This article's factual accuracy may be compromised due to out-of-date information. The reason given is: This article reflects the earlier, broader delimitation of this species. Much of the information may apply to what are now other species.(April 2021) |
Narcine brasiliensis | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Chondrichthyes |
Subclass: | Elasmobranchii |
Superorder: | Batoidea |
Order: | Torpediniformes |
Family: | Narcinidae |
Genus: | Narcine |
Species: | N. brasiliensis |
Binomial name | |
Narcine brasiliensis | |
Synonyms | |
Narcine brachypleura(Miranda-Ribeiro, 1923) Contents |
Narcine brasiliensis, the Brazilian electric ray [3] or lesser numbfish, [1] is a species of electric ray in the family Narcinidae. It inhabits coastal waters of the Southwest Atlantic from Southern Brazil through Uruguay to northern Argentina. [1]
This species is considered a "warm water species". When there's a temperature gradient between an inshore and an offshore they will habituate at the depths with the highest temperature. [4] The density of this species had a higher concentration in temperatures that were greater than 20 °C (68 °F). [5] They prefer shallow waters because that is usually the warmest part of the water. During the summer, they are abundant in coastal water with depths that go to 20 m (66 ft) and in the winter, they are still in that area but in a lower concentration and at deeper depths, about 40 to 50 m (130 to 160 ft), to avoid the cold temperatures. [5] This behavior points toward a migration towards the south in the summer because of the warmer water with higher salinity. The salinity range that they prefer is from 24% to 36%. [4] They also hunt and hide around areas with soft sand and/or mud substrate. [6]
This species of ray is generally found in the Western hemisphere, around the Southern coast of North America and the Eastern and Northern coast of South America. They are widely distributed in tropical latitudes, with the highest concentrations near the tropical west Indo-Pacific region, they are also considered an endemic species of the western Atlantic Ocean. [7] There have been a few locations along the coast of Brazil where they have been reported, those include, Rio Grande do Sul, Paraná State, Cananéia, Ubatuba, Bahia State, Pernambuco State, Paraíba State, Maranhã State, and Pará and Amapá States. [4] Those locations are all on the coast of Brazil. On the East of the United States they are found in the waters along the coast of Florida, Georgia, South Carolina, and North Carolina. On the South of the United States they are located on the southern coast of Florida, Alabama and Mississippi (GBIF).
They are small to moderate sized, reaching no more than about 45 cm (1.48 ft) in total length. [5] The shape of their body is an oval shape, with two dorsal fins that are around the same size, [7] the caudal fin is shaped like a triangle and there is no spine on the caudal fin on this ray, unlike some other species. On the dorsal side of their body they have a brown coloration and a white coloration on their ventral side. They have more of an elongated/protruding body size, they aren't very short or rounded, this helps to differentiate them from other ray species. [2] The jaw arch, which consist of the lower and upper jaw, moves as a unit, this allows for them to create suction in order to feed and capture prey hiding in the sand or mud substrate. The limitation to this is, there are a series of ligaments that constrict the jaws from moving in other directions, because of this it may cause limits in their diet, but at the same time increase their suction ability. [8]
They have an electroreceptor system located on the ventral part of their body that is sensitive to low frequency, they use this in order to search for prey. The system is composed of many sensory units, known as Ampullae of Lorenzini, these are connected to the environment and the nervous system through external pores and canals by nerves and fibers. [7] What is special about this species, is they have electric organs that can generate an average voltage about 0.35 mV. [9] The organs are located in their pectoral fins and they are noticeable when you look at the ray from the frontal few. The lobules have hexagonal faces and they show their shape through the skin. [2] The size and number of the cells in the electric organs are higher in adults than in embryos/newborns, [6] this causes the newborns to generate weaker electric organ discharge, [9] which makes them more vulnerable to predators.
Not much is known about their life cycle, but what is known is they have a very long surviving capacity and a low natural mortality rate. [10] Natural meaning death by predators, most of them die from anthropogenic causes which is discussed in later sections.
