To demonstrate the level of toxic material in a brand of anti-dandruff shampoo, a Danish television presenter poured diluted shampoo into a fish tank on a 2004 episode of the consumer affairs show she fronted.

Lisbeth Kloester, a television presenter on the Danish public channel DV1, is now on trial for causing unnecessary suffering to animals.

After being subjected to the shampoo, all but one of 12 guppy fish housed in the aquarium died within four days and a veterinary practitioner watching the show decided to press charges. Under Danish law, causing unnecessary suffering to animals is an offence and Kloester could face a fine if convicted.

Kloester has pleaded not guilty and her lawyer Tuge Tried said he expected his client to be acquitted at the trial on Tuesday.

“The allegations are this experiment caused the fish’s fear and suffering…but expert witnesses told the court on May 12 that this was not the case,” he said. “Fish are killed by suffocation in industrial fisheries and we throw live lobsters into boiling water, but we don’t press charges against fisherman or restaurant owners.”

A new cichlid species has been described from the Río Negro and Río Tacuarí basins in the Uruguay River drainage by Uruguay ichthyologists Iván González-Bergonzoni, Marcelo Loureiro and Sebastián Oviedo.

The fish has been given the name Gymnogeophagus tiraparae (picture here) after María Luisa Tirapare, a Guaraní woman who founded the town of San Borja del Yí (no longer existing) close to one of the collecting localities for this fish.

Gymnogeophagus tiraparae is found in larger rivers with clear water over both sandy and rocky bottoms where underwater vegetation is scarce. The fish is decorated with two horizontal series of moderately elongated light blue dots between the dorsal fin spines, and a series of light blue stripes between the soft rays, sometimes merging with the second series of elongated dots. Between the series of dots, the body of the fish displays a red ground colour. On this spotty fish, the caudal fin is also adorned with dots, which are vertically aligned on the distal border. The body has no transversal bands at all. Another important characteristic is how the adipose hump on the head is located deeper than the upper border of the dorsal fin.

The description was published in the most recent issue of the journal Neotropical ichthyology.

González-Bergonzoni, I, M Loureiro and S Oviedo (2009) A new species of Gymnogeophagus from the río Negro and río Tacuarí basins, Uruguay (Teleostei: Perciformes). Neotropical Ichthyology 7, pp. 19–24.

* Guaraní is a group of culturally related indigenous people of South America who speak the Guaraní language. They are chiefly found between the Paraguay River and the Uruguay River.

In a recent issue of the journal Zootaxa, researchers Gertrud Konings-Dudin, Adrianus Konings and Jay Stauffer have described and named three new species of cichlid from the genus Melanochromis; two of them being fairly widespread among aquarists keeping African cichlids.

All three species hail from the eastern shore of Lake Malawi and belong to the group commonly referred to as Mbuna cichlids among fish keepers.

The fish you may have been offered under the name Melanochromis sp. “northern blue” (picture here) has been given the full name Melanochromis kaskazini. Just like its old trade name suggests, this Malawi cichlid hails from the northern part of the lake and the word kaskazini was choosen since it is the Kiswahili word for “northern”. (Kiswahili, also known as Swahili, is an African language spoken along the continent’s eastern coast.)

The “blue” part of its old trade name is a reference to the colour of the males; they are cobalt blue, while the females are white with a yellow or orange anal fin. Melanochromis kaskazini looks quite similar to its close relative Melanochromis lepidiadaptes but the latter one sports a suit of mensural characters not seen in Melanochromis kaskazini.

The Mbuna cichlid previously sold in fish stores as Melanochromis sp. “auratus elongate” (picture here) is from now named Melanochromis mossambiquensis. The fish is named after the country Mazambique since it is found along the Mazambique shore of Lake Malawi; a lake shared between the countries Mazambique, Malawi and Tanazania.

In Melanochromis mossambiquensis, the female fish is adorned with yellow stripes on the belly and a midlateral and dorsolateral black stripe that is narrower than the submarginal black band in the dorsal fin. The yellow stripes do not cover the entire lower abdomen, and the caudal fin features black spotting. The male fish is brown/black with white dorsolateral and midlateral stripes, and he displays a suite of mensural characters.

The third Mbuna cichlid, which does not have any trade name, has been given the scientific name Melanochromis wochepa due to its small size. Wochepa means “small” in Chinyanja, also known as Chichewa, a Bantu language spoken in south-central Africa.  I have not been able to find a picture at this time.

Melanochromis wochepa males are blue without any white striping, while the females sport a submarginal dorsal band that is wider than the mid-lateral and the dorsolateral stripe, thin abdominal yellow stripes never covering the entire lower abdomen, and a suite of mensural characters. The vomer is steep-angled in both sexes.

