Smithsonian Global

Saving Endangered Cheetahs in Namibia and Around the World

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Power to Convene

Smithsonian cheetah biologist Adrienne Crosier works with the Cheetah Conservation Fund (CCF) in Namibia from her lab at the Smithsonian Conservation Biology Institute (SCBI) in Front Royal, Virginia. With her partners, she studies how cheetahs reproduce in order to create new technologies to improve cheetah reproduction in human care. As a result of this work, there are now hundreds of samples of genetic material banked to help restore cheetahs to the wild and reintroduce genetic diversity to the cheetah population. Adrienne’s research at SCBI increases our understanding of cheetah biology, better equipping conservation biologists to save cheetahs from extinction.  

Cheetahs are the fastest land animals in the world. They are also the most endangered African cat. Growing human populations and the breakdown of their habitats threaten cheetah populations from Namibia to Iran. In 1900, almost 100,000 cheetahs roamed freely from the southernmost tip of Africa all the way to Persia. Today, there are between 10,000 and 12,000 cheetahs worldwide, including in the wild and in human care.

Photo Credit Smithsonian Institution.
Photo Credit Smithsonian Institution.

The largest cheetah populations live in the southwestern Africa countries of Botswana, Zambia, and Namibia, where the CCF is working to protect the world’s remaining cheetahs. Smithsonian Cheetah biologist Adrienne Crosier works from her lab at SCBI to study how cheetahs reproduce and create new technologies to better breed cheetahs in human care. 

Compared to other animals, cheetahs have a very low genetic diversity. About 12,000 years ago, a mass extinction event eliminated 75 percent of the world’s large mammal species. A few cheetahs survived this event, and all cheetahs today are descended from this small group. 

The reduction in cheetah genetic diversity from this mass extinction event, called a “population bottleneck,” means that cheetahs are particularly vulnerable to environmental changes in their habitats and face significant challenges to reproduction.

Cheetah cubs. Photo credit Mehgan Murphy/NZP.
Cheetah cubs. Photo credit Mehgan Murphy/NZP.

Advances in reproductive understanding of cheetah populations, combined with biobanking of cheetah genetic material, mean that Smithsonian scientists like Adrienne and our international partners can increase the genetic diversity of the cheetah population by reintroducing genetic material from cheetahs who died 10, 20, or even 30 years ago.  

Since 2002, Adrienne has worked to train local Namibians how to collect biological samples from cheetahs and “bank” them in a biobank repository where they are frozen for future use. There are now hundreds of samples of cheetah genetic material banked in Namibia, which can be used to restore cheetahs to the wild and to reintroduce genetic diversity to the cheetah population.

Female cheetah embryo. Photo credit Pierre Comizzoli, CCF, and Smithsonian/NZP.
Female cheetah embryo. Photo credit Pierre Comizzoli, CCF, and Smithsonian/NZP.

Today Adrienne’s research focuses on the reproductive physiology of older female cheetahs. Female cheetahs have irregular reproductive cycles and scientists don’t really know how to manipulate female cheetah hormones to increase reproductive ability. Because cheetah habitats are threatened and their natural prey base is decreasing, Adrienne’s research is critical to preserving cheetah populations.  

Cheetah cubs. Photo credit NZP.
Cheetah cubs. Photo credit NZP.

By biobanking the eggs of older female cheetahs unable to have offspring, Adrienne and her team can later fertilize and implant these eggs into surrogates, thereby reintroducing those genetic traits into the general population.

Adrienne combines her research in reproductive health with the research of other SCBI conservation biologists on cheetah health, disease, and genetics to better understand the threats to cheetahs in the wild and in human care. By observing how cheetahs reproduce in human care, Adrienne and her team can explore how we can better preserve cheetah habitats to encourage and support cheetah populations.


Adrienne Crosier  

Adrienne Crosier is a cheetah biologist at the Smithsonian Conservation Biology Institute (SCBI) in Front Royal, Virginia. She is responsible for the cheetah breeding program at SCBI and collaborates with zoos and conservation institutions around the world to support cheetah conservation.

Laurie Marker  

Dr. Laurie Marker is a research scientist and conservation biologist recognized as one of the world’s leading experts on cheetahs. As Founder and Executive Director of Cheetah Conservation Fund (CCF), Dr. Marker has pioneered research, established conservation models and created cooperative alliances on behalf of the cheetah that never before existed.


Harnessing Reproductive Science to Save Cheetahs   Active

Smithsonian scientist Adrienne Crosier created a first-of-its-kind cheetah biobank of genetic material in Namibia. Working with local Namibian students and the Cheetah Conservation Fund (CCF), led by former Smithsonian Research Fellow Laurie Marker, Adrienne and our international partners are able to increase genetic diversity of the cheetah population.