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Endangered
Red Wolves
U.S. Fish & Wildlife Service
The U.S. Fish and
Wildlife Service is
reintroducing red wolves
to prevent extinction of
the species and to restore
the ecosystems in which
red wolves once
occurred, as mandated
by the Endangered
Species Act of 1973.
According to the Act,
endangered and
threatened species are of
aesthetic, ecological,
educational, historical,
recreational, and
scientific value to the
nation and its people.
On the Edge of Extinction
The red wolf historically roamed as a
top predator throughout the
southeastern U.S. but today is one of
the most endangered animals in the
world. Aggressive predator control
programs and clearing of forested
habitat combined to cause impacts
that brought the red wolf to the brink
of extinction. By 1970, the entire
population of red wolves was believed
to be fewer than 100 animals confined
to a small area of coastal Texas and
Louisiana. In 1980, the red wolf was
officially declared extinct in the wild,
while only a small number of red
wolves remained in captivity.
During the
1970’s, the U.S.
Fish and Wildlife
Service
established
criteria which
helped
distinguish the
red wolf species
from other
canids. From
1974 to 1980, the
Service applied
these criteria to
find that only 17
red wolves were
still living. Based
on additional
breeding studies,
only 14 of these
wolves were selected as founders to
begin the red wolf captive breeding
population. The captive breeding
program is coordinated for the
Service by the Point Defiance Zoo &
Aquarium in Tacoma, Washington,
with goals of conserving red wolf
genetic diversity and providing red
wolves for restoration to the wild.
Approximately 40 cooperating
facilities across North America
participate in the national breeding
program.
Greg Koch
Back in the Wild
The red wolf is a shy species with a
segment of its population now back in
the wild, hunting, raising young, and
howling across portions of its native
habitat. The reintroduction effort
began in 1987 with the release of four
captive-bred red wolf pairs into the
Alligator River National Wildlife
Refuge (ARNWR), the first-ever
restoration of an officially extinct
species back into the wild. Since this
initial restoration, nearly 100 red
wolves now roam over 1.7 million
acres of public and private land in
northeastern North Carolina.
In 1988, a litter
of red wolf pups
was born in the
wild at ARNWR,
the first wild-born
pups in
almost a decade.
Another
milestone was
reached in 2002,
when all red
wolves in this wild population were
born in the wild. Ongoing innovations
in red wolf management mean
success of this restored red wolf
population continues. Small numbers
of red wolves also live in the wild on
island propagation sites on national
wildlife refuges in other southeastern
states.
Why restore red wolves?
Essential reasons are to prevent
extinction of the species and to
restore the ecosystems where red
wolves lived. It is important to save
all members of an ecosystem,
including predators, if we are to be
good stewards of the land. Predators
maintain the balance and health of
ecosystems by controlling over-populations
of prey species and
removing unhealthy animals.
Melanie McGaw ©
The
northeastern
North
Carolina
location is
the only wild
red wolf
mainland
population
site in the
world.
FWS biologist
conducting a hard
release
Restoring red
wolves contributes
significantly to local
economies. The
presence of red
wolves in the wild or
in zoos and wildlife
centers generates
ecotourism dollars
from those seeking
to enhance their
understanding of
this endangered
species. Howling
Safaris, sponsored
by the Red Wolf
Coalition in
cooperation with
the Service, attract
over 1,000 visitors
annually to
northeastern North
Carolina and
provide
opportunities for
red wolf education.
The Endangered
Species Act
requires recovery
plans for federally-listed
threatened or
endangered species.
The Red Wolf
Recovery Plan
describes
population goals and objectives for
the red wolf. Lessons learned and
techniques developed in the Red Wolf
Recovery Program continue to serve
as templates for recovery and
management of other species. The
Red Wolf Recovery Program could be
described as an alliance of agencies,
organizations, and individuals.
What do red wolves look like?
Red wolves are mostly brown and
buff colored with some black along
their backs. Typically there is a
reddish color behind their ears, on
their muzzles and along the backs of
From top to bottom: gray wolf, 80-120
lbs.; red wolf, 50-80 lbs.; coyote, 20-45
lbs.; red fox, 10-15 lbs.
Greg Koch
Red wolf dad and
pups
their legs. Red wolves are
intermediate in size between the
larger gray wolves and smaller
coyotes.
The average adult
red wolf weighs
from 50-80 pounds,
stands about 26
inches at the
shoulder and is
about four feet long
from the tip of the
nose to the end of
the tail. Red wolves
have tall, pointed
ears, long legs, and
large feet. Since
coyotes sometimes
enter the
restoration area, it
is important for
people to know the
physical
differences
between the two
species. Adult
coyotes weigh about one-half to two-thirds
as much as adult red wolves
and stand approximately four inches
shorter; coyotes are much less
massive through the head, chest,
legs, and feet. However, red wolf
yearlings could be confused with
adult coyotes based on size
similarities.
Species Survival
Plan Facilities
Mainland Release Sites
Island Projects
Chad McClure
Adult red wolf and
yearling
Captive red wolves can be seen at
nearly 40 facilities located across the
United States. A list of these facilities
is posted on the Alligator River
National Wildlife Refuge web site.
Did red wolves ever
exist in North Carolina?
Based on fossil and archaeological
evidence, the original red wolf range
extended from the Atlantic and Gulf
Coasts, north to the Ohio River
Valley, through central Pennsylvania
and New England, and west to
southern Missouri and central Texas.
