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| Figure
1. A nutria is
three times the size of a muskrat and its
tail is round, not flattened vertically,
as is the muskrat’s. Nutria and beaver
are similar in size, but the beaver has
a large tail, which is flattened horizontally.
(Photo courtesy of a homeowner on Lake
Washington.) |
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Nutria
(Myocastor coypus, Fig. 1) are semi-aquatic
rodents native to southern parts of South America. In
the 1930s, they were sold throughout North America to
fur farmers and as a means of controlling unwanted aquatic
vegetation. Various associations, magazine and newspaper
articles, and demonstrations at county fairs promoted
the sale of nutria in Washington.
More
than 600 nutria farms existed in Oregon and Washington
from the 1930s to the 1950s. Flooding and storms damaged
holding structures, allowing nutria to escape. Farmers
also released their stock when nutria farming became
uneconomical. By the 1940s, nutria had been captured
by trappers on both sides of the Cascade Mountains in
Washington.
Adult
nutria average 24 inches long from the nose to the base
of the tail. The tail itself is 12-16 inches long, round,
and nearly hairless. Males are slightly larger than
females; males weigh 12-20 pounds and females weigh
10-18 pounds.
Depending
on the nutria’s ancestry and current habitat,
its fur will vary from light yellowish brown to dark
reddish brown, and black. Their hind legs are much larger
than the forelegs. When moving on land, a nutria may
drag its chest and appear to hunch its back.
Nutria
are found in lakes, wetlands, sloughs, drainage ditches,
and irrigation canals along the Columbia River and north
to Skagit County. Cold temperatures seem to reduce the
distribution of nutria, as they don’t live in
areas where water surfaces freeze for long periods.
Facts
about Nutria
Foods
and Feeding Habitats
- Nutria
are herbivores and consume approximately 25 percent
of their weight daily.
-
Succulent, lower portions of plants being preferred
food. Roots, rhizomes, tubers, and tree bark are
important during winter when the green parts of
plants aren’t available.
-
Nutria also eat farm and garden crops and lawn grasses
found next to water.
-
Because their forepaws are small and dexterous,
nutria can excavate soil and handle small food items.
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| Figure
2. Nutria have large incisors that are
yellow to orange-red on the outer surface. The
head of the nutria is large and almost triangular.
The whiskers are obvious, about 4 inches in length
and numerous.
(Photo from U.S. Geological Survey.) |
Reproduction
and Family Structure
- Males
reach sexual maturity between 4 and 9 months, whereas,
females reach sexual maturity between 3 and 9 months.
-
With a gestation period of only 130 days, in one
year, adult nutria can produce two litters and be
pregnant for a third.
-
Litter size averages 5 young. Females can breed
within a day of having a litter.
- Newborn
nutria feed on vegetation within hours and will
nurse for 7-8 weeks.
-
A rather unusual characteristic of the female nutria
is that her teats are so high on her sides the babies
can nurse even while their mother is lying on her
stomach or swimming in the water.
Family
Structure
-
Nutria are thought of as colonial because the same
den is shared by the dominant male with two or three
females and their offspring.
-
Two to 13 individual nutria form a group. Adult
males are sometimes solitary.
Burrow
and Den Sites
-
Nutria will dig their own burrow, or use an abandoned
burrow or lodge of a beaver or muskrat.
-
Burrow entrances are often a foot or two beneath
the water's surface and as much as two feet in diameter.
-
Burrows range from a simple, short tunnel with one
entrance to complex systems with several tunnels
and entrances at different levels. Tunnels are 3-18
feet long.
-
Young are born in a grass-lined den within the burrow
or sometimes on a floating platform nest made of
vegetation.
Mortality
and Longevity
-
Predators of adult nutria include coyotes, domestic
dogs, and humans. Great horned owls, foxes, great
blue herons, hawks, eagles, and raccoons prey on
the young.
- In
the early 1990s, 5,300 to 7,700 nutria were taken
per year in Oregon, with prices for pelts ranging
from $2.00 to $4.00 apiece.
-
Nutria are sensitive to low temperatures. Cold winter
temperatures are believed to be the main limiting
factor preventing nutria from becoming established
in much of eastern Washington and at high elevations
in western Washington.
-
In the wild, most nutria live less than three years
Viewing
Nutria
Nutria
are active throughout the year. Although they may
be seen at any time, they are most active at twilight
and throughout the night. They may be seen feeding
during the day when food is scarce, or basking in
the sun when temperatures are low.
Nutria
generally occupy a small area throughout their lives.
