Tyrone Pest Control | 520 Pearson Court | Prince Albert, Saskatchewan | S6V6C6 | Tel: 306 764 4800 Fax 306 764 0057
Bats
We use an integrated pest management process for getting rid of these pest
call us for details. We use many different process for removing bats from
your home.
Nineteen species of bats have been recorded in Canada, and 17 of them are
regular residents. In many ways, bats are typical mammals: they are warm-
blooded, give birth to live young and suckle them. Their ability to fly sets
them apart from all other mammals. Their wings are folds of skin supported
by elongated finger, hand, and arm bones. Wing membranes attach to the
sides of the body and the hind legs. In Canadian species, the tail is enclosed
in the membranes. Resting bats usually hang head downward so that taking
flight means just letting go.
With their wings spread, flying bats appear larger than resting ones. But
bats are small mammals. For example, an average-sized Canadian bat, the
little brown bat Myotis lucifugus, weighs about 8 g in summer (the mass of
two nickels and a dime) and has a wingspan of about 22 cm. The hoary
bat Lasiurus cinereus is the largest Canadian species, weighing about 30 g,
with a wing span of 40 cm. At about 5 g, the smallest Canadian species are
the eastern and western small-footed bats (Myotis leibii and Myotis
ciliolabrum, respectively).
Bats are long-lived mammals, the current record for being a banded little
brown bat from a mine in eastern Ontario that survived more than 35 year.
Signs and sounds
Bats are well known for their echolocation behaviour. Most bats — and all
Canadian species — use echoes of the sounds they produce to locate
objects in their path. Higher frequency sounds have shorter wavelengths
and give bats more detailed information about their targets. Most Canadian
bat species use echolocation calls that are ultrasonic (beyond the range of
human hearing). A notable exception is the spotted bat Euderma maculatum,
which occurs in the Okanagan Valley of British Columbia and uses lower-
frequency echolocation calls readily audible to most people.
Bats are primarily nocturnal creatures, sleeping during the day and hunting
and feeding at night.
Bats are not blind. The eyes of many bats that eat insects are
inconspicuous, but bats see very well and use vision for many of the things
they do. However, as far as we know, Canadian species use echolocation to
locate their prey, and their large ears reflect the importance of sounds in
their lives. In echolocation, the difference between the original sound and its
echo contains the information used by the bat to locate and identify objects
in its path. Echolocation is not a characteristic of all bats, and it also is used
by toothed whales, some cave-dwelling birds, and mammals such as
shrews.
The ears of many insects, including many species of moths, lacewings,
crickets, mantids, and beetles, are sensitive to the echolocation calls of
bats. This sensitivity allows these insects to avoid capture by flying away or
taking evasive action (as shown in the illustration). The spotted bat is an
interesting exception. Most insects cannot detect its lower-frequency
echolocation calls, making these bats much more difficult to detect and
evade.
In the summer some bat species gather in colonies, while others live alone.
The former include species that roost in buildings, such as the little brown
bat, big brown batEptesicus fuscus, and Yuma bat Myotis yumanensis. The
latter include foliage species (species that roost in trees or vines), such as
red bats Lasiurus borealis, and hoary bats. Other species, such as the pallid
bat Antrozous pallidus and the spotted bat, roost in cracks and crevices in
cliffs.
In the fall in Canada, when weather conditions become harsher and the
insect food supply disappears, bats resort to some combination of migration
and hibernation. Some common species that roost in buildings, including
little brown bats and big brown bats, make long or short migrations to
hibernation sites — little brown bats travel up to hundreds of kilometres; big
brown bats migrate up to tens of kilometres. Bats usually hibernate
underground, often in caves or abandoned mines, where the temperatures
are stable and above freezing and the humidity is very high. Other species,
such as red bats, hoary bats, and silver-haired bats Lasionycteris
noctivagans, migrate to more southern locations, where they may hibernate
in hollow trees or leaf litter (red bats) or they may remain active.
Like all other mammals, bats are susceptible to rabies, a viral disease that
causes progressive paralysis and death. The rabies virus often is found in
saliva and can be transmitted by the bites of infected animals. The incidence
of rabies in bats in Canada seems to be low, but we lack details about the
general incidence of the disease in the bat population. Some species are
more often found rabid than others, and there is geographic variation in the
incidence of rabid bats. Nobody should ignore a bite from a bat. Anyone who
has been bitten by a bat or other mammal should contact a physician and
Agriculture and Agri-Food Canada personnel, who can arrange to have the
animal that delivered the bite tested for rabies. Even though Canadian bats
are small and their bites make small wounds, they can spread rabies. People
working with bats typically have pre-exposure vaccinations for rabies to
protect them from this disease.
