A top down view of a mosquitofish swiming in the water. It has a small gold and silver body with darker lines along its scales.


By Chris Branam, OSU Extension Communications

CORVALLIS, Ore. – The increased number of mosquitos flying around western Oregon this summer could have a potential unintended consequence: A spike in nonnative fish released into home water features, public and private ponds and wetlands in attempts to control the pesky insect.

That’s according to Sam Chan, an aquatic invasive species specialist with Oregon Sea Grant; and Dana Sanchez, a wildlife specialist with the Oregon State University Extension Service. The guppy (Poecilia reticulata) and the western mosquitofish (Gambusia affinis) are two common nonnative fish that people release so that they eat mosquito larvae.

These “do-it-yourself” solutions aren’t effective for mosquito control, and they aren’t good for the environment, according to Chan and Sanchez. It’s against the law in Oregon to release non-native fish into any public waterway and a permit is required for private land. Even releases into small backyard ponds and water features that seem safe can become problematic if a flood allows them to escape, according to Sanchez and Chan.

“Those wanting to or who have made these releases may not know that there are more effective long-term solutions or realize that Gambusia will consume much more than mosquito larvae, including native fish, amphibians, invertebrate insects and zooplankton,” Chan said. “In western Oregon, many of the native fish, amphibians and aquatic invertebrates such as dragonflies also consume mosquito larvae.”

Chan is also concerned that released western mosquitofish and guppies also consume zooplankton, which consume algae. A lack of zooplankton can lead to harmful algal blooms, which have occurred in recent years in Oregon.

This year’s large mosquito hatch was likely the result of a wet spring. The sub-freezing temperatures in April likely destroyed frog egg masses, and some residents have noticed the dearth of frogs and are concerned that their best mosquito-eating allies are missing, Sanchez said.

“Field sampling this year has revealed that quite a few previously active and even abundant frog sites had low to no reproduction this year,” she said.

The first step to controlling the mosquito population is habitat management, Sanchez said. According to the Oregon Department of Fish and Wildlife, actions include:

  • Minimizing standing water around your home, structures and in irrigated areas.
  • Eliminating water-filled containers such as buckets and old tires.
  • Cleaning roof gutters and properly connecting and draining roof drains.
  • Managing water troughs and bird baths.

A targeted biological control for mosquito larvae is Bacillus thuringiensis israelensis, better known as Bti, Sanchez said. The naturally occurring bacterium in soils is widely available in affordable retail “mosquito dunks” and is safe around mammals, birds, fish and amphibians. Acoustic sonic devices are also an effective new tool for controlling mosquito larvae, according to Chan. The devices are placed in water where mosquito larvae are found, and they emit specific wavelengths that control mosquito larvae.

Using Bti or sonic acoustic devices, along with preventive habitat-management steps, are more effective and sustainable choices to mitigate this year’s mosquito problem, Sanchez said.