According to the World Health Organization (WHO), climate changes may represent the greatest global threat to public health in the 21st century, with consequences for every aspect of human life, including health. Climate changes significantly impacts on non-communicable and to a large extent, communicable diseases. A particular risk is associated with vector-borne diseases, due to the direct influence of climate change on both microorganisms and their vectors. The main factors contributing to these changes include rising temperatures, shifts in precipitation patterns, an increased frequency of extreme weather events, and water acidification. The effects of these changes manifest as alterations in the distribution and survival of microorganisms, increased virulence, and enhanced resistance, including antimicrobial resistance. Climate change also significantly affects vectors that transmit infectious diseases, such as mosquitoes, ticks, rodents, and flies. It can lead to an increase in vector populations, shortened life cycles, expanded geographic ranges, and prolonged disease transmission seasons. A specific challenge is the development of vector resistance to insecticides used for their control. This resistance results from a combination of biological, ecological and evolutionary factors. Key mechanisms contributing to this phenomenon include the evolutionary adaptation of vectors to adverse conditions, heightened expression of resistance genes encoding detoxifying enzymes, and accelerated arthropod metabolism at higher temperatures, which speeds up insecticide breakdown and reduces their effectiveness. Insecticide resistance complicates efforts to control vector populations, thereby increasing the risk of disease transmission. Today, this poses a global challenge in controlling vector-borne diseases such as malaria, dengue, chikungunya, Zika fever and others. Climate change also influences shifts in the microbial flora of soil and water, potentially leading to the emergence of new pathogens or increased virulence of existing ones. Threatened biodiversity may facilitate the transmission of pathogens from animals to humans, either through vectors or directly, heightening the risk of new epidemics and pandemics.