Shark fins

The Asian demand for shark fin soup has risen drastically over the years, and is the contributing factor for the massacre of nearly 300,000 sharks off of Brazil.

The Brazilian Environmental Justice Institute has officially accused Siglo do Brasil Comercio, a well known exporter of sea food, of engaging in the illegal massacre of almost 300,000 sharks.

The group is actually taking them to court, and demanding compensation for what it says is “massive damage to the marine ecosystem”.

The group has alleged that most of the sharks were pulled up out of the water, had their fins removed, and then simply dumped unceremoniously back into the water.

The environmental group is going to be suing Siglo do Brasil Comercio for a princely sum of $790 million in damages, for its ill gotten sale of some 290,000 sharks since 2009.

“As we can’t put a value on life, we have calculated the impact on the ecosystem,” explained Cristiano Pacheco, the director of the group. “We think the sharkfins were exported clandestinely, in containers, likely from the ports of Rio Grande do Sul to the Asian market,” Mr Pacheco continued.

It is not legal to take the fins off the shark and them dump their carcasses overboard in Brazil, however they bring in a pretty penny from Asian diners, who use the fins in soups. In fact, some say that these self same Asian diners are encouraging the practice of taking only the shark’s fins, and throwing the rest back into the water.

A brand spanking new species of Hemigrammus tetra has been categorized, analyzed and described by a group of ichthyologists from Brazil. The new species makes its home in the Tocantins River drainage out in the central area of Brazil.

This tetra Hemigrammus, dubbed Hemigrammus tocantinsi, was described in the recently published issue of the journal Neotropical Ichthyology by Fernando Carvalho, Vinicius Bertaco, and Fernando Jerep.

What exactly sets this Hemigrammus tocantinsi apart from the other Hemigrammus tetra? Well for starters, Hemigrammus tetra has 15 to 17 anal-fin rays, horizontal stripes which narrow towards the back and get wider towards the front, as well as sporting one or two eye teeth. This new species of tetra likes to make its home in forested streams, where it lives in peaceful co-existence with Aspidoras albater, Astyanax sp., Characidium stigmosum, Corumbataia veadeiros, and Trichomycterus sp.

The Hemigrammus tocantinsi has another rather interesting thing going for it. Its dietary habits were extensively studied, and it was found that the Hemigrammus tocantinsi has a diet which consists mainly of terrestrial and aquatic insects.

If you would like more information on this very exciting topic, please see the paper: Carvalho, FR, VA Bertaco & FC Jerep (2010) Hemigrammus tocantinsi: a new species from the upper rio Tocantins basin, Central Brazil (Characiformes: Characidae). Neotropical Ichthyology 8, pp. 247–254.

Magellanic penguin

This is kind of weird… Apparently there are hundreds of dead penguins, who look like they’ve starved to death, are washing up on the beaches of Brazil of all places. This is very worrying for scientists on many levels, however the main focal point is just what is causing then to perish.

Somewhere in the neighborhood of 500 of the flightless birds have been found over the past week and a half on Peruibe, Praia Grande, and the Itanhaem beaches in Sao Paolo State. This comment comes from Thiago de Nascimento, who is a biologist with the Peruibe Aquarium.

The majority of these penguins were Magellan penguins, on their way north from Argentina, Chile and the Falkland Islands, searching for food in warmer waters.

What is so troubling scientists so much, is that many of these penguins are not finding the food they seek. Autopsies performed on many of the penguins revealed that their stomachs were entirely empty..

Researcher are investigating whether the fault lays in strong currents, or colder waters than what have been the norm, which may have caused the species the penguin relies on for food to thin out, or if maybe human activity is to blame.

“Overfishing may have made the fish and squid scarcer,” Nascimento has explained.

He also said that it is common for penguins to make their way north this time of the year. Unfortunately, some of them do happen to lose their way and perish from hunger or exhaustion, and then wind up dead on the Brazilian coast far from their homes.

However, in these numbers it is a grave concern… Hopefully they find an answer soon, before these creatures wind up the going the way of the do do bird.

Massive amounts of dead fish are covering the beaches of Brazil and roughly 80 tonnes (175 000 lbs) have been removed from the iconic Ipanema beach in Rio de Janeiro.

The mass death, which seems to have occurred at sea right before the weekend, remains unexplained. Over 100 people are currently trying to rid a 4.5 square kilometer area from rotting fish carcases.
Environmental experts in Rio de Janeiro have suggested that the mass death might be caused by marine algae. The deaths are not limited to any specific species of family of fish.

A few years back scientists became aware that Amazonian manatees (Trichechus inunguis) migrate from shallow to deep water each year, starting in October or November when the dry season makes the water level decrease in their favoured habitat. A team of Brazilian and British researchers now claim have found out why these mesmerizing creatures undertake a perilous journey to get to a habitat that doesn’t have much to offer food wise.

