Vaccinating Now or Vaccinating Later: Separating Pull-Forward and Net Effects Using a Dynamic Regression Discontinuity Design

We study the impact of a novel COVID-19 vaccine mandate, targeting graduating high-school students, on first vaccine uptake. In 2021, the State Government of Western Australia (WA) required attendees at "Leavers" -- a large-scale state-supported graduation party held annually in November in a WA regional town -- to be vaccinated. Using administrative data that link date-of-birth (at the month level), school attendance, and first-dose vaccination records, we exploit the strict school-age laws in WA to run regression discontinuity designs (RDDs). In other words, we use the date-of-birth cutoff for starting compulsory schooling in WA to build the counterfactual vaccination outcomes for Year-12 (i.e. graduating) students. We run both static and dynamic RDDs, the latter consisting of daily RDD estimations in a one-year window centred around the policy deadline in November 2021. We find that the "Leavers mandate" -- which excluded unvaccinated Year-12 students from popular post-graduation events -- raised vaccination rates by 9.3 percentage points at the mandate deadline. The dynamic RDD estimates show that this effect is entirely due to pulling forward future vaccinations by 46-80 days, with no net increase in ultimate uptake. Our paper is first to disentangle "pull-forward" (intensive margin) versus "net" (extensive margin) effects of a vaccine mandate in a pandemic context -- meaning that we identify how much the mandate made eventually-vaccinated people anticipate their vaccination, and how much it induced vaccinations that would not have happened absent the mandate. We also bring new evidence on the efficacy of time-limited non-monetary incentives for accelerating vaccination campaigns. Keywords: mandate; vaccination; incentives; uptake; adolescents; timing; coverage. JEL: I12; I18.