At least one archaeological specimen
has been found in North Carolina.
Early naturalists encountered red
wolves, and court records from
eastern North Carolina document the
payment of red wolf bounties from
1768 to 1789. Animal bounties in the
U.S. began with the red wolf.
Do red wolves hybridize with coyotes?
Since applying adaptive management
principles, biologists have
demonstrated that red wolf
hybridization with coyotes can be
effectively managed. This means
success in establishing wild red wolf
populations is achievable. In fact,
significant success has been recorded
in northeastern North Carolina
where the nation’s first restored wild
red wolf population has been
established.
Original range
of red wolf
In the 1960’s only a few red wolves
remained due to more than three
centuries of persecution and habitat
destruction. These same factors allowed
coyotes and coyote hybrids to migrate
from the western U.S. into southern
and eastern states. These factors also
broke down social structures which
formerly minimized interbreeding
between wolves and coyotes.
When the few remaining red wolves
were unable to find mates of their
own species, hybridization with more
abundant coyotes did occur. This
hybridization is generally accepted as
the final factor that resulted in the
near extinction of the red wolf. Red
wolves, gray wolves, domestic dogs,
and coyotes are all capable of
interbreeding and producing fertile
hybrid offspring. Social structures
and territoriality usually prevent
such interbreeding.
Alligator River National Wildlife
Refuge was chosen as a red wolf
restoration site, in part because it
was free of coyotes prior to the
1980’s. As the non-native coyote
colonized North Carolina, by the mid-
1990’s, it once again became a threat
to the restored red wolf population.
By 2005, biologists demonstrated
that hybridization can be effectively
managed while restoring red wolves
to the wild.
(#10 Insert collar
photo and/or #11
collared wolf)
Barron Crawford
Radio tracking
collar
USFWS
How are red wolves
and coyotes managed?
Red wolves are managed at four
levels: population, gene pool, family
groups, and individuals. In 1999, the
Service partnered with various
organizations and scientific experts
to develop a zone-based Adaptive
Management Plan to protect the wild
red wolf population from
hybridization with coyotes. The plan
establishes three zones where
coyotes are eventually replaced with
a growing red wolf population. The
first five years of adaptive
management demonstrated coyotes
and interbreeding can be effectively
managed, red wolves can be
successfully restored, red wolves can
displace or kill coyotes, the wild red
wolf population is expanding, and red
wolf reproduction is increasing. The
current recovery goal for the species
is 550 animals (at least 220 in the
wild), but that figure may change
depending on the overall health of
the population.
How does the Service
keep track of red wolves?
Biologists use technologies known as
aerial and radio telemetry to track
and monitor red wolves in the wild.
When red wolves are 8-10 months
old, they are captured with a soft-sided
leg trap, fitted with a radio
collar, and released back into the
wild. Each collar works like a mini-radio
station, emitting a unique
frequency that identifies the wolf. On
the ground, biologists can receive a
telemetry signal from a distance of
up to 1.5 miles under good conditions.
Aerial telemetry allows a range of
approximately 20 miles. Red wolf
locations and activities are monitored
by fixed-wing aircraft several times a
week. Over time, red wolves will be
outfitted with collars than can be
detected by satellites and which offer
continual data collection over a
broader area.
Red wolf
prey: nutria,
raccoon,
rabbits,
white-tailed
deer and
rodents.
Red wolf wildlife
biologists also
spend a great
deal of time in
the field looking
for red wolf
tracks and scat
(feces) or
listening for
howls. Traveling
down a dirt road
will sometimes
reveal red wolf
traffic, and for
example,
whether a wolf is
traveling alone
or with another wolf, in what
direction it’s heading, and the general
size of the canid. Scat samples are
often sent to a genetics lab for
further analysis.
Are red wolves a threat to humans?
There have been no documented cases
of red wolves attacking humans in
North America, despite 500 years of
coexistence. Wild red wolves are wary
and prefer to avoid humans. However, in
the same way it is wise to stay away from
stray domestic dogs, red wolves and all
wildlife should not be approached for
the safety of the animal and people.
What are the primary threats
to red wolves?
The primary threats to red wolves
are hybridization with the eastern
coyote, illegal mortality, vehicle
mortality, and diseases such as
mange, hookworm, and heartworm.
Hurricanes have not caused
significant losses to the red wolf
population, but they have destroyed
pens and enclosures. Hunting is a
growing problem as red wolves are
sometimes mistaken for coyotes. The
Service recommends a “Please Don’t
Shoot” advisory for hunters in the
five-county Albemarle Peninsula
because of the presence of
endangered red wolves.
USFWS
What do red wolves eat?
Although the exact diet of red wolves
varies depending on available prey, a
study of approximately 2,200 scats of
wild red wolves from northeastern
North Carolina estimates that their
diet consists of about 50 percent
white-tailed deer, 30 percent
raccoons, and 20 percent small
mammals, such as rabbits, rodents
and nutria. A red wolf consumes
about two to five pounds of food per
day and can travel up to 20 miles a
day in search of food.
Do red wolves
live
and/or hunt in
packs?
