An aquarium fish has survived seven months in a fish tank without being fed or cared for, since its owner is in police custody after being accused of killing two Chilean students and wounding three others.

When employees from Contractor’s Choice and members of the Summer Lake Homeowners Association walked into the vacant town house at Miramar Beach, Florida, they discovered what appears to be a plecostomus.

The fish was apparently overlooked when lawmen removed the other pets – fish and birds – from the home after the arrest of the pet owner Dannie Baker. The fish went unnoticed for so long because Baker’s home was closed to the homeowners association after the arrest.

“I was very upset because I thought the police had taken everything after Dannie’s arrest,” said Dianne Richmond, vice president of the homeowners association. “This poor fish has been in that boiling house with no air conditioning and nothing to eat for about seven months.”

The pleco was discovered by the fiancée of Contractor’s Choice owner, who noticed something moving in the tank and sprinkled some fish food in the water. This caused the pleco to swim out into the open to feed.

When the pleco was discovered, much of the water in its tank had evaporated and the remaining water had turned dark.

Josh Olis, an account manager at Contractor’s Choice, said he didn’t believe it when his boss told him a fish was still alive in the tank. After seeing it for himself, he and the owner refilled the tank with about 50 gallons of water. He said he will make sure the fish is fed for as long as the company is working in the home. The contractors have even given the fish a name – Theo.

“I think we’re going to accept him into the cleaning family for now,” Olis said. “He’s been living in that tank for so long, surviving off algae. I have so much respect for him, I had to name him.”

The employees at Contractor’s Choice are now looking for a permanent home for Theo.

“This poor fish has really worked for a new home,” Richmond said. “It’s a wonder he’s survived this.”

AC Comment

Although I certainly don’t recommend neglecting your plecos for seven months, I’m not very surprised that Theo was alive and kicking when they found him. Many of the catfish species commonly referred to as plecos are algae-eaters (especially when young), so if there was any light coming into the room, Theo probably had some food to eat since nobody was there scrubbing away the algae. It all comes down to how large the tank is; a big tank may generate enough algae to keep a pleco alive (albeit hungry and malnourished) for several months.

Also, the natural habitat of plecos is Central and South America, so living without air conditioning in Florida is probably not something that bothered Theo much, especially if the aquarium was placed in a location where it was sheltered from sunlight during the harshest hours of the day.

Evaporation on the other hand, that is a real threat. The build up of waste in the water was probably tolerated by Theo since the progress was slow and gradual, but eventually ending up with hardly any water due to evaporation would naturally have killed him.

Last but not least, a word of caution. Although the employees of Contractor’s Choice acted admirably and should be applauded for taking such an interested in an abandoned fish, giving Theo 50 gallons of new water was actually quite risky since such a rapid change of water quality (and probably also temperature) can be lethal to fish – especially if the tap water is also heavily chlorinated. (But this is naturally impossible to know unless you’re an aquarist so I don’t mean to sound condescending here.) If you find a neglected fish, the safest method is to gradually change water quality and temperature until conditions are ideal for that particular species.

Last month, 82 Green sea turtles hatched at SeaWorld in San Diego, California.

The eggs hatched on Shipwreck Beach and the youngsters didn’t need any human aid to get out of their shells and into the water. The park had decided to let nature take its course by refraining from incubating the eggs or help the hatchlings emerge. SeaWorld are now planning to dig up the beach to check if any buried eggs failed to hatch.

At the moment, the baby sea turtles are roughly one month old and only weigh a few grams. They happily feed on squid, shrimp, krill and special pellets. Assistant curator of fishes Tim Downing says they are all in excellent health and that they will go on display before the end of the year.

“There is so much that is not known about sea turtles,” said Downing. “We are getting real good information on the growth rate of juveniles. They are all gaining weight and doing well. We have done some X-rays, and they are progressing just like we would expect them to.”

SeaWorld is home to 30 adult sea turtles, including four Green sea turtles – three females and one male. They have been living at SeaWorld since the 1960s and are sexually mature, so all three females may have buried eggs in the sand. Only genetic testing will be able to reveal the maternity of each baby turtle.

All seven species of sea turtle in the world are endangered or threatened, with the Green sea turtle being listed as Endangered on the IUCN Red List of Threatened Species. It will be up to the National Marine Fisheries Service and the U.S. Fish and Wildlife Service to determine whether the new turtles will stay at SeaWorld and whether the adult turtles will be given opportunity to mate again next year.

The rare Gangetic dolphin (Platanista gangetica) has been declared National Aquatic Animal of India. A few days after the formal declaration, which took place at a National Ganga River Basic Authority meeting in New Delhi earlier this week, Bihar chief minister Nitish Kumar announced that he has directed state authorities to put a halt to dolphin hunting in the Ganga.

