Fundamental Research (May 2024)

An overview for monitoring and prediction of pathogenic microorganisms in the atmosphere

  • Jianping Huang,
  • Danfeng Wang,
  • Yongguan Zhu,
  • Zifeng Yang,
  • Maosheng Yao,
  • Xiaoming Shi,
  • Taicheng An,
  • Qiang Zhang,
  • Cunrui Huang,
  • Xinhui Bi,
  • Jiang Li,
  • Zifa Wang,
  • Yongqin Liu,
  • Guibing Zhu,
  • Siyu Chen,
  • Jian Hang,
  • Xinghua Qiu,
  • Weiwei Deng,
  • Huaiyu Tian,
  • Tengfei Zhang,
  • Tianmu Chen,
  • Sijin Liu,
  • Xinbo Lian,
  • Bin Chen,
  • Beidou Zhang,
  • Yingjie Zhao,
  • Rui Wang,
  • Han Li

Journal volume & issue
Vol. 4, no. 3
pp. 430 – 441

Abstract

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Corona virus disease 2019 (COVID-19) has exerted a profound adverse impact on human health. Studies have demonstrated that aerosol transmission is one of the major transmission routes of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Pathogenic microorganisms such as SARS-CoV-2 can survive in the air and cause widespread infection among people. Early monitoring of pathogenic microorganism transmission in the atmosphere and accurate epidemic prediction are the frontier guarantee for preventing large-scale epidemic outbreaks. Monitoring of pathogenic microorganisms in the air, especially in densely populated areas, may raise the possibility to detect viruses before people are widely infected and contain the epidemic at an earlier stage. The multi-scale coupled accurate epidemic prediction system can provide support for governments to analyze the epidemic situation, allocate health resources, and formulate epidemic response policies. This review first elaborates on the effects of the atmospheric environment on pathogenic microorganism transmission, which lays a theoretical foundation for the monitoring and prediction of epidemic development. Secondly, the monitoring technique development and the necessity of monitoring pathogenic microorganisms in the atmosphere are summarized and emphasized. Subsequently, this review introduces the major epidemic prediction methods and highlights the significance to realize a multi-scale coupled epidemic prediction system by strengthening the multidisciplinary cooperation of epidemiology, atmospheric sciences, environmental sciences, sociology, demography, etc. By summarizing the achievements and challenges in monitoring and prediction of pathogenic microorganism transmission in the atmosphere, this review proposes suggestions for epidemic response, namely, the establishment of an integrated monitoring and prediction platform for pathogenic microorganism transmission in the atmosphere.

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