Pictures: New Squat Lobsters Found Off Australia

This squat lobster may look already cooked, but don't break out the garlic butter. Unlike the greenish-brownAmerican lobster, this species,Galacantha subspinosa,is bright red even while alive. (See apicture of an American lobster that was caught"half cooked.")

The tiny crustacean, which can fit in the palm of a hand, is one of ten lobster species collected off the western coast ofAustraliaduring research missions in 2005 and 2007. Six of the lobsters—includingG. subspinosa—are new to Australia, researchers recently announced. Two more are entirely new to science.

Hundreds of known species of squat lobster are found inoceansworldwide at depths ranging from six feet (two meters) to three miles (five kilometers). Squat lobsters, also known as squatties, are distinguished by their large front claws and compressed bodies. The animals are more closely related to hermit crabs than true lobsters.

As forG. subspinosa,"this genus is one of the most colorful of all squat lobsters,"said marine scientistJoanne Taylorof Museum Victoria, who co-authored a paper describing the new lobsters published in the October 12 issue of the journalZootaxa.

—Rachel Kaufman

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Pictures: Best Underwater Views of 2010 Announced

A diver explores a continental trench in Silfra,Iceland, in 2010. The picture won top honors in the"Divers"category of the fourth annualDeep Indonesia International Underwater Photo Competition, whose winning photos were released to the press earlier this month.

The competition awarded U.S. $35,000 in seven categories for the most"stunning"underwater photos taken around the world in 2010, according to a press statement. Judges included professional underwater photographers and magazine editors.

(See relatedpictures:"Best Aquatic Views From 2009 Contest."

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"Flamboyant" New Squid Worm Surprises, Delights Experts

Scanning the depths off thePhilippinesin 2007, an undersea robot beamed back video of a worm—or was it asquid, or a worm eating a squid?—with spiraling appendages, iridescent"oars,"and a feathery"nose."

"When the image came onto the screen, everyone said, Oh my gosh, what'sthat?"recalled marine zoologistLaurence Madinof the Woods Hole Oceanographic Institution in Massachusetts.

Thanks to a new study co-authored by Madin, we now have the answer. The animal—as suspected—turned out to be a bizarrely bedecked marine worm totally new to science. (Seemarine-worm pictures.)

The paper, published Tuesday in the journalBiology Letters, describes the new species at length for the first time and officially christens the creatureTeuthidodrilus samae, or"squid worm of the Sama"—the Sama being a culture with ties to Philippine islands not far from the discovery site.

(Related:"Large, 'Glamorous' New Glowing Squid Found.")

Relatively long, at nearly four inches (nine centimeters), the new annelid worm earned its moniker with a head that looks as if it's covered in tentacles.

Its front end bristles with eight arms used for breathing—each as long as the worm's entire body—and two long, loosely coiled appendages employed for feeding.

As if that weren't enough hardware, six pairs of feathery sensory organs—the squid worm's collective"nose"—protrude from the new species' head. And along the length of its body, the worm has iridescent"paddles"for propulsion.

Whatever it is, it's"definitely flamboyant,"saidKristian Fauchald, curator of annelid worms at the US. National Museum of Natural History in Washington, D.C., who wasn't part of the study.

(Related:"Alien-like Squid With 'Elbows' Filmed at Drilling Site.")

Squid Worm Caught in Full Evolutionary Flower?

Beyond its appearance, the squid worm fascinates scientists in part because its odd features suggest the worm may be a transitional form—a species caught in a burst of evolutionary adaptation as it straddles two very different habitats, said study co-authorKaren Osborn, an evolutionary biologist at the University of California, Santa Cruz.

Observed between 1.2 and 1.8 miles (2 and 2.9 kilometers) below theoceansurface,Teuthidodrilus samaelives neither on the seafloor nor in the sunny shallows.

Instead, the worm inhabits a dark in-between realm, where the limited observations done so far show the worm feeding off plankton and other nutritious detritus in the water.

Whatever the cause of the squid worm's chimerical form, it apparently works."Numerous"specimens were observed during just a few dives, the study authors write—suggestingTeuthidodrilusis common and thriving in the region.

And its homely charms apparently work on humans, or at least on worm curators.

"It has done all sorts of peculiar things to its body,"Fauchald said."I'm delighted by it."

More: Giant Lungless"Worm"Found Living on Land>>

forNational Geographic News

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How Snakes Can"Fly"

It's been known for a while that certain snake species can"fly,"gliding as far as 330 feet (100 meters) from branch to branch—but how?

A new study—using unprecedented filming, 3-D modeling, and snakes both real and plastic—has shown howflying snakesangle and arrange themselves to achieve optimal lift.

Found in Southeast and SouthAsia, fiveChrysopeleasnake species have been observed twisting their ribs and flattening their bodies in midair, but this doesn't fully explain how the reptiles control their descent.

"Other snakes flatten their bodies as well,"said Jake Socha, a biologist at Virginia Tech. For example,king cobrascan flatten their hoods for defensive purposes.