While the females reach a larger overall size than males, features such as the eyes, mouth, and nostrils are larger in males. The tails on males are longer than females' tails because the posterior region of the body develops at a faster rate than the total length. The larger sizes of females helps with the nourishment of the embryos. The males also have higher values of the proportions of the dorsal fins, and the superior lobe of their caudal fin. The females have a wider trunk (main part of the body), this is because they have to accommodate all of the embryos that they hold. [6] Males have a greater proportion of their electric organs than females, this may be another example of resource allocation in this species since the females have to use more energy to produce nutrients for the embryos. [9]
Although little is known about this species' life cycle, scientist do know that they have slow growth the birth is viviparous. [10] Since they are born live, as they are developing inside the womb, each individual ray (or pup) has a yolk-sac which they use for obtaining nutrients as they are growing in the womb. As they grow bigger and get closer to being birthed by the mother, those nutrients are used up. [11] The three main stages of this ray are a neonate (newborn), a juvenile, and an adult. As for their electric organs, neonates don't have a lot of electric cells so they can't give off as much of a voltage as juveniles and adults. [9]
Sexual maturity occurs when males have a total length of about 25 cm (9.8 in) and when females have a total length of about 30 cm (12 in). [7] Although there is low fecundity, generally, in females, [10] they can produce about 4-15 embryos per pregnancy. As females increase in size, their fecundity increases as well, meaning there is a selective advantage on larger sized female rays. Since males are generally smaller in size than females, they also mature sexually at smaller sizes compared to females. [11] Most pregnancy in females occurs in the summer and the autumn, and pre-ovulatory periods in females occurred in the winter. In males, calcifying claspers were observed during the summer, autumn, and winter. Going along with this pattern in males in females, there is an annual reproductive cycle with a mating season during the spring and a pregnancy and birth season during the summer and the autumn. There is a high energy requirement during the courtship and mating process, there may be bite marks observed in sexually mature female and male dorsal regions during the mating period. [11]
This species of ray migrates around November and December from the north [4] to areas with a depth of about 20 m (66 ft), [11] and then migrate again during May and June [4] to areas with a depth of about 10 m (33 ft). [11] This migration is mainly driven by reproductive opportunities or feeding opportunities. [5] The migration has also been associated with the higher temperatures in the south during the winter months, they have been observed having a sluggish and slow-moving sort of behavior if they are in water that is less than 20 °C (68 °F). [5] They spend most of the time buried in the substrate or in murky water because of their demersal habits, in order to hide for predators or search for prey. [9] Unlike some other electric ray species, this species of electric ray generally only uses its electric organs for predator defense and intraspecific communication. [7] When it comes to neonates, since they are smaller in size, they have smaller electric organs, so when they are defending themselves against predators, they discharge a greater number of electric organ discharges than juveniles and adults, in order to make up for their size.
The Brazilian electric ray is considered a macropredator in its habitat and it plays an important part in the ecosystem dynamics. The most important role they play is population control, they keep the number of polychaetas and crustaceans down which then helps the population of algae. If they weren't located in the ecosystem there would be too many crustaceans and they would ruin the ecosystem. Since these rays help with the population numbers of algae, they are also known to help in connecting the lower and the higher trophic levels. Since they play such important roles, changes in their populations may lead to negative changes in the ecosystem at all the tropic levels. [10]
Since the Brazilian electric ray is a benthic feeder, they mainly feed on invertebrates that are buried in the sand, for example, polychaetas are one of the main foods of its diet. [5] Some other things that this species has been known for feeding on are crustaceans, marine worms, poriferans (sponges), echinoderms (starfish), and some other types of benthonic fish. When they do catch prey, they use benthonic pressure suction in order to take the prey into their mouth and swallow it whole. [10] In order to create that suction to get their prey, they extend their jaws into the substrate, then they retract their jaws very quickly and create the "super ambient orobranchial pressure" [8] to get rid of any sediment taken in and draw food towards the esophagus. Since they have a lot of muscle control in their mouths, these rays are able to remove the exoskeletons of crustaceans, squid mantels, and bivalve shells in order to eat only the indigestible parts. [8]
As stated in the lifespan/longevity section, most of their deaths are caused by anthropogenic effects. One of these main effects, is the fishing industry, since they have been responsible for the decline of several populations of this species over the past 30 years. [5] They are usually discarded as bycatch when they are caught accidentally by trawl nets. Even though the fishermen may throw the rays back into the water alive they have been observed to sustain injuries from this. Some of those injuries observed are contusion in the bottom portion of their body (the most common injury), many deep cuts, fractures, and partial, even total, loss of body parts. [7]
In the economy, they really have no commercial value, they are only caught by accident usually. Their release as by-catch from the trawl nets is even considered an annoyance and a challenge by fishermen because of the electric discharges that the rays are giving off as they are being handled. [7] They give off these electric discharges because they believe they are being attacked by a predator and the fisherman are just throwing them back into the water, although not many make it back to the water with no injuries.
