That Reptile Blog – Reptile, Amphibian and Exotic Pet Care and Information

Scorpion venom has recently undergone an image upgrade…once feared, these little-studied toxins are now yielding valuable medicines. Researchers at China’s Wuhan University have recently (August, 2009) discovered 9 new types of peptides and proteins in the venom of Scorpiops jendeki, a scorpion native to southwestern China.

Current Research

Although considered only mildly toxic, S. jendeki’s venom is quite complex, containing at least 19 different proteins. Scientists believe that these molecules may be useful in synthesizing new drugs. Newly discovered molecules, which may attack cells in novel ways, are always looked upon with great interest by medical researchers working with incurable diseases and drug-resistant microbes.

Role for a Deadly Scorpion

In recent years, even the much-maligned “death stalker” or Israeli yellow scorpion (Leiurus quinquestriatus) is being treated with new respect in the lab – an irradiated version of a protein in its venom shows great promise in the treatment of brain cancer.

Further Reading

You can read more about current research involving scorpion venom and brain cancer at http://www.nano.org.uk/news/april2009/latest1847.htm.

 

Please see Part I of this article for tips on using oyster shell for desert dwelling lizards and tortoises. Today we’ll explore the use of rabbit pellets for herbivorous reptiles and their important role in preventing leg deformities in hatchling tortoises.

Rabbit Pellets for Hatchling Tortoises

Rabbit pellets? Yes…surprisingly, rabbit pellets are useful to herp keepers in several ways.

Hatchling tortoises that are housed on hard, unyielding substrates (i.e. newspaper over a bare floor, packed bark-based products) very often develop splayed legs. Eventually, the animal is left in a fairly crippled condition; corrective measures are relatively ineffective after a certain point.

Rabbit pellets used as a cage substrate provide exactly the right consistency for all newly hatched tortoises. I have raised many broods of star (Geochelone elegans), leopard (G. pardalis), radiated (Astrochelys radiata) and other tortoises on rabbit pellets with great results.

Rabbit and Alfalfa Pellets as Food

Additionally, rabbit pellets are useful as a substrate for older tortoises, green iguanas (Iguana iguana) and other herbivorous lizards. Comprised largely of alfalfa, they are a fine food item for these creatures, and so can be swallowed with impunity by animals that drag damp salad out of their feed bowls. This fact is gaining acceptance among reptile keepers…so much so that R Zilla now manufactures an alfalfa pellet specifically for use as a reptile substrate.

Rabbit and alfalfa pellets clump when wet, quickly revealing areas in need of spot cleaning. As they are likely to be eaten, it is important that the pellets used as a substrate are kept fresh and clean. Alfalfa pellets support fungal growth, and therefore are not suitable for use with desert-dwelling reptiles (please see Part I of this article for further details).

Over-Eating

Overconsumption of rabbit pellets reputedly results in overly high protein levels for some tortoises. Although I am not aware of any specific incidences of this, rabbit and other alfalfa pellets in and of themselves do not provide any tortoise with a balanced diet, so their intake should be monitored. In my experience, most tortoises eat rabbit pellets accidentally, along with salad, and do not specifically seek them out.

 

While the role of UVB light in the care of reptiles is well understood, we are only beginning to learn about their needs for UVA. Unlike UVB, UVA may also be critical to the proper husbandry of amphibians and invertebrates. Today I’ll summarize what is known; in Part II of this article we’ll take a look at some of the UVA-Emitting Bulbs currently available at ThatFishPlace/ThatPetPlace.

Description

UVA light has a wavelength of 320-400 nanometers (a nanometer measures 1 thousandth of 1 millionth of a meter…don’t ask me how that was figured out!) and is visible to herps and many invertebrates, but not to people.

The Pineal Gland

UVA light sensed by an organ known as the pineal gland (located near the brain) of many reptiles.  It functions in the regulation of their “internal clocks” or circadian rhythms, and is believed responsible for daily and seasonal behavioral changes in response to varying light levels.  A similar process is at work in amphibians and at least some invertebrates.

Uses in Captivity

The provision of UVA light encourages natural behavior, better appetites, basking and breeding in a great many species.  UVA reflective areas on animals and plants (which we cannot see) help a variety of creatures to identify mates, food and predators.

A lack of UVA may be responsible for the failure of many otherwise hardy species to breed regularly in captivity.  For example, without UVA light, female desert iguanas cannot see the pheromone trails laid down by males in breeding condition, and hence may fail to reproduce.

Unlike UVB, which is generally not essential to nocturnal animals, UVA light may have a role in regulating the behavior of both diurnal and nocturnal species.

Next time we’ll take a look at some UVA-emitting bulbs.  We have a great deal to learn about UVA.

The Panamanian golden frog (Atelopus zeteki) is one of the world’s most highly endangered amphibians, but has entered the pet trade from time to time and is sometimes seen in private collections. I’ve had the good fortune of working with these Neo-Tropical gems at the Bronx and Staten Island Zoos, and would like to highlight their amazing natural history and desperate plight here.