To find out what else enables the snakes to glide, Socha and his colleagues used four cameras to record four flying snakes as they leaped off a five-story tower to another, smaller tower several dozen yards away.

The team then used the images to create 3-D computer models of thereptiles' body positions during flight. (Seesnake pictures.)

The images and models revealed that the snakes position their bodies at 25-degree angles as they fall—heads up, tails down.

The effect is similar to what happens when you stick your arm out of a moving car and rotate your hand so the palm is pointed slightly upward.

"You hand is now angled to the oncoming flow, and that angle helps push the air down,"Socha said."As a consequence, your hand goes up."

(Also see"Drug-Filled Mice Airdropped Over Guam to Kill Snakes.")

Video: Flying Snakes and Leaping Lizards

(See videos of"flying"snakes from the National Geographic Channel.)

Flying Snakes Do the Twist

TheChrysopeleasnakes, which can grow up to 4 feet (1.2 meters) long, also hold their bodies in S-shaped configurations while gliding. The computer model suggested this twisty position helps them stay aloft. Subsequent experiments proved the software right.

The team tested the aereodynamics of different snake shapes using plastic models in a water tunnel.

"Our research suggests that, with an S configuration, {the snake} gets more lift than it would if it were a straight snake,"said Socha, whoseinitial flying-snake researchwas funded by the National Geographic Society'sCommittee for Research and Exploration. (The Society owns National Geographic News.)

(Related:"Alien Giant Snakes Threaten to Invade Up to One-Third of U.S.")

With an S configuration,"the front part of the snake might be creating a wake that interacts with {and lifts} the back parts of the body,"Socha said.

This is similar to the lift created when geese fly in a V formation: The wake generated by the lead goose makes flying marginally easier for the geese directly behind, and so on.

At least one mystery remains: Why do flying snakes undulate their bodies as they fall?

Socha's team thinks, but hasn't proven, that this rippling motion might help sustain the snakes' flight by creating a flow of air over the top of the snake's body.

"This reduces the pressure on top, creating a greater pressure difference from bottom to top, {and} increasing the net upward force,"Socha explained.

Do Flying Snakes Hold Military Secrets?

In the long run, understanding how flying snakes glide might lead to better gliding air vehicles—Socha's latest research is funded by the U.S. Defense Advanced Research Agency, or DARPA.

But, he said, DARPA wasn't"interested in this from the applications perspective, they were interested in it from a basic science view, with potential applications a secondary consideration."

And for his part, Socha said, the main motivation for studying the animals is simple curiosity. (Relatedpictures:"Snakes on Gel, in Jackets Illuminate Slithering.")

"This is amazingly interesting and curious, and it's not at all clear how it works or how it could have evolved,"he said."I'm just trying to answer these basic questions."

More: how snakes fly on passenger planes>>

The new flying-snake research was presented Monday at ameeting of the American Physical Society's Division of Fluid Dynamicsin Long Beach, California. The study will be published in Wednesday's issue of the journalBioinspiration& Biomimetics.

forNational Geographic News

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First Fishing Bat Discovered in Europe

The long-fingered bat is the first bat species inEuropeknown to catch and eatfish, scientists say.

Weighing around 0.3 ounce (9 grams) and measuring just over 1.5 inches (42 millimeters), the minuscule bat was long thought to feed only oninsects. Scientists were therefore surprised to discover fish bones and scales in the bat's feces in 2003.

(Related:"'Whispering' Bat Evolved to Trick Prey.")

To figure out whether the bats were actively fishing, Joxerra Aihartza of theUniversity of the Basque Countryin Bilbao, Spain, and colleagues began monitoring the animals' feeding behavior using small radio tracking devices.

Recently the team captured video of the bats catching live fish.

"They fly low over the water and catch surface-feeding fish, such as the mosquitofish, with their claws,"Aihartza said.

Europe's Fishing Bat a Species at Risk

A handful of bats worldwide are known to catch fish, including South America's fisherman bat. (Watchvideo of the fisherman bat at work.)

As far as Aihartza and colleagues know, the long-fingered bat is the only bat in Europe with this skill.

Despite its proficiency as a fisher, the long-fingered bat mostly eats aquatic insects, the team said. The bats likely turn to fishing when nearby bodies of water start to dry out, forcing more fish to swim near the water's surface and making them easier to catch.

(Related:"Extinct Walking Bat Found.")

The long-fingered bat can be found foraging over wetlands and waterways—including canals and reservoirs—across its range, which hugs the Mediterranean coasts of Morocco, Algeria, and Europe, stretching into Lebanon, Jordan, and Iran. (See aMediterranean map.)

Major threats to the species' survival include water pollution, dam construction, and wetlands loss, according to the International Union for Conservation of Nature.

"Habitat availability is a real problem for this bat, and in Spain it is an endangered species,"Aihartza said.

forNational Geographic News

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How Shark Scales Give the Predators Deadly Speed

Ashark's bite may kill prey, but it's the teeth covering its body that make the fish such a good hunter, new research suggests.