A “pack” is
simply defined
as an extended
family unit,
which is the
primary social
structure of both
red and gray
wolves. Pack size
is influenced by
habitat and prey
availability. A
typical red wolf
pack consists of
five to eight
animals – an
“alpha” or breeding adult pair and
offspring of different years. The
alpha wolves breed once a year
during winter months and are usually
the only breeders. The gestation
period is about 63 days, and the pups’
eyes open between 10-12 days. Red
wolves tend to be monogamous.
Since the red wolf ’s diet does not
consist of larger ungulates (elk, bison,
or moose), group or pack hunting is
probably less frequent. Most hunting
by red wolves is believed to be done
individually or in pairs.
USFWS
FWS biologist with
new born pups
Wolf packs have specific home ranges
that they actively defend against
other canids, including other wolves.
The pack is a very closely-knit group;
in fact, older offspring assist the
breeding pair with den attendance
and pup-rearing.
Almost all
offspring
between one and
three years of
age will leave the
pack or
“disperse.”
Pup Fostering
The Red Wolf
Recovery
Program has
used pup
fostering to
enhance the
genetic diversity
of the wild red
wolf population
and to sustain
the overall
survival of the
red wolf. The
first fostering
event took place in May, 2002. The
North Carolina Zoological Park in
Asheboro, North Carolina, donated
two pups, a male and a female from a
litter of six red wolf puppies born at
the zoo. The pups were implanted
with microchips for future
identification and transported to the
Alligator River NWR. The captive
pups were then inserted into a wild
wolf den containing two wild born
pups of identical age and were
accepted by the wild mother. The
pups grew to adulthood and
continued to live among the wild
population. Red wolves are highly
social animals and have very strong
parental instincts. Fostering has
proven to be a useful tool in red wolf
recovery efforts.
USFWS / Chris Lucash
Above: red wolf
pups; below:
typical den
USFWS
How do red wolves
maintain territories?
Red wolves rely heavily on their
sense of smell for survival. Similar to
domestic dogs, wolves use scent-marking
to establish their territories
and travel routes. Because each wolf
has a unique odor, members of the
same pack can identify each other. A
red wolf territory can range from a
few hundred to more than 50,000
acres.
Howling is another significant form
of communication and a means of
maintaining territorial boundaries.
Wolves howl for many reasons: to
keep track of wolves within and
between packs, to assemble pack
members, to announce or defend a
fresh kill, to unify the pack (group
howl), or to mark a territory.
What does a red
wolf on private
land mean to the
landowner?
Various
measures of
flexibility are
built into the
Endangered
Species Act that
recognizes the
needs of
landowners
while offering
protection for the red wolf. The
rights and lawful activities of a
landowner, such as farming, logging,
hunting, trapping, or livestock
operations, can continue with little or
no impact from red wolves.
Some landowners report positive
benefits from red wolves, such as
natural control of non-native nutria
or nest-raiding raccoons on their
land. The presence of a pack of red
wolves is likely to also reduce the
presence of nuisance coyotes.
Joey Hinton
This is a juvenile
male red wolf in a
cotton field.
Red wolves cause very few
depredation problems. Should
livestock or domestic pet
depredations occur, regulations have
been passed that allow landowners to
take (kill) red wolves if certain
conditions exist. The animal must
have been “caught in the act” of a
depredation, or freshly wounded
livestock or pets should be evident.
There are also payment mechanisms
for landowners if they choose to
become involved with red wolf
recovery or if they suffer livestock or
pet depredations.
Private/corporate lands are an
integral component of the Red Wolf
Recovery Program. They act as
important wildlife corridors between
federal lands and provide diverse
habitats for wolves to occupy.
Partnerships with private land owners
work well for people and wolves.
How can people
learn more
about red wolf
restoration?
The Red Wolf
Recovery
Program reaches
thousands of
people annually
by participating
in community
events
throughout
North Carolina,
often in
partnership with
other agencies
and the Red Wolf
Coalition, a
citizen-support
group. Howling
Safaris draw
over 1,000
visitors a year to
the ARNWR.
USFWS
Tiger Cub Scout Troup #921 of Grifton,
North Carolina
Eastern North Carolina
Wildlife Art Show
Donna Storie, Red Wolf Coalition
“Far Traveler”
teacher workshops
are held semi-annually
to expand
red wolf education.
Discovery Boxes,
containing red wolf
teaching tools, are
mailed to
environmental
educators
throughout the U.S.
on a reservation
system.
The red wolf web
site is maintained
with up-to-date
information and
other red wolf
resource links. Public awareness
surrounding the red wolf restoration
effort is further expanded to
domestic and international audiences
through print and broadcast media.
Visiting red wolf exhibits at zoos and
nature centers offer another source
of education and, in many cases,
public viewing opportunities. Learn
the mission of the American Zoo and
Aquarium Association’s Species
Survival Plan Program and its link to
the Service and endangered species.
How can you help?
Learn about wildlife and how to
enjoy and protect wild animals.
Drive safely since red wolves and
other wild animals often cross roads
to find food.
Keep the roads clean of litter. It
attracts wild animals, putting them in
harm’s way.
Hunt responsibly. There are 100
counties in North Carolina – 95 do
not have red wolves.
Support the Red Wolf Coalition and
cooperating zoo facilities.
1791 Red wolf first described by Bartram.
1851 First publication of valid scientific name for red
wolf by Audubon and Bachman.
1905 First recognition of red wolf as a distinct species
by Bailey.
1937 First recognition of three subspecies of red wolf
by Goldman.