Description

Golden frogs reach a mere 1.4 – 2.5 inches in length, with individuals inhabiting dry forests being 2/3 the size of wet forest dwellers (please see “Habitat”, below).

Slim and long-legged, golden frogs are clad in bright gold, brilliant to pale yellow, or greenish-yellow. The black markings they sport range from random blotches to small spots, or may be entirely absent. The head is longer than it is wide, and the snout is pointed.

Sub-adult frogs are very different from adults in appearance, being vivid green with black markings. This color scheme provides excellent camouflage among the moss-covered boulders of their streamside habitat.

Most people are surprised to learn that this species is classified in the family Bufonidae, along with the familiar American toad. It usually moves with a peculiar, ambling walk.

Range

Golden frogs are known only from the Cerro Campers-Valle de Anton region of western Panama.

Habitat

Golden frogs are restricted to the margins of swiftly flowing streams on the montane slopes of Panama’s Central Cordillera rainforests and cloud forests, at elevations of 335-1,315 meters above sea level.

There are 2 distinct habitat types, wet forest and dry forest. Animals within wet forest habitats congregate on streamside boulders, to a height of 9 feet above the ground; dry forest frogs forage mainly on the ground. In both habitats, females move into the forest with the approach of the rainy season, while males tend to remain in the territories that they have established along the streams.

Communicating by Sign Language

The Panamanian golden frog has evolved a number of adaptations that allow it to breed in swiftly flowing streams, which are relatively hostile environments for small amphibians.

Males utilize hand waving and foot movements, known as “semaphoring”, in order to advertise their presence to females and to discourage other males. This communication system has apparently evolved in response to the deafening noise of the waterfalls in the streams where these frogs reproduce…vocal signals from such a small animal would be ineffective.

Males that intrude on another’s territory are attacked, and a wrestling bout ensues.

Eggs

A single egg strand, containing 200-650 eggs, is laid by each female. The egg strand is attached to a large rock, which protects it from fast currents. The eggs hatch in 7-10 days.

Tadpoles

The tadpoles are dark with golden flecks and have an adhesive disc on the ventral surface that allows them to cling to rocks in fast-moving streams. They feed by scraping algae and diatoms from the surface of submerged rocks, and congregate at the edges of pools below cascades.

In captivity, tadpoles transform over an unusually variable time period…75-265 days.

Metamorphosis

Newly transformed frogs differ greatly from adults in appearance, being vivid green with black markings. They also differ in behavior – whereas the adults are diurnal and quite bold, young golden frogs hide among moss covered streamside boulders.

It is believed that sub-adult frogs lack the potent skin toxins of the adults, and therefore rely upon camouflage for protection.

 

Further Reading

You can read about golden frog conservation projects at

http://www.inibico.org/Projects/Atelopusproject/tabid/39/Default.aspx?PageContentID=8.

Image referenced from Wikipedia and originally posted by Jeff Kubina.

Please see Part I of this article for information on the history of corn snakes (Elaphe/Pantherophis guttatus) in the pet trade and breeding preparations.

Color Strains

Young herpers may find it hard to believe that there was a time when only normally colored corn snakes were to be found in the pet trade. Today, a bewildering array of color phases and patterns are available, far more than exist for any reptile. I just reviewed a wholesaler’s price list and counted 48 color and pattern strains being offered!

Hybrids

Corn snakes have also been hybridized with closely and even distantly related species, including, respectively, black ratsnakes and gopher snakes. Indeed, the corn snake’s genetic propensity for producing numerous color morphs and hybrids is at the core of its popularity and its value in revealing to us the details of snake color inheritance and captive breeding.

Natural vs. Captive-Produced Corn Snake Colors

Oddly, the naturally colorful “Okeetee Phase” corn snakes are now less in evidence than other forms, and consequently are becoming highly prized. They really are gorgeous, and, in light of their history, hold a special interest for me. However, some of the captive-generated morphs are quite unique and its great fun to work on producing new strains. Some of the more descriptively named corn snake varieties include:

• Sun Kissed
• Sunglow
• Rootbeer Striped
• Reverse Okeetee
• Snow Striped
• Lavender Motley
• Hypo Striped
• Golddust
• Ghost Striped
• Ghost Blood Red
• Creamsickle
• Christmas
• Charcoal
• Caramel motely
• Butter Striped
• Black
• Albino Recessive Okeetee
• Albino Abberent

I’ve often thought someone should establish a collection comprised of representatives of every known corn snake color phase and hybrid…if you are on your way to that, please let me know!

Further Reading

The taxonomy of corn snakes and related species has been revised in recent years. To view its current status and learn more about corn snake hybrids, please see http://www.jcvi.org/reptiles/species.php?genus=Pantherophis&species=guttatus.