Since Brazilian electric rays don't have any commercial importance, there aren't many statistics on the commercial fisheries of this species and no statistics on efforts that would enable a population status assessment. [5] The IUCN Red List of Threatened Species put this species in the Near Threatened category. They need more studies to determine the taxonomic issues, population dynamics, morphology, and distribution. [6] However, most of them are killed by the fishing industry and since this industry is so huge it is likely that they may be threatened, since the depth that they exist and proliferate in is the same depth that is interrupted by shrimp trawls. [10]
Skates are cartilaginous fish belonging to the family Rajidae in the superorder Batoidea of rays. More than 150 species have been described, in 17 genera. Softnose skates and pygmy skates were previously treated as subfamilies of Rajidae, but are now considered as distinct families. Alternatively, the name "skate" is used to refer to the entire order of Rajiformes.
The electric rays are a group of rays, flattened cartilaginous fish with enlarged pectoral fins, composing the order Torpediniformes. They are known for being capable of producing an electric discharge, ranging from 8 to 220 volts, depending on species, used to stun prey and for defense. There are 69 species in four families.
An electric fish is any fish that can generate electric fields. Most electric fish are also electroreceptive, meaning that they can sense electric fields. The only exception is the stargazer family (Uranoscopidae). Electric fish, although a small minority of all fishes, include both oceanic and freshwater species, and both cartilaginous and bony fishes.
The cookiecutter shark, also called the cigar shark, is a species of small squaliform shark in the family Dalatiidae. This shark lives in warm, oceanic waters worldwide, particularly near islands, and has been recorded as deep as 3.7 km (2.3 mi). It migrates vertically up to 3 km (1.9 mi) every day, approaching the surface at dusk and descending with the dawn. Reaching only 42–56 cm (16.5–22 in) in length, the cookiecutter shark has a long, cylindrical body with a short, blunt snout, large eyes, two tiny spineless dorsal fins, and a large caudal fin. It is dark brown, with light-emitting photophores covering its underside except for a dark "collar" around its throat and gill slits.
The family Torpedinidae contains 22 species of electric rays or torpedoes, flat cartilaginous fishes that produce electricity as a defense and feeding mechanism. They are slow-moving bottom-dwellers.
Narcinidae, or numbfishes, are a family of electric rays. They are bottom-dwelling cartilaginous fishes with large, rounded pectoral fin discs and long tails. They can produce an electric discharge for defense, from which their scientific name is derived.
The tawny nurse shark is a species of carpet shark in the family Ginglymostomatidae, and the only extant member of the genus Nebrius.
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Torpedo is a genus of rays, commonly known as electric rays, torpedo rays, or torpedoes. They are slow-moving bottom-dwellers capable of generating electricity as a defense and feeding mechanism.
The ocellated electric ray or bullseye electric ray is a species of electric ray in the family Narcinidae, native to the shallow inshore waters of the eastern central Pacific from the Gulf of California to Ecuador. Reaching 25 cm (9.8 in) in length, this species has a rounded pectoral fin disc and pelvic fins with convex margins. Its short and thick tail bears two dorsal fins and terminates in a triangular caudal fin. The ocellated electric ray is named for the distinctive large eyespot on the middle of its disc, consisting of a black or yellow center surrounded by concentric rings. Its dorsal coloration is otherwise highly variable, ranging from plain to ornately patterned on a light to dark brown background. The front part of its disc is darker brown.
The smooth butterfly ray is a species of cartilaginous fish in the family Gymnuridae. It is a member of the order Myliobatiformes, which contains 10 total families. Its natural habitats are shallow seas, subtidal aquatic beds, estuarine waters, and coastal saline lagoons. Its common name is derived from its compressed body, pectoral fins that are wider than their length, and overall diamond shape.
The shortlip electric ray, is a species of electric ray in the numbfish family, Narcinidae. It may be synonymous with the blackspotted numbfish, Narcine maculata. The shortlip electric ray is found in shallow continental shelf waters offshore of China, Malaysia, Thailand, and Vietnam, at a depth of 41 to 70 meters. It is assessed as Vulnerable on the IUCN Red List, as it is caught as by-catch in large numbers by shrimp trawling fisheries operating throughout its range.