Sharks are covered in flexible scales—nearly invisible to the human eye—that are made of the same material as teeth. The scaly hide serves as both a suit of armor and a means of streamlining movement, according toAmy Lang, an aerospace engineer at the University of Alabama.

For instance, previous research had suggested that a shark can"bristle"or otherwise manipulate its scales to change its direction mid-sprint—agility that's crucial for capturing fast-moving prey such as tuna.

(See"Great White Breaks Distance, Speed Records for Sharks.")

But a recent experiment revealed that sharks don't actively move their scales, which are loosely embedded in the skin via rubber band-like tendons, Lang said.

Instead, the structures bristle when water flowing around the shark"detaches"from the fish's aerodynamic body.

The way the scales turn helps reduce the water's drag on the speeding shark. (Solve a shark jigsaw puzzle.)

Lang compared the phenomenon to dimples on a golf ball, which enable the ball to travel farther in the air.

"Imagine a stream of flow going over the ball,"she said."You get a low-velocity wake behind the body, but the dimples help to decrease the size of the wake—that's what we think the scales are helping to do with the shark."

Mako Shark's Scales Built for Speed

Lang partnered with a team of biologists to study the shortfin mako, a relative of thegreat white shark, in the lab.

One of the fastest and strongestfishin the ocean, shortfin makos can reportedly leap up to 40 feet (12 meters) in the air. (See shark pictures.)

Combining lab observations of the shark's scales with computer models, the team discovered that a shortfin mako's scales differ in size and flexibility over its body.

For instance, the most tapered—and thus most movable—scales were found behind the gills and on the sides of the body. Scales in these areas can bristle up to angles of 60 degrees or more from the skin, according to Lang.

These are also same areas where water flow would separate from the shark and create drag.

Overall, sharks' 400 million years of evolution for strength and speed may someday inspire better designs for machines that are prone to drag, such as aircraft, Lang noted.

Research presented November 23 at theAmerican Physical Society's Division of Fluid Dynamicsmeeting in Long Beach, California.

National Geographic News

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Pictures: Best Underwater Views of 2010 Announced

A diver explores a continental trench in Silfra,Iceland, in 2010. The picture won top honors in the"Divers"category of the fourth annualDeep Indonesia International Underwater Photo Competition, whose winning photos were released to the press earlier this month.

The competition awarded U.S. $35,000 in seven categories for the most"stunning"underwater photos taken around the world in 2010, according to a press statement. Judges included professional underwater photographers and magazine editors.

(See relatedpictures:"Best Aquatic Views From 2009 Contest."

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Pictures:"Mr. Burns" Toad, More New Amphibians Found

Nosing around for"lost"amphibianspecies in western Colombia in September, scientists stumbled across three entirely new species—including this beaked toad."Its long, pointy, snoutlike nose reminds me of the nefarious villainMr. BurnsfromThe Simpsonstelevision series,"expedition leader Robin Moore said in a statement released Tuesday.

The unnamed, 0.7-inch-long (2-centimeter-long) toad is"easily one of the strangest amphibians I have ever seen,"added Moore, an amphibian-conservation specialist forConservation International.

The toad also has an odd reproductive habit: skipping the tadpole stage. Females lay eggs on therain forestfloor that hatch into fully formed toadlets.

In addition to the never before seen amphibians pictured here, the unprecedented global effort to rediscover amphibians presumed extinct—led by Conservation International and the International Union for Conservation of Nature'sAmphibian Specialist Group—hasyielded three species rediscoveries, including aMexicansalamander not seen since 1941, a frog fromCôte d'Ivoirenot seen since 1967, and a frog fromDemocratic Republic of the Congonot seen since 1979. (Seepictures:"Ten Most Wanted 'Extinct' Amphibians.")

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Large,"Glamorous" New Glowing Squid Species Found

A large new species of deep red, glowing squid has been discovered living near undersea mountains in the southern Indian Ocean, scientists announced Monday.

At about 28 inches (70 centimeters) long, the as yet unnamed species is relatively big—though other squid can reach as long as 65 feet (20 meters), some species are barely three quarters of an inch (1.5 centimeters).

(See"Colossal Squid a Soft, Sluggish Drifter.")

The new species belongs to Chiroteuthidae, a group of slender squid in which light-producing organs run in the family. (Related:"Colossal Squid Has Glowing 'Cloaking Device,' Huge Eyes.")

"It's thought that this particular group of squid actually uses bioluminescence to lure in prey,"which are thought to include small fish and crustaceans, saidAlex Rogers, a conservation biologist at the University of Oxford in the U.K.

The new squid is just one of more than 70 squid species observed during a six-week research cruise that began in September 2009 but whose results are only now beginning to be released.

"In a single expedition, we sampled about a fifth of all the world's squid species that are known to date,"Rogers said."That's really a staggering diversity of squid to sample in a single trip."

Most of the squid observed were already known to science, but, in addition to the blinking beast above, a few are thought to be completely new species.