1962 Scientific community informed by McCarley that
red wolf is in danger of extinction.
1967 Red wolf listed as an endangered species under
provisions of the Endangered Species
Preservation Act of 1966.
1968 Service begins a study of the red wolf in
southeast Texas and southwest Louisiana.
1969 First red wolf placed into captivity initiating the
red wolf captive-breeding center at PDZA.
1973 Endangered Species Act becomes Federal law.
First red wolf recovery plan completed and
implementation begins. In a race against
extinction, an all-out effort to capture wild red
wolves for captive-breeding program begins.
1977 First litter of red wolf pups born in captivity in
PDZA.
1978 First successful experimental release, tracking,
and recapture of red wolves on Bulls Island,
South Carolina, solidifies restoration techniques.
1980 Last red wolves removed from the wild and red
wolf declared extinct in the wild. Unique allele
found by Ferrell et al. in Canis specimens from
within red wolf range supports conclusion that
red wolf is a distinct species.
1984 Red wolf recovery plan revised, updated, and
approved. Red wolf incorporated into AZA’s
SSP. ARNWR established on land in
northeastern North Carolina donated to the
Service by Prudential Insurance Company.
Historic Time Line for the Endangered Red Wolf
1987 First restoration begins with the release of four
pairs of captive-born red wolves into ARNWR.
First island propagation project begins on Bulls
Island in an attempt to give red wolves some
wild experience before release into mainland
reintroductions.
1988 First litter of red wolf pups born in the wild at
ARNWR.
1989 Second restoration project started by the release
of red wolves into GSMNP. Wayne and colleagues
publish mtDNA results suggesting that the red
wolf may be of hybrid origin. American Sheep
Industry
Association
files
petition to
delist red
wolf based
on the
mtDNA
results.
1991 Second-generation
red wolf
pups born
in the wild
at
ARNWR.
1991
petition
request to
delist the red wolf found unwarranted by Service.
First litter of red wolf pups born via artificial
insemination at PDZA.
1992 Red wolves released into PLNWR. First red
wolves born in the wild in GSMNP.
1995 Attitude survey by North Carolina State
University shows majority of residents in eastern
North Carolina support red wolf reintroduction.
Amendment to Interior Appropriation Bill
introduced in Senate to suspend all funding for
Red Wolf Recovery Program. Amendment
narrowly defeated.
Greg Koch
1995 North Carolina law to allow taking of red wolves
on private property in two counties goes into
effect. Revised relaxed Federal regulations
published addressing concerns about restored red
wolves. National Wilderness Institute files petition
to delist red wolf based on nuclear DNA results.
1996 Economic study by Cornell University shows
strong regional support for red wolf recovery,
substantial potential tourism benefits, and a
significant willingness of the public to pay for red
wolf recovery that far exceeds the cost of the
program. Study by East Carolina University
shows strong local support for red wolf recovery
in northeastern North Carolina and a willingness
to contribute financially to support the program.
1997 1995 petition request to delist the red wolf found
unwarranted by the Service. Two North
Carolina counties and two individuals file suit to
invalidate federal regulations regarding the red
wolf. Fourth island propagation project initiated
on Cape St. George Island off the Gulf Coast of
Florida.
1998 GSMNP reintroduction project canceled due to
low pup survival and the inability of wolves to
establish home ranges within the Park. PHVA
and Adaptive Management Plan initiated.
1999 PHVA determines that hybridization with
coyotes is the greatest threat to the recovery of
the red wolf. An adaptive management plan is
developed to address and manage hybridization.
2002 The entire red wolf population in northeastern
North Carolina is wild-born except for two pups
born at the North Carolina Zoo that are fostered
into a wild den.
2003 Litter of pups born at PDZA via artificial
insemination using fecal hormone analysis to
time insemination.
2004 One of the 2002 fostered pups fathers a litter of
eight. Two captive-born pups (born at CRNWR)
fostered into separate wild dens.
Historic Time Line for the Endangered Red Wolf
2006 About 100-130 wild red wolves roam 1.7 million
acres in northeastern North Carolina, and over
170 exist in the captive population throughout the
U.S. Adaptive management is working to control
the coyote population in the recovery zones and
has seen measurable success.
2006 With support from the Recovery Implementation
Team, red wolf recovery continues to progress.
New research techniques and data management
are continually incorporated into the recovery
effort.
