Ball Python Leucistic

Currently, ball pythons come in a wide variety of color and pattern mutations. Ball pythons can exhibit mind-blowing colors and patterns as a result of some of these mutations, while others are more subtle and only entail minor changes to the species’ native color and pattern.

Leucistic ball pythons could be the finest example of the latter group of mutations, though there are several others as well. Leucistic ball pythons are among the most astounding snakes that are accessible to snake keepers. They are essentially all white creatures with black rather than red eyes.

If you’re considering adding an all-white ball python to your collection, we’ll go into detail on the leucistic mutation below and explain all you need to know about it.

What Does “Leucistic” Mean?

Animals who do not manufacture melanin as effectively as they need to are referred as as “leucistic.” They frequently have a partial loss of colour, according to descriptions.

Animals may occasionally seem entirely white or almost all white as a result of this. However, leucistic animals typically have dark-colored eyes, in contrast to amelanistic (albino) creatures.

In addition, some leucistic creatures have subdued hues or pattern components rather than being entirely white. There may still be some black pigmentation in certain places.

Leucism may be seen in a number of the tree of life’s branches. Leucism has been observed in a variety of deer species, killer whales, bears, giraffes, buffalo, and, obviously, snakes. For many years, snake aficionados, for instance, have raised leucistic Texas rat snakes. In addition, the piebald mutation is typically regarded as a kind of leucism.

What Makes Them So Rare?

There is a reason why blue-eyed leucistic ball pythons are rarely kept as pets. They are quite challenging to breed!

The disorder known as leucism causes a partial loss of skin pigmentation. Leucistic snakes typically have patches of white colour, with the rest of their body remaining its natural color. Leucism differs from albinism in this way.

Even more unusually, blue-eyed leucistic ball pythons are extremely rare. It has a white body throughout. The distinctive eyes are the only thing keeping it from being an albino ball python.

That brings up the topic of breeding once more. Breeders must combine the DNA of two distinct morphs to get a true blue eyed leucistic ball python. But more than one generation is involved.

It will take two morphs’ DNA over three generations to create these lovely snakes!

What morphs are used by breeders? They often combine five distinct morphs to produce pairs.

The next time you see one of these stunning creatures and its hefty price tag, you’ll understand how much work goes into breeding them!

What Is A Blue Eyed Leucistic Ball Python?

The ball python has a morph that includes blue eyes.

It originates from the wild royal ball python, like other morphs (Python regius).

West and Central Africa’s grasslands, shrublands, and woods are home to the royal ball python. Its back, sides, and belly are light brown in hue with black or dark brown patterns. Its natural coloring allows it to blend in with the trees when hunting and serve as camouflage.

Instead of being typically black or dark brown, blue eyed leucistic ball pythons are mostly white.

Blue eyes are a need for a BEL ball python, above everything else. The shade of these eyes might be anything from whitish-blue to a deep, dark blue.

Their piercing blue eyes and white coloration make them exceptionally attractive.

For two reasons, this morph is extremely uncommon in the wild. Their light coloring is caused by an extremely uncommon gene combination. They would find it challenging to hunt and conceal in the forest due to their white tint.

Fortunately, ball python breeders are now capable of producing this morph. In fact, they are prized for their uncommon genetics, which is why many breeders aim to produce a blue-eyed leucistic.

Finding a blue-eyed leucistic ball python should not be too difficult even if they are still a rare morph. The first was produced in 1992 by an unidentified breeder, and although this is unconfirmed, others believe that was sold for a staggering $10,000.

Blue eyed Lucys are adored by owners for their beauty and uniqueness.

The leucistic nature of the blue-eyed leucistic ball python results in a partial loss of color. Their scales seem light because they lack colour.

Leucism is distinct from albinism (albino). A snake that has completely lost its color and always has red eyes is an albino. Blue eyes are a need for a leucistic python with blue eyes.

Leucistic Ball Python Appearance

Prior to continuing, it’s crucial to remember that there are two distinct varieties of leucistic ball pythons in addition to the ivory ball python, which is quite comparable and sometimes mentioned in these conversations.

