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Communicating underwater is challenging.

Light and odors don't travel well, so it's hard for animals to see or smell.

But sound moves about four times faster in water than in air, so in this dark environment, marine mammals often rely on vocalization to communicate.

That's why a chorus of sounds fills the ocean.

Clicks, pulses, whistles, groans, boings, cries, and trills, to name a few.

But the most famous parts of this underwater symphony are the evocative melodies, or songs, composed by the world's largest mammals, whales.

Whale songs are one of the most sophisticated communication systems in the animal kingdom.

Only a few species are known to sing.

Blue, fin, bowhead minke whales, and of course humpback whales.

These are all baleen whales which use hairy baleen plates instead of teeth to trap their prey.

Meanwhile, toothed whales do use echolocation, and they and other species of baleen whales make social sounds, such as cries and whistles, to communicate.

But those vocalizations lack the complexity of songs.

So how do they do it?

Land mammals like us generate sound by moving air over our vocal chords when we exhale, causing them to vibrate.

Baleen whales have a U-shaped fold of tissue between their lungs and their large inflatable organs called laryngeal sacs.

We don't know this for sure because it's essentially impossible to observe the internal organs of a living, singing whale, but we think that when a whale sings, muscular contractions in the throat and chest move air from the lungs across the U-fold and into the laryngeal sacs, causing the U-fold to vibrate.

The resulting sound resonates in the sacs like a choir singing in a cathedral making songs loud enough to propagate up to thousands of kilometers away.

Whales don't have to exhale to sing.

Instead, the air is recycled back into the lungs, creating sound once more.

One reason whale songs are so fascinating is their pattern.

Units, like moans, cries, and chirps are arranged in phrases.

Repeated phrases are assembled into themes.

Multiple themes repeated in a predictable pattern create a song.

This hierarchical structure is a kind of grammar.

Whale songs are extremely variable in duration, and whales can repeat them over and over.

In one recorded session, a humpback whale sang for 22 hours.

And why do they do it?

We don't yet know the exact purpose, but we can speculate.

Given that the singers are males and they mostly sing during the mating season, songs might be used to attract females.

Or perhaps they're territorial, used to deter other males.

Whales return to the same feeding and breeding grounds annually, and each discrete population has a different song.

Songs evolve over time as units or phrases are added, changed, or dropped.

And when males from different populations are feeding within earshot, phrases are often exchanged, maybe because new songs make them more attractive to breeding females.

This is one of the fastest examples of cultural transmission, where learned behaviors are passed between unrelated individuals of the same species.

We can eavesdrop on these songs using underwater microphones called hydrophones.

These help us track species when sightings or genetic samples are rare.

For example, scientists have been able to differentiate the elusive blue whale's populations worldwide based on their songs.

But the oceans are getting noisier as a result of human activity.

Boating, military sonar, underwater construction, and seismic surveys for oil are occurring more often which may interfere with whale's communication.

Some whales will avoid key feeding or breeding grounds if human noise is too loud.

And humpback whales have been observed to reduce their singing in response to noise 200 kilometers away.

Limiting human activity along migratory routes and in other critical habitats, and reducing noise pollution throughout the ocean would help ensure whales continued survival.

If the whales can keep singing and we can keep listening, maybe one day we'll truly understand what they're saying.



RS5 is a starch-lipid complex, in which helical amylose chains serve as host molecules

to guest lipids in the center. The complexes can be amorphous or crystalline, with

crystalline complexes being more enzyme resistant than their amorphous counterparts.

Granules of the starch-lipid complexes resist swelling during cooking, and the lack of

swelling seems to reduce the ability of amylase to access and hydrolyze the starch, says

Jay-lin Jane, a food science professor at Iowa State University.

Jane has been studying complexes of high-amylose starch with various fatty acids and has

found that when mice are fed a diet including RS5, the complexes turn up in the feces




@iwmtyss(岩本康志) 日本が4%のインフレ目標を最初からもっていれば,失われた10年GDP損失は半減していただろう,というIMFエコミトの分析。 http://ow.ly/1fQDF

Olivier Blanchard, the IMF’s Chief Economist, recently broached the idea that central banks should target an inflation rate of 4% during the good times to leave more room for nominal rate cutting during bad times. This column supports this view, presenting new research showing that a higher inflation target could have halved the output loss of Japan during itsLost Decade.”

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