Among the 53 metro areas with a million or more population:
New York, New Orleans, Detroit and Seattle have the highest incidence of pandemic among large metros.
Detroit has now surpassed Seattle in cases per capita
New York had the highest level of reported cases per 100,000: 302
The typical (median) large metropolitan area had a rate of about 17 cases per 100,000
Half of all metropolitan areas had between 11 and 31 cases per 100,000.
The number of cases in the typical metro area has increased by about 25 percent per day in the past week.
The typical metro is only about 1-2 weeks behind these cities in the progression of the virus.
City Observatory presents here its estimates of the prevalence and recent growth of reported Covid-19 cases in large US metropolitan areas. We update this page regularly with the most recent available data. The data on this page was last updated with data on counts of cases through March 28, 2020. Caution should be used in interpreting these figures. Case data can vary from the actual incidence of Corona virus infections due to differences in testing regimes and availability across jurisdictions, as well as other factors. We believe that metro area levels and trends may be a useful geography for understanding the spread and intensity of the pandemic: most published data are available at only the state or county level. States are too large to accurately capture the the incidence of the pandemic; and counties are often too variable and too small. Metro areas capture labor markets and commuting sheds, and are defined consistently, making them more appropriate geographic units for judging the spread of the virus. As is our common practice at City Observatory, our focus is on metro areas with populations of 1 million or more.
Metro areas ranked by reported Covid-19 cases per 100,000 population
The following chart shows the number of reported cases of Covid-19 cases per 100,000 population is US metropolitan areas with a population of 1 million or more as of March 28, 2020. Metropolitan data are computed by aggregating county level data available from USAFacts.org. Metropolitan areas are ranked highest to lowest according to the number of reported cases per capita.
New York, New Orleans, Seattle and Detroit have the highest number of cases per capita of US metro areas. New York’s rate is currently 302 cases per 100,000. New Orleans (186),Detroit (93) and Seattle (83) have the next highest rates of reported cases. The median large metropolitan area has about 16.6 cases per 100,000 population.
Map of metro areas, reported Covid-19 cases per 100,000 population
The following map illustrates the relative number of reported Covid-19 cases per capita among large US metropolitan areas. Darker red colors indicate metro areas with the highest reported incidence of cases. Numbers on each metro area represent cases per 100,000 on March 28.
Growth rates in the number of cases
The key strategy in fighting the Covid-19 pandemic is reducing social distancing to slow the rate of transmission of the virus. A key indicator of whether we are “flattening the curve” is whether the growth rate of the number of cases is increasing or decreasing. The following chart shows the growth in the number of cases for selected metropolitan areas from March 13 through March 28.
The growth rates of the four cities with the highest rates of reported cases per capita paint divergent and interesting patterns of the pandemic. For a time, Seattle had the highest rate of cases per capita of any US city. That has changed in the past two weeks. New York, New Orleans, and Detroit have surpassed Seattle. On March 19, Seattle, New York and New Orleans all had nearly the same number of reported cases per 100,000 (about 30 per capita). Since then, their growth paths have diverged: New York has grown most rapidly, followed by New Orleans; Seattle’s growth has been subdued. Meanwhile, over that same period of time, the growth of cases in Detroit has increased sharply: On March 18, Detroit had just 1.4 reported cases per 100,000 population, essentially the same as the median of all large metro areas. By March 28, that had increased to 93 cases per 100,000; the third highest rate among large US metro areas.
To put the spread of the pandemic in context, it is worth noting that just fifteen dayws ago, no large US metro had a prevalence of reported Covid-19 cases of more than 15 per 100,000 population (Seattle was 12.2). Today, more than 60 percent (32 of 53) of the nation’s 53 largest metro areas have a reported prevalence of more than 15 cases per 100,000. Over the past few weeks, it appears that there’s about two weeks difference between the worst afflicted metro, and the typical large metro. Whether that continues to be the case depends on the efficacy of social distancing and other measures.
Prevalence versus Growth
Slowing or stopping the spread of the virus depends on steadily decreasing the growth rate in the number of cases. This is especially important as the prevalence of the virus becomes more widespread. Here we’ve plotted the current prevalence of reported cases in each metropolitan area (shown on the horizontal axis) against the growth rate of reported cases in the past week in that metropolitan area (on the vertical axis). The number of cases in each metropolitan area is proportional to the size of the circle representing each metro area. You can mouse-over individual circles on the chart to fully identify each metro area, and see the underlying data for numbers of cases, cases per 100,000 and the growth rate in cases over the last week.
