Two-Headed Baby Salamander

Just call them "Arne" and "Sebastian." Those are the monikers given to the two separate heads of one baby salamander that was born last week in a lab in Israel.

Two heads are likely not better than one for the Near Eastern fire salamander (Salamandra infraimmaculata), which was born, alive, in a laboratory at the University of Haifa in Israel. Researchers aren't sure why the salamander tadpole has two noggins, but say random mutations or environmental pollution could be culprits.

"I could speculate, but it would be pure speculation," Leon Blaustein, an ecologist whose lab discovered the salamander, told Live Science. [The 12 Weirdest Animal Discoveries]

Strange salamander

Blaustein's team had collected pregnant female fire salamanders from the wild to give birth in the lab. (This species of salamanders gives birth to live young in a larval or tadpole stage.) A female that was gathered from a site called Kaukab Springs in the Galilee Mountains, gave birth to the two-headed tadpole. 

Both heads move, Blaustein said, but so far, scientists have seen only one preying upon a salamander baby's favorite meal, insect larvae. Blaustein gave the heads their names to honor two German scientists, Arne Nolte and Sebastian Steinfartz, with whom he collaborates on studying fire salamander ecology.

The Near Eastern fire salamander is listed as "near threatened" by the International Union for Conservation of Nature; in Israel, it is locally endangered, Blaustein said. Humans are the main reason the species is struggling. According the IUCN, human development is shrinking salamander habitat in Israel, Lebanon and possibly Syria. Water pollution is another threat, as is human water use for irrigation. Dams can disrupt salamander habitat by flooding the temporary, shallow pools and small streams where the amphibians thrive.

In Israel, Blaustein said, automobiles are killing salamanders on roadways and are a major problem.

Mysterious causes

Salamander deformities are rare, Blaustein said, though not unknown. His lab has recorded cases of salamander larvae born with six legs instead of four, or with only partial heads. Finding two heads on one body is particularly unusual, he said.

Tracing the cause of such deformities is difficult. Amphibians are sensitive to environmental changes and pollution, Blaustein said, which makes them early indicators that something is going wrong in the environment. And the Kaukab Springs site is one of the more polluted breeding sites for these salamanders, he said. However, those factors alone do not prove that pollution caused the defect.

"It would be absolutely incorrect to suggest that this single observation of a two-headed salamander" suggests human-caused damage to the environment, Blaustein said.

After the University of Haifa released a statement that included the researchers' speculation that the two-headed defect might have been caused by pollution or radiation, some news outlets reported that the salamander is radioactive, Blaustein said. It is not.

The salamander isn't the only wild animal found with two heads where only one was supposed to grow. In 2013, a fisherman in Florida caught a pregnant shark and found that one of the live fetuses inside her wombhad two heads. Another 2013 find in Australia of an "oddly shaped, pale object" turned out to be a stillborn baby ray with two heads. This defect can occur for several reasons, including an embryo that begins to split into twins, but does not complete the process.

More recently, in August 2014, a dead, two-headed dolphin washed ashore in Turkey. Arguably even stranger was the 2011 discovery of a "Cyclops shark," a one-eyed dusky shark fetus found off the coast of Mexico. "Cyclopia" is a developmental defect in which only one eye forms.

Coral Thrive Off U.S. Atlantic Coast, But Threatened (Op-Ed)

Ali Chase is a senior ocean policy analyst at the NRDC. She contributed this article to Live Science's Expert Voices: Op-Ed & Insights.

A hidden world thrives more than a mile and a half beneath the waves, in the inky blackness roughly 80 miles offshore the Atlantic's coastline. There you can find corals in all colors of the rainbow and a menagerie of sea life with evocative names, such as the whiplash squid, dumbo octopus, sea butterfly (which is actually a snail), sea toad and tonguefish.

Scientists know little about this amazing life offshore and the vibrant gardens of deep-sea coral communities, but thanks to a series of U.S. National Oceanic and Atmospheric Administration (NOAA)-led explorations over the past several years, what they have recently uncovered is remarkable.

Today, the Natural Resources Defense Council (NRDC) released a new report, "The Atlantic's Deep Sea Treasures: Discoveries From A New Frontierof Ocean Exploration," cataloguing many of the new findings since 2011, and urging policymakers in the U.S. mid-Atlantic states to protect these vulnerable and biologically-rich ecosystems now, before it's too late.

