviewers. The authors of the papers were encouraged to revise, extend and adapt their papers to reflect the comments of the reviewers and fit the goals of this volume. The selected papers concentrate on monitoring and analysis of various aspects related to Covid-19 (4), emergency response (4), earthquakes (3), flood (2), forest fire, landslides, glaciers, drought, land cover change, crop management, surface temperature, address standardisation and education for disaster management. The presented methods range from remote sensing, LiDAR and photogrammetry on different platforms to GIS and Web-based technologies. Figure 1 illustrates the covered topics via wordcount of keywords and titles.The Gi4DM 2020 program consisted of scientific presentations, keynote speeches, panel discussions and tutorials. The four keynotes speakers Prof Suzan Cutter (Hazard and Vulnerability Research Institute, USC, US), Jeremy Fewtrell (NSW Fire and Rescue, Australia), Prof Orhan Altan (Ad-hoc Committee on RISK and Disaster Management, GeoUnions, Turkey) and Prof Philip Gibbins (Fenner School of Environment and Society, ANU, Australia) concentrated on different aspects of disaster and risk management in the context of climate change. Eight tutorials offered exciting workshops and hands-on on: Semantic web tools and technologies within Disaster Management, Structure-from-motion photogrammetry, Radar Remote Sensing, Dam safety: Monitoring subsidence with SAR Interferometry, Location-based Augmented Reality apps with Unity and Mapbox, Visualising bush fires datasets using open source, Making data smarter to manage disasters and emergency situational awareness and Response using HERE Location Services. The scientific sessions were blended with panel discussions to provide more opportunities to exchange ideas and experiences, connect people and researchers from all over the world.The editors of this volume acknowledge all members of the scientific committee for their time, careful review and valuable comments: Abdoulaye Diakité (Australia), Alexander Rudloff (Germany), Alias Abdul Rahman (Malaysia), Alper Yilmaz (USA), Amy Parker (Australia), Ashraf Dewan (Australia), Bapon Shm Fakhruddin (New Zealand), Batuhan Osmanoglu (USA), Ben Gorte (Australia), Bo Huang (Hong Kong), Brendon McAtee (Australia), Brian Lee (Australia), Bruce Forster (Australia), Charity Mundava (Australia), Charles Toth (USA), Chris Bellman (Australia), Chris Pettit (Australia), Clive Fraser (Australia), Craig Glennie (USA), David Belton (Australia), Dev Raj Paudyal (Australia), Dimitri Bulatov (Germany), Dipak Paudyal (Australia), Dorota Iwaszczuk (Germany), Edward Verbree (The Netherlands), Eliseo Clementini (Italy), Fabio Giulio Tonolo (Italy), Fazlay Faruque (USA), Filip Biljecki (Singapore), Petra Helmholz (Australia), Francesco Nex (The Netherlands), Franz Rottensteiner (Germany), George Sithole (South Africa), Graciela Metternicht (Australia), Haigang Sui (China), Hans-Gerd Maas (Germany), Hao Wu (China), Huayi Wu (China), Ivana Ivanova (Australia), Iyyanki Murali Krishna (India), Jack Barton (Australia), Jagannath Aryal (Australia), Jie Jiang (China), Joep Compvoets (Belgium), Jonathan Li (Canada), Kourosh Khoshelham (Australia), Krzysztof Bakuła (Poland), Lars Bodum (Denmark), Lena Halounova (Czech Republic), Madhu Chandra (Germany), Maria Antonia Brovelli (Italy), Martin Breunig (Germany), Martin Tomko (Australia), Mila Koeva (The Netherlands), Mingshu Wang (The Netherlands), Mitko Aleksandrov (Australia), Mulhim Al Doori (UAE), Nancy Glenn (Australia), Negin Nazarian (Australia), Norbert Pfeifer (Austria), Norman Kerle (The Netherlands), Orhan Altan (Turkey), Ori Gudes (Australia), Pawel Boguslawski (Poland), Peter van Oosterom (The Netherlands), Petr Kubíček (Czech Republic), Petros Patias (Greece), Piero Boccardo (Italy), Qiaoli Wu (China), Qing Zhu (China), Riza Yosia Sunindijo (Australia), Roland Billen (Belgium), Rudi Stouffs (Singapore), Scott Hawken (Australia), Serene Coetzee (South Africa), Shawn Laffan (Australia), Shisong Cao (China), Sisi Zlatanova (Australia), Songnian Li (Canada), Stephan Winter (Australia), Tarun Ghawana (Australia), Ümit Işıkdağ (Turkey), Wei Li (Australia), Wolfgang Reinhardt (Germany), Xianlian Liang (Finland) and Yanan Liu (China).The editors would like to express their gratitude to all contributors, who made this volume possible. Many thanks go to all supporting organisations: ISPRS, SSSI, URAP2, Blackash, Mercury and ISPRS Journal of Geoinformation. The editors are grateful to the continued support of the involved Universities: The University of New South Wales, Curtin University, Australian National University and The University of Melbourne.
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Helmholz, P., S. Zlatanova, J. Barton, and M. Aleksandrov. "GEOINFORMATION FOR DISASTER MANAGEMENT 2020 (GI4DM2020): PREFACE." ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences VI-3/W1-2020 (November 17, 2020): 1–2. http://dx.doi.org/10.5194/isprs-annals-vi-3-w1-2020-1-2020.
