Science Frontiers
The Unusual & Unexplained

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Science Frontiers is the bimonthly newsletter providing digests of reports that describe scientific anomalies; that is, those observations and facts that challenge prevailing scientific paradigms. Over 2000 Science Frontiers digests have been published since 1976.

These 2,000+ digests represent only the tip of the proverbial iceberg. The Sourcebook Project, which publishes Science Frontiers, also publishes the Catalog of Anomalies, which delves far more deeply into anomalistics and now extends to sixteen volumes, and covers dozens of disciplines.

Over 14,000 volumes of science journals, including all issues of Nature and Science have been examined for reports on anomalies. In this context, the newsletter Science Frontiers is the appetizer and the Catalog of Anomalies is the main course.


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... Science Frontiers ONLINE No. 112: Jul-Aug 1997 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Dolphin Refrigerators Dolphins and other cetaceans have an overheating problem. For high hydrodynamic performance, their bodies must be nicely streamlined. For males, this means that their testicles must be stored internally. But dolphins are very active animals, and their muscles generate considerable heat -- too much heat for sperm to survive without some sort of special cooling system. (Recall that human males with undescended testicles may become sterile.) Since dolphins are obviously procreating, evolution must have come to the dolphins' rescue. Evolution's engineering solution installs heat exchangers in the dolphins' tails and dorsal fins. Blood heated in the vicinity of the testes is pumped through special veins in the tail and dorsal fin, where it is cooled by seawater and then returned to the dolphins' heat-sensitive innards. Female dolphins have similar heat exchangers to cool their uteri. The same article in Discover points out still another remarkable adaptation conferred on dolphins: They do not have to expend a lot of energy in diving to great depths. Below about 70 meters, the water pressure collapses their lungs so that they sink like rocks! Of course, returning to the surface does require some exertion. (Zimmer, Carl; "The Dolphin Strategy," Discover, 18:72, March 1997.) Comments. One automatically supposes that the dolphin dorsal fin is needed for stabilization when swimming -- like an airplane's rudder. But several cetacea ...
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... Science Frontiers ONLINE No. 35: Sep-Oct 1984 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Dolphins to the rescue -- again!September 1983. Tokerau Beach, North-land, New Zealand. A pod of 80 pilot whales ran aground and were stranded by the ebbing tide. Local townspeople followed a new technique developed for aiding stranded cetaceans. They waded out, talking soothingly to the whales, and keeping their skins wet. When the tide came back in and refloated the whales, the New Zealanders turned them around and tried to guide them to deeper waters. Sometimes refloated cetaceans just turn around and reground themselves again, but this time the pilot whales were fortunate. A school of dolphins fishing offshore somehow apprehended the situation and swam into the shallows around the pilot whales. The dolphins then guided them out to sea. 76 of the pilot whales were thus saved. In a similar incident 5 years earlier at Whangarei harbor, a helicopter followed the dolphins and whales several miles out to sea, confirming interspecies aid. Such stories are reminiscent of those where drowning humans are helped by dolphins. (Anonymous; "Dolphin Pilots," Oceans, 17:50, 1984.) Reference. More instances where dolphins have come to the aid of humans are presented in BHX3 in Biological Anomalies: Humans III. Ordering information is located here . From Science Frontiers #35, SEP-OCT 1984 . 1984-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 101: Sep-Oct 1995 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Male Dolphin Kills Man Male dolphins definitely prefer human females. In fact, a recent incident at a Sao Paulo, Brazil, beach reveals an antagonism toward human males. A wild, resident male dolphin, noted for his friendliness toward women swimmers, attacked two human males, who were evidently considered to be romantic competitors. One of the men died from internal hemorrhaging after being butted by the dolphin. The other man received a broken rib. (Anonymous; "Dolphin Prefers Women, Kills Male Playmate," Washington Times, December 11, 1994. Cr. S. Parker. COUDI item. COUDI = Collectors of Unusual DataInternational.) Comment. Obviously, dolphins are not always as friendly as Flipper. In fact, a recent TV documentary related how a female snorkeler was seized (gently) by a male false killer whale (a type of dolphin) and dragged down 100 feet before being released unhurt though nearly drowned. For additional discussions of the humananimal interface, see Biological Anomalies: Humans III. To order, see: here . From Science Frontiers #101 Sep-Oct 1995 . 