More than 40 coral species have been identified on the NOAA Atlantic coast expeditions, at least three of which are believed to be new to science. Some are so abundant that scientists described them as coral "forests." Species of red, black, bubblegum, stony and soft corals have all been found, a number of which were never before known to exist in this region. In Baltimore Canyon offshore Maryland, scientists found a colony of bubblegum coral — so named for their bulbous, pink, branch ends — nearly 15 feet (4.6 meters) tall.

More than 40 coral species have been identified on the NOAA Atlantic coast expeditions, at least three of which are believed to be new to science. Some are so abundant that scientists described them as coral "forests." Species of red, black, bubblegum, stony and soft corals have all been found, a number of which were never before known to exist in this region. In Baltimore Canyon offshore Maryland, scientists found a colony of bubblegum coral — so named for their bulbous, pink, branch ends — nearly 15 feet (4.6 meters) tall
.

Why Painful Memories Linger

Why Painful Memories Linger

by Christopher Wanjek   |   December 09, 2014 07:20pm ET

Memories of traumatic events can be hard to shake, and now scientists say they understand why. Studies on laboratory rats have revealed, for the first time, the brain mechanism that translates unpleasant experiences into long-lasting memories.

The findings support a 65-year-old hypothesis called Hebbian plasticity. This idea states that in the face of trauma, such as watching a dog sink its teeth into your leg, more neurons in the brain fire electrical impulses in unison and make stronger connections to each other than under normal situations. Stronger connections makestronger memories.

The new findings are not only an important advance in researchers' understanding of how Hebbian plasticity works, but they also may lead to treatments to help patients forget horrible memories, such as those associated with post-traumatic stress disorder (PTSD).

Math for Drones, Self-Driving Cars Wins Top Student Science Award

Mathematical research that could help drones navigate, and computer models for how trees growsnagged top honors at a national studentmath and science competition, the event's organizers announced today (Dec. 9).

Twenty of the nation's brightest high school students descended on Washington, D.C., over the weekend for the 15th annual Siemens Competition in Math, Science & Technology at The George Washington University.

Peter Tian, a senior at The Wellington School in Columbus, Ohio, took home the $100,000 grand prize in the individual category for mathematical research on pattern avoidance for multidimensional matrices — a subject with applications for how drones or self-driving cars navigate in 3D environments. [Creative Genius: The World's Greatest Minds]

"Peter's research significantly advances the knowledge of this topic and opens a new area for exploration," James Haglund, a mathematician at the University of Pennsylvania, said in a statement.

Eli Echt-Wilson and Albert Zuo, seniors at La Cueva High School in Albuquerque, New Mexico, will share the $100,000 grand prize in the team category for research on computational models for tree growth. These models could replace long-term planting experiments or improve tree plantations to reduce humans' carbon footprint and combat climate change. The models could also optimize timber harvesting or tree-based food growth.

"Eli and Albert were able to develop graphics that were so advanced [that] they enabled biological modeling for real trees and situations," Randy Wayne, an agricultural scientist at Cornell University, said in a statement.

The students have a range of hobbies and interests outside of their research. Tian is a Research Science Institute scholar and attended the Mathematical Olympiad Summer Program. When he's not doing math, Tian runs for his school's cross-country team, plays alto saxophone and volunteers at the Center of Science and Industry. His goal is to become a mathematics professor.

Echt-Wilson is the spokesman for the New Mexico Supercomputing Challenge, and was awarded the Botanical Society of America's "Best Student Physiological Paper." In his free time, he plays the ukulele and guitar, performs magic, and plays tennis and soccer.

Zuo helps coach a math competition team for middle school children in Albuquerque, and was awarded the Botanical Society of America's "Best Physiological Research Presentation." His hobbies include tennis and chess, and he is bilingual.

"I like making the world a more interesting place; stuff that we used to see only in science fiction can now become a reality," Zuo said in a statement.

The finalists of six regional Siemens Competitions took part in the national science competition. The keynote speakers at this year's event included Anthony Fauci, director of the National Institute of Allergy and Infectious Diseases (NIAID), and NASA aeronautical engineer Aprille Ericsson, among other science and tech leaders.

Tonight, the Siemens Foundation and Discovery Education will host a live event with the national finalists and top executives from tech companies. The event will be live-streamed to students and educators around the country. You can also watch it live on the Discovery Education website.

The Siemens Competition is one of the nation's most prestigious high school science competitions. A total of 2,263 students submitted 1,784 projects for the competition. Of these, 408 students were selected as semifinalists, and 97 went on to become finalists.

Previous years' winning projects have included advances in pandemic flu research, cancer drug therapies, health applications of gaming technology, and solutions to seemingly intractable math problems.