Abstract
Epidemics can particularly threaten certain sub-populations. For example, for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the elderly are often preferentially protected. For diseases of plants and animals, certain sub-populations can drive mitigation because they are intrinsically more valuable for ecological, economic, socio-cultural or political reasons. Here, we use optimal control theory to identify strategies to optimally protect a ‘high-value’ sub-population when there is a limited budget and epidemiological uncertainty. We use protection of the Redwood National Park in California in the face of the large ongoing state-wide epidemic of sudden oak death (caused by Phytophthora ramorum) as a case study. We concentrate on whether control should be focused entirely within the National Park itself, or whether treatment of the growing epidemic in the surrounding ‘buffer region’ can instead be more profitable. We find that, depending on rates of infection and the size of the ongoing epidemic, focusing control on the high-value region is often optimal. However, priority should sometimes switch from the buffer region to the high-value region only as the local outbreak grows. We characterize how the timing of any switch depends on epidemiological and logistic parameters, and test robustness to systematic misspecification of these factors due to imperfect prior knowledge.
Highlights
Management of emerging infectious disease is most likely to be successful when it starts as soon as possible
In the context of Redwood Creek and sudden oak death, the generally infested area would correspond to the large epidemic across large parts of California [41], the buffer region would be the recently infected forests of the Redwood Creek watershed [45] and the high-value region would be the Redwood National Park [46]
To reduce the number of state variables and parameters in our model, we simplify the epidemic in the generally infested area such that it is represented as a source of external inoculum, generating a constant force of infection upon the buffer region
Summary
Management of emerging infectious disease is most likely to be successful when it starts as soon as possible. Our recent experience with coronavirus disease 2019 (COVID-19) provides an object lesson. Governments of some countries in the Asia-Pacific region took early and decisive action to introduce non-pharmaceutical interventions [7,8]. Certain of these countries, perhaps most notably New Zealand, appear to continue to be in a very good position to face the ongoing challenge of the global pandemic [9]. Despite recent incursions [10], they seem better placed than any other nation to enact the ‘zero COVID’ strategy based on prompt responses to any incursion, with no tolerance for community transmission [11]
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