Daily travel distances for most nutria are less than
600 feet, although some individuals may travel much
farther. Rarely will nutria be seen very far from
water, and they are usually seen swimming. They tend
to swim with their narrow, pointed tails snaking in
the water behind them, or arched out of the water;
you never see a beaver’s rounded tail as it
swims.
When
startled, nutria enter the water with a loud splash,
and, being strong swimmers, they may swim long distances
underwater before surfacing. (Nutria can remain submerged
for as long as 10 minutes.) They can also remain motionless
under sparse vegetation, with only their noses and
eyes above water.
When
cornered or captured, nutria are aggressive biters
and scratchers and can seriously injure pets and humans.
Feeding
Areas
Evidence of nutria feeding includes rushes, sedges
and other plants gnawed to a stubble, floating cattail
roots or other vegetation that has been clipped, and
piles of clipped vegetation under overhanging vegetation
or in a well-concealed spot at the water’s edge.
Nutria
often build flattened circular feeding platforms of
vegetation in shallow water. Constructed of coarse
emergent vegetation, these platforms are also used
for loafing, grooming, and birthing and are often
misidentified as muskrat houses. Feeding platforms
measure 3 to 6 feet across and there may be travel
channels through the mud leading to them.
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| Figure
4. The forepaws of nutria have five toes;
four are clawed and the fifth is reduced in size.
The digits are used to groom and to excavate roots,
rhizomes, and burrows, and are used in feeding. |
Figure
5. Nutria droppings are 2 inches long
and 1/2 inch in diameter.
(Photos
by Dennis Deck, http://dirttime.ws/DirtTime.htm) |
Tracks
Nutria tracks can be found in mud or sand along shorelines
(Fig. 4). The mark of a dragging tail is sometimes
apparent.
Nutria
have five clawed toes on each foot; the front feet
are not webbed. Nutria tracks are easily confused
with beaver tracks when the beaver’s fifth toe
webbing does not print.
Droppings
Nutria droppings are dark green, brown, or almost
black. Nutria droppings are 2 inches long and 1/2
inch in diameter. The droppings are unique in that
they have distinct parallel grooves along their entire
length, making them distinguishable from droppings
of muskrat and beaver.
Nutria
droppings can be found floating in the water, along
shorelines, on objects protruding out of the water,
and at feeding sites. The animals may repeatedly use
these spots, and more than one nutria may use the
same spot.
Slides
Slides are the narrow trails nutria make where they
enter and leave the water. Nutria slides are twice
the width of a hand. (Beaver slides can be up to 20
inches wide.) Slides look like muddy trails and may
be slicked down from the animals’ sliding down
them on their bellies.
Calls
Where large numbers of nutria are present at dusk,
a chorus of pig-like grunts may be heard.
Preventing
Conflicts
Nutria
damage is related to burrowing and feeding. Nutria
construct burrows in the banks of rivers, sloughs,
and ponds, sometimes causing considerable erosion.
Burrows can weaken roadbeds, stream banks, dams, and
dikes, which may collapse when the soil is saturated
by rain or high water. Rain action can wash out and
enlarge collapsed burrows and compounds the damage.
Their
large size makes it possible for nutria to girdle
orchard trees, landscape trees, and ornamental shrubs.
Nutria
numbers may increase to the point where an area is
denuded of aquatic vegetation. After foraging on entire
plants, including the roots, they leave the area pitted
with digging sites and deep swimming canals. This
feeding behavior can destroy existing root mats that
bind and secure a wetland together, and the area can
be quickly eroded by wind and wave action. In parts
of southern Washington, nutria may be are out-competing
muskrats for food and places to live.
The
following suggestions will help to reduce conflicts.
You can do the work yourself or hire a company to
do all or part of the work (see “Hiring
a Wildlife Damage Control Company.”) In
cases where these methods are not practical, contact
your local County Extension Agent or Department of
Agriculture’s Wildlife Services for further
information.
Fences
and Other Barriers
Nutria are not climbers. A properly designed and maintained
3-foot tall wire fence will exclude them. The fence
must be taller if snow or other materials are likely
to build up near it. Because nutria are diggers, the
fence will need to extend at least 12 inches below
ground. Alternately, a tight fit to the ground and
an L extension that runs 24 inches out on the soil
surface toward the animal will also prevent entering
from underneath (See Figures 6-8 for samples of barriers).
Figure 6. A mini floppy fence
constructed of 1-inch mesh wire or heavy plastic
needs to be at least 2 feet high and staked
so that it’s wobbly. The fence should
not be pulled tight between the stakes, but
rather there should be some “give”
so that when the nutria tries to climb the
fence, it will wobble, discouraging further
climbing. Constructing the fence so that it
leans slightly toward the nutria’s side
will increase its effectiveness.