We’ve used the means of the two variables (growth rate (25% daily) and number of cases per 100,000 (31), to divide the chart into four quadrants. These quadrants help sort out which metro areas are experiencing the crisis to a greater or lesser degree. Metro areas in the upper right hand quadrant are clearly most afflicted: they have both higher than average rates of cases per capita and are growing faster than the average metro area (in the past week). The lower right hand quadrant identifies metro areas with relatively higher rtes of cases per capita, but slower rates of increase. Ideally, one wants to be in the lower left hand quadrant (low number of cases per capita, low growth rate). The upper left hand quadrant is uncertain, but with cause for concern: these cities (so far) have lower rates of cases per capita, but are seeing the virus spread faster than in the average metro area. Memphis and Providence both have high rates of increases in the number of cases in the past week, but on a very low base, so the weekly growth rate may not be representative of the longer term trend. Over time, the strategy of flattening the curve should lead individual metropolitan areas to progress from the upper left hand quadrant (low rates and fast growth) to the lower right hand quadrant (lower rates and lower growth).
To make this picture a bit clearer, we’ve shortened the horizontal scale to exclude the two cities–New York and New Orleans–wit the highest numbers of cases per capita. This chart makes it clearer which cities are in which quadrants.
The table and map rely on published data from state health departments, aggregated by USAFActs.org. Please use caution in interpreting these data. It is likely that in some areas, the number of cases is under-reported due to the lack of available testing capacity, or pressing medical conditions. There are widespread differences in the number of tests administered relative to the size of the population in each state, and tests are not given randomly, and may be restricted solely to persons with symptoms, likely exposure or high risk in some states. As a result, the ratio of reported to unreported, undiagnosed cases may vary across geography. Moreover, changes in reported numbers of cases from day to day or week to week may reflect changes in the availability or application of testing over time, rather than the true rate of growth in the number of persons affected.
Notes and revisions
An earlier version of estimates for the New York Metropolitan area reported on March 25 included an incorrect estimate of the rate of reported Covid-19 cases per 100,000 population. The actual reported incidence for that date was 179.2, not 259 City Observatory originally reported. City Observatory regrets this error, and has adjusted its population aggregation methodology to resolve this problem. Data for New York City are reported as a single entity in the USA Facts database and are not disaggregated by county (borough); Our original tabulations included all cases from all five boroughs but mistakenly excluded population for the boroughs of Queens, Bronx, Brooklyn and Staten Island from the denominator, inflating our reported estimate of the rate per capita.
Prevalence of Covid-19 in large US metro areas
UPDATED, March 29, 2020
NOTE: More recent data is now available here.
Among the 53 metro areas with a million or more population:
City Observatory presents here its estimates of the prevalence and recent growth of reported Covid-19 cases in large US metropolitan areas. We update this page regularly with the most recent available data. The data on this page was last updated with data on counts of cases through March 28, 2020. Caution should be used in interpreting these figures. Case data can vary from the actual incidence of Corona virus infections due to differences in testing regimes and availability across jurisdictions, as well as other factors. We believe that metro area levels and trends may be a useful geography for understanding the spread and intensity of the pandemic: most published data are available at only the state or county level. States are too large to accurately capture the the incidence of the pandemic; and counties are often too variable and too small. Metro areas capture labor markets and commuting sheds, and are defined consistently, making them more appropriate geographic units for judging the spread of the virus. As is our common practice at City Observatory, our focus is on metro areas with populations of 1 million or more.
Metro areas ranked by reported Covid-19 cases per 100,000 population
The following chart shows the number of reported cases of Covid-19 cases per 100,000 population is US metropolitan areas with a population of 1 million or more as of March 28, 2020. Metropolitan data are computed by aggregating county level data available from USAFacts.org. Metropolitan areas are ranked highest to lowest according to the number of reported cases per capita.
New York, New Orleans, Seattle and Detroit have the highest number of cases per capita of US metro areas. New York’s rate is currently 302 cases per 100,000. New Orleans (186),Detroit (93) and Seattle (83) have the next highest rates of reported cases. The median large metropolitan area has about 16.6 cases per 100,000 population.
Map of metro areas, reported Covid-19 cases per 100,000 population
The following map illustrates the relative number of reported Covid-19 cases per capita among large US metropolitan areas. Darker red colors indicate metro areas with the highest reported incidence of cases. Numbers on each metro area represent cases per 100,000 on March 28.