Full textAbstract:
Abstract. Across the world, nature-triggered disasters fuelled by climate change are worsening. Some two billion people have been affected by the consequences of natural hazards over the last ten years, 95% of which were weather-related (such as floods and windstorms). Fires swept across large parts of California, and in Australia caused unprecedented destruction to lives, wildlife and bush. This picture is likely to become the new normal, and indeed may worsen if unchecked. The Intergovernmental Panel on Climate Change (IPCC) estimates that in some locations, disaster that once had a once-in-a-century frequency may become annual events by 2050.Disaster management needs to keep up. Good cooperation and coordination of crisis response operations are of critical importance to react rapidly and adequately to any crisis situation, while post-disaster recovery presents opportunities to build resilience towards reducing the scale of the next disaster. Technology to support crisis response has advanced greatly in the last few years. Systems for early warning, command and control and decision-making have been successfully implemented in many countries and regions all over the world. Efforts to improve humanitarian response, in particular in relation to combating disasters in rapidly urbanising cities, have also led to better approaches that grapple with complexity and uncertainty.The challenges however are daunting. Many aspects related to the efficient collection and integration of geo-information, applied semantics and situational awareness for disaster management are still open, while agencies, organisations and governmental authorities need to improve their practices for building better resilience.Gi4DM 2020 marked the 13th edition of the Geoinformation for Disaster Management series of conferences. The first conference was held in 2005 in the aftermath of the 2004 Indian Ocean earthquake and tsunami which claimed the lives of over 220,000 civilians. The 2019-20 Australian Bushfire Season saw some 18.6 million Ha of bushland burn, 5,900 buildings destroyed and nearly three billion vertebrates killed. Gi4DM 2020 then was held during Covid-19 pandemic, which took the lives of more than 1,150,000 people by the time of the conference. The pandemic affected the organisation of the conference, but the situation also provided the opportunity to address important global problems.The fundamental goal of the Gi4DM has always been to provide a forum where emergency responders, disaster managers, urban planners, stakeholders, researchers, data providers and system developers can discuss challenges, share experience, discuss new ideas and demonstrate technology. The 12 previous editions of Gi4DM conferences were held in Delft, the Netherlands (March 2005), Goa, India (September 2006), Toronto, Canada (May 2007), Harbin, China (August 2008), Prague, Czech Republic (January 2009), Torino, Italy (February 2010), Antalya, Turkey (May 2011), Enschede, the Netherlands (December, 2012), Hanoi, Vietnam (December 2013), Montpellier, France (2015), Istanbul, Turkey (2018) and Prague, Czech Republic (2019). Through the years Gi4DM has been organised in cooperation with different international bodies such as ISPRS, UNOOSA, ICA, ISCRAM, FIG, IAG, OGC and WFP and supported by national organisations.Gi4DM 2020 was held as part of Climate Change and Disaster Management: Technology and Resilience for a Troubled World. The event took place through the whole week of 30th of November to 4th of December, Sydney, Australia and included three events: Gi4DM 2020, NSW Surveying and Spatial Sciences Institute (NSW SSSI) annual meeting and Urban Resilience Asia Pacific 2 (URAP2).The event explored two interlinked aspects of disaster management in relation to climate change. The first was geo-information technologies and their application for work in crisis situations, as well as sensor and communication networks and their roles for improving situational awareness. The second aspect was resilience, and its role and purpose across the entire cycle of disaster management, from pre-disaster preparedness to post-disaster recovery including challenges and opportunities in relation to rapid urbanisation and the role of security in improved disaster management practices.This volume consists of 16 peer-reviewed scientific papers. These were selected on the basis of double-blind review from among the 25 full papers submitted to the Gi4DM 2020 conference. Each paper was reviewed by three scientific reviewers. The authors of the papers were encouraged to revise, extend and adapt their papers to reflect the comments of the reviewers and fit the goals of this volume. The selected papers concentrate on monitoring and analysis of forest fire (3), landslides (3), flood (2), earthquake, avalanches, water pollution, heat, evacuation and urban sustainability, applying a variety of remote sensing, GIS and Web-based technologies. Figure 1 illustrates the scope of the covered topics though the word count of keywords and titles.The Gi4DM 2020 program consisted of scientific presentations, keynote speeches, panel discussions and tutorials. The four keynotes speakers Prof Suzan Cutter (Hazard and Vulnerability Research Institute, USC, US), Jeremy Fewtrell (NSW Fire and Rescue, Australia), Prof Orhan Altan (Ad-hoc Committee on RISK and Disaster Management, GeoUnions, Turkey) and Prof Philip Gibbins (Fenner School of Environment and Society, ANU, Australia) concentrated on different aspects of disaster and risk management in the context of climate change. Eight tutorials offered exciting workshops and hands-on on: Semantic web tools and technologies within Disaster Management, Structure-from-motion photogrammetry, Radar Remote Sensing, Dam safety: Monitoring subsidence with SAR Interferometry, Location-based Augmented Reality apps with Unity and Mapbox, Visualising bush fires datasets using open source, Making data smarter to manage disasters and emergency situational awareness and Response using HERE Location Services. The scientific sessions were blended with panel discussions to provide more opportunities to exchange ideas and experiences, connect people and researchers from all over the world.The editors of this volume acknowledge all members of the scientific committee for their time, careful review and valuable comments: Abdoulaye Diakité (Australia), Alexander Rudloff (Germany), Alias Abdul Rahman (Malaysia), Alper Yilmaz (USA), Amy Parker (Australia), Ashraf Dewan (Australia), Bapon Shm Fakhruddin (New Zealand), Batuhan Osmanoglu (USA), Ben Gorte (Australia), Bo Huang (Hong Kong), Brendon McAtee (Australia), Brian Lee (Australia), Bruce Forster (Australia), Charity Mundava (Australia), Charles Toth (USA), Chris Bellman (Australia), Chris Pettit (Australia), Clive Fraser (Australia), Craig Glennie (USA), David Belton (Australia), Dev Raj Paudyal (Australia), Dimitri Bulatov (Germany), Dipak Paudyal (Australia), Dorota Iwaszczuk (Germany), Edward Verbree (The Netherlands), Eliseo Clementini (Italy), Fabio Giulio Tonolo (Italy), Fazlay Faruque (USA), Filip Biljecki (Singapore), Petra Helmholz (Australia), Francesco Nex (The Netherlands), Franz Rottensteiner (Germany), George Sithole (South Africa), Graciela Metternicht (Australia), Haigang Sui (China), Hans-Gerd Maas (Germany), Hao Wu (China), Huayi Wu (China), Ivana Ivanova (Australia), Iyyanki Murali Krishna (India), Jack Barton (Australia), Jagannath Aryal (Australia), Jie Jiang (China), Joep Compvoets (Belgium), Jonathan Li (Canada), Kourosh Khoshelham (Australia), Krzysztof Bakuła (Poland), Lars Bodum (Denmark), Lena Halounova (Czech Republic), Madhu Chandra (Germany), Maria Antonia Brovelli (Italy), Martin Breunig (Germany), Martin Tomko (Australia), Mila Koeva (The Netherlands), Mingshu Wang (The Netherlands), Mitko Aleksandrov (Australia), Mulhim Al Doori (UAE), Nancy Glenn (Australia), Negin Nazarian (Australia), Norbert Pfeifer (Austria), Norman Kerle (The Netherlands), Orhan Altan (Turkey), Ori Gudes (Australia), Pawel Boguslawski (Poland), Peter van Oosterom (The Netherlands), Petr Kubíček (Czech Republic), Petros Patias (Greece), Piero Boccardo (Italy), Qiaoli Wu (China), Qing Zhu (China), Riza Yosia Sunindijo (Australia), Roland Billen (Belgium), Rudi Stouffs (Singapore), Scott Hawken (Australia), Serene Coetzee (South Africa), Shawn Laffan (Australia), Shisong Cao (China), Sisi Zlatanova (Australia), Songnian Li (Canada), Stephan Winter (Australia), Tarun Ghawana (Australia), Ümit Işıkdağ (Turkey), Wei Li (Australia), Wolfgang Reinhardt (Germany), Xianlian Liang (Finland) and Yanan Liu (China).The editors would like to express their gratitude to all contributors, who made this volume possible. Many thanks go to all supporting organisations: ISPRS, SSSI, URAP2, Blackash, Mercury and ISPRS Journal of Geoinformation. The editors are grateful to the continued support of the involved Universities: The University of New South Wales, Curtin University, Australian National University and The University of Melbourne.