“A close watch is being kept on the ghats of river Ganga by the magistrates, police officials and block development officers to stop hunting and fishing of the mammals,” senior officials said.

Patna District Magistrate J K Sinha said that instructions from chief minister has been passed
to senior officials, including sub-divisional officers, magistrates, police officers and block development officers to ensure close surveillance and act swiftly to stop hunting of the aquatic animal.

“Schools will take steps to aware the students about the gangetic dolphin which would

boost eco-tourism in the region,” he added.

Although the Wildlife Protection Act of India mandates dolphin conservation as a priority, little has been done at the government level to implement or enforce the law.

Where is Bihar?

Bihar is an Indian state located in the eastern part of the country. It is bordered by Nepal to the north, Jharkhand to the south, Uttar Pradesh to the west, and West Bengal to the east. The state is bisected by the Ganga River which flows through the middle of the state from west to east.

What is Ganga?

Outside India, the Ganga River is more commonly known as the Ganges River.

What is the Gangetic dolphin?

The Gangetic dolphine, also known as Ganges dolphin, Ganges river dolphin, Blind dolphin, and Side-swimming dolphin, is a dolphin endemic to the Ganges-Brahmaputra-Meghna and Karnaphuli-Sangu river systems of Nepal, India, and Bangladesh. Its scientific name is Platanista gangetica and it is listed as Endangered on the IUCN Red List of Threatened Species. The current population consists of 1,200-1,800 individuals, and roughly half of these are found in Bihar and Uttar Pradesh.

It is referred to as the Blind dolphin due to its poor eye-sight which is probably an adaptation to the murky waters of the Ganga River.

A previously unknown species of crustacean and two previously unknown species of annelid worms have been discovered during a cave dive near Lanzarote in the Canary Islands off the coast of northern Africa. The discoveries were made by a team of international scientists and cave divers exploring the Tunnel de la Atlantida – the longest submarine lava tube in the world.

The crustacean belongs to the genus Speleonectes in the class Remipedia, while the annelid worms are members of the class Polychaeta.

The crustacean has been named Speleonectes atlantida, after the cave system in which it lives. It looks a lot like its close relative Speleonectes ondinae which was discovered in the same lava tube in 1985. The two crustaceans may have diverged into separate species some 20,000 years ago after the Monte Corona volcano had erupted, forming the famous six-kilometre long lava tube.

Until quite recently, the class Remipedia was unknown to science. The first member of this class was found in 1979 by divers exploring a marine system in the Bahamas archipelago. Since then, 22 Remipedia species have been named and described. Most of them live in Central America, from the Yucatan Peninsula of Mexico through the north-eastern Caribbean. However, two species are instead found in caves in Lanzarote and Western Australia. The existence of these wayward species puzzles the scientists, since it is assumed that these small eyeless cave-dwellers would not be able to simply swim from the Caribbean to West Africa and Western Australia. One theory suggests that this class might be a very old crustacean group that was already widespread 200 million years ago. If this is true, the two species living off Lanzarote became isolated from the Caribbean group by the formation of the Atlantic Ocean.

As mentioned above, members of the class Remipedia live in dark submarine caves and have no eyes. Instead, they find their way around using long antennae. The heads of these predatory crustaceans are equipped with prehensile limbs and poisonous fangs.

The results of the lava cave exploration will be published in a special issue of the Springer journal Marine Biodiversity in September 2009.

The cave exploration team consisted of scientists from Texas A&M University and Pennsylvania State University in the USA, the University of La Laguna in Spain, and the University of Veterinary Medicine Hannover and the University of Hamburg, both in Germany.

The mysterious deaths among dogs visiting the beaches of Auckland have now been solved; they were caused by tropical pufferfish.

Tropical pufferfish contains a highly potent toxin known as tetrodotoxin. They are considered a delicacy in Japan, but will be a deadly indulgence unless prepared by an expert pufferfish chef. Even just touching a pufferfish can be lethal.

Tests done by the Cawthron Institute found tetrodotoxin in the vomit of one of the dogs that died after visiting Narrow Neck beach, and the toxin was also present in a sea slug sample taken from the same beach. How the toxin got into the sea slug remains unknown.

If members of the public find unusually large numbers of fish and other dead animals they should report these to the MAF Biosecurity New Zealand emergency pest and disease hotline 0800-809-966.

Internet problems keep interfering with the publishing of new posts. Working to fix it.

Florida seems to have gotten its very own alleged sea monster. It lives in the waters off Singer Island in the Lake Worth Lagoon, not far from the Riviera Beach Florida Power & Light plant.

An episode of the TV-show MonsterQuest was dedicated to the Floridian sea monster in April, after a video shot by Palm Beach Gardens resident Gene Sowerwine reached the TV-team. In the video, you can see a trident-shaped tail slapping the water and, in another image, an elongated snout breaking the surface.