Blue-Eyed Leucistic – Ball pythons with blue eyes are often off-white to completely white creatures. Instead of being completely white, some are somewhat pinkish, and a tiny percentage have typical (black) pigmentation spots.

Blue-Eyed Leucistics – Blue-eyed leucistics and black-eyed leucistics are both types of ball pythons, with the exception that the former’s eyes are blue. They occasionally have areas of normal pigmentation, but are typically off-white to pure white in color.

Ivory – Ivory ball pythons resemble leucistic ball pythons in overall appearance, although they tend to be pinker and have more distinct patterns than leucistic animals (especially on the head). They often have black eyes and a pale dorsal stripe.

We won’t go into more detail about ivory ball pythons, but we thought it would be helpful to describe how they vary from blue- and black-eyed leucistics for people who are unfamiliar.

Understanding that each snake expressing these mutations varies to varying degrees is crucial. For example, one blue-eyed leucistic snake may seem brighter white than another, and one black-eyed leucistic snake may exhibit more regions of typical pattern components than another.

How Big Does A Blue Eyed Leucistic Ball Python Get?

Within their first two or three years, males typically reach a height of three feet. Females are normally five feet long but can grow to a maximum height of six feet.

The development of this morph is the same as that of their wild-type cousins, despite their white bodies and distinctive look.

Ten-inch-long hatchlings grow to adult size in three years after birth.

Due to their larger stature, females go through more growth.

Due to their inactive lifestyles, ball pythons tend to gain weight and have stocky bodies. Males and females should seldom weigh more than 1,500 grams and 1,750 grams, respectively, as adults. Females in good health can weigh up to 1,900 grams.

It is advised to regularly check your weight to make sure your snake is maintaining a healthy size.

Appearance & Colors

Ball Pythons with blue eyes that are leucistic are simple to spot. Their ice blue eyes and white skin serve as their distinctive characteristics.

Snakes with cream-colored skin or little areas of color are possible to encounter. Some even feature a spine-length stripe of beige-yellow. Even though they are still blue eyed leucistic ball pythons, the pure white variety is usually more sought-after.

On an effort to produce the ideal baby BEL, the younger generations who still have some colour in their skin may be among them. Despite the “imperfections” on the outside, they are still excellent snakes to grow. Additionally, they are typically significantly more inexpensive.

The eyes are the second distinguishing feature. These snakes have vivid blue eyes, as their name suggests. The pupil is black like any other snake, yet the iris is colorful.

Aside from their distinctive coloring, blue-eyed leucistic ball pythons resemble all other members of their species. They have large snouts and girthy constrictors with triangular skulls.

The heat-seeking nostrils on their snouts are more noticeable than on other variants because of their white colour. That thin line of pits is very normal, so don’t be alarmed!

Genetics and Patterns of Inheritance

Animals without a copy of the gene seem normal, however heterozygous animals (those with one copy of the gene) are a little bit brighter and have a little bit different patterning.

Super pastel animals, which have two copies of the mutant gene, exhibit more pronounced color and pattern alterations. Homozygous people have two copies of the gene in their bodies.

Compare this to straightforward recessive features, such albino ball pythons. One copy of the gene does not result in any visible signs in the animal; the characteristic is only displayed in the animal when two copies are present.

Additionally, it differs from dominant mutations, in which animals with one and two copies of the gene have identical appearances. We don’t yet know for sure, but the spider mutation could be an example of a dominant mutation.

The black-eyed leucistic is rather simple: It is a mutation in the yellow-bellied ball python that is homozygous, or “super.” 25% of the clutch should (statistically speaking) be black-eyed leucistics when breeding two yellow-bellied ball pythons.

While 25% of the creatures in the clutch will be entirely normal, 50% of the clutch will consist of yellow-bellied snakes.

The fire ball python is the heterozygous variety of the black-eyed leucistic. The fire attribute comes in a variety of lines, all of which are believed to be compatible with one another.

We’ll go into more detail about the blue-eyed leucistic in the part that follows because it’s a little unusual.