Key to Acronyms
ARNWR: Alligator River National Wildlife Refuge, NC
AZA: American Zoo and Aquarium Association
CRNWR: Cape Romain National Wildlife Refuge
GSMNP: Great Smoky Mountains National Park
mtDNA: Mitochondrial DNA
PDZA: Point Defiance Zoo & Aquarium, Tacoma, WA
PHVA: Population and Habitat Viability Assessment
PLNWR: Pocosin Lakes National Wildlife Refuge, NC
SSP: Species Survival Plan
U.S. Fish and Wildlife Service
Red Wolf Recovery Program
Alligator River National Wildlife Refuge
P.O. Box 1969, Manteo, NC 27954
Phone: 252/473 1131 Ext. 246 Fax: 252/473 4836
E-mail: redwolf@fws.gov
www.fws.gov/alligatorriver
Red Wolf Captive Breeding Program
Point Defiance Zoo and Aquarium
5400 North Pearl Street, Tacoma, WA 98407
Phone: 253/591 5337 Fax: 253/591 5448
www.pdza.org
Red Wolf Coalition
P.O. Box 96, 212 Main Street, Columbia, NC 27925
Phone: 252/796 5600 Fax: 252/796 5601
E-mail: redwolf@redwolves.com
www.redwolves.com
Brad McPhee, Point Defiance Zoo
U.S. Fish & Wildlife Service
1 800/344 WILD
www.fws.gov/southeast
December 2006
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| Rating | |
| Title | Endangered red wolves |
| Alternative Title | Canis rufus |
| Description | Original format brochure. |
| FWS Resource Links | http://www.fws.gov/redwolf/index.html; |
| Subject |
Endangered species Wildlife restoration Mammals Reintroduction Predator control |
| Location |
North Carolina Tennessee Florida Mississippi South Carolina |
| FWS Site |
ALLIGATOR RIVER NATIONAL WILDLIFE REFUGE |
| Publisher | U.S. Fish and Wildlife Service |
| Contributors | Southeast Region; Asheville Ecological Services Field Office; |
| Date of Original | 2006-12 |
| Type | Text |
| Format | |
| Item ID | http://library.fws.gov/Pubs4/endangered_red_wolves06.pdf |
| Source | NCTC Conservation Library |
| Language | English |
| Rights | Public domain |
| Audience | General |
| File Size | 297 KB |
| Original Format | Digital |
| Length | 9 p. |
| Transcript | Endangered Red Wolves U.S. Fish & Wildlife Service The U.S. Fish and Wildlife Service is reintroducing red wolves to prevent extinction of the species and to restore the ecosystems in which red wolves once occurred, as mandated by the Endangered Species Act of 1973. According to the Act, endangered and threatened species are of aesthetic, ecological, educational, historical, recreational, and scientific value to the nation and its people. On the Edge of Extinction The red wolf historically roamed as a top predator throughout the southeastern U.S. but today is one of the most endangered animals in the world. Aggressive predator control programs and clearing of forested habitat combined to cause impacts that brought the red wolf to the brink of extinction. By 1970, the entire population of red wolves was believed to be fewer than 100 animals confined to a small area of coastal Texas and Louisiana. In 1980, the red wolf was officially declared extinct in the wild, while only a small number of red wolves remained in captivity. During the 1970’s, the U.S. Fish and Wildlife Service established criteria which helped distinguish the red wolf species from other canids. From 1974 to 1980, the Service applied these criteria to find that only 17 red wolves were still living. Based on additional breeding studies, only 14 of these wolves were selected as founders to begin the red wolf captive breeding population. The captive breeding program is coordinated for the Service by the Point Defiance Zoo & Aquarium in Tacoma, Washington, with goals of conserving red wolf genetic diversity and providing red wolves for restoration to the wild. Approximately 40 cooperating facilities across North America participate in the national breeding program. Greg Koch Back in the Wild The red wolf is a shy species with a segment of its population now back in the wild, hunting, raising young, and howling across portions of its native habitat. The reintroduction effort began in 1987 with the release of four captive-bred red wolf pairs into the Alligator River National Wildlife Refuge (ARNWR), the first-ever restoration of an officially extinct species back into the wild. Since this initial restoration, nearly 100 red wolves now roam over 1.7 million acres of public and private land in northeastern North Carolina. In 1988, a litter of red wolf pups was born in the wild at ARNWR, the first wild-born pups in almost a decade. Another milestone was reached in 2002, when all red wolves in this wild population were born in the wild. Ongoing innovations in red wolf management mean success of this restored red wolf population continues. Small numbers of red wolves also live in the wild on island propagation sites on national wildlife refuges in other southeastern states. Why restore red wolves? Essential reasons are to prevent extinction of the species and to restore the ecosystems where red wolves lived. It is important to save all members of an ecosystem, including predators, if we are to be good stewards of the land. Predators maintain the balance and health of ecosystems by controlling over-populations of prey species and removing unhealthy animals. Melanie McGaw © The northeastern North Carolina location is the only wild red wolf mainland population site in the world. FWS biologist conducting a hard release Restoring red wolves contributes significantly to local economies. The presence of red wolves in the wild or in zoos and wildlife centers generates ecotourism dollars from those seeking to enhance their understanding of this endangered species. Howling Safaris, sponsored by the Red Wolf Coalition in cooperation with the Service, attract over 1,000 visitors annually to northeastern North Carolina and provide opportunities for red wolf education. The Endangered Species Act requires recovery plans for federally-listed threatened or endangered species. The Red Wolf Recovery Plan describes population goals and objectives for the red wolf. Lessons learned and techniques developed in the Red Wolf Recovery Program continue to serve as templates for recovery and management of other species. The Red Wolf Recovery Program could be described as an alliance of agencies, organizations, and individuals. What do red wolves look like? Red wolves are mostly brown and buff colored with some black along their backs. Typically there is a reddish color behind their ears, on their muzzles and along the backs