For more information, see paper published in Zootaxa: Konings-Dudin, G, AF Konings and JR, Jr Stauffer (2009) Descriptions of three new species of Melanochromis (Teleostei: Cichlidae) and a redescription of M. vermivorus. Zootaxa 2076, pp. 37–59.

Indonesia will create Southeast Asia’s largest marine park in the Savu Sea, Minister of Marine Affairs and Fisheries Freddy Numberi said on Wednesday at the World Ocean Conference in Manado, Sulawesi.

The Savu Marine National Park will cover 3.5 million hectares in an incredibly diverse area where you can find no less than 500 coral species, over 300 recognized species of fish and a lot of charismatic wildlife like sea turtles, sharks, dolphins and whales. Out of 27 known species of whale, no less than 14 migrate through the Savu Sea to get from the Pacific to the Indian Ocean. The Savu Sea is also an important spawning ground for many marine species, including the world’s dwindling tuna population.

Indonesia is famous for its prosperous marine environment, but this marine flora and fauna are today facing serious treats, including pollution, over fishing and the use of unsustainable fishing methods. Lax enforcement of Indonesian law has made it possible for fishermen to continue using illegal fishing methods such as dynamite and cyanide fishing.

Within the Savu Marine National Park, efforts will be made to eradicate illegal fishing practises while keeping certain areas open for local fishermen to continue traditional subsistence fishing. Tourism activities will also be allowed in certain designated areas within the park. Environmental groups, including WWF and The Nature Conservancy, will help set up the reserve together with the Indonesian government.

“Enforcement is one of the key questions we need to work out, said Rili Djohani”, marine expert at The Nature Conservancy. “It could be a combination of community-based and government patrols.”

The Savu Marine National Park is located within the so called Coral Triangle, a coral reef network bounded by Indonesia, Malaysia, the Philippines, Papua New Guinea, East Timor and the Solomon Islands.

Sarpa salpa, a fish species capable of causing long-lasting hallucinatory experiences in humans, has been caught far north of its normal range. Normally found in the warm waters of the Mediterranean and off the African west coast, Sarpa salpa is an unusual guest in northern Europe. Only three previous recordings exist from British waters, with the third being from 1983 when a single specimen was caught off the Channel Islands.

The most recent specimen of this mind altering Sparidae was caught six miles south of Polperro, Cornwall, by fisherman Andy Giles. When Giles found the strange looking creature entangled in his net he brought it back to shore to have it identified.

Picture by by Sam and Ian

“We were trawling for lemon sole but hauled up the net at the end of the day and almost immediately saw this striped fish”, Giles said. “I had never seen one before so brought it back for experts to have a look at it. But now I realise what it was – and the crazy effects it can have – perhaps I should have taken it into town to sell to some clubbers.”

Instead of selling it to clubbers, Giles could also have brought it home to the dinner table – without much risk of having any mind altering experiences. Within its native range, Sarpa salpa, commonly known as Salema porgy, is a popular food fish and suffering from hallucinations after ordering a plate of Salema in a Mediterranean restaurant is very rare.

According to marine experts, Sarpa salpa has to feed on a certain types of plankton in order to become hallucinogen. In 2006, two men were hospitalized in southern France after eating Sarpa salpa who evidently had feasted on vast amounts of psychedelic plankton before being caught.

“Plankton has very minute amounts of poison and fish that eat a great deal of it can develop this poisoning”, says Oliver Crimmen, fish curator at the Natural History Museum. Sarpa salpa are a popular fish to eat in the Mediterranean and I think the 2006 incident was a rare event.”

So, why can urge a Sarpa salpa to leave the pleasant waters of Africa and head for chilly Britain? According to James Wright, senior biologist at the National Marine Aquarium in Plymouth, the fish may simply have tagged along when some other species decided to head north, but it may also be possible that the species is on the rise in northern Europe.

“These are a fairly common fish off Tenerife, Malta and Cyprus but it is very rare to get them this far north. It could be a single fish that was shoaling with a different species, says Wright. But it could be that there are more of them in our waters.”

The Turkish government has set their own very high catch limit for endangered Mediterranean bluefin tuna without showing any regard for internationally agreed quotas and the survival of this already severally overfished species. By telling the Turkish fishermen to conduct this type of overfishing, the Turkish government is effectively killing the future of this important domestic industry.

Turkey currently operates the largest Mediterranean fleet fishing for bluefin tuna, a commercially important species that – if properly managed – could continue to create jobs and support fishermen in the region for years and years to come. Mediterranean societies have a long tradition of fishing and eating bluefin tuna and this species was for instance an appreciated food fish in ancient Rome. Today, rampant overfishing is threatening to make the Mediterranean bluefin tuna a thing of the past.