Unique characteristics
Bats differ from all other mammals in their ability to fly. Their wings are folds
of skin stretched between elongated finger bones, the sides of the body, the
hind limbs, and, in Canadian species, the tail.
Distribution of the little brown bat
The map shows the distribution in North America of the little brown bat, one
of the most common bats in Canada. The summer distribution of the red,
hoary, and silver-haired bats is generally similar but probably not as
extensive. We must remember, though, that red bats have been found as far
north as Southampton Island in the Arctic, and hoary bats also occur
in Hawaii and in the Galapagos Islands in Ecuador.
Although some bats in the tropics feed on fish, fruit, nectar, or even
blood, bats of Canada feed on insects, usually caught in flight. Bats eat a
variety of insects, including moths, beetles, mayflies, caddis flies, and
midges. Insectivorous, or insect-eating, species of bats typically consume
50 to over 100 percent of their body weight in insects each night in summer.
This is the same as a 60-kg person eating 30 to 60 kg of food in one day.
Although one scientist found 145 mosquitoes in the stomach of one little
brown bat, Canadian bats probably eat relatively few mosquitoes, preferring
larger insects with more calories.
Birds that pursue flying insects often catch their prey in their mouths, but
most insectivorous bats scoop up their victims in wing or tail membranes
before transferring them to the mouth. Little brown bats can chew their food
very rapidly and in the laboratory have been observed catching fruit flies at
a rate of 10 per minute.
Early in August, adult males make nightly visits to the caves and mines that
will serve as hibernation sites. They arrive at these locations after feeding
and spend several hours underground. As August progresses, more and
more adult females and young join the males at hibernation sites, and by the
middle of August the first matings take place. Most of the mating occurs
before the population of hibernating bats builds up in September.
The females store sperm in the uterus over the winter; ovulation and
fertilization occur when the females leave hibernation in the spring.
Pregnant females of most Canadian bat species (e.g., little brown bats or big
brown bats) gather in the warmest available roosts located in buildings or
hollow trees in April or May. Several hundred little brown bats may inhabit
one colony. These nursery roosts are the sites where young are born 50 or
60 days after fertilization, in the middle of June, and the young are raised
there.
Each female little brown bat gives birth to a single baby. Females leave their
babies in the roost each night when they go out to forage. On their returns,
mothers unerringly select their own baby from the many others waiting in
the nursery. Baby little brown bats grow rapidly, increasing their wing area
by 10 times in three weeks and starting to fly by the age of 18 days. At this
stage, they have shed their milk teeth and begun to eat insects as well as
their mothers’ milk. The months of July and August are spent in heavy
feeding as the females and young build up their fat reserves for hibernation.
We know relatively little about the lives of adult males in summer. They do
not live in the nursery colonies with females and babies, and we presume
they roost alone or in small groups in cracks and crevices.
A lack of information about the sizes of most bat populations in Canada
makes it difficult for biologists to accurately assess their conservation
status. Historical records, for the numbers of bats hibernating in some
caves and mines, for example, suggest declines in populations, but the
accuracy of these data is open to question.
While many animals (including martens, skunks, raccoons, some snakes,
domestic cats, and some owls and raptors) are opportunistic predators of
bats, there are no records of any predators specializing in bats. Bats appear
to be most vulnerable to predators when large numbers are in a roost,
arriving at or departing from it.
Disturbance by people is probably one of the main threats to the survival of
bats. Disturbances in nursery colonies often result in abandoned young
which do not survive the experience. Disturbance during hibernation rouses
bats, which in turn forces them to burn energy they otherwise would use in
hibernation. One disturbance of this sort costs a little brown bat the energy
that would sustain it over 60 days of hibernation. Effective conservation
means protecting bat roosts from people.
The Committee on the Status of Endangered Wildlife in Canada (COSEWIC)
has determined that for some species in Canada—the fringed bat Myotis
thysanodes and the Keen’s long-eared bat Myotis keenii—we lack enough
information to make informed judgements about their conservation status;
they are designated "data deficient."
Phone: (306) 764- 4800 Fax: (306) 764-0057
Tyrone Pest Control Professional Pest Control Since 1979
Bats way we get
bats out of your
home, business,
or building.
Methods of
getting bats out.
Exclusion method
Extraction method