"We think we have more than one new species of squid,"Rogers said."This just happens to be the biggest and most glamorous one."

(Pictures: Giant Squid Get Extreme Plastic Surgery.)

Mountains of Food for Squid and Other Species

The aim of the research cruise, led by theInternational Union for Conservation of Nature(IUCN), was to document the abundance of marine life associated with underwater mountains. (Read more about the project on National Geographic'sMission Blue website.)

Scientists estimate there are tens of thousands to hundreds of thousands of seamounts—undersea mountains rising more than 0.6 mile (1 kilometer) high—scattered throughout the world's oceans.

On the single 2009 expedition alone, Rogers said,"We got a tremendous variety of ... animals, including over 200 fish species and a large collection of crustaceans as well."

One reason seamounts appear to be such biological hot spots is that the submerged peaks act as food traps for squid and other creatures living on or around them.

The undersea mountains often block the daily vertical migration of plankton and other microorganisms from the ocean's surface to its depths, Rogers explained.

"The animals,"he said,"can just sit on the seamounts and feed on what drifts by."

More:Alien-like Squid With 'Elbows' Filmed at Drilling Site>>

forNational Geographic News

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Pictures: Oldest Dinosaur Embryos Show"Big Surprises"

The sharpest look yet at the oldest known dinosaur embryos (pictured, one of the eggs and its inhabitant) has revealed some"big surprises,"a scientist says.

For one thing, the 190-million-year-old babies ofMassospondylus—a two-legged dinosaur that preceded the well-known sauropods, such asDiplodocus—do not resemble their parents, according to study co-authorHans-Dieter Sues, a paleontologist at the National Museum of Natural History in Washington, D.C. (See more dinosaur-embryo pictures.)

The 8-inch-long (20-centimeter-long) youngster, for example, had long front legs for walking on all fours, and its overall body proportion—such as a short snout—made it"look like a dwarf version of a sauropod dinosaur,"the largest animals to walk Earth. (See a sauropod picture.) The babies would have lost these traits as they matured.

The discovery suggestsMassospondylushad characteristics that"foreshadowed"the later look of the sauropods, he said. (See"New Strong-Handed Dinosaur May Shatter Assumptions.")

—Christine Dell'Amore

The oldest-dinosaur-embryo research appears in the November issue of theJournal of Vertebrate Paleontology.

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Bats Crash More Often When They Use Vision

Being blind as a bat apparently has its benefits: Wild bats that use their vision to fly short distances are more likely to crash into objects, new research says.

Bats can navigate both visually and acoustically, by sending out sound waves and listening for echoes bouncing off objects—including prey. Bat vision is generally known to be sharpest in dim light, and to get worse the brighter it gets.

(Related:"'Whispering' Bat Evolved to Trick Prey.")

For the new study, scientists set up an obstacle course near an abandoned mine inOntario, Canada, where little brown bats often gather.

The team manipulated three types of light conditions—dark, dim, and bright—and observed how little brown bats flying through the course behaved. The results showed that bats primarily relied on their vision to navigate the well-illuminated course—even though their reliance on vision made them more prone to crashing.

In the obstacle course, the team used fabrics of three different visibilities—a clear fabric, an opaque fabric, and a reflective fabric. If the bats were mostly using their sonar, they should have detected all three. But the bats did not sense some fabrics—such as the clear one—suggesting the animals were depending more on their vision, the scientists noted.

The study is among the first experiments to confirm such behavior in wild bats, according to study co-author Dara Orbach, formerly a graduate student at theUniversity of Western Ontarioin Canada. (Seeflying-bat pictures inNational Geographicmagazine.)

Past experiments have shown that blindfolded, captive Indiana bats ran into windows less often than bats that could see, and that little brown bats flying through a lab obstacle course crashed more often when the lights were turned up.

Hormone Switch Changes Crash Rates?

It's unknown why bats use their vision to their detriment. But the research also turned up a tantalizing clue: Midway through the study, when the bats' hormones shifted, so did their the crash stats.

"That was the really unexpected part,"Orbach said."We know there are two phases {of bats' preparation for hibernation}. During the first phase of swarming, during the month of August, they're flying around to different hibernation sites. And then there's this distinct day—at least at our field site—{when} there's a switchover."

(See"'Drunk' Bats Fly Right—Discovery Surprises Scientists.")

After that turning point, the bats changed their eating habits, became sleepier during the day—like a temporary hibernation—and began"promiscuous"mating, Orbach said.

What's more, themammals' behavior reversed: They began crashing more in the dark than in the light.

The switch between bats' behavior and the collision rates match up nearly perfectly.

"We don't know for sure, but our suggestion is that the way bats are using vision could correspond to their different needs"at different times, Orbach said.

"There seems to be this relationship that corresponds to hormonal or physiological changes in the bat."

The bat-vision study appeared November 9 in the journalPLoS ONE.

forNational Geographic News

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Flamingos Apply"Makeup" to Impress Mates

There's a reason why flamingos are so pretty in pink:Thebirdsapply"makeup"to impress mates, a new study says.

