The
cardinal tetra, Paracheirodon axelrodi, is a freshwater fish of the characin
family (family Characidae) of order Characiformes. It is native to the upper
Orinoco and Negro Rivers in South America .
These fish can growing to about 3 cm (1.25 in) total length, the cardinal tetra has the striking iridescent blue line characteristic of the Paracheirodon species laterally bisecting the fish, with the body below this line being vivid red in color, hence the name "cardinal tetra". The cardinal tetra's appearance is similar to that of the closely related neon tetra, with which it is often confused; the neon's red coloration extends only about halfway to the nose, and the neon's blue stripe is a less vibrant blue, however.
The characteristic iridescence of this and related fishes such as the neon tetra is a structural colour, caused by refraction of light within guanine crystals that develop within special cells called iridocytes in the subcutaneous layer. The exact shade of blue that is seen will depend upon the viewing angle of the aquarist relative to the fish - if the aquarist changes viewpoint so as to look at the fish from the substrate upwards, the colour will change hue, becoming more deeply sapphire blue and even indigo. Change the viewpoint to one above the fishes, however, and the colour becomes more greenish.
The cardinal tetra is a very popular
aquarium fish but is less widespread than the neon tetra because until recently
it was difficult to breed in captivity. However, many breeders are now
producing the fish; in most cases one can determine if the cardinal tetra is
bred or wild caught due to damaged fins on wild caught specimens. Normally
aquarists prefer to buy tank bred fish but some Brazilian ichthyologists
believe that fishkeepers should continue to support the sustainable Cardinal
fishery of the Amazon basin, since thousands of people are employed in the
region to capture fish for the aquarium trade. It has been suggested that if
those fishermen lost their livelihood catching Cardinals and other tropical
fish, they might turn their attention to engaging in deforestation.
The fish is also effectively an annual species and has a lifespan of just a single year in nature. It lives for several years in captivity.{7 years| date=March 2009}
An entire industry is in place in Barcelos on the banks of
Perhaps due to their wild-caught origins, cardinal tetras tend to be somewhat delicate in captivity. In the wild, these fish inhabit extremely soft, acidic waters, but seem to be tolerant of harder, more alkaline water conditions; a greater concern is probably polluted tank water (including high nitrate levels.) They prefer warmer water temperatures (in the upper 70s F or warmer (20?C)), and will readily accept most forms of dry food. Captive-bred cardinals tend to adapt to hard water better than wild-caught cardinals.
P. axelrodi is also often called the red neon tetra. Cheirodon axelrodi (the original name) and Hyphessobrycon cardinalis are obsolete synonyms. The fish's common name, cardinal tetra, refers to the brilliant red coloration, reminiscent of a cardinal's robes. The specific epithet honors ichthyologist Herbert R. Axelrod.
Aquarium maintenance
Given the origins of the cardinal tetra, namely blackwater rivers whose chemistry is characterised by an acidic pH, low mineral content and the presence of humic acids, the species is adaptable to a wide range of conditions in captivity, though deviation from the soft, acidic water chemistry of their native range will impact severely upon breeding and fecundity. The preferred temperature range of the fish is 21?C to 28?C (70?F to 82?F), and a bowl containing these fishes should be well filtered, in order to remove assorted pollutants: in particular, a well established biological filter that controls ammonia, nitrites and nitrates is beneficial. If the intention of the aquarist is to breed the species in captivity, then the water chemistry of the aquarium water should match that of the wild habitat - filtration of the aquarium water over peat is one means of achieving this.
As the species is a shoaling species in the wild, groups of six or more individuals should be maintained in an aquarium. They will shoal with their close cousins neon tetras however, so a combination of these two species totalling at least six should suffice. Tank currents can help encourage shoaling behavior. The larger the numbers present in an aquarium (subject to the usual constraints imposed by space and filtration efficiency), the better, and large shoals in any case form an impressive and visually stunning display.
The species will feed upon a wide range of aquarium foods, though again, conditioning fishes of this species for breeding will usually require the use of live foods such as Daphnia.
Aquarium furnishings should be planned with some care. Live aquatic plants, as well as providing an additional biological filtration component that assists with nitrate management in the aquarium, provide an environment that resembles at least part of the wild habitat, and fine-leaved plants such as Cabomba are usually the plants of choice, though other plants such as Amazon Swordplants and Vallisneria are equally suitable for an aquarium housing the cardinal tetra. Floating plants providing shade will also be welcomed by the species: this is connected with the breeding of the fish, which will now be covered. A perfect biotope to promote breeding, would be lots of bogwood, a few live native plants, with dark substrate and subdued lighting with floating plants. With this add 5+ Hatchets, 15+ Cardinals, ottocinclus & corydoras catfish (2 each per 10 gallons).
The
species exists in a number of different colour forms or phenotypes. A
"gold" and "silver-blonde" form exist in the Rio Negro drainage which have less blue in the
longitudinal stripe. The normal form from the Rio Negro drainage has a blue
stripe which extends to the adipose fin, while the Orinoco
drainage phenotype has a stripe which stops posteriorly of the adipose. The Orinoco phenotype may represent a subspecies of P.
axelrodi.
Breeding
The
cardinal tetra, in the wild, swims upstream in large numbers to parts of its native
river habitat that are completely enclosed above by rainforest canopy. Such
waters are subject to heavy shading by the rainforest trees, and virtually no
sunlight reaches them. Here, the fishes spawn in large aggregations. In the
aquarium, a single pair can be conditioned for breeding, but the breeding
aquarium not only needs to contain water with the correct chemical parameters
cited above: the breeding aquarium needs to be heavily shaded to mimic the low
light conditions of the fish's native spawning grounds. If the fishes are ready
to spawn, the male, which will be the slimmer of the two fishes in outline,
will pursue the female into fine-leaved plants: her fuller outline, which
usually indicates the presence of ripe eggs within her reproductive tract,
should be readily apparent at this point. If the female is ready, she will
allow the male to swim alongside her, and together, the pair will release eggs
and sperm.
Apart from the stringent requirements with respect to water chemistry, one of the major difficulties mitigating against success in captive breeding of the species is the nature of the newly laid and fertilised eggs. The eggs of the cardinal tetra are photosensitive, and will die if exposed to bright light. Consequently, after spawning, the fishes should be removed and the aquarium covered to darken it, thus providing the developing eggs with the conditions necessary for development.
Apart from the stringent requirements with respect to water chemistry, one of the major difficulties mitigating against success in captive breeding of the species is the nature of the newly laid and fertilised eggs. The eggs of the cardinal tetra are photosensitive, and will die if exposed to bright light. Consequently, after spawning, the fishes should be removed and the aquarium covered to darken it, thus providing the developing eggs with the conditions necessary for development.
Development
If the eggs are fertile, and kept in darkened surroundings, they will hatch in approximately 3 days at 28?C. Free swimming fry remain photosensitive for at least the first 7 days of life, and need to be introduced to increasing light levels on a gradual basis. During this time, they are approximately 4 mm in length, and require infusoria or liquid fry food. Newly hatched brine shrimp and other similar live foods such as sifted Daphnia can be fed to the growing fry at between 7 and 14 days of age. Growth continues at a modest rate, and the fishes assume full adult colouration only after a period of approximately 8 to 12 weeks, depending upon quality of food and aquarium water.
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