Bull Math Biol


. 2022 Aug 1;84(9):94.
doi: 10.1007/s11538-022-01050-2.
Analysis of the Geographic Transmission Differences of COVID-19 in China Caused by Population Movement and Population Density


Yi Hu ¹ , Kaifa Wang ¹ , Wendi Wang ²



Affiliations

• PMID: 35913582
• DOI: 10.1007/s11538-022-01050-2

Abstract

The coronavirus disease (COVID-19) has led to a global pandemic and caused huge healthy and economic losses. Non-pharmaceutical interventions, especially contact tracing and social distance restrictions, play a vital role in the control of COVID-19. Understanding the spatial impact is essential for designing such a control policy. Based on epidemic data of the confirmed cases after the Wuhan lockdown, we calculate the invasive reproduction numbers of COVID-19 in the different regions of China. Statistical analysis indicates a significant positive correlation between the reproduction numbers and the population input sizes from Wuhan, which indicates that the large-scale population movement contributed a lot to the geographic spread of COVID-19 in China. Moreover, there is a significant positive correlation between reproduction numbers and local population densities, which shows that the higher population density intensifies the spread of disease. Considering that in the early stage, there were sequential imported cases that affected the estimation of reproduction numbers, we classify the imported cases and local cases through the information of epidemiological data and calculate the net invasive reproduction number to quantify the local spread of the epidemic. The results are applied to the design of border control policy on the basis of vaccination coverage.

Keywords: Population density; Population movement; Regional differences; Reproduction number.