Climate Change is expected to expand malaria transmission range and population at risk in Papua New Guinea

Rising temperatures can expand malaria transmission into higher altitudes. This is relevant for the projection of future resource needs to sustain malaria control. In Papua New Guinea (PNG), malaria transmission is intense at low altitudes, but new infections are rarely acquired above 1600 m.

The present study applied the basic reproduction number (R ₀ ) over temperature to assess changes in malaria transmission ranges in PNG over past decades (1960 to 2019) and in the near future by using satellite-based temperature data and climate projections for 2021 to 2040. The analysis considered geographic range shifts for malaria temperature suitability, the resulting changes in the population at risk and effectiveness of interventions.

Malaria temperature suitability ranges have subtly changed between 1960 and 2019, with the proportion of people living in suitable areas increasing from 58% to 61% (equivalent to 249,125 people). Under a conservative climate change model, this proportion is expected increase to 74% by 2040 (equivalent to 2,802,709 people). Interventions had a larger impact on malaria incidence in areas with R ₀ <0.3, mitigating the current and future impact of climate change.

Nevertheless, the number of people requiring access to malaria control is expected to double by 2040, to 13.4 million with 2.8 million attributed to climate change alone. The impacted areas are densely populated highlands regions with a more susceptible population and an increased potential for epidemics and clinical disease.

These findings underscore the challenges of climate change for malaria elimination in PNG and highlight the need to accurately guide preparedness and forecast the additional resource requirements.

Key Findings

Climate change and population growth are predicted to double the number of people at risk of malaria by 2040

The altitude limit for malaria transmission will shift by about 300 m by 2040 as compared to 1960.

Current control strategies had a much higher impact to sustainably reduce malaria incidence at higher altitudes