As per usual, MonsterQuest didn’t succeed in identifying the animal. According to Florida Atlantic University professor Ed Petuch, the Singer Island sea monster could be a wayward arctic seal, e.g. a Hooded or Bearded seal. In 2006, two Hooded seals were found in this southerly part of the USA; one in Martin Country and the other 2 miles north of The Breakers hotel in Palm Beach. The year after that, a Bearded seal was caught in Fort Lauderdale.

If the Singer Island creature is an arctic seal, this is actually more frightening than any sea monster since it might be a sign of how far over fishing and/or global warming has forced these cold water species.

“Nature is never constant, by law,” Petuch said. “The ice is melting, the surface waters are becoming more fresh water, and it’s driving them out of their normal ranges.”

Martine DeWit, associate research scientist with the Florida Fish and Wildlife Conservation Commission, is leaning towards a less startling but equally sad explanation.

“We know manatees can look like that when they get hit by a propeller,” DeWit said.

Two species of Asian mouse-deer have been observed utilizing a very interesting technique to get away from predators; they jump into the water and stay there until its safe to come up. By carefully swimming up to the surface to breathe now and then they can stay submerged for long periods of time.

People living in the Indonesian country side have always claimed that deer hide in the water when chased by their dogs, but it wasn’t until the behaviour was observed by a team of scientists doing a biodiversity survey that it caught the attention of the larger scientific community.

In June 2008, the team visited the northern Central Kalimantan Province in Borneo, Indonesia where they suddenly spotted a mouse-deer swimming in a forest stream. When the deer understood that it was being watched by humans, it went below the surface and remained hidden. Over the next hour, team members could see it come to the surface four or five times. Although it probably went up for air a few more times without being noticed, it could clearly remain submerged for more than five minutes at a time.

Eventually, the researchers caught the animal and photographed it before releasing it back into the wild unharmed. It was a pregnant female deer.

One of the members of the team is the wife of Erik Meijaard, a senior ecologist working with the Nature Conservancy in Balikpapan, Indonesia. When she showed her husband the photograph, he identified it as a Greater mouse-deer (Tragulus napu).

That same years, another group of observers witnessed a Mountain mouse-deer (Moschiola spp) throwing itself into pond and swimming under water to get a way from a hungry mongoose in Sri Lanka. The mongoose followed it into the pond, but eventually retreated as the deer continued to stay submerged.

“It came running again and dived into the water and swam underwater. I photographed this clearly and it became clear to me at this stage that swimming was an established part of its escape repertoire,” says Gehan de Silva Wijeyeratne, who saw the incident.

“Seeing it swim underwater was a shock”, he says. “Many mammals can swim in water. But other than those which are adapted for an aquatic existence, swimming is clumsy. The mouse-deer seemed comfortable, it seemed adapted.”

Both incidents have now been described in the journal “Mammalian Biology”.

“This is the first time that this behaviour has been described for Asian mouse-deer species,” says Meijaard. “I was very excited when I heard the mouse-deer stories because it resolved one of those mysteries that local people had told me about but that had remained hidden to science.”

What is a mouse deer?

Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Artiodactyla
Family: Tragulidae

Mouse deer are small deer-like animals with large upper canine teeth. In male specimens you can even see the teeth project down either side of the lower jaw. Ten different species of mouse-deer have been described by science and all except one live in South-East Asia. The Water Chevrotain (Hyemoschus aquaticus) is the only mouse deer native to the African continent and it is also the largest member of the family.

The Water Chevrotain (Hyemoschus aquaticus) lives in swampy habitats and is known to dash into the nearest river as soon as it is spooked by something. Until recently, this was the only mouse deer in which the habit of swimming under water and staying submerged for long periods of time had been described and all the Asian members of the family Tragulidae were thought to be strictly dry-land animals.

One of the most controversial environmental issues of the past decade now seems to have been solved thanks to the consolidated efforts of one U.S. and one U.K. researcher.

In the late 1980s and early 1990s, researchers started getting reports of numerous deformed wild frogs and toads. Many of them missed a limb partly or completely, while others – even more strikingly – had extra legs or extra arms.

The reason behind the deformities became a hot-potato, with some people suspecting chemical pollution or increased UV-B radiation (brought on by the thinning of the ozone layers), while others leaned towards predators or parasites.

“There was a veritable media firestorm, with millions of dollars of grant money at stake,” says Stanley Sessions, an amphibian specialist and professor of biology at Hartwick College, in Oneonta, New York.
Eventually, professor Sessions and other researchers managed to show that many amphibians with extra limbs were actually infected by small parasitic flatworms called Riberoria trematodes. These nematodes burrow into the hindquarters of tadpoles and rearrange the limb bud cells. This interferes with limb development, and in some cases the result is an extra arm or leg.