Management of bluefin tuna is entrusted to the International Commission for the Conservation of Atlantic Tunas (ICCAT), an intergovernmental organisation. Last year, the Turkish government objected to the Bluefin tuna quota that was agreed upon at the ICCAT meeting in November and is now ignoring it completely.

The agreed tuna quota is accompanied by a minimum legal landing size set at 30 kg to make it possible for the fish to go through at least one reproductive cycle before it is removed from the sea, but this important limit is being widely neglected as well. Catches below the 30 kg mark have recently been reported by both Turkish and Italian media.

To make things even worse, Mediterranean fishermen are also involved in substantial illegal catching and selling of Mediterranean bluefin tuna. This year’s tuna fishing season has just begun and Turkish fishermen have already got caught red-handed while landing over five tonnes of juvenile bluefin tuna in Karaburun.

According to scientific estimations, Mediterranean blue fin tuna fishing must be kept at 15,000 tonnes a year and the spawning grounds must be protected during May and June if this species shall have any chance of avoiding extinction in the Mediterranean. This contrasts sharply against the actual hauls of 61,100 tonnes in 2007, a number which is over four times the recommended level and twice the internationally agreed quota. The crucial spawning grounds are also being ravished by industrial fishing fleets.

By blatantly ignoring international quota limits, the Turkish government is in fact threatening not only the tuna but also the future livelihood of numerous Mediterranean fishermen, including the Turkish ones.

Alabama fishermen and scuba divers will receive a welcome present from the state of Alabama in a few years: the coordinates to a series of man-made coral reefs teaming with fish and other reef creatures.

In order to promote coral growth, the state has placed 100 federally funded concrete pyramids at depths ranging from 150 to 250 feet (45 to 75 metres). Each pyramid is 9 feet (3 metres) tall and weighs about 7,500 lbs (3,400 kg).

The pyramids have now been resting off the coast of Alabama for three years and will continue to be studied by scientists and regulators for a few years more before their exact location is made public.

In order to find out differences when it comes to fish-attracting power, some pyramids have been placed alone while others stand in groups of up to six pyramids. Some reefs have also been fitted with so called FADs – Fish Attracting Devices. These FADs are essentially chains rising up from the reef to buoys suspended underwater. Scientists hope to determine if the use of FADs has any effect on the number of snapper and grouper; both highly priced food fishes that are becoming increasingly rare along the Atlantic coast of the Americas.

Early settlers and late followers

Some species of fish arrived to check out the pyramids in no time, such as grunt and spadefish. Other species, like sculpins and blennies, didn’t like the habitat until corals and barnacles began to spread over the concrete.

“The red snapper and the red porgies are the two initial species that you see,” says Bob Shipp, head of marine sciences at the University of South Alabama. After that, you see vermilion snapper and triggerfish as the next order of abundance. Groupers are the last fish to set in.”

Both the University of South Alabama and the Alabama state Marine Resources division are using tiny unmanned submarines fitted with underwater video cameras to keep an eye on the reefs and their videos show dense congregations of spadefish, porgies, snapper, soap fish, queen angelfish and grouper.

“My gut feeling is that fish populations on the reefs are a reflection of relative local abundance in the adjacent habitat,” says Shipp. “Red snapper and red porgy are the most abundant fish in that depth. They forage away from their home reefs and find new areas. That’s why they are first and the most abundant.”

What if anyone finds out?

So, how can you keep one hundred 7,500 pound concrete structures a secret for years and years in the extremely busy Mexican Gulf? Shipp says he believes at least one of the reefs has been discovered, since they got only a few fish when they sampled that reef using rod and reel. Compared to other nearby pyramid reefs, that yield was miniscule which may indicate that fishermen are on to the secret. As Shipp and his crew approached the reef, a commercial fishing boat could be seen motoring away from the spot.

An expansion of vertical seagrass occurring some 25 million years ago was probably what prompted seahorses to evolve from horizontal swimmers to upright creatures. If you live in vertical seagrass, an upright position is ideal since it allows you to stay hidden among the vertical blades.

This new idea is put forward in a report by Professor Beheregaray* and Dr Teske** published in the journal Biology Letters on May 6.

Sea horse picture from our Seahorse section.

Only two known fossils of seahorse have been found and this scarcity of fossil records has made it difficult for scientists to determine when seahorses evolved to swim upright. The older of the two fossils is “just” 13 million years old and no links between the two fossils and horizontally-swimming fish has been found.

“When you look back in time, you don’t see intermediate seahorse-like fish,” Beheregaray explains. There are however fish alive today that look like horizontally-swimming seahorses and Beheregaray and Teske have therefore studied them in hope of finding clues as to when seahorses made the transition from horizontal to vertical swimming.