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Cheng, L., S. X. Zhang, S. Song, C. Zheng, X. Sun, S. Feng, T. Kong, et al. "POS0458 IDENTIFICATION OF HUB GENES AND MOLECULAR PATHWAYS IN PATIENTS WITH RHEUMATOID ARTHRITIS BY BIOINFORMATICS ANALYSIS." Annals of the Rheumatic Diseases 80, Suppl 1 (May 19, 2021): 460.1–460. http://dx.doi.org/10.1136/annrheumdis-2021-eular.1938.
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Background:Rheumatoid arthritis (RA) is a chronic, inflammatory synovitis based systemic disease of unknown etiology1. The genes and pathways in the inflamed synovium of RA patients are poorly understood.Objectives:This study aims to identify differentially expressed genes (DEGs) associated with the progression of synovitis in RA using bioinformatics analysis and explore its pathogenesis2.Methods:RA expression profile microarray data GSE89408 were acquired from the public gene chip database (GEO), including 152 synovial tissue samples from RA and 28 healthy synovial tissue samples. The DEGs of RA synovial tissues were screened by adopting the R software. The Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis were performed. Protein-protein interaction (PPI) networks were assembled with Cytoscape software.Results:A total of 654 DEGs (268 up-regulated genes and 386 down-regulated genes) were obtained by the differential analysis. The GO enrichment results showed that the up-regulated genes were significantly enriched in the biological processes of myeloid leukocyte activation, cellular response to interferon-gamma and immune response-regulating signaling pathway, and the down-regulated genes were significantly enriched in the biological processes of extracellular matrix, retinoid metabolic process and regulation of lipid metabolic process. The KEGG annotation showed the up-regulated genes mainly participated in the staphylococcus aureus infection, chemokine signaling pathway, lysosome signaling pathway and the down-regulated genes mainly participated in the PPAR signaling pathway, AMPK signaling pathway, ECM-receptor interaction and so on. The 9 hub genes (PTPRC, TLR2, tyrobp, CTSS, CCL2, CCR5, B2M, fcgr1a and PPBP) were obtained based on the String database model by using the Cytoscape software and cytoHubba plugin3.Conclusion:The findings identified the molecular mechanisms and the key hub genes of pathogenesis and progression of RA.References:[1]Xiong Y, Mi BB, Liu MF, et al. Bioinformatics Analysis and Identification of Genes and Molecular Pathways Involved in Synovial Inflammation in Rheumatoid Arthritis. Med Sci Monit 2019;25:2246-56. doi: 10.12659/MSM.915451 [published Online First: 2019/03/28][2]Mun S, Lee J, Park A, et al. Proteomics Approach for the Discovery of Rheumatoid Arthritis Biomarkers Using Mass Spectrometry. Int J Mol Sci 2019;20(18) doi: 10.3390/ijms20184368 [published Online First: 2019/09/08][3]Zhu N, Hou J, Wu Y, et al. Identification of key genes in rheumatoid arthritis and osteoarthritis based on bioinformatics analysis. Medicine (Baltimore) 2018;97(22):e10997. doi: 10.1097/MD.0000000000010997 [published Online First: 2018/06/01]Acknowledgements:This project was supported by National Science Foundation of China (82001740), Open Fund from the Key Laboratory of Cellular Physiology (Shanxi Medical University) (KLCP2019) and Innovation Plan for Postgraduate Education in Shanxi Province (2020BY078).Disclosure of Interests:None declared
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Hongkang, Chi. "Vegetation mapping in China." Geobotanical mapping, no. 1994-1995 (1996): 55–58. http://dx.doi.org/10.31111/geobotmap/1994-1995.55.
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The article gives the brief outline of the history of vegetation mapping in China. Three periods in the development of Chinese vegetation cartography are distinguished. 1. The primary period (before 1957) is characterized by schematic, mostly regionalization, small-scale maps based on a physiognomic approach with few divisions of the legend. An example is the Vegetation Map of China at 1 : 18 000 000, published in 1957 which showed basic reguliarities of the geographic distribution of vegetation in China, its legend having included 13 numbers. 2. The period of maturation (from 1958 up to 1979). The extensive field investigations and rapid development of theory and methodology promoted the creation of some important cartographic works. The most significant of them are: Vegetation Map of China at 1 : 10 000 000 (Hou Hsiohyu et al., 1965), Vegetation Regionalization Map of China (Hou Hsiohyu, 1965), Vegetation Map of People s Republic of China at 1 : 4 000 000 (Hou Hsiohyu at al., 1980). These maps are notable for a great deal of various data involved, the hierarchic complex legends of almost two hundred divisions, the application of some new scientific approaches: showing the latitudinal, longitudinal and altitudinal differentiation, the edaphic variation of and the dynamic phenomena in vegetation. In this period some regional maps were published as well: vegetation maps of North-East China at 1 : 500 000 and of Zun Ge Er at 1 : 2 000 000. 3. The period of rapid and intensive development (after 1980). Owing to remote sensing technique numerous small-scale maps were prepared and published. The basic one is the Vegetation Map of China at 1 : 1 000 000. For its preparing a great deal of field materials, satellite images and literature data were involved. About 300 researches took part in this work.
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Hou, Cheng-Lin, Ying-Ren Lin, and Meike Piepenbring. "Species of Rhytismataceae on needles of Juniperus spp. from China." Canadian Journal of Botany 83, no. 1 (January 1, 2005): 37–46. http://dx.doi.org/10.1139/b04-149.
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Five species in three different genera of Rhytismataceae are described from needles of junipers from China. Hypoderma junipericola C.-L. Hou, Y.-R. Lin, & M. Piepenbr., Lophodermium jianchuanense C.L. Hou & M. Piepenbr., and Soleella junipericola C.L. Hou & M. Piepenbr. are species new to science, while Lophodermium juniperinum (Fr.: Fr.) de Not. and Lophodermium harbinense Y.-R. Lin are species already known for China. This paper provides descriptions and illustrations for these species as well as a key for the eight species of Rhytismataceae now known on junipers worldwide.Key words: Ascomycota, plant pathogens, needle cast, Rhytismatales.
