Mirapinna

Mirapinna is a genus of fish in the family Cetomimidae only known from the Atlantic Ocean near the Azores. It was formerly considered a member of the no-longer-recognized family Mirapinnidae, and the only known member of its genus is Mirapinna esau.

Description

Mirapinna esau grows to a length of total length (TL). Little is known of the fish beyond its appearance. Wheeler states that only one specimen was caught, near the sea surface, and that it was a copepod feeder. The original specimen was captured north of the Azores at 47°20'North, 22°30'West.
The Mirapinna Esau is a mysterious fish to many. Known to the scientific community as the “hairy fish,” these epidermal growths are thought to produce toxins due to the large granular cells that aid in secretion.. Mirapinnidae and its hair-like protrusions extend from the head of the organism to the caudal peduncle. Each hair is approximately 1.5 mm in length and is more abundant on the outer coverings of the pelvic fins as well as the pectoral fins. Members of the former Mirapinnidae lack both scales and a lateral line. They possess vertical jaws, and have a streamer that can extend from the body on the posterior side. The Mirapinnidae specimens accounted for in the study done ranged from 5 to 56 mm. All species recorded were juveniles thus, the morphological differences between sexes were not specified in the study.

Etymology

The generic name is from the Latin mirus and pinna, for the unusual fins possessed by this fish.
The specific name, Mirapinna esau, is from the Biblical figure Esau, who is stated to be a hairy man.

Systematics

The taxonomy of the Mirapinna esau has long been debated. A recent study in 2009 on the systematics showed that the Mirapinna esau is not a single and separate species, but rather the larval form of the flabby whalefish species; Procetichthys kreffti a member of the family Cetomimdae.
A study done by A.E. Parr concluded that Barbourisia should be included within the Cetomimdae family prior to the claims that the anatomical features, such as fully develoed pelvic fins, were taxonomically significant. The Mirapinnidae belong to the family Cetomimdae, which is known for dwelling in bathypelagic waters and representing a basal lineage that carries ancestral traits such as a developed nasal organ and pseudobranch.
Species within the Centomimdae family exhibit traits of sexual dimorphism and sex specified morphological characteristics that still have no known function; such as traits like cavernous tissue near the caudal end of the fish. The family of Cetomimidae generally are small in size with large terminal mouths and small eyes and can be seen in a variation of brown or dark to black coloration.

Distribution

Distribution of the Cetomimidae, including Mirapinna esau, can be found in the vast bathypelagic zone; which is located at the bottom of the ocean, and is both vast and dark. Only specially adapted organisms can thrive in this type of environment due to the hydrostatic pressure difference and its complete lack of light. Adaptations due to the depth include the reduction of the eye-to-head ratio as well as an enlarged gape that is best fit for fecundity. Cetomimidae, as aloof as it is in research, is quite contrasted in actual nature. The mixture of biomes and other bodies of water pinpoint the Cetomimidae to be located in a variety of cosmopolitan distributions and can be mainly found in Brazilian waters.

Life History

New morphological studies reveal a new organ found in the pink flabby whalefish. This organ is connected to the esophagus of the female whalefish on the post-dorsal side near the branchial arches. At first glance, this organ appears complex, presenting two openings into the esophagus of the female whalefish. Observations show thin epidermal tissue. It can be inferred that only females carry this specialized organ. Stromateiforms with similar esophageal specialized organs are known to have the function of shredding as well as grinding food.
Organisms that belong to Cetomimidae are scaleless and smooth with an absence of pelvic fins. Fishes that belong to this family have noticeably absent external scales and the loss of the pelvic fins is predominantly seen in females. This is significant as the taxonomy of Mirapinnidae has been the subject of debate for many years.
The Mirapinna esau was proposed to have similarities to Kasidoridae due to the similarities in jaw structures however, it was reanalyzed as the larval form of Procetichthys Kreffti.
Cetomimidae start out as mirapinnid larvae and are small with elongated bodies that have pelvic fins similar in shape to those of wings, as well as jugular insertion with a long caudal streamer. Transitioning to adulthood, they become Cetomimidae. The feeding habits of deep-sea fish depend on the vertical migrations of zooplankton. Many catch their prey in what is known as the benthic boundary layer, as the prey are not directly at the bottom. Feeding patterns were very large during the early mornings with mainly meso-bathypelagic fish during that time frame, to then switch to shrimp in the afternoons.

Conservation Status

There are currently no known conservation efforts present for Mirapinna esau or for the rest of the Cetomimdae family. The difficulty in sourcing and catching this species could be due to the benthic depths of the ocean as well as its high-pressure surroundings. This could be a contributing factor, making collecting specimens extremely difficult and dangerous.
Only 12 species total have been collected using an open net system of 8 meters with a 13 mm cod-end. Many popular research tools that hold documentation for thousands of fish species have a record of spotting 16 members of the Cetomimidae family from the Monterey Bay aquarium.
Due to the deep-sea environment in which they inhabit, it can be inferred that this population of fish is negatively impacted by deep-sea mining, as a study done in 2019 showed that mining removed important substrate as well as outwardly interfered with the organisms; causing impairment in growth and reproduction. Not only does deep sea mining continuously decimate habitats and the actual organisms themselves, but there have been causal effects on the overall populations of species heterozygosity that can cause a decline in beneficial alleles over deleterious alleles and shape the trajectory of the well-being of the population, and can lead to irreversible damage.