Background Quantifying the effects of climate change on the entomological and
epidemiological components of vector-borne diseases is an essential part of climate change …

Morphometric analysis of wings has been suggested for identifying and controlling isolated
populations of tsetse (Glossina spp), vectors of human and animal trypanosomiasis in Africa …

Background It has been suggested that attempts to eradicate populations of tsetse (Glossina
spp.) using stationary targets might fail because smaller, less mobile individuals are unlikely …

Significant reductions in populations of tsetse (Glossina spp) in parts of Zimbabwe have
been attributed to increases in temperature over recent decades. Sustained increases in …

Climate change is altering the abundance and geographic distributions of insects, with
potential consequences for human health, sustainable agriculture, and ecosystem function …

Environmental temperature is an important driver of the population dynamics of tsetse
(Glossina spp) because the fly's immature stages are particularly vulnerable to temperatures …

Background Tsetse flies (Glossina) transmit species of Trypanosoma which cause human
African trypanosomiasis (HAT) and animal African trypanosomiasis (AAT). Understanding …

Theory suggests females should optimize resource allocation across reproductive bouts to
maximize lifetime reproduction, balancing current and future reproductive efforts according …

Human and animal trypanosomiasis, spread by tsetse flies (Glossina spp), is a major public
health concern in much of sub-Saharan Africa. The basic reproduction number of vector …

Age‐dependent mortality changes in haematophagous insects are difficult to measure but
are important determinants of population dynamics and vectorial capacity. A Markov process …