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Nivison, David S., and Edward L. Shaughnessy. "The Jin Hou Su Bells Inscription and its Implications for the Chronology of Early China." Early China 25 (2000): 29–48. http://dx.doi.org/10.1017/s0362502800004260.
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Since the Jin Hou Su chime-bells from the cemetery of the Jin lords at Tianma-Qucun, Shanxi, became known to the scholarly world, the problem of the dates contained in its inscription has attracted the attention of scholars both in and outside of China. In this article we discuss two aspects of this problem. First, while the “thirty-third year” date of the inscription must certainly refer to King Xuan's reign, which is to say 795 B.C., the four full date notations of the inscription are incompatible with this year, but are instead compatible with the following year, 794 B.C. This article suggests two ways to reconcile this discrepancy. Second, while there can be no doubt that Jin Hou Su is Jin Xian Hou, the “Jin shijia” chapter of the Shi ji gives his dates of reign as 822 to 812 B.C., which is in turn incompatible with either 795 or 794 B.C. However, in the Shi ji's genealogy of Jin lords, the son of Xian Hou is Mu Hou and the grandson of Mu Hou is Zhao Hou, which contradicts the zhao-mu structure of the Zhou ancestral system. Therefore, we propose that the Shiji has reversed the order of Xian Hou and Mu Hou, such that Xian Hou's reign actually extended from King Xuan's thirty-third year through his forty-third year (795-785 B.C.). Not only does this simple change in the genealogy of the Jin lords resolve the problem of the dates in the Jin Hou Su bells inscription, but it also serves to explain an entire array of problems in the chronology of early China.
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Shen, Yu-fei. "The China affection of Ray Wu." Science in China Series C: Life Sciences 52, no. 2 (February 2009): 119–24. http://dx.doi.org/10.1007/s11427-009-0025-4.
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Loewe, Michael. "Didactic Art in Han China." Journal of the Royal Asiatic Society 1, no. 1 (April 1991): 93–103. http://dx.doi.org/10.1017/s1356186300000067.
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As is usual in texts which were composed more as panegyrics than as strict historical records, the epitaph inscription for Wu Liang , who died at the age of 74 in A.D. 151, tells of his virtues and his qualities as a scholar. But in common with a number of famous men of ability and learning of his time, such as Zhang Heng (78–139), Ma Rong (79–166) or Wang Fu (c. 90–165), Wu Liang showed a persistent reluctance to serve in an official capacity, preferring to devote himself to a study of history and philosophy. In all probability he felt, like the others, that in the prevailing political circumstances, it was not possible both to embark on an official career and to retain a measure of personal integrity. Be that as it may, other members of his family evidently felt no such scruples; his nephew Wu Ban , for example, was appointed to be chief clerk at Dunhuang.
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Singh, Gunjan. "Socialist China, Capitalist China by Guoguang Wu and Helen Lansdowne (eds.)." Strategic Analysis 34, no. 5 (August 23, 2010): 776–78. http://dx.doi.org/10.1080/09700161.2010.501606.
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Jaivin, Linda. "Exhibiting Experimental Art in China. Wu Hung." China Journal 50 (July 2003): 173–75. http://dx.doi.org/10.2307/3182269.
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HE, JINGCHAO, XIAOLEI LIU, and FENG ZHANG. "Two new species of Clubiona Latreille (Araneae: Clubionidae) from China." Zootaxa 4208, no. 5 (December 19, 2016): 494. http://dx.doi.org/10.11646/zootaxa.4208.5.7.
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Clubiona Latreille, 1804, comprising approximately 78% of all Clubionidae species described so far, is the largest genus in the family. Of the 476 Clubiona species worldwide, 113 have been reported from China (World Spider Catalog 2016, Li & Lin 2016). However, the diversity of this genus in China is still insufficiently known and several new species have been described in the last few years (Wu & Zhang 2014a; Wu & Zhang 2014b; Dankittipakul & Singtripop 2014; Wang, Wu & Zhang 2015; Wu, Zheng & Zhang 2015). Among several species groups proposed to accommodate the species of the genus (Mikhailov 1995), the Corticalis group is one of the most well known in China, computing 19 species described so far for that country (Wang, Wu & Zhang 2015; Wu, Zheng & Zhang 2015). While examining spiders collected in Yunnan and Hunan provinces, China, we found two new Clubiona species of the Corticalis group, which are described below.
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Chai, Hui, Zhi-Qun Liang, Rou Xue, Shuai Jiang, Shi-Hong Luo, Yong Wang, Lu-Ling Wu, et al. "New and noteworthy boletes from subtropical and tropical China." MycoKeys 46 (February 18, 2019): 55–96. http://dx.doi.org/10.3897/mycokeys.46.31470.
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The morphology, ecology, and phylogenetic relationships of specimens of the family Boletaceae from subtropical and tropical China were investigated. Four species, Butyriboletushuangnianlaii, Lanmaoamacrocarpa, Neoboletusmultipunctatus, and Sutoriussubrufus, are new to science. Chalciporusradiatus and Caloboletusxiangtoushanensis are redescribed. Caloboletusguanyui is proposed to replace Boletusquercinus Hongo, an illegitimate later homonym. The recently described Tylopiluscallainus is synonymized with the Japanese Boletusvirescens, and the new combination T.virescens (Har. Takah. & Taneyama) N.K. Zeng et al. is proposed. Moreover, Neoboletus is treated as an independent genus based on evidence from morphology and molecular phylogenetic data in the present study, and many previously described taxa of Sutorius are recombined into Neoboletus: N.ferrugineus (G. Wu et al.) N.K. Zeng et al., N.flavidus (G. Wu & Zhu L. Yang) N.K. Zeng et al., N.hainanensis (T.H. Li & M. Zang) N.K. Zeng et al., N.obscureumbrinus (Hongo) N.K. Zeng et al., N.rubriporus (G. Wu & Zhu L. Yang) N.K. Zeng et al., N.sanguineoides (G. Wu & Zhu L. Yang) N.K. Zeng et al. , N.sanguineus (G. Wu & Zhu L. Yang) N.K. Zeng et al., and N.tomentulosus (M. Zang et al.) N.K. Zeng et al.
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LIU, QUANRU, SHIYONG MENG, DONGXIAN XU, JINGLAN WANG, and SHAN WANG. "Glyptopetalum verticillatum (Celastraceae), a new species from Yunnan, China." Phytotaxa 234, no. 2 (November 13, 2015): 186. http://dx.doi.org/10.11646/phytotaxa.234.2.9.