1995-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 38: Mar-Apr 1985 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Whales And Dolphins Trapped Magnetically Joseph L. Kirschvink, of the California Institute of Technology, has plotted the hundreds of beachings of whales and dolphins along the U.S . east coast. He finds that these cetaceans tend to run aground at spots where the earth's magnetic field is diminished by the local magnetic fields of rocks. These coastal magnetic lows are at the ends of long, continuous channels of magnetic minima that run for great distances along the ocean floors. Kirschvink believes that the stranded whales and dolphins were using these magnetic troughs for navigation and failed to see the stop sign at the beaches and ran aground. The mag-netic troughs in this view are superhighways for animals equipped with a magnetic sense. If Kirschvink's theory is correct, the magnetic sensors of the whales and dolphins are extremely sensitive, because the deepest magnetic troughs are only about 4% weaker than the background magnetic field. Magnetite crystals have been found in birds, fish, and insects, where they are thought to contribute to a magnetic sense of some sort. So far, no magnetite has shown up in whales and dolphins. (Weisburd, S.; "Whales and Dolphins Use Magnetic 'Roads,' Science News, 126:389, 1984.) From Science Frontiers #38, MAR-APR 1985 . 1985-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 77: Sep-Oct 1991 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects No unknown monsters in those fiji underwater caves: nevertheless, the mystery deepens A videotape of those unusual skeletons in the Fiji underwater caves mentioned above has been studied by scientists at the Queensland Museum. The are not the remains of unknown monsters -- they are only dolphin bones! But one mystery has been replaced by several. It seems that there were three different species of dolphins, and they were found at the closed ends of underwater passages that were just a bit larger than the living animals themselves. Why did three different species go into the caves at all? Why did they go all the way to the ends of the closed passages, given their excellent echo-location systems? Pertinent here is the discovery of skeletons and recent carcasses of green turtles in similar situations in underwater caves in Indonesia. Turtles lack the dolphins' echo-location equipment, but they are still excellent navigators. (Molnar, R.E .; personal communication, July 2, 1991. Molnar is a scientist at the Queensland Museum.) Comment. Another question comes to mind: Could the demise of the dolphins in the Fiji caves be related to the occasional strandings of whales and other cetacea on beaches all over the world? Is there a common failure in perception and/or navigation? From Science Frontiers #77, SEP-OCT 1991 . 1991-2000 William R. Corliss ...
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... without an active sound source, the ocean is full of sound. Waves, rain, and the sounds made by marine animals create a background of noise that "illuminates" objects, not directly, but from the environment in general. Using only this enveloping background sound, it is possible to create acoustical images of objects. "Vision" of this sort is equivalent to "facial vision" in blind humans, who can hear objects using the environmental sound reflected from them. J. Potter and his colleagues at the National University of Singapore have constructed an array of underwater microphones that detects "slices" of the acoustical environment around it. When processed by a computer, images of objects emerge by virtue of the background noise reflected from them. This group has also estimated the ability of dolphins to detect and process background noise. They suggest that dolphins should be able to "see" objects at least 25 feet away without even using their active sonar; that is, their clicks. This passive acoustical imaging would be a useful evolutionary development because dolphin clicks warn some prey and allow them to escape. (Anonymous; "Cacophony of the Deep," Discover, 19:19, May 1998.) Comments. Some insects can detect the sonar cries of pursuing bats and take evasive action. Perhaps some fish can detect pursuing dolphins, too. Blind people can augment facial vision by tapping with a cane or using a mechanical clicker. From Science Frontiers #120, NOV-DEC 1998 . 1998-2000 William R. Corliss ...
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... than the average mammalian bone. "The bone also turned out to have unique chemical properties. It contains 35 per cent calcium by weight -- 13 per cent more than the highest value known previously. Using microscopes, the team showed that the bone is riddled with tiny tunnels. containing highly concentrated minerals." The channelled nature of this bone make it very brittle, making it unlikely that it is used as a ram in mating bouts. Zioupos and Currey propose that this uniquely structured bone is really an acoustical pipe for the beaked whales' sonar signals. (Barnett, Adrian; "Do Whales Talk through Brittle Beaks?" New Scientist, p. 20, May 10, 1997.) Comment. Acoustical pipes were also invented by close relatives of the beaked whales, the dolphins. With the dolphins, it is the lower jaw that has been converted into a "sound pipe" for receiving sonar echoes. Dugongs, too, possess squamosal bones filled with oil that are probably also connected with sound detection. Evolution has been highly innovative -- three times, in different ways -- in designing acoustical pipes in marine mammals! This is very impressive for a method that begins with a random process. More details in BMO7-X1 in Mammals II . This strap-toothed whale is one of the beaker whales. The teeth of this male prevent it from opening its mouth more than a couple of inches. Blaineville's beaked whale has two large, leaf-like teeth projecting upwards and forwards. These grotesque teeth are often covered with barnacles! From ...
