American mountain lions, research and conservation

This September 2014 video from the USA is called Mountain lion encounter in Montana.

From the Howard Hughes Medical Institute in the USA:

Whole genome sequencing could help save pumas from inbreeding

October 18, 2019

Summary: The first complete genetic sequences of individual mountain lions point the way to better conservation strategies for saving threatened populations of the wild animals.

When students at the University of California, Santa Cruz (UCSC) found a dead mule deer on campus, they figured it had been killed by coyotes. Wildlife biologist Chris Wilmers rigged up a video camera to spy on the carcass at night. But the animal that crept out of the shadows to dine on the deer was no coyote — it was a mountain lion.

Mountain lions, or pumas, stay close to their prey, “so it must have been hiding in a nearby gorge all day,” says Howard Hughes Medical Institute Investigator Beth Shapiro, an evolutionary biologist at UCSC.

The persistent puma was already well-known by Wilmers, who had radio-collared and tagged him as part of a long-term study of California mountain lions. But now the animal, dubbed 36m, is becoming even more famous: he’s the first puma to have his complete genome deciphered by scientists.

The information in 36m’s genes may lead to better conservation strategies, Shapiro, Wilmers, and their colleagues report October 18, 2019, in the journal Nature Communications. Many puma populations across North America are becoming increasingly isolated, Wilmers says. That ups their chances of succumbing to inbreeding and its consequences — serious abnormalities such as damaged hearts and malformed sperm. But with whole genomic information, scientists can pinpoint populations that need an influx of new genes or identify the best pumas to move between populations.

Such work could stop inbreeding in its tracks and help keep local populations from going extinct, Shapiro says. “This is the first time that whole genomes have been used in this way.”

Pumas in peril

The team’s new sequencing work is not the first effort to unlock pumas’ genetic secrets. Years of painstaking research by geneticist Stephen O’Brien, molecular ecologist Warren Johnson, and others had previously shown that Florida’s tiny population of pumas (also known as cougars or panthers) had become dangerously inbred, resulting in health defects like holes in their hearts and missing testicles. These abnormalities threatened the animals’ ability to reproduce.

The research team also proved that the introduction of eight female cougars from west Texas in 1995 had added enough new genes to boost health and help the population grow from about 30 individuals to more than 120. But the team’s effort was limited by the genetic technology available at the time, which relied on analyzing just small snapshots of DNA, or markers, scattered throughout the genome. So the scientists didn’t have a complete picture of the pumas’ genes.

Animals get two versions of every gene — one from mom and, usually, a different one from dad. This means that offspring have the genetic diversity needed to keep populations healthy. But when populations become small and isolated, relatives breed with each other. As a result, genetic diversity plunges, and many genome locations end up with two identical versions of a gene. That’s when weird things happen to animals, like the kinked tails, damaged hearts, and malformed sperm found in the inbred Florida panthers before the infusion of Texas cougar genes.

Using DNA markers alone, scientists can estimate the average amount of genetic variation within a population and get a rough picture of the level of inbreeding. But this approach can’t say whether major stretches of DNA between those markers contain copies of genes that are the same. These runs of identical gene copies are crucial, says Johnson, who is at the Walter Reed Biosystematics Unit and affiliated with the Smithsonian Conservation Biology Institute’s Center for Species Survival.

The number and length of these stretches provide a precise measure of both the extent of inbreeding and how recent it is — and, therefore, how close a population is to falling off a genetic cliff. Inbreeding is not a slow and progressive process, Shapiro explains. Instead, once enough long runs of DNA with identical copies accumulate, the effects of inbreeding kick in suddenly, like turning off a light switch, she says.

From mammoths to mountain lions

Shapiro is best known for recovering and sequencing tiny bits of DNA from ancient bones, charting the genetic changes in mammoths and other now-extinct animals as their numbers shrank. But she also has a keen interest in applying the same techniques to existing creatures, like the North American mountain lion. She wants to learn more about the genetic roads to extinction — and possibly prevent those creatures from suffering the same fate. While talking with Wilmers one day about the Santa Cruz lion population, the two scientists realized that a crucial piece of information was missing: the puma’s complete genetic sequence.

Using blood that Wilmers had already collected from puma 36m, Shapiro and her team, including graduate student Nedda Saremi and postdoc Megan Supple, read the lion’s entire genome to serve as a reference for the species. Then, for comparison, they sequenced the genomes of nine other mountain lions using stored samples — another from the Santa Cruz area, two from the Santa Monica mountains, one from Yellowstone, three from Florida, and one from Brazil.

The work let Shapiro see what had taken years to figure out in Florida — that the translocation of Texas cougars had boosted genetic diversity and health of the Florida panthers. The sequences also brought new insights: even after mixing in the Texas DNA, the Florida population remains closer to the genetic brink than previously thought. “The big takeaway is that translocation worked, but the lights are going to go off because they continue to inbreed,” Shapiro explains.

Similarly, the population in the Santa Cruz Mountains “is not doing as well as we expected,” she says. The 10 genomes also held controversial hints that mountain lions may have existed in North America far longer than previously thought — as many as 300,000 years, instead of fewer than 20,000 years. “What Beth and her students are able to learn from just 10 individuals greatly extends what could be inferred with traditionally used DNA markers,” Johnson says.

More insights will come as scientists ramp up whole genome sequencing. Sequencing the full genomes of many individuals across a species’ range is “tremendously valuable,” explains Brad Shaffer, director of the UCLA La Kretz Center for California Conservation Science. “That can tell us a lot about the potential for climate adaptation and other critical conservation goals.” And with costs rapidly declining — Shapiro says reading 36m’s genome cost about $10,000, down from $30,000 a couple of years ago, with subsequent lions sequenced for just $400 each — O’Brien and others are pushing for a much larger effort. “Whole genome sequencing should be done for every critter we can catch,” says O’Brien, of Nova Southeastern University.

Already, Shapiro’s work is shining a powerful new spotlight on the genetic health of individual mountain lions and populations, pointing the way to more effective conservation strategies. Isolated populations, for example, may benefit from wildlife bridges across major highways, to allow animals to wander more widely. In other cases, scientists may need to move animals from one region to another. Overall, a more complete picture of the genome makes it possible to spot populations at greatest risk for inbreeding ¬- and the best candidates for translocation.

“Now we can make more informed decisions,” says Johnson. “In the past, we made decisions based on limited genetic information.” The new approach takes out much of the uncertainty about a population’s genetic heritage, he says. It also offers clues about how to preserve genetic variation and may help populations adapt to change.

Though puma 36m didn’t live to see any of these advances, his genetic legacy will remain. “While 36m was a badass puma by any measure, he might one day come to be the most recognized puma anywhere,” Wilmers wrote in a tribute.”[His] will be the puma genome against which other puma genomes can be compared and used to test all sorts of evolutionary and ecological questions.”

Marine fog brings more than cooler temperatures to coastal areas. Researchers at UC Santa Cruz have discovered elevated levels of mercury in mountain lions, the latest indication that the neurotoxin is being carried in fog, deposited on the land, and making its way up the food chain: here.

1 thought on “American mountain lions, research and conservation

  1. Pingback: Cougar cats of the Americas | Dear Kitty. Some blog

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