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The genus Glyptopetalum Thwaites (1856: 267) consists of approximately twenty species distributed in tropical and subtropical Asia (Liu & Funston 2008). It belongs to the family Celastraceae and is very close to the genus Euonymus Linnaeus (1753: 197). Hou (1962, 1963) provided the best overview of Glyptopetalum, describing plants of that genus as shrubs or small trees with 4-merous flowers, 4-locular ovaries, pendulous ovules, with one per locule, loculicidal capsules with persistent columella and branched raphes. In particular, he stressed that one ovule per cell, persistent columella and branched raphes are the most reliable characteristics for distinguishing Glyptopetalum from Euonymus. Simmons et al. (2012) consider both Glyptopetalum and Torralbasia as closely related to Euonymus based on their experimental data of two (of 20) species of Glyptopetalum. However, they recommend that Glyptopetalum continues to be recognized as distinct from Euonymus, based on the three reproductive differences noted by Hou (1963). Li et al. (2014) also support this view based on their molecular data. Consequently, we recommend that Glyptopetalum be recognized as a distinct genus in this paper.
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Zhuang, Wan-Li, Xue-Dong Lu, Guang-Yu Lin, Yang Wu, Chuang-Xing Lin, Pai-Zhen Chen, Shu-Xia Xie, Na Zhang, and Lian Ma. "WU polyomavirus infection among children in South China." Journal of Medical Virology 83, no. 8 (June 15, 2011): 1440–45. http://dx.doi.org/10.1002/jmv.22123.
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Hao, Peter, Ying Zhang, Zhenjun Li, Jingjing Xi, and Feng Tan. "Zunyou Wu, China CDC’s Chief Expert of Epidemiology." China CDC Weekly 2, no. 34 (2020): 669–70. http://dx.doi.org/10.46234/ccdcw2020.175.
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Hao, Peter, Yu Chen, Zhenjun Li, Jingjing Xi, and Feng Tan. "Guizhen Wu, China CDC’s Chief Expert of Biosafety." China CDC Weekly 2, no. 37 (2020): 729–30. http://dx.doi.org/10.46234/ccdcw2020.197.
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Wu, Hai-Xia, Ai-Ping Liang, and Guang-Xue Zhang. "The genusNeoproutistaYang & Wu (Homoptera: Derbidae) from China." Oriental Insects 37, no. 1 (May 2003): 463–72. http://dx.doi.org/10.1080/00305316.2003.10417364.
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CHEN, LIUSHENG, YASUNORI KISHIDA, and MIN WANG. "A new species of Platychasma (Lepidoptera: Notodontidae) from China." Zootaxa 1842, no. 1 (August 4, 2008): 63. http://dx.doi.org/10.11646/zootaxa.1842.1.5.
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The notodontid genus Platychasma was established by Butler in 1881, and hitherto comprised only two species: Platychasma virgo Butler, 1881 and P. flavida Wu & Fang, 2003. The former is distributed in China, Japan and Korea (Sugi 1982; Park et al. 1999; Wu & Fang 2003a, b), while the latter is found only in China (Wu & Fang 2003a, b). During moth surveys in southern and central China, the authors collected several specimens with typical external features of the subfamily Platychasmatinae (antenna filiform, quadrifid forewing venation and forewing dorsum bidentate). However, the specimens collected differed from both P. virgo and P. flavida in several morphological features, notably the forewing shape and male genitalia. Following comparison with P. virgo from Japan and with the original description and illustrations of P. flavida, these Chinese specimens are hereby described as new, as follows:
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Wu, You-Fang, Dao-Chao Jin, Tian-Ci Yi, and Jian-Jun Guo. "Two new species of Bdellidae (Acari: Prostigmata) from China." Acarologia 61, no. 3 (July 21, 2021): 614–25. http://dx.doi.org/10.24349/yni9-m8w5.
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Two new species of Bdellidae, collected from China, are described in this paper. Odontoscirus anzhouensis Wu & Guo n. sp. is described based on adult females, characterized by dorsal hypostomal setae (DHS) shorter than vh3,and different leg chaetotaxy/solenidotaxy. Cyta pseudokreiteri Wu & Guo n. sp. is described based on adult females and larvae, characterized by movable digits smooth and fixed digits with one tooth; chelicera with continuous longitudinal striae; setal formula of telofemora I–IV 6–5(6)–5(6)–4.
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McMahon, Keith. "Women Rulers in Imperial China." Nan Nü 15, no. 2 (2013): 179–218. http://dx.doi.org/10.1163/15685268-0152p0001.
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“Women Rulers in Imperial China”is about the history and characteristics of rule by women in China from the Han dynasty to the Qing, especially focusing on the Tang dynasty ruler Wu Zetian (625-705) and the Song dynasty Empress Liu. The usual reason that allowed a woman to rule was the illness, incapacity, or death of her emperor-husband and the extreme youth of his son the successor. In such situations, the precedent was for a woman to govern temporarily as regent and, when the heir apparent became old enough, hand power to him. But many women ruled without being recognized as regent, and many did not hand power to the son once he was old enough, or even if they did, still continued to exert power. In the most extreme case, Wu Zetian declared herself emperor of her own dynasty. She was the climax of the long history of women rulers. Women after her avoided being compared to her but retained many of her methods of legitimization, such as the patronage of art and religion, the use of cosmic titles and vocabulary, and occasional gestures of impersonating a male emperor. When women ruled, it was an in-between time when notions and language about something that was not supposed to be nevertheless took shape and tested the limits of what could be made acceptable.
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Ma, Min, Qing-Hai Fan, and Sheng-Cai Li. "Typhlodromus Scheuten (Acari: Phytoseiidae) from Shanxi province of China." Systematic and Applied Acarology 21, no. 10 (November 16, 2016): 1614. http://dx.doi.org/10.11158/saa.21.12.3.
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The family Phytoseiidae is considered the most important beneficial mite family worldwide, but little is known about this family in Shanxi of China. To understand the phytoseiid fauna of this province, an extensive study was initiated in 2013. We present herein the description of a new species, Typhlodromus (Anthoseius) shanxi sp. nov., and the redescription of three new provincial records, Typhlodromus (Anthoseius) coryli Wu and Lan, 1991, Typhlodromus (Anthoseius) porus Wu, 1988, Typhlodromus (Anthoseius) ternatus Ehara, 1972, found on various plants in Shanxi. A key to the known species of Typhlodromus (Anthoseius) reported form Shanxi is also presented.
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Bowles, Paul. "Economic Growth, Transition and Globalization in China. Yanrui Wu." China Journal 58 (July 2007): 185–87. http://dx.doi.org/10.1086/tcj.58.20066336.