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... ? BHU10 The Orang Pendek or Sedapa of Sumatra BHU11 Australia's Yowie or Yahoo BHU12 The Agogwe: Africa's Little Furry Men BHU13 Hominid Corpses of Unknown Provenance BHX HUMAN INTERFACE PHENOEMENA BHX1 Anomalous Communications Interfaces BHX2 Unusual Human-Animal Psychological Interfaces BHX3 Unusual Animal Succoring of Humans BHX4 Human Psychic Healing of Other Animals BHX5 Human-Animal Cooperation and Symbiosis BHX6 The Human-Endosymbiont Interface Humans BHX8 Other Unusual Animal Attacks on Humans BHX9 The Human-Wasp Interface BHX10 Yellow-Fever Mosquitoes Favor Humans with Blood Type O BHX11 The Anomalous Distribution of Human Lice BHX12 A Bizarre Human-Fish Phenomenon BHX13 The Inverse Relationship between Human Parasites and Allergies BHX14 Manipulation of Human Behavior by Viruses BHX15 "Ultimate" Parasites of Humans BHX16 The Human-Gaia Interface BHX17 Human Degeneracy and the Man-Machine Interface Dolphin Dangers Plants That Induce Sleep The Ubiquitous Human-Bacterium Interface Ancient Viral Invaders BI INVERTEBRATES Titles not yet posted BM MAMMALS BMA EXTERNAL APPEARANCE AND MORPHOLOGY BMA1 Mammalian Morphological Parallelisms: Convergence and Mimicry BMA2 Limits on the Variability of Domestic Animals BMA3 Unusually Divergent Mammal Populations BMA4 Hybrids and Mosaics BMA5 Mirror-Image Twins in Mammals BMA6 Atavism and Reversion in Mammals BMA7 Neoteny in Mammals BMA8 Albino Populations of Mammals BMA9 Unusual Mammalian Sex Ratios BMA10 Wolves Defy Bergmann's Law BMA11 Unusual Sexual Dimorphism in Mammals BMA12 Zebra Stripe Reversal BMA13 The Existence of Zebras with Vivid Stripes BMA14 Land-Mammal Hairlessness BMA15 The Greening of Sloths BMA16 Polar-Bear Hairs as Light Pipes BMA17 Sudden Blanching of Mammal Hair BMA18 Mammalian Callosities BMA19 Skin Masks BMA20 Extensive Scarification of the Skin BMA21 Microwave Emission from Mammals BMA22 Bat Faces: ...
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... Science Frontiers ONLINE No. 38: Mar-Apr 1985 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology Who Built the East Bay Walls? Ancient Engineering Feat Antarctica Revisited, Hapgood Acknowledged Astronomy Quasar, Quasar, Burning Bright; What Shifts Your Spectral Light? Unidentified Object Young Interplanetary Dust Neptune's Incomplete Ring Biology Whales and Dolphins Trapped Magnetically Listening with the Feet Life in the Dark Bad Year for Water Monsters Geology Galloping Glaciers Geophysics: The Sick Man of Science Geophysics Ball Lightning and Blue Flashes Green Cloud with Light Rays Still Another Mystery Cloud The Sounds That Shouldn't Have Been Expanding Phosphorescent Rings Two Snowflake Anomalies Psychology Hypnosis and Memory The Subtle Placebo ...