While these findings explained the conspicuous presences of additional limbs, it wasn’t enough to solve the mystery of the leg- and armless amphibians.

“Frogs with extra limbs may have been the most dramatic-looking deformities, but they are by far the least common deformities found,” Sessions explains. “The most commonly found deformities are frogs or toads found with missing or truncated limbs, and although parasites occasionally cause limblessness in a frog, these deformities are almost never associated with the trematode species known to cause extra limbs.”

To investigate the conundrum, Sessions teamed up with UK researcher Brandon Ballengee of the University of Plymouth. As a part of a larger research project, the two scientists placed tadpoles in aquariums and added various predators to see if any of them could be responsible for this type of injuries.

As it turned out, three different species of dragonfly nymph happily attacked and nicked of the hind legs of the tadpoles; feasting on the tasty legs without actually killing the tadpoles.

“Once they grab the tadpole, they use their front legs to turn it around, searching for the tender bits, in this case the hind limb buds, which they then snip off with their mandibles,” says Sessions. “Often the tadpole is released […],” says Sessions. “If it survives it metamorphoses into a toad with missing or deformed hind limbs, depending on the developmental stage of the tadpole.”

Eating just a leg instead of trying to kill the entire tadpole is beneficial for the dragonfly, since tadpoles develop poison glands in their skin much earlier than those in their hind legs.

Through surgical experiments, Sessions and Ballengee confirmed that losing a limb at a certain stage of a tadpole’s life can lead to missing or deformed limbs in the adult animal. Really young tadpoles are capable of growing a new limb, but they loose this ability with age.

Sessions stresses that the results of his study doesn’t completely rule out chemicals as the cause of some missing limbs, but says that this type of “selective predation” by dragonfly nymphs is now by far the leading explanation.

“Are parasites sufficient to cause extra limbs?,” he asks. “Yes. Is selective predation by dragonfly nymphs sufficient to cause loss or reduction of limbs. Yes. Are chemical pollutants necessary to understand either of these phenomena? No.”

You can find Sessions and Ballengee’s study in the Journal of Experimental Zoology Part B: Molecular and Developmental Evolution.

The United Nations Environment Program has now released the first study of the impact of marine debris throughout the world’s oceans. The report found that plastic, especially bags and polyethylene terephthalate (PET) bottles, makes up more than 80 per cent of all rubbish found in the oceans. The UN report, titled “Marine Litter: a Global Challenge”, also found that plastic bags alone constitute almost 10 percent of the rubbish.

“Some of the litter, like thin-film, single-use plastic bags, which choke marine life, should be banned or phased out rapidly everywhere because there is simply zero justification for manufacturing them any more, anywhere,” says UN environment program executive director Achim Steiner.

The United Nations are not the only ones worried about the enormous amounts of plastic entering our marine ecosystems each year. In Australia, plastic bags and other marine debris are a direct threat to 20 marine species according to the Federal Government’s Threatened Species Scientific Committee who has listed plastic bags as a “key threatening process” under the Environment Protection and Biodiversity Conservation Act 1999. Marine animals threatened by our reckless use of plastics include iconic creatures like the Blue whale, Loggerhead turtle, and Tristan albatross.

A team of U.S. scientists has documented the first transmission of the lethal phocine distemper virus from the Atlantic Ocean to a population of sea otters living along the coast of Alaska.

The presence of phocine distemper virus has been confirmed in nasal swabs take from live otters and through necropsies conducted on dead otters found along the Alaskan coast. The findings also indicate that the virus was passed between seal species across Northern Canada or Arctic Eurasia before reaching the otters in Alaska’s Kachemak Bay.

Prior to this study, PDV had never been identified as the cause of illness or death in the North Pacific Ocean and researchers suggest that diminishing Arctic sea ice may have opened a new migration route for both animals and pathogens.

The study was carried out by researchers from two California universities and the Alaskan branch of the U.S. Fish and Wildlife Service. It has been published in ”Emerging Infectious Diseases”, a journal published by the U.S. Centers for Disease Control and Prevention.

What is phocine distemper virus (PDV)?

Phocine distemper virus (PDV) is a paramyxovirus of the genus Morbillivirus. It is dangerous for pinniped species, especially seals, and is a close relative of the canine distemper virus (CDV).

PDV was first identified in 1988 when it caused the death of approximately 18,000 harbour seals, Phoca vitulina, and 300 grey seals, Halichoerus grypus, in northern Europe. In 2002, the North Sea lost approximately 21,700 harbour seals in new a PDV outbreak – estimated to be over 50% of the total population.

Infected seals normally develop a fever, laboured breathing and nervous symptoms.