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Lindblom, John A. "John C. H. Wu and the Evangelization of China." Logos: A Journal of Catholic Thought and Culture 8, no. 2 (2005): 130–64. http://dx.doi.org/10.1353/log.2005.0019.
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Li, Mimi, and Alastair M. Morrison. "Bihu (Tiger) Wu: the tourism scholar ironman of China." Anatolia 29, no. 1 (November 7, 2017): 167–75. http://dx.doi.org/10.1080/13032917.2017.1396645.
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Xiao, Hanyu. "Alfred M. Wu, Governing Civil Service Pay in China." Journal of Chinese Political Science 21, no. 2 (April 26, 2016): 269–70. http://dx.doi.org/10.1007/s11366-016-9411-5.
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Kirby, William C. "China Unincorporated: Company Law and Business Enterprise in Twentieth-Century China." Journal of Asian Studies 54, no. 1 (February 1995): 43–63. http://dx.doi.org/10.2307/2058950.
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On April 22, 1903, the qing court ordered zai-zhen, a Manchu prince; Yuan Shikai, the most powerful Chinese Governor-General of the realm; and Dr. Wu Tingfang, the former Chinese minister to the United States, to compile a commercial code. The edict charging them with this responsibility noted that “of the many government functions, the most important is to facilitate commerce and help industries” (Li 1974a:210). On January 21, 1904, the newly created Ministry of Commerce (Shangbu) issued China's first Company Law (Gongsilü)The Company Law was the first modern law drafted by the Imperial Law Codification Commission, whose work was part of the Qing government's reformist “new policies” in the wake of China's recent humiliations at the hands of Japan and the Western powers. In giving highest priority to enacting a law governing the organization of commercial companies, the Qing government had several interlocking objectives.
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TONG, YAN, JIASHENG HAO, HONGGUANG LIU, SHUQIANG LI, and ZHONGE HOU. "Floresorchestia xueli, a new terrestrial crustacean (Amphipoda, Talitridae) from Yunnan, China." Zootaxa 4991, no. 2 (June 24, 2021): 318–30. http://dx.doi.org/10.11646/zootaxa.4991.2.5.
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A new species, Floresorchestia xueli Tong & Hou, sp. nov. is described from high altitude habitats of Yunnan, China. The species differs morphologically from its congeners by left mandible lacinia mobilis having four teeth; coxal gills complexly lobed and convoluted; epimeral plates II–III without slits; telson with one slender facial spine and two terminal spines on each lobe. Analysis of DNA barcode sequences and niche distinctiveness support recognition of the new species.
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Wu, Min, Zheyu Chen, and Xiaoran Zhu. "Two new camaenid land snails (Eupulmonata) from Central China." ZooKeys 861 (July 8, 2019): 129–44. http://dx.doi.org/10.3897/zookeys.861.35430.
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Two new camaenid land snails are reported from Central China. The new genus, represented by Sinochloritislii Wu & Chen, gen. & sp. nov., the type of the genus from Sichuan, is close to Yakuchloritis Habe, Nipponochloritis Habe, Neochloritis Minato and Trichochloritis Pilsbry, but is well characterized by the smooth adult shell, highly developed epiphallic papilla, absence of penial caecum, and the presence of an epiphallus-binding muscle that binds the proximal epiphallus to the distal penis. A new species Bradybaenalinjun Wu & Chen, sp. nov. is described from Hubei Province and is characterized by having two shell bands, a spoon-shaped love dart and the proportionally shortest mucous glands among Chinese congeners.
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WU, HONG, SU-JIONG ZHANG, and JUNHAO HUANG. "The genus Ctenosciara Tuomikoski in China, with descriptions of three new species (Diptera, Sciaridae)." Zootaxa 2560, no. 1 (August 6, 2010): 42. http://dx.doi.org/10.11646/zootaxa.2560.1.4.
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The taxonomy of the genus Ctenosciara Tuomikoski in China was studied. Six species were recognized, including three new species that are described and illustrated: Ctenosciara mutisetosa Wu & Zhang sp. nov., Ctenosciara pseudoinsolita Wu & Zhang sp. nov., and Ctenosciara xijingensis Wu & Zhang sp. nov. Additionally, Ctenosciara japonica Sutou & Ito, 2003 and Ctenosciara rufulenta (Edwards, 1927) are reported for the first time from China. A key to the Chinese species is also provided.
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Chan, Ying-kit. "CORPSE ADMONITION: WU KEDU AND BUREAUCRATIC PROTEST IN LATE QING CHINA." Journal of Chinese History 2, no. 1 (August 9, 2017): 109–43. http://dx.doi.org/10.1017/jch.2017.14.
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AbstractIn late imperial China, an extremely small number of bureaucrats adopted corpse admonition (shijian尸諫) to protest with their death what they regarded as inadequacies or failings in the imperial structure. This article introduces the case of Wu Kedu 吳可讀, who killed himself to protest the designation, by the late Qing empress dowagers Ci'an and Cixi, of Guangxu as the emperor, and as the adopted son of Xianfeng and not as the heir to Tongzhi. The article argues that Wu Kedu's suicide, which was highly praised during and after its time, was an attempt to sway bureaucratic opinion to put a check on the arbitrary power of empress dowagers, but instead had the unintended consequence of reinforcing it. More importantly, Wu Kedu's corpse admonition was a precursor of the outpouring of voices of remonstrance over political issues at the turn of the twentieth century, leading to further development of the Chinese “constitutional agenda.”
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LIU, YUYU, DANDAN LUO, HUI YAO, XIAOCAN ZHANG, LIWU YANG, and BAOZHONG DUAN. "A new species of Paris (Melanthiaceae) from Yunnan, China." Phytotaxa 326, no. 4 (October 31, 2017): 297. http://dx.doi.org/10.11646/phytotaxa.326.4.12.
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Paris Linnaeus (Linnaeus 1753: 367) is the largest genus within Melanthiaceae, with more than 27 species (The Plant List 2013, Wang et al. 2017). It is widely distributed in the regions of southwestern China, especially Yunnan, Guizhou and other plateau provinces (Li 1998, Wu et al. 2004, Zhang et al. 2007, Huang et al. 2012). The genus Paris has 22 species in China, of which 14 are distributed in Yunnan (Li 1998) and five species are endemic to Yunnan; therefore, their species diversity ranks first in China (Zhao et al. 2016). Most species of Paris with a thick rhizome have been widely used in China for a long time to treat tumors, chronic bronchitis, for traumatic injuries, and as antimicrobial agent, achieving significant effect (Wu et al. 2004).