Scientists had long assumed that flamingo feathers change color only when the plumage becomes faded by the sun or unintentionally stained by organic materials.

But while studyinggreater flamingosat theDoñana Biological Research StationinSpain, ornithologist Juan Amat realized that something else was going on.

"We noticed that immediately after chicks were hatching, {adult} flamingos lost their pink color,"he said. (See wading-bird pictures.)

Adults later regained their famous pink plumage,"yet they were not moulting, so we wondered if there was something cosmetic to consider."

Flamingos: Beyond the Pale

To examine this hypothesis, the researchers studied seasonal variations in flamingo color at three wetlands in Spain. The team also monitored the birds' breeding, feather maintenance, and courtship activities.

(See National Geographic's backyard bird identifier.)

Using telescopes, the scientists assigned each flamingo a color value based on a scale of one to three, ranging from very pale to vibrant pink.

The team found that the color values dropped from an average of 1.7 in February—the height of the mating season—to an average of 1.0 in May, June, July, August, and September, when the birds were looking after hatchlings. In October the values leapt up again, to 1.6.

Flamingos, like all birds, produce oil in glands near their tails. Birds daub this oil onto their feathers with their beaks.

The oil is well known to improve the longevity of feathers and keep them waterproof. But Amat suspected that the flamingos might also be using the substance for coloration.

Flamingos get their color from compounds called carotenoids, which the birds absorb from their diets of algae and small crustaceans.

Flamingo feathers already contain some carotenoids. But, based on samples collected from captive flamingos, Amat and colleagues found that the oil is especially rich in the compounds.

Flamingos In Fine Feather

Both male and female birds increased their oil-daubing behavior during the mating season, the team noted.

In general, the deeper the pink, the more attractive the bird—so the flamingos were likely applying the oil like makeup to make themselves more desirable, he said.

(Related:"Flashier Great Tits Produce Stronger Sperm, Bird Study Shows.")

"We were so excited to discover this,"Amat said.

"Other birds, like the bearded vulture, are known to take mud baths that leave their feathers tinged with color. We now need to go and look at these species to see if they are applying cosmetics just like the flamingos do."

The flamingo-makeup study appeared online October 23 in the journalBehavioral Ecology and Sociobiology.

forNational Geographic News

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Photos: Best European Wildlife Pictures Announced

A snail moves toward the light in a photograph that won the"Other Animals"category in the2010 European Wildlife Photographer of the Yearcompetition.

The contest, presented annually by the Society of German Nature Photographers, awards photographs in eight different categories as well as the Fritz Pölking Award and Fritz Pölking Junior Award.

(See relatedpictures:"Wild Europe Exposed by Giant Photo Project.")

In 2010, the competition received more than 11,000 entries from more than 29 countries. Entrants had to live in Europe, although their photographs were taken around the world.

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Polar Bears Turning to Goose Eggs to Survive Warming?

Polar bearsmay be turning tosnow gooseeggs to help them survive as Arctic sea ice melts due toglobal warming, scientists say.

Polar bears typically hunt seals out at sea, returning to land when springtime temperatures melt the ice floes the bears use as rest stops. But climate change has been causingsea ice to melt earlier each year (pictures), forcing polar bears to come ashore sooner.

(See"Most Polar Bears Gone By 2050, Studies Say.")

In a previous study, biologistRobert Rockwelland his colleague Linda Gormezano documented polar bears inCanada's Hudson Bay area (map)returning to land about two weeks earlier than they'd done in the past, near the end of June instead of the middle of July.

This early arrival brings the bears back to shore around the same time that nesting snow geese are incubating their eggs in Hudson Bay.

Snow goose eggs are more often food for skuas and Arctic foxes. But polar bears are famous for their voracious appetites: One polar bear reportedly went on a"goose egg-fest,"Rockwell said, devouring more than 800 eggs in four days.

Accounts like this have caused some scientists to worry that hungry polar bears might severely reduce or wipe out nesting snow goose populations.

(Related:"Grizzly Bears Moving Into Canada's Polar Bear Capital.")

But in new research, recently published online in the journalOikos,Rockwell and his team show that the currently plentiful snow goose population is in no danger from the bears. In fact, the eggs might provide a valuable backup food source as polar bears are forced to end their seal hunts early.

For one thing, a snow goose egg is about twice the size of a chicken egg, but it is much more nutritious, said Rockwell, a research associate at theAmerican Museum of Natural Historyand a professor at the City University of New York.

Downing a goose egg is like"eating a stick of butter,"he said. Rockwell estimates that if a polar bear eats about 88 snow goose eggs, the bear will be consuming the caloric equivalent of a seal.

Bears and Geese Will Occasionally"Mismatch"

Snow geese are migratory birds that spend their winters in warmer parts of North America. The birds typically arrive in the Arctic to breed around the end of May and remain through August. (Find out about"Great Migrations"on the National Geographic Channel.)