To
prevent nutria from digging under the fence,
keep a 2-foot wide wire apron on top of the
ground on the animal’s side of the fence.
Keep the apron flush to the ground with rocks
and/or stakes, or young nutria will shimmy
under it.
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Figure 8. Wire cylinders around individual
plants are often used where only a few plants
need to be protected. A combination deer/nutria
fence is shown here. Note: Lightweight plastic
protectors do not work because nutria can
chew through them.
(Drawings
by Jenifer Rees)
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Figure 7. A single strand of electric
wire set alone, or placed 6 inches above the ground
and the same distance outside the fence will also
help prevent nutria from burrowing and climbing.
Vegetation near any electric fence should be removed
regularly to prevent the system from shorting
out. |
Water-Level Management
Nutria (and muskrats and Old World rats) burrow into
dams, dikes, and other embankments to make dens (Fig.
9). Typically dens have 2 feet or more of earth above
them. However, when fluctuating water levels flood
their initial den, nutria burrow farther into the
bank or dig new, higher den chambers close to the
surface. In such cases this can weaken the bank, or
livestock and other large animals can pierce holes
in the bank, starting the erosion process.
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| Figure
9. In dams, dikes, and banks, nutria
tunnel upward from below the water surface into
the soil to make dens that remain dry. When fluctuating
water levels flood their initial den, they burrow
farther into the bank or dig new, higher den chambers
close to the surface.
(Drawing by Jenifer Rees. Adapted
from Hygnstrom, et al. Prevention and Control
of Wildlife Damage.) |
To
prevent nutria from tunneling higher in an embankment,
keep fluctuations in water levels to a minimum. This
can require frequently monitoring the spillway to
ensure an unobstructed flow, or widening the spillway
to carry off surplus water so that it never rises
more than 6 inches on the dam.
Water-level
manipulation can also be used to force nutria to other
suitable habitat. Raising the water level in the winter
to a near-flood level, and keeping it there, will
force the animals out of their dens. Similarly, dropping
water levels during the summer will expose nutria
dens to predators, forcing them to seek a more secure
area.
Slope
Management
Nutria prefer to burrow on steep slopes covered with
vegetation. Hence, they can be discouraged by keeping
side slopes to a 3:1 or less ratio, and by controlling
vegetation growth. Managing vegetation by hand can
be difficult in large areas, but routine mowing or
cutting with a weed whacker can be effective. Only
herbicides registered for use next to water should
be used, and then only per the manufacture’s
recommendations.
If
possible, keep livestock off embankments to avoid
the chance that an animal will put a hoof through
a den chamber. If a roof is pierced, immediately fill
in the cavity with soil, rocks, or a mudpack (see
below).
Embankment
Barriers
A wire or stone barrier installed 1 foot above to
3 feet below normal water level can prevent nutria
from burrowing into an earth embankment.
A
barrier can be made from 1-inch mesh hardware cloth
(aluminum and stainless steel are also available),
or heavy-duty plastic or fiberglass netting. The barrier
should be placed flat against the bank and anchored
every few feet along all edges. To extend the life
of galvanized hardware cloth, spray it with automobile
undercoat paint or other rustproof paint before installation.
Since the wire will eventually corrode, do not use
this material where people are likely to swim.
Riprapping
areas with stone creates an effective barrier and
protect slopes from wave action. Stone should be at
least 6 inches thick.
Where
a burrowing problem is extreme, use a gas-powered
trenching machine (available at rental stores) to
dig a narrow trench along the length of the embankment.
Hand digging will be required to dig to the recommended
depth—3 feet below the high-water level. Next,
fill the trench with a mudpack. A mudpack is made
by adding water to a 90 percent earth and 10 percent
cement mixture until it becomes a thick slurry. The
resulting solid core will prevent nutria from digging
through the embankment.
Harassment
and Repellents
Nutria are wary animals and will try to escape when
threatened. When new burrows are discovered early
on, the entry holes can be stuffed with rocks, balled-up
window screen, and/or rags sprinkled with predator
urine (mink, coyote, or bobcat—available from
trapper supply outlets and over the Internet). Some
people have had success using old cat litter in this
way. Exposing their tunnels from above may also work.
The success of this type of control depends on persistence
from the harasser and thus is often short-lived.