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LI, WEIHAI, YING WANG, and RONGFENG WANG. "Taxonomic notes on Neoperla (Plecoptera: Perlidae) from Sichuan Province of China with the description of two new species." Zootaxa 4221, no. 2 (January 17, 2017): 191. http://dx.doi.org/10.11646/zootaxa.4221.2.3.
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Species of the perlid genus Neoperla from Sichuan Province, China are reviewed. Two new species are described, Neoperla caii Li & Wang, sp. nov. and N. emeishana Li & Wang, sp. nov. The new species are compared with related congeners. Available types of several known Neoperla species from Sichuan Province were studied and complementary descriptions or brief taxonomic comments are presented for N. bilineata Wu & Claassen, N. chui Wu & Claassen, N. microtumida Wu & Claassen, N. quadrata Wu & Claassen and N. truncata Wu.
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JIA, FENG-LONG, MARTIN FIKÁČEK, and SERGEY K. RYNDEVICH. "Taxonomic notes on Chinese Cercyon: description of a new species, new synonyms, and additional faunistic records (Coleoptera: Hydrophilidae: Sphaeridiinae)." Zootaxa 3090, no. 1 (November 3, 2011): 41. http://dx.doi.org/10.11646/zootaxa.3090.1.3.
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A new species, Cercyon (Clinocercyon) hanseni sp. nov., is described from Jiangxi and Guizhou Provinces, China. Based on a study of type material, the following synonymies are proposed for the species occurring in China: Cercyon signifer Hebauer, 2002 is synonymized with C. (s. str.) berlovi Shatrovskiy, 1999, Cercyon guangxiensis Wu et Pu, 1995 with Cercyon (s. str.) quisquilius (Linnaeus, 1761), Cercyon nigrostriatus Wu et Pu, 1995 with Cercyon (Clinocercyon) lineolatus (Motschulsky, 1863), Cercyon vicinaloides dʼOrchymont, 1925, and Cercyon tropisternus Wu et Pu, 1995 with Cercyon (Paracycreon) laminatus Sharp, 1873, and Cercyon linearis Wu et Pu, 1995 with Cercyon (Paracycreon) subsolanus Balfour-Browne, 1939. A lectotype is designated for Cercyon vicinalis var. vicinaloides dʼOrchymont, 1925. Three Palaearctic species are recorded from China for the first time: Cercyon (s. str.) ovillus Motschulsky, 1860, Cercyon (s. str.) olibrus Sharp, 1874 and Cercyon (s. str.) unipunctatus (Linnaeus, 1758). Additional faunistic data from China are provided for Cercyon berlovi and Cercyon nigriceps (Marsham, 1802). Cercyon amplelevatus Jia, 1995 is transferred to the genus Armostus Sharp, 1890. A checklist of all Cercyon species recorded from China is presented, along with a tentative identification key.
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ZHANG, SU-JIONG, HONG WU, and JUNHAO HUANG. "The genus Zygoneura Meigen in China, with descriptions of three new species (Diptera, Sciaridae)a." Zootaxa 2368, no. 1 (February 24, 2010): 40. http://dx.doi.org/10.11646/zootaxa.2368.1.2.
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The taxonomy of the genus Zygoneura Meigen in China was studied. Seven species are recognized, including three new species that are described and illustrated: Zygoneura disparilis Zhang & Wu sp. nov., Z. longa Zhang & Wu sp. nov., and Z. occidens Zhang & Wu sp. nov. In addition, Z. sajanica Mamaev, 1976, and Z. sciarina Meigen, 1830 are reported for the first time from China. A key to the Palaearctic and Oriental regions species is also provided.
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WU, SAN-AN, and YUAN LU. "Notes on the genera and species in the mealybug tribe Serrolecaniini Shinji (Hemiptera: Coccoidea: Pseudococcidae) from China with description of a new species." Zootaxa 3251, no. 1 (March 30, 2012): 30. http://dx.doi.org/10.11646/zootaxa.3251.1.2.
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The eight species in five genera belonging to the tribe Serrolecaniini recorded from China are discussed, including a newspecies Serrolecanium ferrisi Wu & Lu (previously misidentified as S. tobai (Kuwana) or S. indocalamus Wu) and a newcountry record for Serrolecanium kawaii Hendricks & Kosztarab. A key to species belonging to the tribe Serrolecaniini now known from China is included and illustrations are provided to the adult female of all species found in China.
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Ramsköld, Lars, Chen Junyuan, Gregory D. Edgecombe, and Zhou Guiqing. "Cindarella and the arachnate clade Xandarellida (Arthropoda, Early Cambrian) from China." Transactions of the Royal Society of Edinburgh: Earth Sciences 88, no. 1 (1997): 19–38. http://dx.doi.org/10.1017/s0263593300002297.
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AbstractCindarella eucalla Chen et al. from the Early Cambrian Chengjiang fauna is the closest relative of Xandarella spectaculum Hou et al. Cindarella and Xandarella are united as Xandarellida, a further component of Cambrian arachnate diversity. Diagnostic of Xandarellida are ventral eyes, a posterior extension of the head shield that covers anterior trunk segments, and multiple somites per tergite in the rear part of the trunk. Somites and tergites are decoupled throughout the trunk in Cindarella. The bilobate structure of the exopod in xandarellids is widespread throughout the Arachnata.
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Sun, Qing-Wen, Wen-Fen Xu, and Shun-Zhi He. "A New Species of Aspidistra (Asparagaceae) from Guizhou, China." Phytotaxa 178, no. 1 (September 10, 2014): 33. http://dx.doi.org/10.11646/phytotaxa.178.1.3.
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An unknown species of Aspidistra Ker-Gawler (1822: 628) with freshly opened flowers and full ripe fruits was found when the writer was doing field study at Guiding country, Guizhou province in October, 2008. This species bloomed again in October, 2011 after being introduced to Guiyang College of Traditional Chinese Medicine, then was identified as a new species after studying relevant literature (Fang & Yu 2002, He 2002, Li & Tang 2002, Li & Wei 2003, Li 2004, Tillich 2005, 2006, Tillich et al. 2007, Tillich & Averyanov 2008, Lin et al. 2009, 2011, 2014, Hou et al. 2009, Xu et al. 2010a, 2010b, He et al. 2011a, 2011b, 2013, Gao et al. 2011, Hu et al. 2014, Vislobokov et al. 2014a, 2014b, Meng et al. 2014).
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Mo, Raorao, Ying Wang, Guoquan Wang, and Weihai Li. "Review of Phanoperla (Plecoptera, Perlidae) from China." ZooKeys 1052 (July 30, 2021): 71–81. http://dx.doi.org/10.3897/zookeys.1052.64060.
