Share in daily excess deaths by World Bank region

Updated daily
Share in daily estimated excess deaths 7-day smoothed average


This chart shows the evolution over time of the distribution of estimated daily excess mortality across World Bank regions. It calculates for each region the share in daily excess mortality globally. 

The excess death estimates are the mid-point estimates derived from excess death model of The Economist, which fills data gaps on the basis of a machine-learning algorithm that learns from official excess mortality date, where available, and over 100 other statistical indicators. The indicator is available on a weekly frequency and its values are converted into a smoothed average. For more details on methods and sources, check out the excess mortality entry in the list of background notes below.

The indicator reflects an absolute concept of mortality in that it expresses how the absolute death toll in a particular region contributes to the global death tally. This differs fundamentally from the concept of the mortality rate, which expresses the absolute toll relative to population size and thus provides an indication of performance controlling for population size. The absolute numbers underpinning the mortality distribution shown here take the view that a life lost is a life lost, no matter where the person happened to live. It offers a valuable perspective on the absolute scale of the pandemic’s death toll. 

It should be noted that the different regional groups shown here are of very different population size dimensions. The global population as per the 2021 medium-variant projection of World Population Prospects is 7,866 million people, which is distributed as follows:

  • East Asia & Pacific (EAP): 2,392 million
  • Europe & Central Asia (ECA): 930 million
  • Latin America & Caribbean (LAC): 655 million
  • Middle East & North Africa (MNA): 472 million
  • North America (NAM): 374 million
  • South Asia (SAR): 1,877 million
  • Sub-Saharan Africa (SSA): 1,166 million

In light of these differences in population size, we expect large differences in the distribution of absolute mortality even if mortality rates were constant across groups.