By studying manatees living in the Mamiraua and Amana Sustainable Development Reserves in north-western Brazil, the team found out that if the manatees wouldn’t move, the animals would be become stranded in the shallow water and exposed to predators such as caimans and jaguars.

“Amazonian manatees migrate to a habitat that doesn’t offer easy living conditions in order to flee from a habitat that becomes inhospitable,” says team-member Dr Eduardo Moraes Arraut from the National Institute for Space Research in Sao Paulo, Brazil.

A dangerous voyage
In order to reach deeper waters, the manatees must pass through narrow bottlenecks in the landscape where they easily fall prey to predators – including humans. Hunting manatee is illegal in Brazil but the local people have a long tradition of eating the meat.

Once the manatees reach their destination, it isn’t much of a relief either. Due to a lack of aquatic plants in their new home, they are forced to go without food for several months.

“When you have two options that are not good, you choose the one that is less bad,” Dr Arraut explains, adding that the harshness of the low-water conditions surprised him.

Modern technology and ancient knowledge
In order to learn more about the elusive manatees, the international research team asked local inhabitants about the movements of the manatees, and placed modern radio tracking devices on 10 individual manatees. What they found was that the Amazon landscape forces the manatees to migrate through a type of narrow lakes known as rias, a type of submerged river valleys.

Dr Arraut now wishes to track manatees in other parts of the Amazon to find out if they are facing similar obstacles as the populations in Mamiraua and Amana.

The findings have been published in the Journal of Zoology.

http://www.zsl.org/info/publications/

A gentle giant
The Amazon manatee is one of the smallest species of manatee but can nevertheless reach a length of 9.2 ft (2.8 m) and weight 800-1200 lbs (360-540 kg). It is only found in the Amazon River basin, in the countries Brazil, Peru, Colombia, Guyana and Ecuador.

During the high-water season (mid-May to late June), the Amazon manatees live in quiet lakes (so called varzeas) that form within river flood plains in the Amazon. In this hospitable environment, they feast on aquatic plants and typically consume 8% of their weight in greens each day. For a manatee weighing 800 lbs, that means 64 lbs – almost 30 kg!

Picture is depicting a manatee in Florida (not an Amazonian Manatee)

When a six-foot-long gelatinous animal turned up off Brazil’s Bahia cost, initial accounts quoted scientists calling the creature “completely new, scientifically speaking.” However, fish experts taking a closer look at the video footage have now managed to identify it as being a member of Ateleopodidae, an elusive family of deep-sea fish known as jellynoses or tadpole fish.

“As soon as I saw it, I knew what it was,” said Dave Johnson, ichthyologist at the Smithsonian Institution’s National Museum of Natural History in Washington, D.C.

The family Ateleopodidae is a group of deep-dwelling fishes known for their soft, blunt noses, small teeth, and scaleless, tapered bodies.

Despite being identified by science as early as the 1840s, we still know very little about this family and only about a dozen species have been named and described. They are found at depths ranging from about 1,300 to 2,300 feet (400 to 700 meters), where the lack of oxygen and nutrients makes being a gelatinous blob with very little muscle tissue superior to having a strong, burly body.

“You don’t ever see any hard, muscular fishes like tuna in the deep sea,” Johnson said, since at those depths there aren’t enough oxygen and nutrients to feed dense muscle tissue.

The Ateleopodidae fish was found floating dead by researchers from the Brazilian TAMAR Program, a sea turtle conservation group. If this species is already known to science or not remains unclear, but it is certainly the first of its kind ever to be identified in Brazilian waters.

“I’ve never heard of anything [like this] caught off the Brazil coast at all,” says marine biologist Jon Moore of Florida Atlantic University who has studied the diets of Ateleopodidae fish.

You can watch a movie here.

A new species of wrasse living off the Brazilian coast has been described by Osmar Luiz, Jr, Carlos Ferreira and Luiz Rocha. The new species has been named Halichoeres sazimai after Brazilian ichthyologist Ivan Sazima from Universidade Estadual de Campinas in São Paolo.

Halichoeres sazimai inhabit the Western South Atlantic off the southern and south-eastern coasts of Brazil where researchers regularly saw it foraging solitary on sand bottoms immediately adjacent to the lower end of rocky reefs. Occasionally, harems consisting of 5-10 specimens were also spotted. The fish was sometimes observed over the reefs as well, but usually stayed at a dept of at least 20 metres. According to the researchers, this may have to do with a preference for water colder than 18° C.

Halichoeres sazimai separates itself from its close relatives by having a white body adorned with a zigzag patterned midline stripe which is yellow or golden in females and juveniles and black and brownish in terminal males.

Sorry i have not found a pic of this species.

The paper has been published in the journal Zootaxa.
“OJ, Jr, Luiz, CEL Ferreira and LA Rocha (2009) Halichoeres sazimai, a new species of wrasse (Perciformes: Labridae) from the Western South Atlantic. Zootaxa 2092, pp. 37–46.”