Millions of snow geese arrive in Canada each year to breed, and each nesting female lays four eggs, on average.

Snow geese are currently considered a species of least concern according to theInternational Union for Conservation of Nature, because they have a wide range and a large global population that seems to be increasing.

Rockwell's initial research suggested polar bears are developing an alarming taste for their new food source. The biologist had even heard reports of some bears coming ashorebeforethe sea ice melts to gorge on goose eggs.

(Also see"Arctic Foxes Put Eggs in 'Cold Storage' for Lean Times.")

The new study, however, indicates that the birds are safe.

Using historical records, Rockwell and his colleagues simulated the timing of four events that occur during the Arctic spring: the break-up of sea ice, the polar bears' migration to shore, the northward migration of snow geese, and the laying of eggs.

The results showed that, even though the two species' time on land will increasingly overlap as global warming continues, there will always be"mismatches"—years when the bears just miss the nesting geese.

"It's just natural {climate} variation,"Rockwell said."It only takes the occasional year of mismatch to allow the goose population to reset itself."

Polar bears are expected to come ashore even earlier in the coming years, so goose eggs could become an increasingly vital food source for them. (See"Polar Bears Listed as Threatened Species in U.S.")

"Bears are bears,"Rockwell said."Once they find a food source, they're going to capitalize on it."

forNational Geographic News

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Rare Pictures: Crocodile Attacks Elephant

A routine trip to the water hole recently resulted in a life-or-death struggle for a pair ofAfrican elephantswhen they were ambushed by a hungryNile crocodile(pictured).

Tourist Martin Nyfeler of Kloten, Switzerland, captured pictures of the wild encounter during a visit toZambia's South Luangwa National Park.

"We saw a mother elephant and baby at the water hole and said {to the guides}, You know, what a cute picture, let's stop here,"Nyfeler told National Geographic News.

"And suddenly the croc jumped out. The whole event took maybe 15 seconds."

—Brian Handwerk

(Explore National Geographic's 360-degree elephant panorama.)

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Sea Turtle Herpes Tumors Linked to Sewage?

Tumors that have plaguedgreen sea turtlesworldwide for decades may be caused bypollution, a new study says.

Nitrogen-rich runoff from sewers and farms is fueling a rise in invasive seaweed that, when consumed by thereptiles, may trigger an otherwise dormant herpes virus. This virus in turn causes the often fatal growths.

The cauliflower-like tumors—which can sprout on a turtle's eyes, mouth, joints, and internal organs—have contributed to declines in the 4-foot-long (1.2-meter-long) turtles. Listed as endangered by the International Union for Conservation of Nature, green sea turtles are found in the world's tropical and subtropical waters. (See sea turtle pictures.)

In some parts ofHawaii, where green sea turtle strandings occur regularly, as many as 90 percent of stranded dead or dying turtles discovered have been afflicted with the disease, according to study leader Kyle Van Houtan, an ecologist with the National Oceanic and Atmospheric Administration'sPacific Islands Fisheries Science Centerin Honolulu.

(Relatedpictures:"Millions of Sea Turtles Killed Accidentally?")

Wherever the turtle strandings occur, there is often evidence of sewage and invasive algae, Van Houtan said.

Until now, however, hard evidence that pollution factors into the turtles' disease has remained elusive, he noted.

Polluted Areas Are Turtle-Tumor Hot Spots

Van Houtan and colleagues analyzed human activities on land to calculate a"nitrogen footprint"for each watershed—an area that drains into a water body—on the Hawaiian islands of Oahu, the Big Island, and Maui (see map). The team also studied 28 years' worth of data on green sea turtle strandings on the islands.

Comparing the two data sets, the scientists found that diseased turtles strand more in areas with high nitrogen runoff from agriculture, sewers, and cities.

(See"Cocaine, Spices, Hormones Found in Drinking Water.")

These turtle-tumor hot spots are"the places that I wouldn't necessarily want to go surfing after a rain… because of the nasty stuff that would show up"in the ocean, Van Houtan added.

Nitrogen Awakens Herpes Viruses

The scientists don't think the nitrogen-loaded runoff causes tumors directly. Instead, there may be a chain of interactions that starts with a nitrogen-fed boom in nonnative seaweed, at least in Hawaii.

Nitrogen acts as a fertilizer in oceans, and is a main cause of oxygen-sucking algae blooms called dead zones.

Around the Hawaiian islands, several seaweed species were either accidentally introduced or deliberately harvested for food crops and later"escaped"cultivation and spread into the wild.

For instance, hookweed—native to the Mediterranean, the Caribbean, the Indian Ocean, and the Philippines—was introduced to Hawaii in 1974. Gorillo ogo and spiny seaweed came from the Pacific and Indian Oceans and Guam, respectively.

(Learn more about marine invasive species.)

The seaweed absorbs the extra nitrogen and converts it into an amino acid—the building block of protein—called arginine. When turtles eat the seaweed, arginine awakens dormant herpes viruses in the turtles' bodies that generate the tumors.

