Mosquito control manages the population of mosquitoes to reduce their damage to human health, economies, and enjoyment. Control strategies range from habitat modification and chemical insecticides to biological agents and mechanical traps. Rising global temperatures have expanded mosquito habitats and disease risks, prompting a greater focus on community-led education programs to play key roles in reducing breeding grounds and tracking mosquito populations.

Mosquito-control operations are targeted to multiple problems:

Disease organisms transmitted by mosquitoes include West Nile virus, Saint Louis encephalitis virus, Eastern equine encephalomyelitis virus, Everglades virus, Highlands J virus, La Crosse encephalitis virus in the United States; dengue fever, yellow fever, Ilhéus virus, malaria, Zika virus and filariasis in the American tropics; Rift Valley fever, Wuchereria bancrofti, Japanese encephalitis, chikungunya and filariasis in Africa and Asia; and Murray Valley encephalitis and Ross River fever in Australia. Vertical transmission from adult mosquitos to larvae is possible.

Depending on the situation, source reduction, biocontrol, larviciding (killing of larvae), or adulticiding (killing of adults) may be used to manage mosquito populations. These techniques are accomplished using habitat modification, pesticide, biological-control agents, and trapping. The advantage of non-toxic methods of control is they can be used in conservation areas.

Integrated pest management (IPM) is the use of the most environmentally appropriate method or combination of methods to control pest populations. Typical mosquito-control programs using IPM first conduct surveys, in order to determine the species composition, relative abundance and seasonal distribution of adult and larval mosquitoes, and only then is a control strategy defined.

Adult mosquito populations may be monitored by landing rate counts, mechanical traps or by, lidar technology. For landing rate counts, an inspector visits a set number of sites every day, counting the number of adult female mosquitoes that land on a part of the body, such as an arm or both legs, within a given time interval. Mechanical traps use a fan to blow adult mosquitoes into a collection bag that is taken back to the laboratory for analysis of catch. The mechanical traps use visual cues (light, black/white contrasts) or chemical attractants that are normally given off by mosquito hosts (e.g., carbon dioxide, ammonia, lactic acid, octenol) to attract adult female mosquitoes. These cues are often used in combination. Entomology lidar detection has the possibility of showing the difference between male and female mosquitoes.

Monitoring larval mosquito populations involves collecting larvae from standing water with a dipper or a turkey baster. The habitat, approximate total number of larvae and pupae, and species are noted for each collection. An alternative method works by providing artificial breeding spots (ovitraps) and collecting and counting the developing larvae at fixed intervals. Monitoring these mosquito populations is crucial to see what species are present, if mosquito numbers are rising or falling, and detecting any diseases they carry.

Mosquito Alert is a cooperative citizen science project, currently run as a non-profit and coordinated by four public research centers in Spain. The aim of the project is to study, monitor, and fight the spread of invasive mosquitos. The project provided the first detection of the Asian bush mosquito Aedes japonicus in Spain in 2018, providing the first report of a population of mosquitos that were located 1,300 km from their previously nearest known location in Europe.