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... Science Frontiers ONLINE No. 52: Jul-Aug 1987 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Checklist Of Apparently Unknown Animals B. Heuvelmans, who operates the Center for Cryptozoology, in France, has compiled an annotated checklist of between 110 and 138 animals (some questions remain about how many are distinct species) which do not seem to be recognized by science. His list is based upon his collection of 20,000 references. Obviously we cannot reproduce all his descriptions here, but we will pass along three of the most interesting. A dolphin with two dorsal fins, both curved backwards, the anterior one set on the forehead like a horn. The first observation was apparently by Mongitore in the Mediterranean. During the Uranie and Physicienne expedition, Quoy and Gaimard reported a whole school of them between the Sandwich Islands and New South Wales. They were spotted black and white. Hairy "wild men," known as satyrs in classical antiquity. These were probably Neanderthals that survived into historical times. The most recent sightings were in 1774, in the Pyrenees, and 1784, in the Carpathians. Giant birds of prey in North America -- the famous "thunderbirds." Observers put the wingspans between 10 and 16 feet, making thunderbirds much larger than the Andean condor. Reports have come in from all over the southern United States. Some remains of these carnivorous birds have been dated at 8,000 years. (Heuvelmans, Bernard; "Annotated Checklist of Apparently Unknown Animals with Which Cryptozoology Is Concerned," ...
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... Science Frontiers ONLINE No. 87: May-Jun 1993 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The Uniqueness Of Human Adolescence What major biological characteristics separate humans from other animals? The usual list begins with our large brain and bipedality, but these features are shared with dolphins and birds, respectively. Even our peculiar reproductive biology (permanent breasts, continuous sexual receptivity of both sexes, etc.) no longer seem so unique, particularly after reading about the antics of the bonobos (pygmy chimps)! But wait! No other animal, even the other primates, go through adolescence. That time period between puberty and the attainment of adult stature turns out to be something uniquely human. The great puzzle of adolescence, according to B. Bogin, is its evolutionary origin. What possible advantage does adolescence confer on humans in the battle for survival? To the contrary, skipping the teens would appear to be an advantage in the survivability of parents! One guess is that adolescence -- all 8 or so years of it -- is required for the development of the complex social skills needed by adults. (Bogin, Barry; "Why Must I Be a Teenager at All?" New Scientist, p. 34, March 6, 1993.) From Science Frontiers #87, MAY-JUN 1993 . 1993-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 101: Sep-Oct 1995 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology FROM THE SUNSWEPT LAGOON Astronomy THE METAL-FROSTED MOUNTAINS OF VENUS! ALH 84001: A MESSAGE FROM MARS OR PERHAPS SOME OTHER PLANET IRONCLAD PROOF OF THE MOON'S ORIGIN? Biology THE ALGORITHMIC BEAUTY OF SEASHELLS MORE HEAR EARS DRAGON FISH SEE RED MALE DOLPHIN KILLS MAN Geology POLAR-BEAR BONES CONFOUND ICE-AGE PROPONENTS A TRIPLE ANOMALY IN A DIAMOND THE GIANT LANDSLIDES OF HAWAII "ALMOST INCONCEIVABLE" CHANGES IN THE GEOMAGNETIC FIELD CHINA'S BERMUDA TRIANGLE Geophysics DEATH WAVES AND SEEBARS STRANGE PHENOMENON DETECTED BY RADARS AND SATELLITES AN ASTONISHING MEDLEY OF BIO LUMINESCENT DISPLAYS Unclassified THE GREAT EXODUS ...
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... Science Frontiers ONLINE No. 112: Jul-Aug 1997 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology We've known it all along! Japanese mini-pyramids Astronomy A TWISTED COSMOS? Signals from the sun and, eventually (? ), other entities Biology You may become what you eat Dolphin refrigerators From the depths of the amazon Archea: tough and different Sea turtles: from one end to the other Geology Large rotating ice discs on ice-covered rivers The kind of fault you like to find Geophysics Icy minicomets caught by a satellite camera? Apparent circular lightning Pschedelic phenomenon Physics When like charges attract Cold-fusion pro-fusion Unclassified Computer con-fusion http://www.shakespeare.unduplicated ...
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... Science Frontiers ONLINE No. 35: Sep-Oct 1984 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology Ancient Egyptians in Hawaii Sinister Development in Ancient Greece Man the Scavenger A Different Way of Looking At the Universe Astronomy A Quick Quasar Monster Star Lurks Nearby Halley's Comet is Winking At Us Galactic Radiation Belt? Biology Dolphins to the Rescue -- again! Gravity and Going Around in Ellipses Getting the Pouch Right Are Bluebloods More Often Type A? Mind Before Life Caenorhabditis Elegans The Chinese Wild Man Geology An Extraordinary Peat Formation Confusing Seismic Data From the Deep Continental Crust Geophysics Infrared Atmospheric Waves Burning Mass Falls in B.C . Psychology The Immune System As A Sensory Organ Parapsychology: A Lack-of-progress Report Chemistry & Physics Blooms in the Desert? ...