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Three Chinese species of the genus Phanoperla are reviewed. A new species, P. chenisp. nov., is proposed from Guangdong, southern China, and compared with related taxa. Neoperlops binodosa Wu, 1973 is confirmed from Hainan Province of China on the basis of re-examination of types from the island, but it is transferred to the genus Phanoperla and is placed as a synonym of P. pallipennis (Banks, 1938). A note on the distribution of the genus Phanoperla is also given.
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DONG, QIN-GANG, JIANG-TAO ZHANG, and SAN-AN WU. "A new genus and species of Pseudococcidae (Hemiptera: Sternorrhyncha: Coccomorpha) from China." Zootaxa 4299, no. 4 (July 31, 2017): 592. http://dx.doi.org/10.11646/zootaxa.4299.4.9.
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A new mealybug genus, Dorsoceraricoccus Dong & Wu gen. nov. (Hemiptera: Sternorrhyncha: Coccomorpha: Pseudococcidae), is described to contain Dysmicoccus muajatae Williams as type species, and a new species, Dorsoceraricoccus ningboensis Dong & Wu sp. nov., collected from Zhejiang Province, China on Digitaria sp. (Poaceae). For the new species, the adult female is described and illustrated. In addition, a key to genera of the subfamily Pseudococcinae now known from China and a key to adult female now in Dorsoceraricoccus gen. nov. are provided.
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HUO, QING-BO, BIN-QING ZHU, and YU-ZHOU DU. "New illustrations, new species and new combination of Hemacroneuria Enderlein (Plecoptera: Perlidae) from China." Zootaxa 5032, no. 4 (September 9, 2021): 563–76. http://dx.doi.org/10.11646/zootaxa.5032.4.6.
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Hemacroneuria violacea Enderlein, 1909 is discovered and re-described from four provinces of southern China. A similar new species of Hemacroneuria from the Nanling Mountains is proposed. Meanwhile, Brahmana flavomarginata Wu, 1962 is transferred into Hemacroneuria, and the status of Kiotina spatulata Wu, 1948 is discussed in this paper.
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XU, XIAO-GANG, XIN-MAO ZHOU, and LI-BING ZHANG. "Huperzia wusugongii nom. nov. (Lycopodiopsida: Huperziaceae) from West China." Phytotaxa 296, no. 1 (February 14, 2017): 98. http://dx.doi.org/10.11646/phytotaxa.296.1.9.
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A new name of the lycophyte genus Huperzia (Huperziaceae), H. wusugongii Li Bing Zhang, X.G. Xu & X.M. Zhou, from west China is proposed to replace the later homonym, H. rubricaulis S.K. Wu & X. Cheng [‘rubicaulis’], of H. rubricaulis (Alderwerelt van Rosenburgh) Holub.
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Luo, Jian-Sin. "A synopsis of Chinese epiphyllous liverworts." Bryophyte Diversity and Evolution 2, no. 1 (June 30, 1990): 161–66. http://dx.doi.org/10.11646/bde.2.1.14.
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Epiphyllous liverworts are characteristic of tropical and subtropical forests where the air is very moist. The distribution of epiphyllous liverworts is primarily in the tropical or subtropical regions of Indo- Malay, Central and South America, central Africa and the Asian-Pacific regions of South Korea and southern Japan south to Australia. Epiphyllous liverworts are also abundant in some evergreen forests of China (Cao & Be, 1988; Chen & Wu, 1964; Wu & Guo, 1986; Wu & Lou 1978; Wu et al., 1983). Little has been known about the liverworts in Sichuan Province of China. Only eight species and one variety, belonging to eight genera have been reported from Mt. Emei (Wu & Lou, 1978) and some scattered records from Mt Erlang, Mt Yaan and Mabin County.
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Zhang, Jiang-Tao, Jia-Ying Zhou, You-Liang Pan, and Xing-Ping Liu. "A new Atrococcus species (Hemiptera, Coccomorpha, Pseudococcidae) from China, with a key to Chinese species." ZooKeys 950 (July 20, 2020): 33–40. http://dx.doi.org/10.3897/zookeys.950.49300.
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A new mealybug species Atrococcus rushuiensis Zhang, sp. nov., collected under the leaf sheath of Sporobolus fertilis (Poaceae) in Fuzhou City, Jiangxi Province, China, is described and illustrated. A new combination is introduced, transferring Allotrionymus shanxiensis Wu to the genus Atrococcus as A. shanxiensis (Wu), comb. nov. A key is presented for the species of Atrococcus recorded from China.
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Williams, Emily Rebecca. "Red Collections in Contemporary China." British Journal of Chinese Studies 11 (June 29, 2021): 71–90. http://dx.doi.org/10.51661/bjocs.v11i0.73.
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“Red Collecting” is a widespread phenomenon in contemporary China. It refers to the collecting of objects from the Chinese Communist Party’s history. Red Collecting has received only minimal treatment in English-language scholarly literature, much of which focuses on individual object categories (primarily propaganda posters and Chairman Mao badges) and overemphasises the importance of Cultural Revolution objects within the field. Because of this limited focus, the collectors’ motivations have been similarly circumscribed, described primarily in terms of either neo-Maoist nostalgia or the pursuit of profit. This article will seek to enhance this existing literature and, in doing so, offer a series of new directions for research. It makes two main arguments. First, that the breadth of objects incorporated within the field of Red Collecting is far broader than current literature has acknowledged. In particular, the importance of revolutionary-era (pre-1949) collections, as well as regional and rural collections is highlighted. Second, it argues that collectors are driven by a much broader range of motivations, including a variety of both individual and social motivations. Significantly, it is argued that collectors’ intentions and their understandings of the past do not always align; rather, very different understandings of China’s recent past find expression through Red Collecting. As such, it is suggested that Red Collecting constitutes an important part of contemporary China’s “red legacies,” one which highlights the diversity of memories and narratives of both the Mao era and the revolutionary period.
Image © Hou Feng
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Song, Ligang. "Foreign Direct Investment and Economic Growth in China. Yanrui Wu." China Journal 45 (January 2001): 178–79. http://dx.doi.org/10.2307/3182388.
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Brown, Shana J. "Zooming In: Histories of Photography in China by Wu Hung." China Review International 23, no. 1 (2016): 65–69. http://dx.doi.org/10.1353/cri.2016.0080.
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Pomfret, Richard. "Yanrui Wu, Foreign Direct Investment and Economic Growth in China." Journal of Comparative Economics 27, no. 4 (December 1999): 797–98. http://dx.doi.org/10.1006/jcec.1999.1621.
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