| 珠海市新型冠状病毒肺炎聚集发生的时空特征及传播路径 |
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| 引用本文: | 刘郑倩,叶玉瑶,张虹鸥,郭洪旭,杨骥,王长建.珠海市新型冠状病毒肺炎聚集发生的时空特征及传播路径[J].热带地理,2020,40(3):422-431. |
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| 作者姓名: | 刘郑倩 叶玉瑶 张虹鸥 郭洪旭 杨骥 王长建 |
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| 作者单位: | 1.广州地理研究所,广东省地理空间信息技术与应用公共实验室,广东省遥感与地理信息系统;应用重点实验室,广州 510070;2.广东工业大学 建筑与城市规划学院,广州 510090;3.南方海洋科学与工程广东省实验室,广州 511458 |
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| 基金项目: | 国家重点研发计划重点专项(2019YFB2103101);南方海洋科学与工程广东省实验室(广州)人才团队引进重大专项(GML2019ZD0301);广东省科学院建设国内一流研究机构行动专项资金项目(2020GDASYL-20200102002) |
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| 摘 要: | 利用珠海市卫生健康局公开发布的98例新型冠状病毒肺炎病例流行病学调查数据,通过26个疫情聚集单元的时空特征分析和4类典型传播路径的案例剖析,深入探讨了珠海市新型冠状病毒肺炎聚集发生的时空规律和传播路径。结果表明:1)珠海的疫情发展与武汉的人口流动与管控密切相关,由于管控及时,目前仍以疫源区直接输入和家庭聚集扩散为主要传播方式,在有限范围内扩散。2)存在输入一代家庭聚集传播、输入一代非家庭聚集传播、输入二代家庭聚集传播、输入二代非家庭聚集传播4种不同的传播路径,且以第一种为主要方式,但非家庭聚集传播的路径复杂,应加强流行病学调查和防控。3)对输入性病例从输入到发病的滞后周期以及聚集单元最长发病时间间隔来看,有少部分病例或携带者可以突破14 d限制,应警惕目前普遍采用的14 d隔离措施可能存在的风险。
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| 关 键 词: | 新型冠状病毒肺炎 珠海 聚集 时空特征 传播路径 |
| 收稿时间: | 2020-03-03 |
Spatio-Temporal Characteristics and Transmission Path of COVID-19 Cluster Cases in Zhuhai |
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| Liu Zhengqian,Ye Yuyao,Zhang Hong’ou,Guo Hongxu,Yang Ji,Wang Changjian.Spatio-Temporal Characteristics and Transmission Path of COVID-19 Cluster Cases in Zhuhai[J].Tropical Geography,2020,40(3):422-431. |
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| Authors: | Liu Zhengqian Ye Yuyao Zhang Hong’ou Guo Hongxu Yang Ji Wang Changjian |
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| Institution: | 1.Guangzhou Institute of Geography, Guangdong Open Laboratory of Geospatial Information Technology and Application, Key Lab of Guangdong for Utilization of Remote Sensing and Geographical Information System, Guangzhou 510070, China;2.School of Architecture and Urban Planning, Guangdong University of Technology, Guangzhou 510090, China;3.Southern Marine Science and Engineering Guangdong Laboratory, Guangzhou 511458, China |
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| Abstract: | On the eve of the 2020 Spring Festival, an epidemic of COVID-19 broke out in Wuhan and spread quickly across the country through population movements, posing a serious threat to Zhuhai and other large cities. In this paper, epidemiological survey data for 98 cases of COVID-19 published by the Zhuhai Municipal Health Bureau were used to analyze the spatio-temporal characteristics of 26 epidemic clusters, conduct case analyses of four types of typical transmission routes, and determine the spatio-temporal patterns and transmission routes of the virusin Zhuhai, with three main results. 1) The epidemic’s spread in Zhuhai was affected by timely population management and control in Wuhan, which restricted it to a limited range. 2) There were four different transmission paths: imported family cluster units, imported non-family cluster units, imported and local family cluster units, and imported and local non-family cluster units. The first unit was most important, though the path of non-family cluster transmission was especially complex; epidemiological investigations should be strengthened along with prevention and control measures. 3) For imported cases, given the lag time from importation to onset and the longest time interval between the onset of cluster units, a small number of cases or carriers can break the 14-day isolation limit currently in use, such that caution should be exercised regarding possible risks associated with this measure. Based on these, three recommendations can be made for the prevention and control of COVID-19. 1) It is necessary to fully estimate the risk of future epidemic spread that may be brought about by the movement of people returning to work following initial quarantine, while strengthening epidemiological studies, actively exploring the spatio-temporal law of population flow and epidemic spread, and using science-based methods to prevent and control further viral spread. 2) It is necessary to persist in the prevention and control of population movements from Hubei and other high-risk epidemic areas. The 14-days quarantine currently in place throughout the country is effective for the vast majority of cases or carriers of the virus, but the results show that a few can break this limit, suggesting that the isolation time should be prolonged by up to 24 days. 3) The combined use of epidemiological investigation and geographic information technology should be strengthened to improve the timely tracking of epidemic occurrence and spread, accurately identify the activities of high-risk groups, and conduct accurate and effective source tracing, prevention, and control. In short, for a major public health crisis like the COVID-19 outbreak, emergency management and control should involve many scientific fields (including medicine, geographic & information technology, computer science, psychology, and behavioral science) in order to achieve timely and effective prevention and control measures that rely on such multi-disciplinary joint action. |
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| Keywords: | COVID-19 Zhuhai aggregation spatio-temporal characteristics transmission path |
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