By comparing DNA from seahorses with DNA from other species of the same family, Beheregaray and Teske were able to determine who the closest living relative to seahorses was.

“The pygmy pipehorses are by far the most seahorse-like fish on earth, says Beheregaray. “They do look like the seahorses, but they swim horizontally“.

When you have two closely related species, you can use molecular dating techniques to calculate when the two species diverged from each other. Beheregaray and Teske used a molecular dating technique that relies on the accumulation of differences in the DNA between the two species, and then used the two existing fossils to calibrate the rate of evolution of DNA in their molecular clock. By doing so, the two researchers could conclude that the last common ancestor of seahorses and pygmy pipehorses lived around 25 to 28 million years ago. At this point, something must have happened that led to the formation of two distinct species, and Beheregaray and Teske believe that this “thing” was the expansion of seagrass in the habitat where seahorses first evolved.

The time in history when seahorses arose, the Oligocene epoch, coincided with the formation of vast areas of shallow water in Austalasia. These shallow waters became overgrown with seagrass and turned into the perfect habitat for upright swimming seahorses that could remain hidden from predators among the vertical blades. The pygmy pipehorse on the other hand lived in large algae on reefs and had no use for an upright position, hence it continued to swim horizontally just like their common ancestor.

“The two groups split in a period when there were conditions favouring that split,” says Beheregaray. “It’s like us. We started walking upright when we moved to the savannahs. On the other hand, the seahorses invaded the new vast areas of seagrass.”

* Associate Professor Luciano Beheregaray of Flinders University

http://www.flinders.edu.au

** Dr Peter Teske of Macquarie University

http://www.macquarie.edu.au

Basking sharks have surprised researchers by leaving the cold waters of the north Atlantic during fall and head down to Bahamas and the Caribbean.

“While commonly sighted in surface waters during summer and autumn months, the disappearance of basking sharks during winter has been a great source of debate ever since an article in 1954 suggested that they hibernate on the ocean floor during this time,” said Gregory Skomal of Massachusetts Marine Fisheries. “Some 50 years later, we have helped to solve the mystery while completely re-defining the known distribution of this species.”

Basking Shark

Basking sharks are notoriously difficult to study for several reasons. They feed exclusively on plankton which means you can’t catch them using traditional rod-and-reel methods and they disappear down to deep waters for extended periods of time. During the part of the year when they do stay close to the surface, they are only found in cool waters teaming with plankton where the underwater visibility is close to zilch.

This situation has led to a lot of speculation about their life style and where they actually spend the winters. Despite being the second largest fish in the world, the basking shark is remarkably elusive and mysterious.

What finally solved the puzzle was the aid of new satellite-based tagging technology and a novel geolocation system which made it possible to track the basking whales as they commenced their annual migration. Data sent out from the tags unveiled that basking sharks migrates to warm tropical waters in fall. Their migrations have been able to go undetected until know since the sharks travel at depths of 200 to 1,000 meters and sometimes remain at those depths for weeks or even months at a time.

Skomal said he and his fellow researchers were absolutely surprised when they first received a signal from the tagged sharks coming from the tropical waters of the western Atlantic, since virtually everyone assumed basking sharks to be cool-water dwellers found in temperate regions only.

This new breakthrough show just how little we still know about even the largest marine animals inhabiting the world’s oceans. The basking shark can reach a length of 10 metres and weigh up to seven metric tons, yet it has managed to spend every summer in the Caribbean without anyone noticing it.

You can find more information in the report published on May 7 in Current Biology.

A new species of Jupiaba tetra has been described by Brazilian ichtyologists Birindelli, JLO, AM Zanata, LM Sousa and AL Netto-Ferreira.

The fish has been given the name Juipaba kurua, a name derived from the type locality; the Curuá River which is part of the Xingu River drainage. The river name Curuá comes from the tupo language kurua.

Researchers analysed the gut content of these fishes to find out more about their habits and the results indicate that Juipaba kurua is an omnivore clearwater species that feeds along the entire length of the water column.

The faint dark Juipaba kurua is differs from its close relatives by sporting an elongate humeral blotch, a distinct dark spot on the caudal peduncle, and a pattern of dark spots on most of the scales on the sides of the body. The fish has teeth cusps of similar size and the lower jaw teeth gradually decrease in size posteriorly. The number of branched anal-fin rays varies from 21 to 24.

The description of Juipaba kurua was published in the latest issue of the journal Neotropical Ichthyology.

Birindelli, JLO, AM Zanata, LM Sousa and AL Netto-Ferreira (2009) New species of Jupiaba Zanata (Characiformes: Characidae) from Serra do Cachimbo, with comments on the endemism of upper rio Curuá, rio Xingu basin, Brazil. Neotropical Ichthyology 7, pp. 11–18.