StopardIJSanouASuhE, et al.Modelling the effects of diurnal temperature variation on malaria infection dynamics in mosquitoes. Commun Biol2025; 8: 581.
2.
AbbasiE. The impact of climate change on travel-related vector-borne diseases: a case study on dengue virus transmission. Travel Med Infect Dis2025; 65: 102841.
3.
MoraCMcKenzieTGawIM, et al.Over half of known human pathogenic diseases can be aggravated by climate change. Nat Clim Chang2022; 12: 869–875.
4.
DelwelIOMordecaiEA. Molecules to spillover: how climate warming impacts mosquito-borne viruses. Curr Opin Virol2025; 72: 101473.
5.
IslamJFrentiuFDDevineGJ, et al.A state-of-the-science review of long-term predictions of climate change impacts on dengue transmission risk. Environ Health Perspect2025; 133: 056002.
6.
Ardiansyah AkbarKKumala FatmaRElamouriF, et al.Climate change and dengue fever: a 14-year study of mortality trends during 2010–2023 in Indonesia. Travel Med Infect Dis2025; 67: 102893.
7.
KnoblauchSMukaratirwaRTPimentaPFP, et al.Urban Aedes aegypti suitability indicators: a study in Rio de Janeiro, Brazil. Lancet Planetary Health2025; 9: e264–e273.
8.
YuWLiCRoyéD, et al.Anthropogenic climate change contributed to excess dengue risk related to hydrometeorological conditions in Brazil and China. One Earth2025; 8(10): 101388.
9.
NakhaieMShahparARezaei Zadeh RukerdM, et al.Dengue fever: viral, environmental, and human factors driving expansion and pandemic risk.Rev Med Virol2026; 36(1): e70088. https://doi.org/10.1002/rmv.70088
10.
AbbasiE. The impact of climate change on Aedes aegypti distribution and dengue fever prevalence in semi-arid regions: a case study of Tehran Province, Iran. Environ Res2025; 275: 121441.
11.
MajeedSAkramWSufyanM, et al.Climate change: a major factor in the spread of Aedes aegypti (Diptera: Culicidae) and its associated dengue virus. Insects2025 May 11; 16(5): 513. https://doi.org/10.3390/insects16050513. PMID: 40429226; PMCID: PMC12112272.