It's possible that nonnative seaweed in Hawaii is better than native seaweed species at converting nitrogen to arginine, Van Houtan noted.

And because Hawaiian green sea turtles now rely on the invasive seaweed for food, Van Houtan suspects the animals get dosed with tumor-triggering amino acids at every meal.

Turtle Tumors Have Other Causes?

Alonso Aguirre, a wildlife epidemiologist with the environmental nonprofit EcoHealth Alliance in New York, praised the study for confirming the link between pollution and sea turtle tumors.

But he also said that the tumors' cause may be more complicated.

The pollution-virus link is"a very simplistic pathway to explain the whole disease,"Aguirre said, adding he suspects other factors, such as water temperature, and possibly additional viruses, are at play.

Regardless of exactly how the tumors form, Aguirre said the study shows that"the turtles… are telling us that something is happening to the oceans in a way that now, we have to pay attention."

Turtle-tumor research published September 29 in the journalPLoS ONE.

forNational Geographic News

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Cricket Has World's Biggest Testicles (But Puny Output)

The new title for world's biggest testicles (relative to body weight) goes to the tuberous bushcricket, a type of katydid, according to a new study.

The sperm-producing organs account for 14 percent of the body mass of males of this bushcricket species. The previous record holder's testicles—belonging to the fruit flyDrosophila bifurca—tipped the scales at about 11 percent of its body mass.

"I was amazed by the size of the testes—they seemed to take up the entire abdomen,"said study leaderKarim Vahed, a behavioral ecologist at the University of Derby in the U.K.

But the new heavyweight champion doesn't pack much of a punch. The team was surprised to discover that tuberous bushcrickets have smaller ejaculations than bushcricket species with smaller testicles.

Bigger Testicles, More Sperm Supply?

For the testicle study, Vahed and colleagues dissected specimens from 21 bushcricket species, collected around Europe.

Theinsectsare ideal for studying reproductive evolution because of their efficient mating process, Vahed noted.

For one thing, the male bushcricket transfers his sperm to the female in a"neat packet"that's easily retrievable by researchers—"whereas in mammals, you'd have to provide some sort of condom to measure the ejaculate,"he said.

Likewise the female stores each male's sperm packet in a separate pouch, enabling scientists to count how many times a female has mated in her lifetime. (See insect-egg pictures inNational Geographicmagazine.)

Predictably, the team found that the species whose females mate the most has the males with the biggest testicles, according to the study, published November 10 in the journalBiology Letters.

(See"Bigger Testes Can Offer a Competitive Edge.")

But among the 21 bushcricket species, the study showed that, as testicle size increases, ejaculation volume decreases.

The discovery runs counter to previous findings in other species—especially mammals. Usually the male with the biggest testicles has more sperm in each ejaculation, thus earning him more tickets in the lottery of fertilizing females, Vahed explained.

A possible explanation, he said, is that, in societies with promiscuous females, large testicles give males a more plentiful sperm reservoir for multiple matings. Female tuberous bushcrickets mate an average of 23 times in their two-month life spans.

This alternative explanation for large testicles may even make scientists revisit some of their studies on vertebrates, he added. It's usually the other way around.

"It's clear that insects are one of the major types of organisms on the planet Earth, {but} the tendency is to draw conclusions from studies of vertebrates and generalize them as if they apply to everything,"he said.

Bushcricket Titillator Mystery

Next, Vahed plans to shift his focus to"titillators,"the hard, penis-like part of male bushcricket genitalia that's inserted into the female. These poorly studied—and often spiny—parts may stimulate the female, allow the male to hang on, or both.

(See relatedpictures:"'Torture' Phalluses Give Beetles Breeding Boost.")

And, as it turns out, the tuberous bushcricket isn't quite so well endowed in this arena. The species' parts, he said,"don't seem to be as outlandish as some species that have double sets of spiny titillators."

National Geographic News

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New Self-Cloning Lizard Found in Vietnam Restaurant

You could call it the surprise du jour: A popular food onVietnamesemenus has turned out to be a lizard previously unknown to science, scientists say.

What's more, the newfoundLeiolepis ngovantriiis no run-of-the-millreptile—the all-female species reproduces via cloning, without the need for male lizards.

Single-gender lizards aren't that much of an oddity: About one percent of lizards can reproduce by parthenogenesis, meaning the females spontaneously ovulate and clone themselves to produce offspring with the same genetic blueprint.

(Related:"Virgin Birth Expected at Christmas—By Komodo Dragon.")

"The Vietnamese have been eating these for time on end,"said herpetologistL. Lee Grismerof La Sierra University in Riverside, California, who helped identify the animal.

"In this part of the Mekong Delta {in southeastern Vietnam}, restaurants have been serving this undescribed species, and we just stumbled across it."

(See"New Snub-Nosed Monkey Discovered, Eaten.")

Wild Lizard Chase

Grismer's Vietnamese colleague Ngo Van Tri of theVietnam Academy of Science and Technologyfound live lizards for sale in a restaurant inBa Ria-Vung Tau Province (see map).

