Native American tribes, including the
Crow,
Blackfoot,
Sioux,
Cheyenne, and
Pawnee, used black-footed ferrets for religious rites and for food.
Sylvatic plague, a disease caused by
Yersinia pestis introduced into North America, also contributed to the prairie dog die-off, though ferret numbers declined proportionately more than their prey, thus indicating other factors may have been responsible. Plague was first detected in South Dakota in a coyote in 2004, and then in about of prairie dogs on
Pine Ridge Reservation in 2005. Thereafter of prairie dog colonies were treated with insecticide (
DeltaDust) and of black-footed ferret habitat were prophylactically dusted in
Conata Basin in 2006–2007. Nevertheless, plague was proven in ferrets in May 2008. Since then each year of their Conata Basin habitat is dusted and about 50–150 ferrets are immunized with plague vaccine. Ferrets are unlikely to persist through plague episodes unless there are management efforts that allow access to prey resources at a wider region or actions that could substantially reduce the plague transmission. A 2023 study found that combining insecticide dusting with aerial distribution of oral vaccine baits improved plague resistance in
prairie dogs which supports black-footed ferret recovery. The authors emphasized that coordinated, landscape-scale mitigation is essential for maintaining stable prey populations and suitable ferret habitat. Long-term monitoring and integrated management strategies are key to sustaining conservation outcomes in plague-affected regions.
Inbreeding depression may have also contributed to the decline, as studies on black-footed ferrets from
Meeteetse, Wyoming, revealed low levels of genetic variation. Canine distemper devastated the Meeteetse ferret population in 1985. A live virus vaccine originally made for domestic ferrets killed large numbers of black-footed ferrets, thus indicating that the species is especially susceptible to distemper. These survivors were captured from 1985 to 1987 to serve as the foundation for the black-footed ferret
ex situ breeding program. Seven of those 18 animals produced offspring that survived and reproduced, and with currently living descendants, are the ancestors of all black-footed ferrets now in the
ex situ (about 320) and
in situ (about 300) populations. The black-footed ferret is an example of a species that benefits from strong reproductive science. A captive-breeding program was initiated in 1987, capturing 18 living individuals and using artificial insemination. This is one of the first examples of assisted reproduction contributing to conservation of an endangered species in nature. in Eastern Wyoming, reintroduction expanded to Montana, six sites in South Dakota in 1994, Arizona, Utah, Colorado, Saskatchewan, Canada and Chihuahua, Mexico. The
Toronto Zoo has bred hundreds, most of which were released into the wild. A population of 35 animals was released into
Grasslands National Park in southern
Saskatchewan on October 2, 2009, and a litter of newborn kits was observed in July 2010. Arizona's
Aubrey Valley ferret population was well over 100 and a second reintroduction site with around 50 animals is used. An August 2007 report in the journal
Science counted a population of 223 in one area of Wyoming (the original number of reintroduced ferrets, most of which died, was 228), and an annual growth rate of 35% from 2003 to 2006 was estimated. These wild populations are possible due to the extensive breeding program that releases surplus animals to reintroduction sites, which are then monitored by USFWS biologists for health and growth. However, the species cannot depend just on
ex situ breeding for future survival, as reproductive traits such as pregnancy rate and normal sperm motility and morphology have been steadily declining with time in captivity. These declining markers of individual and population health are thought to be due to increased inbreeding, an occurrence often found with small populations or ones that spend a long time in captivity. Conservation efforts have been opposed by stock growers and ranchers, who have traditionally fought prairie dogs. In 2005, the U.S. Forest Service began poisoning prairie dogs in private land buffer zones of the Conata Basin of Buffalo Gap National Grassland. Because 10–15 ranchers complained the measure was inadequate, the forest service advised by
Mark Rey, then Undersecretary of Agriculture, expanded its "prairie-dog management" in September 2006 to all of South Dakota's Buffalo Gap and the
Fort Pierre National Grassland, and also to the
Oglala National Grassland in Nebraska, against opinions of biologists in the U.S. Fish and Wildlife Service. Following exposure by conservation groups including the
Climate, Community & Biodiversity Alliance and national media public outcry and a lawsuit mobilized federal officials, and the poisoning plan was revoked. The contradictory mandates of the two federal agencies involved, the USFWS and the U.S. Forest Service, are exemplified in what the Rosebud Sioux tribe experienced: The ferret was reintroduced by the USFWS, which according to the tribe promised to pay more than $1 million a year through 2010. On the other hand, the tribe was also contracted for the U.S. Forest Service prairie dog poisoning program. The increasing numbers of ferrets led to conflicts between the tribe's Cheyenne River Sioux Tribe Game, Fish and Parks Department and the Tribal Land Enterprise Organization. When the federal government started an investigation of the tribe's prairie dog management program, threatening to prosecute tribal employees or agents carrying out the management plan in the ferret reintroduction area, the tribal council passed a resolution in 2008, asking the two federal agencies to remove ferrets, and reimburse the tribe for its expenses for the ferret recovery program. In 2020, black-footed ferrets were used to test an experimental
COVID-19 vaccine in Colorado. COVID testing was performed on black-footed ferrets for crucial conservation reasons, primarily due to concerns that the highly endangered species would be vulnerable to the virus and face extinction from a potential outbreak. Ferrets are known to be susceptible to respiratory diseases, and the coronavirus spreads easily among related species, like mink. Employees of the San Diego Zoo, the conservation organization
Revive & Restore, the ViaGen Pets and Equine Company, and the
U.S. Fish and Wildlife Service have teamed up to clone a black-footed ferret. In 2020, a team of scientists
cloned a female named Willa, who died in the mid-1980s and left no living descendants. Her clone, a female named
Elizabeth Ann, was born on December 10, 2020, making her the first North American endangered species to be cloned. Scientists hoped that the contribution of this individual would alleviate the effects of inbreeding and help black-footed ferrets better cope with plague. Experts estimate that this female's genome contains three times as much genetic diversity as any of the modern black-footed ferrets. In October 2022, Elizabeth Ann received a
hysterectomy due to health complications related to hydrometra, a condition causing excessive fluid retention within the uterus, alongside an underdeveloped uterine horn. These conditions are common in black-footed ferrets, and are not believed to be due to the cloning process. Elizabeth Ann otherwise remained healthy and continues to demonstrate normal behavior for an adult ferret. In April 2024, the
U.S. Fish and Wildlife Service announced the birth of two new black-footed ferret clones, Noreen and Antonia, who were cloned from the same genetic material as Elizabeth Ann. Noreen was born at the National Black-footed Ferret Conservation Center in
Colorado, while Antonia was born at the Smithsonian National Zoo & Conservation Biology Institute in
Virginia. == In popular culture ==