Showing total 2 results

1. The neglected role of relative humidity in the interannual variability of urban malaria in Indian cities.

Author

Santos-Vega, M., Martinez, P. P., Vaishnav, K. G., Kohli, V., Desai, V., Bouma, M. J., and Pascual, M.

Subjects

MALARIA, MEDICAL climatology, DISEASE incidence, HUMIDITY, CITIES & towns, URBAN climatology, TEMPERATURE effect, URBAN agriculture

Abstract

The rapid pace of urbanization makes it imperative that we better understand the influence of climate forcing on urban malaria transmission. Despite extensive study of temperature effects in vector-borne infections in general, consideration of relative humidity remains limited. With process-based dynamical models informed by almost two decades of monthly surveillance data, we address the role of relative humidity in the interannual variability of epidemic malaria in two semi-arid cities of India. We show a strong and significant effect of humidity during the pre-transmission season on malaria burden in coastal Surat and more arid inland Ahmedabad. Simulations of the climate-driven transmission model with the MLE (Maximum Likelihood Estimates) of the parameters retrospectively capture the observed variability of disease incidence, and also prospectively predict that of 'out-of-fit' cases in more recent years, with high accuracy. Our findings indicate that relative humidity is a critical factor in the spread of urban malaria and potentially other vector-borne epidemics, and that climate change and lack of hydrological planning in cities might jeopardize malaria elimination efforts. Climate conditions and urbanization can be major drivers of vector-borne infections. Here the authors demonstrate that an often-neglected climate variable, humidity, is an important factor for malaria epidemics in two urban areas in India. [ABSTRACT FROM AUTHOR]

Published

2022

2. The neglected role of relative humidity in the interannual variability of urban malaria in Indian cities.

Author

Santos-Vega, M., Martinez, P. P., Vaishnav, K. G., Kohli, V., Desai, V., Bouma, M. J., and Pascual, M.

Subjects

MALARIA, MEDICAL climatology, DISEASE incidence, HUMIDITY, CITIES & towns, URBAN planning, URBAN climatology, TEMPERATURE effect

Abstract

The rapid pace of urbanization makes it imperative that we better understand the influence of climate forcing on urban malaria transmission. Despite extensive study of temperature effects in vector-borne infections in general, consideration of relative humidity remains limited. With process-based dynamical models informed by almost two decades of monthly surveillance data, we address the role of relative humidity in the interannual variability of epidemic malaria in two semi-arid cities of India. We show a strong and significant effect of humidity during the pre-transmission season on malaria burden in coastal Surat and more arid inland Ahmedabad. Simulations of the climate-driven transmission model with the MLE (Maximum Likelihood Estimates) of the parameters retrospectively capture the observed variability of disease incidence, and also prospectively predict that of 'out-of-fit' cases in more recent years, with high accuracy. Our findings indicate that relative humidity is a critical factor in the spread of urban malaria and potentially other vector-borne epidemics, and that climate change and lack of hydrological planning in cities might jeopardize malaria elimination efforts. Climate conditions and urbanization can be major drivers of vector-borne infections. Here the authors demonstrate that an often-neglected climate variable, humidity, is an important factor for malaria epidemics in two urban areas in India. [ABSTRACT FROM AUTHOR]

Published

2022