of From top to bottom: gray wolf, 80-120 lbs.; red wolf, 50-80 lbs.; coyote, 20-45 lbs.; red fox, 10-15 lbs. Greg Koch Red wolf dad and pups their legs. Red wolves are intermediate in size between the larger gray wolves and smaller coyotes. The average adult red wolf weighs from 50-80 pounds, stands about 26 inches at the shoulder and is about four feet long from the tip of the nose to the end of the tail. Red wolves have tall, pointed ears, long legs, and large feet. Since coyotes sometimes enter the restoration area, it is important for people to know the physical differences between the two species. Adult coyotes weigh about one-half to two-thirds as much as adult red wolves and stand approximately four inches shorter; coyotes are much less massive through the head, chest, legs, and feet. However, red wolf yearlings could be confused with adult coyotes based on size similarities. Species Survival Plan Facilities Mainland Release Sites Island Projects Chad McClure Adult red wolf and yearling Captive red wolves can be seen at nearly 40 facilities located across the United States. A list of these facilities is posted on the Alligator River National Wildlife Refuge web site. Did red wolves ever exist in North Carolina? Based on fossil and archaeological evidence, the original red wolf range extended from the Atlantic and Gulf Coasts, north to the Ohio River Valley, through central Pennsylvania and New England, and west to southern Missouri and central Texas. At least one archaeological specimen has been found in North Carolina. Early naturalists encountered red wolves, and court records from eastern North Carolina document the payment of red wolf bounties from 1768 to 1789. Animal bounties in the U.S. began with the red wolf. Do red wolves hybridize with coyotes? Since applying adaptive management principles, biologists have demonstrated that red wolf hybridization with coyotes can be effectively managed. This means success in establishing wild red wolf populations is achievable. In fact, significant success has been recorded in northeastern North Carolina where the nation’s first restored wild red wolf population has been established. Original range of red wolf In the 1960’s only a few red wolves remained due to more than three centuries of persecution and habitat destruction. These same factors allowed coyotes and coyote hybrids to migrate from the western U.S. into southern and eastern states. These factors also broke down social structures which formerly minimized interbreeding between wolves and coyotes. When the few remaining red wolves were unable to find mates of their own species, hybridization with more abundant coyotes did occur. This hybridization is generally accepted as the final factor that resulted in the near extinction of the red wolf. Red wolves, gray wolves, domestic dogs, and coyotes are all capable of interbreeding and producing fertile hybrid offspring. Social structures and territoriality usually prevent such interbreeding. Alligator River National Wildlife Refuge was chosen as a red wolf restoration site, in part because it was free of coyotes prior to the 1980’s. As the non-native coyote colonized North Carolina, by the mid- 1990’s, it once again became a threat to the restored red wolf population. By 2005, biologists demonstrated that hybridization can be effectively managed while restoring red wolves to the wild. (#10 Insert collar photo and/or #11 collared wolf) Barron Crawford Radio tracking collar USFWS How are red wolves and coyotes managed? Red wolves are managed at four levels: population, gene pool, family groups, and individuals. In 1999, the Service partnered with various organizations and scientific experts to develop a zone-based Adaptive Management Plan to protect the wild red wolf population from hybridization with coyotes. The plan establishes three zones where coyotes are eventually replaced with a growing red wolf population. The first five years of adaptive management demonstrated coyotes and interbreeding can be effectively managed, red wolves can be successfully restored, red wolves can displace or kill coyotes, the wild red wolf population is expanding, and red wolf reproduction is increasing. The current recovery goal for the species is 550 animals (at least 220 in the wild), but that figure may change depending on the overall health of the population. How does the Service keep track of red wolves? Biologists use technologies known as aerial and radio telemetry to track and monitor red wolves in the wild. When red wolves are 8-10 months old, they are captured with a soft-sided leg trap, fitted with a radio collar, and released back into the wild. Each collar works like a mini-radio station, emitting a unique frequency that identifies the wolf. On the ground, biologists can receive a telemetry signal from a distance of up to 1.5 miles under good conditions. Aerial telemetry allows a range of approximately 20 miles. Red wolf locations and activities are monitored by fixed-wing aircraft several times a week. Over time, red wolves will be outfitted with collars than can be detected by satellites and which offer continual data collection over a broader area. Red wolf prey: nutria, raccoon, rabbits, white-tailed deer and rodents. Red wolf wildlife biologists also spend a great deal of time in the field looking for red wolf tracks and scat (feces) or listening for howls. Traveling down a dirt road will sometimes reveal red wolf traffic, and for example, whether a wolf is traveling alone or with another wolf, in what direction it’s heading, and the general size of the canid. Scat samples are often sent to a genetics lab for further analysis. Are red wolves a threat to humans? There have been no documented cases of red wolves attacking humans in North America, despite 500 years of coexistence. Wild red wolves are wary and prefer to avoid humans. However, in the same way it is wise to stay away from stray domestic dogs, red wolves and all wildlife should not be approached for the safety of the animal and people. What are the primary threats to red wolves? The primary threats to red wolves are hybridization with the eastern coyote, illegal mortality, vehicle mortality, and diseases such as mange, hookworm, and heartworm. Hurricanes have not caused significant losses to the red wolf population, but they have destroyed pens and enclosures. Hunting is