Automated trail cameras
set up by a UA research team have snapped pictures of a male jaguar and a
male ocelot roaming the rugged Southern Arizona landscape.
Automatic wildlife cameras snapped this photo of a
male jaguar on a nightly walk in the Santa Rita Mountains on Oct 25.
(Photo: USFWS/UA/DHS)
When a trail camera detects the movement of a
passing animal, it snaps a picture. Images are stored and later
retrieved by wildlife biologists. (Photo: USFWS/UA/DHS)
Researchers can identify individual jaguars by their unique rosette pattern. (Photo: USFWS/UA/DHS)
This male ocelot was photographed by automatic wildlife cameras in the Huachuca Mountains on Oct 8. (Photo: USFWS/UA/DHS)
University Communications |
February, 2013
An adult male jaguar and an adult male ocelot have been photographed in
two separate Southern Arizona mountain ranges by automated wildlife
monitoring cameras. The images were collected as part of the Jaguar
Survey and Monitoring Project led by the University of Arizona. Both
animals appear to be in good health.
In late November, the UA project team downloaded photos from wildlife
cameras set up as part of the research project and found new pictures of
a jaguar in the Santa Rita Mountains. A total of 10 jaguar photos were
taken by three UA cameras and one Arizona Game and Fish Department
camera. The cat’s unique spot pattern matched that of a male jaguar
photographed by a hunter in the Whetstone Mountains in the fall of 2011,
providing clear evidence that the big cats travel between Southern
Arizona’s “sky island” mountain ranges.
“We are very pleased about these photos,” said Lisa Haynes, who manages the research project and coordinates the Wild Cat Conservation and Research Center
project. “I am proud of our field team and their incredible knowledge
and capacity to place these cameras in the best locations to detect
jaguar and ocelot movement.”
In September, a photo showing a jaguar tail was reported by the Arizona Game and Fish Department from a hunter’s automated wildlife monitoring camera in the Santa Rita Mountains.
“None of the UA photos can be matched to this ‘tail photo’ because, in
the new photos, the tail is obscured or the opposite side of the jaguar
was photographed,” Haynes explained. “However, we believe the jaguar is
most likely the same individual.”
In addition, a new ocelot photo was taken in the Huachuca Mountains
west of Sierra Vista by one of the UA project cameras. Again,
comparisons of the spot patterns revealed this to be the same male
ocelot that has been reported by the Arizona Game and Fish Department
and photographed in the Huachucas several times in 2011 and 2012.
However, the UA photo was taken about 4 miles away from the previous
photos, demonstrating that even the smaller cats move across the rugged
Arizona landscape.
The purpose of the UA research project is to establish a non-invasive,
hands-off system for detecting and monitoring jaguars and ocelots. The
project is using motion-sensor-activated “trail” cameras placed in areas
where the spotted cats are most likely to be detected. Once fully
operational, up to 240 paired cameras will be in place throughout the
project area to capture images of both sides of detected animals.
Very little is known about these cats in the northern part of their
range. The primary distribution of jaguars and ocelots, both known as
Neotropical cats, ranges across Central and South America and Mexico.
Both species occurred historically and recently in the southwestern
United States, although in few numbers. Every new data point will add to
the science and body of knowledge about their distribution and ecology
in the southwestern U.S., which is why this project is so important.
The UA is conducting this large-scale project to detect and monitor
jaguars and ocelots along the northern boundary of the U.S.-Mexico
international border, from the Baboquivari Mountains in Arizona to the
southwestern “boot heel” of New Mexico.
The researchers also are employing a specially-trained scat detection
dog to assist the team in collecting potential jaguar and ocelot scat in
the areas where a jaguar or ocelot has been detected by camera. The UA Conservation Genetics lab,
under the leadership of Melanie Culver, U.S. Geological Survey
geneticist in the UA School of Natural Resources and the Environment,
will conduct genetic testing of the scat to verify species and possibly
identify the individual cats.
Culver, who is the project’s principal investigator, said: “What is
exciting about this research project is the combination of techniques
and skills, from the deep knowledge of our field people of how wild cats
move around the landscape to cutting edge molecular-genetic analysis of
the scats. We are particularly enthused about the potential information
we may retrieve from the project’s trained scat detection dog that will
certainly advance our understanding of these two wild cat species.”
In addition to obtaining the photos of jaguars and ocelots, the team
will be assembling the most comprehensive photo data set of other
wildlife in this region that has ever been done. With a photo processing
system and computer program developed by one of the members, the
researchers will gain an unprecedented understanding of the
distribution, diversity and activity patterns of other species of
wildlife, providing insight into jaguar and ocelot ecology and habits.
“We are looking forward to closely analyzing these new photos with respect to other wildlife in the area,” Haynes said.
The three-year study will be accomplished under a contract with funds
provided by the U.S. Department of Homeland Security to the U.S. Fish and Wildlife Service. The purpose of these funds is to address and mitigate environmental impacts of border-related enforcement activities.
The ocelot has been protected in the U.S. as endangered under the
Endangered Species Act since 1982. The jaguar was listed as
endangered in the U.S. in 1997.
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