Narcine is a genus of electric rays in the family Narcinidae. These species have a rounded pectoral fin disc and two dorsal fins, the first usually smaller than the second and placed behind the pelvic fin bases. The tail is longer than the disc and has a lateral fold. The spiracles are close behind the eyes, the nasal flaps are merged into a flap in front of the mouth. The teeth are nearly flat, with a central point.
The marbled electric ray is a species of electric ray in the family Torpedinidae found in the coastal waters of the eastern Atlantic Ocean from the North Sea to South Africa. This benthic fish inhabits rocky reefs, seagrass beds, and sandy and muddy flats in shallow to moderately deep waters. It can survive in environments with very little dissolved oxygen, such as tidal pools. The marbled electric ray has a nearly circular pectoral fin disc and a muscular tail that bears two dorsal fins of nearly equal size and a large caudal fin. It can be identified by the long, finger-like projections on the rims of its spiracles, as well as by its dark brown mottled color pattern, though some individuals are plain-colored. Males and females typically reach 36–38 cm (14–15 in) and 55–61 cm (22–24 in) long respectively.
The common torpedo, also known as ocellate torpedo or eyed electric ray, is a species of electric ray in the family Torpedinidae. It is found in the Mediterranean Sea and the eastern Atlantic Ocean from the Bay of Biscay to Angola, and is a benthic fish typically encountered over soft substrates in fairly shallow, coastal waters. Growing to 60 cm (24 in) long, this species has a nearly circular pectoral fin disc and a short, thick tail with two dorsal fins of nearly equal size and a large caudal fin. It can be identified by the prominent blue spots on its back, which usually number five but may vary from zero to nine, as well as by the small knobs on the rims of its spiracles.
Narcine entemedor, the giant electric ray or Cortez electric ray, is a species of numbfish, family Narcinidae, native to the eastern Pacific Ocean from the Gulf of California to Panama. It is found in shallow water on sandy bottoms and sometimes adjacent to reefs. This species is closely related to the lesser electric ray from the western Atlantic, and may represent the same species. The specific epithet entemedor seems to be the Spanish equivalent of "intimidator".
The spiny butterfly ray or giant butterfly ray is a species of butterfly ray, family Gymnuridae, native to the shallow coastal waters of the Atlantic Ocean. A large ray that can measure over 2 m across, it may be distinguished from the sympatric smooth butterfly ray by the spine at the base of its tail and by a small tentacular structure on the margin of each spiracle. Slow-reproducing and valued for its meat, in recent decades its population has experienced a decline of over 30%, and it has become Critically Endangered in certain parts of its range.
The Atlantic torpedo is a species of electric ray in the family Torpedinidae. It is found in the Atlantic Ocean, from Nova Scotia to Brazil in the west and from Scotland to West Africa and off southern Africa in the east, occurring at depths of up to 800 m (2,600 ft), and in the Mediterranean Sea. Younger individuals generally inhabit shallower, sandy or muddy habitats, whereas adults are more pelagic in nature and frequent open water. Up to 1.8 m (6 ft) long and weighing 90 kg (200 lb), the Atlantic torpedo is the largest known electric ray. Like other members of its genus, it has an almost circular pectoral fin disk with a nearly straight leading margin, and a robust tail with a large triangular caudal fin. Distinctive characteristics include its uniform dark color, smooth-rimmed spiracles, and two dorsal fins of unequal size.
The lesser electric ray, also known as the Brazilian electric ray, small electric ray, spotted torpedo ray, torpedofish or trembler, is a species of numbfish in the family Narcinidae found on the western coastal fringes of the Atlantic Ocean and Caribbean Sea. It is a small slow-moving fish, living in the surf zone of sandy or muddy beaches. Here it is easily caught as bycatch by shrimp fisheries and seine netters. The International Union for Conservation of Nature has rated it as being of "least concern".
The Tasmanian numbfish is a species of electric ray in the family Narcinidae. Endemic to southeastern Australia, this common ray inhabits shallow continental shelf waters in the southern portion of its range and deeper continental slope waters in the northern portion of its range. It prefers sand and mud habitats. This species can be identified by its spade-shaped pectoral fin disc with concave anterior margins, long tail with well-developed skin folds along either side, and plain dark brown dorsal colouration. Its maximum known length is 47 cm (19 in).