Bats, Man-Made Roosts, and Mosquito Control

Bats are primary predators of vast numbers of insects that fly at night, and some species consume large numbers of mosquitoes. However, mosquito control is a complex problem that rarely can be solved by a single approach, be it bat houses or pesticides.

A variety of options should be considered, though existing chemical pesticides typically cause more long-term problems than they solve. Chemical poisons kill natural mosquito predators more effectively than mosquitoes. Over time, predators such as fish, mosquito-eating insects and bats die out, while mosquitoes develop resistance, enabling them to multiply in ever-larger numbers in a losing battle often referred to as “the pesticide treadmill.”

Individuals of some bat species can capture from 500 to 1,000 mosquitoes in a single hour1, 2 and large colonies can consume enormous quantities. For example, a Florida colony of 30,000 southeastern bats (Myotis austroriparius) was estimated to consume 50 tons (45 t) of insects annually, including over 15 tons (13.5 t) of mosquitoes,3 and from 77.4% to 84.6% of little brown bats (M. lucifugus) living in the northern U.S. and Canada eat mosquitoes.4,5 Nursing mothers of these species eat up to their body weight in insects nightly,6 and often can be attracted to live in bat houses.7

However, despite the numbers of mosquitoes that bats eat, simple provision of additional roosts should not be promoted as more than one step in the right direction toward solving mosquito problems. In some cases bat houses may help and in others, they may not. Bats are just one of several groups of animals that naturally prey on mosquitoes. Their relative importance appears to vary from none to high in different locations. In some areas, such as in the far northern tundra or in the Florida Keys, habitats are relatively simple and cannot support more than a few bats or other insectivorous animals, largely precluding natural control. In other locations human activities have converted once-diverse biological communities into much simpler farm and yard conditions. Such simple habitats may produce huge hatches of mosquitoes and other insect pests on an occasional basis, while providing insufficient other insect species (such as harmless mayflies) to feed insectivorous animals between hatches of pests. As a result, once-abundant predators that help keep nature in balance are lost. Additional roosts alone may not bring them back.

In some areas, bats may never have been significant predators of mosquitoes, while in others they may have been important. Certainly, in areas like Chautauqua, New York, where bats apparently still play an essential role, all possible precautions should be taken to ensure their continued presence. And where bats are known to have declined, their recovery should be encouraged. Providing additional bat roosts is just one aspect of bat conservation, and saving bats is just one aspect of enhancing natural control of mosquitoes.

It is impossible in most cases, either chemically or naturally, to completely eliminate mosquitoes, though their numbers can be substantially reduced, and in the long run, this is best done by non-chemical means, especially by draining unnatural sources of standing water. Putting up bat houses may help in places where bats can be attracted, but even successful bat houses do not always attract a species that feeds on mosquitoes. Bat houses are most likely to succeed where bats are already known to use old buildings, barns or bridges. Such roosting habitat typically is being replaced by structures that are unsuitable for bats, forcing them to find new roosts or die. Participants in the North American Bat House Research Project have attracted many thousands of bats to new locations using bat houses, but success is not certain in all areas. In some, simply using bat-friendly bridge designs can attract tens or hundreds of thousands of bats. In other places, loss of hibernation caves hundreds of miles away may preclude further use of an area by a bat species that feeds on mosquitoes. Other species that eat primarily beetles or moths, but do not require caves for hibernation, may still be abundant, with little impact on mosquitoes.

All American bats are beneficial, though their diets vary considerably. While mosquitoes may bother us most directly, many beetles, moths and other insects consumed by bats are important pests of yards and gardens. Building bat houses can help in many ways, though not always in mosquito control.

Although no single approach to mosquito control is appropriate for all locations, encouraging natural predators should be an important element in long-term planning wherever possible. Anything that can be done to encourage predation from aquatic insects, fish or bats may be important in reducing mosquito numbers.

1. Griffin, D.G., R.A. Webster, and C.R. Michael. 1960. The echolocation of flying insects by bats. Animal Behavior, 8:141-154.

2. Rydell, J. 1990. The northern bat of Sweden: Taking advantage of a human environment. Bats, 8 (2):8-11.

3. Zinn, L., and S.R. Humphrey. 1976.Insect communities available as prey and foraging of the southeastern brown bat. Proceedings of the 7th Annual North American Symposium on Bat Research, unpublished paper presented at symposium.

4. Anthony, E.L.P, and T.H. Kunz. 1977. Feeding strategies of the little brown bat, Myotis lucifugus, in southern New Hampshire. Ecology, 58:775-786.

5. Fascione, N., T. Marceron, and M.B. Fenton. 1991. Evidence of mosquito consumption in M. lucifugus. Bat Research News, 32(1):2-3.

6. Kurta, A., G.P. Bell, K.A. Nagy, and T.H. Kunz. 1989. Energetics of pregnancy and lactation in free- ranging little brown bats Myotis lucifugus. Physiological Zoology, 62:804-818.

7. Tuttle, M.D., and D.L. Hensley. 1993. The Bat House Builder’s Handbook. Bat Conservation International, Austin, Texas, 35 pp.

The southeastern myotis, which often forages over water, is just one of several North American species known to feed frequently on mosquitoes. Little brown bats, found throughout most of the U.S. and Canada, and Yuma myotis (M. yumanensis), found in the western U.S. and Canada, are also substantial predators of these pesky insects. These species all consistently use bat houses.