a growing problem as red wolves are sometimes mistaken for coyotes. The Service recommends a “Please Don’t Shoot” advisory for hunters in the five-county Albemarle Peninsula because of the presence of endangered red wolves. USFWS What do red wolves eat? Although the exact diet of red wolves varies depending on available prey, a study of approximately 2,200 scats of wild red wolves from northeastern North Carolina estimates that their diet consists of about 50 percent white-tailed deer, 30 percent raccoons, and 20 percent small mammals, such as rabbits, rodents and nutria. A red wolf consumes about two to five pounds of food per day and can travel up to 20 miles a day in search of food. Do red wolves live and/or hunt in packs? A “pack” is simply defined as an extended family unit, which is the primary social structure of both red and gray wolves. Pack size is influenced by habitat and prey availability. A typical red wolf pack consists of five to eight animals – an “alpha” or breeding adult pair and offspring of different years. The alpha wolves breed once a year during winter months and are usually the only breeders. The gestation period is about 63 days, and the pups’ eyes open between 10-12 days. Red wolves tend to be monogamous. Since the red wolf ’s diet does not consist of larger ungulates (elk, bison, or moose), group or pack hunting is probably less frequent. Most hunting by red wolves is believed to be done individually or in pairs. USFWS FWS biologist with new born pups Wolf packs have specific home ranges that they actively defend against other canids, including other wolves. The pack is a very closely-knit group; in fact, older offspring assist the breeding pair with den attendance and pup-rearing. Almost all offspring between one and three years of age will leave the pack or “disperse.” Pup Fostering The Red Wolf Recovery Program has used pup fostering to enhance the genetic diversity of the wild red wolf population and to sustain the overall survival of the red wolf. The first fostering event took place in May, 2002. The North Carolina Zoological Park in Asheboro, North Carolina, donated two pups, a male and a female from a litter of six red wolf puppies born at the zoo. The pups were implanted with microchips for future identification and transported to the Alligator River NWR. The captive pups were then inserted into a wild wolf den containing two wild born pups of identical age and were accepted by the wild mother. The pups grew to adulthood and continued to live among the wild population. Red wolves are highly social animals and have very strong parental instincts. Fostering has proven to be a useful tool in red wolf recovery efforts. USFWS / Chris Lucash Above: red wolf pups; below: typical den USFWS How do red wolves maintain territories? Red wolves rely heavily on their sense of smell for survival. Similar to domestic dogs, wolves use scent-marking to establish their territories and travel routes. Because each wolf has a unique odor, members of the same pack can identify each other. A red wolf territory can range from a few hundred to more than 50,000 acres. Howling is another significant form of communication and a means of maintaining territorial boundaries. Wolves howl for many reasons: to keep track of wolves within and between packs, to assemble pack members, to announce or defend a fresh kill, to unify the pack (group howl), or to mark a territory. What does a red wolf on private land mean to the landowner? Various measures of flexibility are built into the Endangered Species Act that recognizes the needs of landowners while offering protection for the red wolf. The rights and lawful activities of a landowner, such as farming, logging, hunting, trapping, or livestock operations, can continue with little or no impact from red wolves. Some landowners report positive benefits from red wolves, such as natural control of non-native nutria or nest-raiding raccoons on their land. The presence of a pack of red wolves is likely to also reduce the presence of nuisance coyotes. Joey Hinton This is a juvenile male red wolf in a cotton field. Red wolves cause very few depredation problems. Should livestock or domestic pet depredations occur, regulations have been passed that allow landowners to take (kill) red wolves if certain conditions exist. The animal must have been “caught in the act” of a depredation, or freshly wounded livestock or pets should be evident. There are also payment mechanisms for landowners if they choose to become involved with red wolf recovery or if they suffer livestock or pet depredations. Private/corporate lands are an integral component of the Red Wolf Recovery Program. They act as important wildlife corridors between federal lands and provide diverse habitats for wolves to occupy. Partnerships with private land owners work well for people and wolves. How can people learn more about red wolf restoration? The Red Wolf Recovery Program reaches thousands of people annually by participating in community events throughout North Carolina, often in partnership with other agencies and the Red Wolf Coalition, a citizen-support group. Howling Safaris draw over 1,000 visitors a year to the ARNWR. USFWS Tiger Cub Scout Troup #921 of Grifton, North Carolina Eastern North Carolina Wildlife Art Show Donna Storie, Red Wolf Coalition “Far Traveler” teacher workshops are held semi-annually to expand red wolf education. Discovery Boxes, containing red wolf teaching tools, are mailed to environmental educators throughout the U.S. on a reservation system. The red wolf web site is maintained with up-to-date information and other red wolf resource links. Public awareness surrounding the red wolf restoration effort is further expanded to domestic and international audiences through print and broadcast media. Visiting red wolf exhibits at zoos and nature centers offer another source of education and, in many cases, public viewing opportunities. Learn the mission of the American Zoo and Aquarium Association’s Species Survival Plan Program and its link to the Service and endangered species. How can you help? Learn about wildlife and how to enjoy and protect wild animals. Drive safely since red wolves and other wild animals often cross roads to find food. Keep the roads clean of litter. It attracts wild animals, putting them in harm’s way. Hunt responsibly. There are 100 counties in North Carolina – 95 do not have red wolves. Support the Red Wolf Coalition and cooperating zoo facilities. 