Noting that the reptiles all looked strangely similar, Ngo sent pictures to Grismer and his son Jesse Grismer, a herpetology doctoral student at the University of Kansas.

The father-son team suspected that they may be looking at an all-female species. That's because the team knew that the lizard likely belonged to theLeiolepisgenus, in which males and females in lizards have distinct color differences—and no males were apparent in the photos.

So the pair hopped on a plane to Ho Chi Minh City (Saigon), telephoned the restaurant to"reserve"the lizards, and began an eight-hour motorcycle odyssey—which ended in disappointment.

"When we finally got there, this crazy guy had gotten drunk and served them all to his customers,"recalled Lee Grismer, who has received funding for other projects from theNational Geographic Society's Committee for Research and Exploration.(The Society owns National Geographic News.)

Fortunately other area restaurants had the lizards on offer, and local schoolchildren helped gather more from the wild. Eventually the Grismers examined almost 70 of the lizards—and all turned out to be females.

Who's Your (Lizard) Daddy?

The newfound reptile also had rows of enlarged scales on its arms as well as lamellae—bone layers—under its toes that set it apart from other species, according to the study, published April 22 in the journalZOOTAXA.

The species is probably a hybrid from maternal and paternal lines of two related lizard species, a phenomenon that can occur in transition zones between two habitats. For instance, the new lizard's home, the Binh Chau-Phuoc Buu Nature Reserve, sits between scrub woodland and coastal sand dunes.

"So species that do really well in one habitat or the other will occasionally get together and reproduce to form a hybrid,"Grismer said.

Genetic tests of the new lizard's mitochondrial DNA identified its maternal species asL. guttata. Because this type of DNA is passed down only through females, the paternal species isn't yet known.

(Related:"Evolution in Action: Lizard Moving from Eggs to Live Birth.")

New Reptile May Be in Hot Water

The newly discovered hybrid species may already be at a disadvantage, Grismer added—even though it doesn't seem to be rare in the wild.

For instance, some scientists suggest that hybrid species are more prone to extinction because they don't produce much genetic diversity from generation to generation, according to herpetologist Charles Cole, curator emeritus at theAmerican Museum of Natural Historyin New York.

Genetic diversity keeps a species viable and healthy in the long term.

(See"Hybrid 'Superpredator' Invading California Ponds.")

"At least in terms of lizards, most that are unisexual species—when compared to the lineages of other lizards—have not been around very long,"said Cole, who was not involved with the Grismers' research.

Because the lizards don't combine genes during mating, genetic changes arise by random mutations—which are at least as likely to be detrimental as beneficial.

Lizard Hybrid Hardy as a Mule?

However, Cole cautioned, there are also theories that hybrids can also be healthier in the short term.

For instance, a hybrid's cells may be more genetically diverse than those of nonhybrids, because hybrids carry genes from each of their parent species.

"This might mean that the animals are tougher and more adaptable,"Cole said.

(Read how hybrid panthers are helping the rare cat rebound in Florida.)

For instance, he said, mules—crosses between horses and donkeys—"are sterile, but they are really good robust animals that are in some ways a preferred work animal even though they can't reproduce."

"So what you get in the unisexual lizards is a mule that can clone itself."

forNational Geographic News

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"Mind-Boggling" Pictures: Goats Scale Dam in Italy

Using moves that would make any rock climber jealous, Alpine ibex cling to a near-vertical rock face of a northernItaliandam in summer 2010.

This and other pictures of the goats have been circulating online recently, particularly in emails claiming the animals are bighorn sheep onWyoming'sBuffalo Bill Dam, the rumor-quashing websiteSnopesreported in September.

In truth, Adriano Migliorati snapped the pictures at the 160-foot-tall (49-meter-tall) Cingino Dam (see map of the region), the Italian hiker told National Geographic News via email. The goats are attracted to the dam's salt-crusted stones, according to the U.K.-basedCaters news agency. Grazing animals don't get enough of themineralin their vegetarian diets.

It's not far-fetched, though, to think such a scene could be photographed in theUnited States. For example,mountain goatscould scale dams in the U.S. West, according toJeff Opperman, senior advisor for sustainablehydropowerat the U.S.-based nonprofit the Nature Conservancy.

Opperman, who called the Cingino pictures"mind-boggling,"pointed out a picture of a Montana mountain goat doing an"incredibly acrobatic stretching maneuver to lick salt"in the NovemberNational Geographicmagazine (eighth picture inthis photo gallery).

"He is wedged up this sheer vertical cliff face, almost doing a yoga pose with four hooves splayed out there,"he said."It's the same concept {with the Italian goats}—these animals can overcome what looks like impossible topography to get what they want."

Opperman cautioned, though, that the Italian dam is rare, in that its rough masonry provides gaps that act as toeholds. The more common, smooth-concrete dams—such as Buffalo Bill Dam— would give goats anywhere in the world trouble, he said.

—Christine Dell'Amore

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