Pikehead Crocodile Cichlid 4-6"
$39.99 Regular Price
Luciocephalus pulcher Giant Pikehead Classification Osphronemidae. Subfamily: Luciocephalinae Distribution Parts of Thailand, Malaysia, Indonesia and Brunei Darussalam. Habitat Inhabits peat swamps and other forested, often stagnant, black water habitats. These ancient biotopes contain water that is typically stained dark brown with humic acids and other chemicals released by decaying organic material. The dissolved mineral content is invariably negligible, and the pH can be as low as 3.0 or 4.0. The dense rainforest canopy above usually means that very little light penetrates the water surface, and the substrate is typically littered with fallen tree branches and rotting leaves. Maximum Standard Length Around 8″ (20cm). Aquarium SizeTOP ↑ 48″ x 12″ x 12″ (120cm x 30cm x 30cm) – 113 litres should be the minimum tank size considered. Maintenance This ambush predator will often be seen hovering motionless in the mid to upper water levels, and is happiest when maintained in a tank shaded by patches of floating vegetation. You’ll also need to simulate the acidic black waters of its natural waters to keep it successfully. Try using peat fibre as substrate, and add some twigs and branches arranged so that some of them break the surface. Leave a gap of a few inches between the cover and the water as not only does the speciesrequire a layer of humid air above its tank, it’s also an excellent jumper. The addition of some leaf litter in the form of beech, oak or Indian Almond leaves will complete the natural feel and result in a loosely accurate representation of the species‘ natural habitat. It will also thrive in a heavily-planted tank given suitable water conditions. In either situation water movement should be kept to a minimum so set the filter to run quite slowly. Regular partial water changes are a must in order to maintain the high water quality required. Water Conditions Temperature: 72 – 79°F (22 – 26°C) pH: Acidic water is a prerequisite when keeping this species. In its natural waters it has been collected in water with a pH of just over 3.0! In the aquarium a value of 6.0 should be considered the absolute maximum. Hardness: 0 – 10°H Diet Highly piscivorous and notoriously difficult to wean off live foods, L. pulcher is a perfectly-adapted nichepredator. It possesses one of the most protrusible jaws of all fish, having the ability to extend its mouthparts to around a third of its body length. This allows it to consume prey items almost half its own size. It lies in wait, motionless and highly-camouflaged until a suitable victim (usually a smaller fish) is within range. In the blink of an eye it lunges forward, literally engulfing the unfortunate quarry with its enormous mouth. Little to no success has been had in getting this species to accept dead foods in the aquarium. Although live fish are the preferred food, earthworms, crickets and live shrimp are also accepted. If you are intending to use live feeder fish it is well worth establishing a separate tankcontaining a colony of livebearers. Culturing these for feeding will reduce the risk of disease or parasiteintroduction via shop-bought fish. Behaviour and CompatibilityTOP ↑ Although there are a few reports of successfully co-habiting this pikehead with similarly-sized fish that enjoy the same water conditions, it really is best kept in a species tank. As well as possessing the ability to consume smaller tankmates, it’s actually quite shy and can easily become threatened if housed alongside much larger or more vigorous species. It can be kept in groups in sufficiently roomy quarters, but ensure that all the fish are of comparable size otherwise cannibalism is very likely to occur. Sexual Dimorphism Unknown. Reproduction It’s a paternal mouthbrooder that has been bred successfully in aquaria, although little data is available. The male holds the eggs in his mouth for around 30 days before the fully-formed fry are released. He does not attempt to eat during this brooding period. NotesTOP ↑ With a reputation as a difficult speciesto maintain in captivity, L. pulcher is recommended only to those enthusiasts able to provide the specialist diet and care it requires for its long-term health. It seems to travel very poorly, and is often seen on sale in a weakened, emaciated state. It is also particularly susceptible to bacterial infections when initially imported. Observe the fish carefully when buying and avoid any that are showing red patches around the mouthparts or fins, or that appear especially listless. Once settled, feeding and provided with conditions it is actually quite a hardy and very unusual Anabantoid. Despite their predatory nature Luciocephalus are closely related to many of the commonly available gouramis. They are grouped within the Osphronemid subfamily Luciocephalinae along with Colisa, Trichogaster, Sphaerichthys, Parasphaerichthys and Ctenopsspecies. The latter trio share an eggstructure with Luciocephalus that is unique among teleosts, consisting of a series of spiralling ridges on the outer surface. This has given rise to the (as yet unproven) theory that the four genera form a monophyleticgroup ie. they share a common genetic ancestor. In Luciocephalus and Sphaerichthys the eggs are also distinctively pear-shaped, suggesting that these two share even closer genetic similarities. L. pulcher was the sole representative of the genus for many years, until Tan and Ng described the beautiful L. aurain 2005. L. aura is a little smaller than L. pulcher and can be easily distinguished by the peppering of iridescent spots along its flanks. This patternng also gave rise to its common name of peppermint pikehead. Both species lack functioning swim bladders. Like others in the suborder Anabantoidei, Luciocephalus possess an accessory breathing apparatus known as the labyrinth organ. So-called due to its maze-like structure, this organ allows the fish to breathe atmospheric air to a certain extent. It is formed by a modification of the first gill arch, and consists of many highly vascularised, folded flaps of skin. The structure of the organ varies in complexity between species, tending to be more well-developed in those inhabiting particularly oxygen-deprived conditions.