Interfacing vector-borne disease dynamics with climate change : implications for the attainment of SDGs in Masvingo city, Zimbabwe
Abstract
This study used a mixed-methods research design to examine the sensitivity of vector-borne
disease (VBD) patterns to the changes in rainfall and temperature trends. The research focused
on malaria in Masvingo Province, Zimbabwe. The study interfaced the climate action, health
and sustainable cities and communities with sustainable development goals (SDGs). Historical
climate and epidemiological data were used to compute the correlations and determine the
possible modifications of disease patterns. Clustered random and chain-referral sampling
approaches were used to select study sites and respondents. Primary data were gathered
through a questionnaire survey (n = 191), interviews and focus group discussions, with Mann–
Kendal trend tests performed using XLSTAT 2020. The results show a positive correlation
between malaria prevalence rates and temperature-related variables. A decline in precipitation-related
variables, specifically mean monthly precipitation (MMP), was associated with an
increase in malaria prevalence. These observations were confirmed by the views of the
respondents, which show that climate change has a bearing on malaria spatial and temporal
dynamics in Masvingo Province. The study concludes that climate change plays a contributory
role in VBD dynamics, thereby impeding the attainment of the 2030 Agenda for Sustainable
Development, especially SDG 3, which deals with health. The study recommends further
research into appropriate adaptation mechanisms to increase the resilience of rural and urban
communities against the negative transmutations associated with weather and climatic
pressures.