Eliciting Beliefs about COVID-19 Prevalence and Mortality: Epidemiological Models Compared with The Street

•Accurate elicitation of beliefs requires incentivization for truthful reports.•Beliefs about COVID-19 interact with risk management efforts.•We elicit beliefs about COVID-19 prevalence and mortality over a 6-month period.•Beliefs on The Street differ markedly from epidemiological models of the viru...

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Veröffentlicht in:Methods (San Diego, Calif.) Calif.), 2021-11, Vol.195, p.103-112
Hauptverfasser: Harrison, Glenn W., Hofmeyr, Andre, Kincaid, Harold, Monroe, Brian, Ross, Don, Schneider, Mark, Swarthout, J. Todd
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Sprache:eng
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Zusammenfassung:•Accurate elicitation of beliefs requires incentivization for truthful reports.•Beliefs about COVID-19 interact with risk management efforts.•We elicit beliefs about COVID-19 prevalence and mortality over a 6-month period.•Beliefs on The Street differ markedly from epidemiological models of the virus. Subjective belief elicitation about uncertain events has a long lineage in the economics and statistics literatures. Recent developments in the experimental elicitation and statistical estimation of subjective belief distributions allow inferences about whether these beliefs are biased relative to expert opinion, and the confidence with which they are held. Beliefs about COVID-19 prevalence and mortality interact with risk management efforts, so it is important to understand relationships between these beliefs and publicly disseminated statistics, particularly those based on evolving epidemiological models. The pandemic provides a unique setting over which to bracket the range of possible COVID-19 prevalence and mortality outcomes given the proliferation of estimates from epidemiological models. We rely on the epidemiological model produced by the Institute for Health Metrics and Evaluation together with the set of epidemiological models summarised by FiveThirtyEight to bound prevalence and mortality outcomes for one-month, and December 1, 2020 time horizons. We develop a new method to partition these bounds into intervals, and ask subjects to place bets on these intervals, thereby revealing their beliefs. The intervals are constructed such that if beliefs are consistent with epidemiological models, subjects are best off betting the same amount on every interval. We use an incentivised experiment to elicit beliefs about COVID-19 prevalence and mortality from 598 students at Georgia State University, using six temporally-spaced waves between May and November 2020. We find that beliefs differ markedly from epidemiological models, which has implications for public health communication about the risks posed by the virus.
ISSN:1046-2023
1095-9130
DOI:10.1016/j.ymeth.2021.04.003