Frog Hibernation and Breeding

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The San Diego Zoo Institute for Conservation Research is helping to learn more about the endangered mountain yellow-legged frog.

Last winter, things were cold and quiet in the lab where we care for mountain yellow legged frogs—just as they are every winter. Trying our best to replicate their natural environment, we keep the tank temperatures low—and the frogs hardly seem to move at all. Despite the calm, we excitedly monitor each female frog as the eggs that will be laid in the spring begin to develop. The breeding season is coming soon and this time of year prepares the frogs for a successful season.

Mountain yellow-legged frogs (MYLF) are found in small isolated pockets in the San Jacinto, San Bernardino, and San Gabriel mountains at elevations ranging from 1,200 to 7,500 feet. They live in creeks and ponds that remain filled with water year-round, and are rarely are found far from the water’s edge. In the winter months, temperatures drop to near and below freezing, and much of their native habitat becomes covered in snow.

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Because their habitat freezes over in winter, mountain yellow-legged frogs hibernate until spring.

How do the frogs survive these freezing temperatures? Well, you might be surprised to learn they hibernate!

Mountain yellow legged frogs go into hibernation when seasonal temperatures decrease starting in late fall. To escape the frigid weather, the frogs take shelter in underwater rock crevices and submerged vegetation located in deep pools which are less likely to freeze over. Elevation plays a big role in what time of year this occurs, with frogs at higher elevations having longer hibernation periods than those at lower elevations. Once the frogs find a good spot, they can remain there throughout winter. During hibernation, the frogs’ heart rate and metabolism slow to point where the animals do not require food.

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In our lab, we drop the room and water temperatures, dim the lights, and cover the tanks to mimic winter conditions.

In the MYLF captive breeding lab, we strive to create conditions for our frogs that closely resemble what they would experience in the wild. During the winter, this means bringing the cold weather indoors! From late December to March, we lower the ambient temperature in the lab, turn off the basking lights, and crank the water chillers down to a nippy 40°Fahrenheit. It is essential that our frogs “chill out”, so we take extra precautions and cover the tanks with visual barriers made from black plastic. This provides them with some privacy and reduces their exposure to external stimuli.

In spring, the weather starts to warm and the snow begins to melt, which are signals to the frogs that it is time to “wake up.” Rest and relaxation are over and now it is back to frog business – finding a meal and a mate!

Hibernation or overwintering is an important adaptation to cold environments, which some amphibian species are exposed to when they live at high altitudes and latitudes. Physiologically, animals readjust their daily operating mechanisms during winter by reducing their metabolism and acquiring fuel reserves during the summer months. Amphibians can even change their cellular functions to prevent freezing and to metabolize fat reserves and control gaseous exchange in a more efficient manner.

One of the primary adaptations to pronounced seasonal changes lies in the timing of reproduction. Seasonal synchronization of breeding increases with increasing latitude and emergence from hibernation is followed by a signal to find a mate and breed. However, hibernation also provides the perfect time for these animals, particularly the females, to prepare for breeding. We know from a variety of species that large reductions in temperature affect the way eggs develop and mature. In some instances, a lack of exposure to cold temperatures can even prevent the maturation of eggs.

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An ultrasound examination allows us to visualize the frog’s reproductive system.

As cold temperatures promote egg maturation in females, sperm production in males is also positively correlated to colder environments. Cold temperatures also affect the way reproductive hormones are produced and circulate in both sexes and they can even affect mate choice. Females that are ready to release eggs will often accept a male clasping them ( a behavior called amplexing) compared to females that are not ready to breed that year.

In the lab, we try to keep precise records of how egg development is proceeding during hibernation, and how females recover and prepare for the next breeding season. To do so, we employ an ultrasound—the very same type of machine you would find in your doctor’s office!

Once a month, during hibernation, Barbara Durrant, Ph.D., director of the division of reproductive physiology and Natalie Calatayud, Ph.D, perform ultrasound examinations on all of our female mountain yellow-legged frogs. Ultrasound machines produce an acoustic energy in the form of waves that bounce of tissues and structures contained in them. The female frog is gently restrained and the ultrasound wand is moved over the abdomen to visualize each ovary and oviduct. This way, we can visually track the follicles and determine when they mature into eggs.

Each time the frogs are imaged, weights and measurements are taken to monitor overall body growth. As you might imagine, with each female capable of laying a clutch of 200 to 900 eggs, some of them grow very round as their eggs mature.

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Follicles—and eventually eggs—are visible on an ultrasound.

The mountain yellow legged frog is listed as endangered with an estimated population of fewer than 200 adults in the wild in southern California! Captive breeding of this species is essential to the recovery of wild populations. From the 2015 breeding season alone, we were able to raise over 900 tadpoles that were released in the San Jacinto Mountains. We were also able to support 175 tadpoles through metamorphosis and overwinter the young froglets in our lab for reintroduction in 2016. The process of allowing animals to grow up in managed care is known as “head-starting”. Head-starting increases the chances of survival in the wild by allowing the youngsters time to grow and put on weight in a safe environment before taking up residence in their native habitat. For the 2016 breeding season, we can only wish for more of the same – lots of eggs and lots of tadpoles!

 

Nicole Gardner is a senior research associate at the San Diego Zoo Institute for Conservation Research (ICR).

Michelle Curtis and Natalie Calatayud are research associates at the ICR.

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