1791 Red wolf first described by Bartram. 1851 First publication of valid scientific name for red wolf by Audubon and Bachman. 1905 First recognition of red wolf as a distinct species by Bailey. 1937 First recognition of three subspecies of red wolf by Goldman. 1962 Scientific community informed by McCarley that red wolf is in danger of extinction. 1967 Red wolf listed as an endangered species under provisions of the Endangered Species Preservation Act of 1966. 1968 Service begins a study of the red wolf in southeast Texas and southwest Louisiana. 1969 First red wolf placed into captivity initiating the red wolf captive-breeding center at PDZA. 1973 Endangered Species Act becomes Federal law. First red wolf recovery plan completed and implementation begins. In a race against extinction, an all-out effort to capture wild red wolves for captive-breeding program begins. 1977 First litter of red wolf pups born in captivity in PDZA. 1978 First successful experimental release, tracking, and recapture of red wolves on Bulls Island, South Carolina, solidifies restoration techniques. 1980 Last red wolves removed from the wild and red wolf declared extinct in the wild. Unique allele found by Ferrell et al. in Canis specimens from within red wolf range supports conclusion that red wolf is a distinct species. 1984 Red wolf recovery plan revised, updated, and approved. Red wolf incorporated into AZA’s SSP. ARNWR established on land in northeastern North Carolina donated to the Service by Prudential Insurance Company. Historic Time Line for the Endangered Red Wolf 1987 First restoration begins with the release of four pairs of captive-born red wolves into ARNWR. First island propagation project begins on Bulls Island in an attempt to give red wolves some wild experience before release into mainland reintroductions. 1988 First litter of red wolf pups born in the wild at ARNWR. 1989 Second restoration project started by the release of red wolves into GSMNP. Wayne and colleagues publish mtDNA results suggesting that the red wolf may be of hybrid origin. American Sheep Industry Association files petition to delist red wolf based on the mtDNA results. 1991 Second-generation red wolf pups born in the wild at ARNWR. 1991 petition request to delist the red wolf found unwarranted by Service. First litter of red wolf pups born via artificial insemination at PDZA. 1992 Red wolves released into PLNWR. First red wolves born in the wild in GSMNP. 1995 Attitude survey by North Carolina State University shows majority of residents in eastern North Carolina support red wolf reintroduction. Amendment to Interior Appropriation Bill introduced in Senate to suspend all funding for Red Wolf Recovery Program. Amendment narrowly defeated. Greg Koch 1995 North Carolina law to allow taking of red wolves on private property in two counties goes into effect. Revised relaxed Federal regulations published addressing concerns about restored red wolves. National Wilderness Institute files petition to delist red wolf based on nuclear DNA results. 1996 Economic study by Cornell University shows strong regional support for red wolf recovery, substantial potential tourism benefits, and a significant willingness of the public to pay for red wolf recovery that far exceeds the cost of the program. Study by East Carolina University shows strong local support for red wolf recovery in northeastern North Carolina and a willingness to contribute financially to support the program. 1997 1995 petition request to delist the red wolf found unwarranted by the Service. Two North Carolina counties and two individuals file suit to invalidate federal regulations regarding the red wolf. Fourth island propagation project initiated on Cape St. George Island off the Gulf Coast of Florida. 1998 GSMNP reintroduction project canceled due to low pup survival and the inability of wolves to establish home ranges within the Park. PHVA and Adaptive Management Plan initiated. 1999 PHVA determines that hybridization with coyotes is the greatest threat to the recovery of the red wolf. An adaptive management plan is developed to address and manage hybridization. 2002 The entire red wolf population in northeastern North Carolina is wild-born except for two pups born at the North Carolina Zoo that are fostered into a wild den. 2003 Litter of pups born at PDZA via artificial insemination using fecal hormone analysis to time insemination. 2004 One of the 2002 fostered pups fathers a litter of eight. Two captive-born pups (born at CRNWR) fostered into separate wild dens. Historic Time Line for the Endangered Red Wolf 2006 About 100-130 wild red wolves roam 1.7 million acres in northeastern North Carolina, and over 170 exist in the captive population throughout the U.S. Adaptive management is working to control the coyote population in the recovery zones and has seen measurable success. 2006 With support from the Recovery Implementation Team, red wolf recovery continues to progress. New research techniques and data management are continually incorporated into the recovery effort. Key to Acronyms ARNWR: Alligator River National Wildlife Refuge, NC AZA: American Zoo and Aquarium Association CRNWR: Cape Romain National Wildlife Refuge GSMNP: Great Smoky Mountains National Park mtDNA: Mitochondrial DNA PDZA: Point Defiance Zoo & Aquarium, Tacoma, WA PHVA: Population and Habitat Viability Assessment PLNWR: Pocosin Lakes National Wildlife Refuge, NC SSP: Species Survival Plan U.S. Fish and Wildlife Service Red Wolf Recovery Program Alligator River National Wildlife Refuge P.O. Box 1969, Manteo, NC 27954 Phone: 252/473 1131 Ext. 246 Fax: 252/473 4836 E-mail: redwolf@fws.gov http://www.fws.gov/alligatorriver Red Wolf Captive Breeding Program Point Defiance Zoo and Aquarium 5400 North Pearl Street, Tacoma, WA 98407 Phone: 253/591 5337 Fax: 253/591 5448 http://www.pdza.org Red Wolf Coalition P.O. Box 96, 212 Main Street, Columbia, NC 27925 Phone: 252/796 5600 Fax: 252/796 5601 E-mail: redwolf@redwolves.com http://www.redwolves.com Brad McPhee, Point Defiance Zoo U.S. Fish & Wildlife Service 1 800/344 WILD http://www.fws.gov/southeast December 2006 |
| Images Source File Name | 8899.pdf |
| Date created | 2012-12-13 |
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