Growth rates in the number of cases
The key strategy in fighting the Covid-19 pandemic is reducing social distancing to slow the rate of transmission of the virus. A key indicator of whether we are “flattening the curve” is whether the growth rate of the number of cases is increasing or decreasing. The following chart shows the growth in the number of cases for selected metropolitan areas from March 13 through March 28.
The growth rates of the four cities with the highest rates of reported cases per capita paint divergent and interesting patterns of the pandemic. For a time, Seattle had the highest rate of cases per capita of any US city. That has changed in the past two weeks. New York, New Orleans, and Detroit have surpassed Seattle. On March 19, Seattle, New York and New Orleans all had nearly the same number of reported cases per 100,000 (about 30 per capita). Since then, their growth paths have diverged: New York has grown most rapidly, followed by New Orleans; Seattle’s growth has been subdued. Meanwhile, over that same period of time, the growth of cases in Detroit has increased sharply: On March 18, Detroit had just 1.4 reported cases per 100,000 population, essentially the same as the median of all large metro areas. By March 28, that had increased to 93 cases per 100,000; the third highest rate among large US metro areas.
To put the spread of the pandemic in context, it is worth noting that just fifteen dayws ago, no large US metro had a prevalence of reported Covid-19 cases of more than 15 per 100,000 population (Seattle was 12.2). Today, more than 60 percent (32 of 53) of the nation’s 53 largest metro areas have a reported prevalence of more than 15 cases per 100,000. Over the past few weeks, it appears that there’s about two weeks difference between the worst afflicted metro, and the typical large metro. Whether that continues to be the case depends on the efficacy of social distancing and other measures.
Prevalence versus Growth
Slowing or stopping the spread of the virus depends on steadily decreasing the growth rate in the number of cases. This is especially important as the prevalence of the virus becomes more widespread. Here we’ve plotted the current prevalence of reported cases in each metropolitan area (shown on the horizontal axis) against the growth rate of reported cases in the past week in that metropolitan area (on the vertical axis). The number of cases in each metropolitan area is proportional to the size of the circle representing each metro area. You can mouse-over individual circles on the chart to fully identify each metro area, and see the underlying data for numbers of cases, cases per 100,000 and the growth rate in cases over the last week.
We’ve used the means of the two variables (growth rate (25% daily) and number of cases per 100,000 (31), to divide the chart into four quadrants. These quadrants help sort out which metro areas are experiencing the crisis to a greater or lesser degree. Metro areas in the upper right hand quadrant are clearly most afflicted: they have both higher than average rates of cases per capita and are growing faster than the average metro area (in the past week). The lower right hand quadrant identifies metro areas with relatively higher rtes of cases per capita, but slower rates of increase. Ideally, one wants to be in the lower left hand quadrant (low number of cases per capita, low growth rate). The upper left hand quadrant is uncertain, but with cause for concern: these cities (so far) have lower rates of cases per capita, but are seeing the virus spread faster than in the average metro area. Memphis and Providence both have high rates of increases in the number of cases in the past week, but on a very low base, so the weekly growth rate may not be representative of the longer term trend. Over time, the strategy of flattening the curve should lead individual metropolitan areas to progress from the upper left hand quadrant (low rates and fast growth) to the lower right hand quadrant (lower rates and lower growth).
To make this picture a bit clearer, we’ve shortened the horizontal scale to exclude the two cities–New York and New Orleans–wit the highest numbers of cases per capita. This chart makes it clearer which cities are in which quadrants.
The table and map rely on published data from state health departments, aggregated by USAFActs.org. Please use caution in interpreting these data. It is likely that in some areas, the number of cases is under-reported due to the lack of available testing capacity, or pressing medical conditions. There are widespread differences in the number of tests administered relative to the size of the population in each state, and tests are not given randomly, and may be restricted solely to persons with symptoms, likely exposure or high risk in some states. As a result, the ratio of reported to unreported, undiagnosed cases may vary across geography. Moreover, changes in reported numbers of cases from day to day or week to week may reflect changes in the availability or application of testing over time, rather than the true rate of growth in the number of persons affected.
Notes and revisions
An earlier version of estimates for the New York Metropolitan area reported on March 25 included an incorrect estimate of the rate of reported Covid-19 cases per 100,000 population. The actual reported incidence for that date was 179.2, not 259 City Observatory originally reported. City Observatory regrets this error, and has adjusted its population aggregation methodology to resolve this problem. Data for New York City are reported as a single entity in the USA Facts database and are not disaggregated by county (borough); Our original tabulations included all cases from all five boroughs but mistakenly excluded population for the boroughs of Queens, Bronx, Brooklyn and Staten Island from the denominator, inflating our reported estimate of the rate per capita.
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