Loud
noises, high-pressure water sprays, and other types
of harassment have been used to scare nutria from
lawns and golf courses. However, the success of this
type of control is usually short-lived and problem
animals soon return. Large dogs that are awake during
the night can be effective at keeping nutria out of
areas. Bold nutria often intimidate small dogs.
Crop
Location
Unfenced crops and gardens located close to water
will be more attractive to nutria than those further
from water. If you have a choice of where to locate
your garden, consider nutria damage. Natural vegetation
buffers next to water bodies can provide feeding areas
and reduce the attractiveness of vegetation further
from the water.
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| Figure
10. Nutria are easily trapped in single-door,
3 or 4 foot long cage traps. (Photo
by Jennifer Bohannon.) |
Trapping
and Lethal Control
Nutria
are easily captured in single door three or four foot
long live traps (Fig. 10). Bait live traps with sweet
potatoes or carrots and place them along active trails
or wherever nutria or their sign are seen. A small
amount of bait leading to the entrance of the live
trap will increase capture success.
Due
to its classification as a Prohibited Aquatic Animal
Species (see “Legal Status”),
all live-trapped nutria should be euthanized and not
returned to the wild.
When
cornered or captured, nutria are aggressive and can
inflict serious injury to pets and humans. Extreme
care should be taken when handling captured nutria.
Trapping
may not be legal in some urban areas; check with local
authorities. See Trapping Wildlife
for additional information, including euthanization.
Since
nutria are usually found in waterways, there is often
an unlimited supply of replacement animals upstream
and downstream from where the damage is occurring.
Rapid immigration coupled with a high reproductive
rate makes ongoing lethal control a “high-effort”
method of damage control that is often ineffective.
(Lethal control can be effective in areas where the
local population of nutria is still small.) The methods
described and referenced in “Preventing
Conflicts” are the best long-term solution.
Shooting
has been an effective in eliminating small isolated
groups of nutria. For safety considerations, shooting
is generally limited to rural situations and is considered
too hazardous in more populated areas, even if legal.
No fumigants are currently registered for nutria control.
Public
Health Concerns
Nutria,
rabbits, hares, voles, muskrats, and beavers are some
of the species that can be infected with the bacterial
disease tularemia. Tularemia is fatal to animals and
is transmitted to them by ticks, biting flies, and
via contaminated water. Animals with this disease
may be sluggish, unable to run when disturbed, or
appear tame.
Tularemia
may be transmitted to humans if they drink contaminated
water, eat undercooked, infected meat, or allow an
open cut to contact an infected animal. The most common
source of tularemia for humans is to be cut or nicked
by a knife when skinning or gutting an infected animal.
Humans can also get this disease via a tick bite,
a biting fly, ingestion of contaminated water, or
by inhaling dust from soil contaminated with the bacteria.
A
human who contracts tularemia commonly has a high
temperature, headache, body ache, nausea, and sweats.
A mild case may be confused with the flu and ignored.
Humans can be easily treated with antibiotics.
Nutria
are among the few animals that regularly defecate
in water, and their droppings (like those of humans
and other mammals) may cause a flu-like infection
when contaminated water is ingested. The technical
name for this illness is “giardiasis.”
It is more commonly referred to as “giardia”—derived
from giardia, the single-cell protozoa that causes
the disease. Another popular term, “beaver fever,”
may be a misnomer. It has never been demonstrated
that the type of giardia beavers carry causes giardiasis
in humans. Giardia has been found in many animal species,
including pets, wildlife, and livestock.
Anyone
handling a dead or live nutria should wear rubber
gloves, and wash his or her hands well when finished.
Legal
Status
The
nutria is classified as a Prohibited Aquatic Animal
Species (WAC
220-12-090). Due to this classification, all live-trapped
nutria should be euthanized and not returned to
the wild. (See Trapping
Wildlife for information, including euthanization.)
No
special trapping permit is necessary for the use of
live traps. However, a special trapping permit is
required for the use of all traps other than live
traps (RCW
77.15.192, 77.15.194;
WAC
232-12-142). There are no exceptions for emergencies
and no provisions for verbal approval. All special
trapping permit applications must be in writing on
a form available from the Department of Fish and Wildlife
(WDFW).
It
is unlawful to transport nutria, and all other wildlife,
anywhere within the state without a permit to do so
(RCW
77.15.250; WAC
232-12-271).
Additional
Information
Books
Verts,
B. J., and Leslie N. Carraway. Land Mammals
of Oregon. Los Angeles: University of California
Press, 1998.
Internet
Sites
USDA
National Invasive Species Information Center
Virtual
Dirt Time: An Adventure in Tracking Online
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