Professor Cristina Cox Fernandes at UMass Amherst, with Adília Nogueira and José Antônio Alves-Gomes of INPA, describe the new bluntnose knifefish (Pictured above Credit: University of Massachusetts at Amherst) in the current issue of the journal Proceedings of the Natural Sciences of Philadelphia.
Their paper offers details about the new genus and species' anatomy, range, relationship to other fish, salient features of its skeleton, coloration, electric organs and patterns of electric organ discharge (EOD). True to their name, these fish produce electric discharges in distinct pulses that can be detected by some other fish.
Ms Cox-Fernandes said the discovery of this species is leading to a new interpretation of classifications and interrelationships among closely related groups. She adds that as the diversity of electric fishes becomes more thoroughly documented, researchers will be able to explore possible causes of this group's adaptive radiation over evolutionary time.
Last year, with colleagues including ichthyologist John Lundberg at the Academy of Science in Philadelphia and others at Cornell University and INPA, the UMass Amherst fish biologist co-authored a description of three other electric fishes. The authors provided details about the most abundant species of apteronotid, so-called "ghost knife fishes," another family of electric fish very common in the Amazon River and its large tributaries.
In the early 1990s, Ms Cox-Fernandes recalled, when she began her studies of the communities and diversity of electric fishes, fewer than 100 species were then scientifically described. But with the current journal article and studies by herself and others, the number has roughly doubled today. Electric fishes are of little commercial importance, but in her opinion fishes of the Neotropics, especially in the Amazon, are still "under studied," and more taxonomic studies such as the one are needed.
She added: "As environmental changes affect rivers worldwide and in the Amazon region, freshwater fauna are under many different pressures. Fish populations are dwindling due to the pollution, climate change, the construction of hydroelectric plants and other factors that result in habitat loss and modification. As such the need to document the current fish fauna has become all the more pressing."