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... . As a matter of fact, our closest relatives, the great apes, sing not at all. Somewhere in the hominid genome "music" genes reside, unexpressed in the apes, but somehow triggered into activity in the human line. We have learned recently that the Neanderthals manufactured bone flutes as far back at 53,000 years. They may not have been able to speak to one another in words, but they had the language of music. Their music, and ours, may have been entrained in genes inherited from nonhominid ancestors that lived 60 million years ago, but which have been suppressed in primates until Neanderthals and modern humans came along. You may wonder where this argument is taking you. It goes back at least 60 million years to when the cetacea (whales and dolphins) split off from the evolutionary track leading to humans. It may even go back farther to when birds split away from the reptilian line. The music of birds and whales incorporate some of the complexity and sophistication of Beethoven's Fifth. The genes that have led to such musical talents may be ancient indeed, as speculated in the Science article under review. The authors go so far as to ask: Do musical sounds in nature reveal a profound bond between all living things? Such profundity requires some factual support, and the Science article compares human and whale music in some detail. Humpback rhythms are similar to ours. Humpbacks use phases similar in length to human music. They also create themes out of the phrases. Whale songs have lengths between those of a human ballad and ...
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... Science Frontiers ONLINE No. 158: Mar - Apr 2005 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology Untranslatable Mohenjo-Daro Script? A very Early Compound Machine Khufu's Secret Burial Chamber: A Phony Discovery? Astronomy Allez Allez Old Galaxies in a Young Universe Biology Do Dolphins Sense the Coriolis Force? Disappearing Animals Wayward DNA: Does it Affect the Shapes of Family Trees? Geology Bermuda Triangles in the Desert! Plate-techtonics 'theory' is slowly and inevitably Dyning Geophysics Hum Update Psychology Motherese: A precursor of Human Language? Unclassified Multimedia Communications in the Cosmos Computer Bacteria ...
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... subject here is the leatherback turtle. Weighing up to 1600 pounds, it is the largest of the sea turtles. It is also the fastest turtle, hitting 9 miles per hour at times. But weight and speed are not necessarily mysterious; here are some characteristics that are: The leatherback is the only turtle without a rigid shell. Why? Perhaps it needs a flexible shell for its very deep dives. What looks like a shell is its thick, leathery carapace -- a strange streamlined structure with five to seven odd "keels" running lengthwise. These turtles are warm-blooded , and able to maintain their temperatures as much as 10 F above the ambient water, just as the dinosaurs apparently could. The bones of the leatherback are more like those of the marine mammals (dolphins and whales) than the reptiles. "No one seems to understand the evolutionary implications of this." Leatherbacks dive as deep as 3000 feet which is strange because they seem to subside almost exclusively on jellyfish, most of which are surface feeders. Like all turtles, leatherbacks can stay submerged for up to 48 hours. Just how they do this is unexplained. Their brains are miniscule. A 60-pound turtle possessed a brain weighing only 4 grams -- a rat's weighs 8! Leatherbacks' intestines contain waxy balls, recalling the ambergris found in the intestines of sperm whales. The stomachs of leatherbacks seem to contain nothing but jellyfish, which are 97% water. Biologists wonder how the huge, far-ranging leatherback can find enough jellyfish to sustain itself. ( ...
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... that some whales and porpoises have oil/wax-filled sound lenses in their foreheads. These biological lenses focus clicks and other sounds sonar-fashion ahead of the swimming animal, which then listens for echoes from prey and other targets. But what if these bursts of sound could be made very powerful -- could they be employed to stun and disorient prey? Bits of evidence are accumulating to support the theory that some whales and porpoises actually have acoustic stun guns in their foreheads. First, there are visual observations of fish being hunted by whales and porpoises suddenly giving up flight, becoming passive, and almost asking to be snapped up by their pursuers. Second, the stomachs of whales often contain much faster and more mobile prey -- often without any teeth marks. Finally, bottlenose dolphins are known to have the capability of producing bursts of sound five orders of magnitude more intense than their usual navigating clicks. This is more than enough to kill small fish. (Norris, Kenneth S., and Mohl, Bertel; "Can Odontocetes Debilitate Prey with Sound?" American Naturalist, 122:85, 1983.) Comment. Here is another instance of the "problem of perfection." An existing organ of great complexity seems utterly useless of only fractionally developed. One would think that the complicated sound lenses, the muscular sound-generating tissues, and their containing structures would have to have developed in a single step in order to have any survival value. Reference. Sperm whales also use a stun gun. See BMO10 in our Catalog: Biological Anomalies: Mammals ...