Brachypopomus gauderio is not the only electric knifefish recently described from South America, U.S. researchers John P. Sullivan* and Carl D. Hopkins** have described another member of the genus Brachyhypopomus and given it the name Brachyhypopomus bullocki.

This new species is named in honour of Theodore Holmes Bullock, a renowned neurobiologist who died in 2005. Bullock was a pioneer of the comparative neurobiology of both invertebrates and vertebrates and is credited with the first physiological recordings from an electroreceptor and for championing electric fishes as a model system in neurobiology. The electric organ discharge waveform of Brachyhypopomus bullocki is biphasic, 0.9–1.6 milliseconds in duration, and the pulse rate varies from 20–80 Hz.

Brachyhypopomus bullocki is found throughout the Orinoco Basin in Venezuela and
Colombia. It can also be encountered in the in the Rio Branco drainage of Guyana and the Roraima State of Brazil, as well as in the upper part of Rio Negro near the mouth of Rio Branco.

Brachyhypopomus bullocki appears to prefer clear, shallow, standing water in open savannah, or savannah mixed with stands of Mauritia palm. It has also been collected among plants growing along the banks of small pools fed by streams. In Rio Negro, a specimen was found amongst palm leaf litter near the outlet of a black water stream.

Brachyhypopomus bullocki distinguishes itself from its close relatives by having larger eyes (comparative to the head), a short abdomen, and distally enlarged poorly ossified third and fourth branchiostegal rays.

The paper can be downloaded from Cornell University.

* John P. Sullivan, Department of Ichthyology, The Academy of Natural Sciences, Philadelphia. Email: sullivan@ansp.org

** Carl D. Hopkins, Department of Neurobiology and Behavior, Cornell University, New York. Email: cdh8@cornell.edu

Brazilian ichthyologists Julia Giora and Luiz Malabarba have described a new species of electric knifefish and named it Brachypopomus gauderio.

The fish lives in the central, southern and coastal regions of the Rio Grande do Sul state in Brazil, as well as in Uruguay and Paraguay, and its name is derived from the word “gaúcho”, a local term denoting a person living in the countryside (pampas) of the Rio Grande do Sul state, southern Brazil, Uruguay and Argentina.

Brachypopomus gauderio inhabits river banks, slow-moving creeks, lagoons, and flooded areas with muddy or sandy bottoms and has only been found among surfacing or floating plants.

You can distinguish Brachypopomus gauderio from its close relatives by its yellow dorsal surface, and on the brown markings which form a reticulate pattern.

I have not been able to find a picture.

The description has been published in the journal Zootaxa.

”Giora, J and LR Malabarba (2009) Brachyhypopomus gauderio, new species, a new example of underestimated species diversity of electric fishes in the southern South America (Gymnotiformes: Hypopomidae). Zootaxa 2093, pp. 60–68.”

If you want to learn more about how the charismatic creatures known as stingrays feed, you should check out a new study published in the most recent issue of Neotropical Ichthyology.

While spending days and nights scuba diving and snorkelling in the upper Paraná River of Brazil, researchers Domingos Garrone-Neto and Ivan Sazima made 132 observations of freshwater stingrays and noticed three different forms of foraging behaviour.

Picture of Motoro Sting Ray, Ocellate river stingray – Potamotrygon motoro.
Copyright www.jjphoto.dk

The first hunting technique involved hovering close to the bottom, or even settle on top of it, while undulating the disc margins. By doing so, the stingray would stir up the substrate, unveiling small invertebrates. The invertebrates – typically snails, crabs and larval insects – could not escape from under the ray’s disc and ended up as food.

When using its second hunting technique, the stingray would slowly approach shallow water while keeping its eyes on suitable prey items that concentrate in such environments. When it got close enough, it would make a rapid attack; stunning the prey or trapping it under its disc. This hunting technique did not target tiny invertebrates hiding in the sand; it focused on tetras and freshwater shrimps instead. The studied stingrays only used this method during the night when they could sneak up on prey without being seen.

The third technique observed relied on the presence of vertical or inclined surfaces in the water, such as boulders and tree stumps, including man-made structures like concrete slabs. On this type of objects a lot of different organisms, e.g. snails, like to crawl around or attach themselves. The hunter would simply position itself with the anterior part of its disc above the water’s edge and start picking the animals off the surface, one at a time.

The two studied species were Potamotrygon falkneri and Potamotrygon motoro; both belonging to a genus of freshwater stingrays found exclusively in South America.

As mentioned above, you can find the paper in Neotropical Ichthyology 7.

Garrone-Neto, D and I Sazima (2009) Stirring, charging, and picking:

hunting tactics of potamotrygonid rays in the upper Paraná River. Neotropical Ichthyology 7, pp. 113–116.