While personal repellents are an essential defense against mosquito bites, broader environmental approaches are also crucial. Mosquito control agencies around the world often use insecticides to target mosquito larvae and adults. Larvicides, which are designed to kill mosquito larvae before they can grow into adults, are typically applied to bodies of water where mosquitoes are known to breed. Adulticides, on the other hand, are used to kill adult mosquitoes, often via fogging or spraying. However, the use of chemical insecticides has raised concerns about environmental impact, resistance development in mosquitoes, and potential health effects on humans and wildlife. This has led to increasing interest in integrated pest management (IPM) approaches, which combine chemical, biological, and cultural methods to control mosquito populations with minimal ecological disruption.

One of the most promising biological controls is the use of natural predators to keep mosquito populations in check. Certain fish species, like guppies and mosquitofish, feed on mosquito larvae, and introducing these fish into ponds and other water bodies can significantly reduce mosquito numbers. Dragonflies, both in their larval stage (when they live in water) and as adults, are also effective mosquito predators. Similarly, bats and birds, especially swallows and purple martins, consume large quantities of adult mosquitoes. Encouraging the presence of these natural predators through habitat creation can be an eco-friendly way to manage mosquito populations.

Another cutting-edge approach involves genetically modifying mosquitoes to reduce their ability to spread diseases or to reduce their population altogether. One such method involves releasing sterile male mosquitoes into the wild, which, when they mate with females, result in eggs that do not hatch. This approach has shown promising results in reducing mosquito populations in several trial areas. Another approach anti zanzare  is to genetically modify mosquitoes so that they cannot carry certain viruses, such as the dengue or Zika viruses. These mosquitoes are released into the wild, where they breed with the natural population, gradually reducing the number of mosquitoes capable of transmitting diseases. While genetic modification of mosquitoes offers great promise, it also raises ethical and ecological questions that need to be carefully considered.

In addition to chemical and biological approaches, physical barriers are an important aspect of mosquito control. Mosquito nets, particularly insecticide-treated nets, are one of the most effective tools for preventing mosquito bites, especially in areas where malaria is endemic. These nets are hung over beds or sleeping areas, creating a barrier that prevents mosquitoes from reaching people while they sleep. The addition of insecticides to the nets increases their effectiveness, as it kills or repels mosquitoes that come into contact with the netting. Long-lasting insecticidal nets (LLINs) are designed to remain effective for several years, even after multiple washes, making them a cost-effective solution for communities in high-risk areas.