Monday, March 28, 2011

Sperm Whales May Have Name

By Brandon Keim of Wired Magazine 

March 14, 2011 



Subtle variations in sperm-whale calls suggest that individuals announce themselves with discrete personal identifier. To put it another way, they might have names.

The findings are preliminary, based on observations of just three whales, so talk of names is still speculation. But “it’s very suggestive,” said biologist Luke Rendell of Scotland’s University of St. Andrews. “They seem to make that coda in a way that’s individually distinctive.”

Rendell, lead author Ricardo Antunes and their collaborators, biologists Hal Whitehead, Shane Gero and Tyler Schulz, have for years studied the click sequences, or codas, used by sperm whales to communicate across miles of deep ocean. In a study published last June in Marine Mammal Sciences, they described a sound-analysis technique that linked recorded codas to individual members of a whale family living in the Caribbean.

In that study, they focused on a coda made only by Caribbean sperm whales. It appears to signify group membership. In the latest study, published Feb. 10 in Animal Behavior, they analyzed a coda made by sperm whales around the world. Called 5R, it’s composed of five consecutive clicks, and superficially appears to be identical in each whale. Analyzed closely, however, variations in click timing emerge. Each of the researchers’ whales had its own personal 5R riff.‘This is just the first glimpse of what might be going on.’

The differences were significant. The sonic variations that were used to distinguish between individuals in the earlier study depended on a listener’s physical relationship to the caller: “If you record the animal from the side, you get a different structure than dead ahead or behind,” said Rendell. But these 5R variations held true regardless of listener position.

“In terms of information transfer, the timing of the clicks is much less susceptible” to interference, said Rendell. “There is no doubt in my mind that the animals can tell the difference between the timing of individuals.” Moreover, 5R tends to be made at the beginning of each coda string as if, like old-time telegraph operators clicking out a call sign, they were identifying themselves. Said Rendell, “It may function to let the animals know which individual is vocalizing.”
Rendell stressed that much more research is needed to be sure of 5R’s function. “We could have just observed a freak occurrence,” he said. Future research will involve more recordings. “This is just the first glimpse of what might be going on.”
That individual whales would have means of identifying themselves does, however, make sense. Dolphins have already been shown to have individual, identifying whistles. Like them, sperm whales are highly social animals who maintain complex relationships over long distances, coordinating hunts and cooperating to raise one another’s calves.

Sperm-whale coda repertoires can contain dozens of different calls, which vary in use among families and regions, as do patterns of behavior. At a neurological level, their brains display many of the features associated in humans with sophisticated cognition. Many researchers think that sperm whales and other cetacean species should be considered “non-human persons,” comparable at least to chimpanzees and other great apes.

Compared to primates, however, studying the behaviors and relationships of whales is extremely difficult. They don’t take well to aquariums, and observations in the wild take place on their aquatic terms.
What’s been observed so far are just “the crude behavioral measures we get by following them in a boat,” said Rendell. “I’d argue that there is probably a vast amount of complexity out there in sperm whale society that we have yet to understand. As we get to know more about them, we’re going to continue to reveal complexities that we didn’t anticipate.”

Sunday, March 20, 2011

Welcome to Block IV!

Three down, one to go. Welcome back to my returning Biology and Forensic Science students, and a special welcome to my new Honor's Biology students. Good job guys. 

Well, most of you know the routine by now. Check out the blog postings, leave me a comment or send me an email (at jgiacobbe_southpointe@cox.net), get some extra credit, 25 points each. No limit to the number you can do as long as the comments are thoughtful and show you actually read through to the link. 

Good Luck, and let the magic carpet ride begin...

Thursday, March 17, 2011

A New Evolutionary History of Primates

ScienceDaily (2011-03-17) -- A robust new phylogenetic tree resolves many long-standing issues in primate taxonomy. The genomes of living primates harbor remarkable differences in diversity and provide an intriguing context for interpreting human evolution. The phylogenetic analysis was conducted by international researchers to determine the origin, evolution, patterns of speciation, and unique features in genome divergence among primate lineages.

Monday, March 07, 2011

Demons, Entropy, and the Quest for Absolute Zero

A 19th-century thought experiment has turned into a real technique for reaching ultralow temperatures, paving the way to new scientific discoveries as well as to useful applications
Image: Photograph by Adam Voorhes

In Brief

  • Traditional methods for cooling gases to close to absolute zero work only with a few of the elements.
  • Two novel techniques together can cool down atoms of virtually any element, even some molecules.
  • One of the techniques, which appears to break the second law of thermodynamics, is a physical realization of a celebrated 1800s thought experiment called Maxwell’s demon.
  • Applications range from studying the properties of elementary particles without expensive accelerators to separating isotopes for their use in medicine and research.
As you read these words, the air’s molecules are ­zipping around you at 2,000 miles per hour, faster than a speeding bullet, and bombarding you from all sides. Meanwhile the atoms and molecules that make up your body incessantly tumble, vibrate or collide with one another. Nothing in nature is ever perfectly still, and the faster things go, the more energy they carry; the ­collective energy of atoms and molecules is what we call, and feel as, heat.

Even though total stillness, corresponding to the temperature of absolute zero, is physically impossible, scientists have edged ever closer to that ultimate limit. In such extreme realms, weird quantum effects begin to manifest themselves and to produce new and unusual states of matter. In particular, cooling gaseous clouds of atoms—as opposed to matter in the liquid or solid state—to a small fraction of a degree above absolute zero has enabled researchers to observe matter particles behaving as waves, to create the most precise measuring instruments in history, and to build the most accurate atomic clocks.