Typical Behavior

Ball pythons spend the day sleeping off the heat and sun before emerging at night to explore, hunt, and locate partners.

In the wild, these snakes keep their distance from one another and only ever engage with one another during mating.

It is not advised to live together with this species.

Ball with Blue Eyes Leucistic Pythons are skilled predators who restrain their prey using constriction.

They attack, rapidly and firmly coil around their victim, then wait for it to pass out or die.

They often cease eating for several months and reduce their metabolism during the chilly season.

In captivity, even a little change in humidity or temperature might trigger a feeding strike in your bel ball python. Most morphs will start to eat on their own again if circumstances are back to normal.

Blue Eyed Leucistic Ball Python Size

Blue eyed leucistic ball pythons are predominantly white. Their white skin and icy blue eyes make them extremely lovely.

Some specimens’ heads, backs, and sides are patternless.

There can be slight trends in other people.

If there is any patterning, it should be yellow or blue-purple. This is due to the blue pigment that remains in Lucy’s eyes. It might not be a real blue eyed leucistic ball python if the pattern is not blueish.

The transformation of their parents’ bodies can also affect how they seem.

The Mojave x Butter Ball, which frequently has a yellow dorsal stripe, is an illustration of this.

To produce a BEL, breeders advise mating two distinct parent morphs. The banana morph of the ball python fits this description. This lessens the likelihood that the progeny may exhibit unfavorable features.

Using parents of the same morph might result in unattractive colorations in the progeny. For instance, a Mojave x Mojave would frequently have yellow speckles or a yellow stripe on the back and grey-blue smudges on the head.

Additionally, it may result in genetic issues in the progeny. For instance, the offspring of Butter Ball x Butter Ball and Lesser x Lesser pairings are both quite bug-eyed.

The whitest morphs appear to be created when Mojaves and Het Russos are crossed with other morphs.

As newborns these morphs are 10 to 17 inches long, like all ball pythons. When fully grown, they are between two and five feet long. Huge wild specimens up to six feet long have been found!

Lifespan Leucistic Ball Python

A blue-eyed leucistic ball python typically lives between 20 and 30 years with adequate care. Despite this, they can undoubtedly live longer. According to some studies, snakes reared in captivity can live for up to 50 years.

But in those situations, common ball pythons are generally involved. Due of their rarity, precise information on the life expectancy of this particular morph is a little more difficult to find.

As always, it’s impossible to predict with certainty how long these reptiles will live. There are too many variables involved. In general, giving your snake excellent blue eyed leucistic ball python care will improve the likelihood that it will live to the extremes of the lifespan spectrum.

Potential Problems Associated with the Trait

It’s unfortunate that some hue and pattern variations seem to be connected to health issues. The “spider wobble,” for instance, is a neurological condition linked to the spider ball python mutation. Similar to humans, many animals with albinism have extremely sensitive eyes.

The majority of leucistic ball pythons seem to be in fair health. They don’t often display neurological abnormalities like spider ball pythons (and certain other mutations) (and some other mutations).

Furthermore, even though it should be evident, the homozygous version of the mutation’s associated white hue is not fatal. This is interesting, considering all-white mutations are deadly in certain other animals.

However, some creatures with blue eyes have projecting eyes (sometimes referred to as “bug eyes”). The leucistics generated by animals with the butter or lesser platinum gene appear to be the most prevalent ones. Although it’s not totally evident yet, it doesn’t seem like the snakes’ bigger eyes pose any real issues for them.

Conclusion

The idea of a ball python that is all white was once thought to be a fantasy. But thankfully, all-white ball pythons are not only accessible but also becoming more widespread and reasonably priced because to breeders’ efforts. Additionally, since more color and pattern mutations might result in leucistic ball pythons, the number of these animals will increase over the future years.

Leucistic ball pythons may also start to appear in combination with other color and pattern changes. Who knows what lies ahead if this turns out to be feasible? Will we see white creatures with distinct patterns or bright stripes? Will they generate entirely unexpected snakes with whole distinct color patterns, as we could discover?