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... sing? A clue to the purpose of the blue whales' songs is found in their precision timing. One note is sung every 128 seconds. Furthermore, these notes (sound pulses) carry for hundreds of kilometers. C. Clark, a Cornell scientist, believes these notes are really sonar pulses used for fixing a whale's location. Echoes returned from distant seamounts, continental shelves, and other undersea topography enable the whales to map their positions within the wide ocean basins as they wander far and wide. (Hecht, Jeff; "Rhythm of Blues Charts the Ocean Depths," New Scientist, p. 19, June 20, 1998.) Comment. Short -range sonar is widely used by bats, Oilbirds, Edible-nest Swifts, and, of course, dolphins. As far as we know, the blue whale is the only animal employing sonar for longrange mapping. However, some birds seem to use distant infrasound sources (ocean surf, wind flowing over mountain ranges, etc.) as crude beacons during migration. From Science Frontiers #119, SEP-OCT 1998 . 1998-2000 William R. Corliss ...
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... employs a Star Wars-like weapon in battling invaders of its territory. The flat sides and silvery scales of this species make highly efficient mirrors. These fish have learned how to maneuver their bodies so as to reflect bright flashes of sunlight directly into the eyes of their opponents. These intense bursts of light are often enough to burst blood vessels in the eyes of the target fish -- sometimes even stunning it. Pairs of Amazonian angel fish have been observed flitting about in "light-fights" as they attempt to zap each other and avoid optical counterattacks. (Anonymous; Creation/Ex Nihilo , 21:7 , March-May 1999. Attributed to Sydney Morning Herald , October 13, 1998.) Comments. The use of light as an offensive weapon is reminiscent of those dolphins that stun their prey with powerful pulses of sound. Creation/Ex Nihilo is an Australian Creationist publication. It is easy to see why creationists focus on these lightfighting fish. Their weapons required the coevolution of flat sides, silvery scales, and the complex instinctive behavior needed for orienting their bodies relative to both the sun and their opponents. From Science Frontiers #123, MAY-JUN 1999 . 1999-2000 William R. Corliss ...
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... of these fish operating on similar frequencies meet. Ordinarily, the fish would jam each other's sensory apparatus and "blind" each other. To circumvent this Eigenmannia has evolved a "jamming avoidance response," in which they both shift their pulse frequencies away from each other. To accomplish this, the fish must be able to detect time disparities between the two sets of signals less than 1 microsecond long. Their individual electroreceptors are not capable of handling such small time differences. Kawasaki has concluded that the jamming avoidance response can come only from highly sophisticated signal processing in the fish's central nervous system. (Kawasaki, Masashi; "Temporal Hyperacuity in the Gymnotiform Electric Fish Eigenmannia ," American Zoologist , 33:86, 1993.) Comment. Echo-locating bats and dolphins also possess sophisticated data processing apparatus for analyzing the echos they receive back from their prey and surroundings. It will be interesting to discover if evolution has come up with similar organic "components" for handling acoustic and electric signals. Further, we know that some insects have developed ears and sound generators to detect and jam hunting bats. Have the prey of electric fish evolved corresponding countermeasures? If not, why not? From Science Frontiers #89, SEP-OCT 1993 . 1993-2000 William R. Corliss ...
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... required here. Among the leatherbacks' "instruments" are probably sensors that detect the angle of the geomagnetic field, the length of daylight, and the identities of the oceanic currents encountered. There are probably other sensors and, of course, a brain to process all the signals; but virtually nothing is known about them. (Morreale, Stephen J., et al; "Migration Corridor for Sea Turtles," Nature, 384: 320, 1996. Also: Monastersky, R.; "Do Sea Turtles Stop and Ask for Directions?" Science News, 150:342, 1996.) Rectal gills. Sea turtles are airbreathers that make long, deep dives. To descend deep for long periods, they have evolved a diving adaptation radically different from that employed by the dolphins, whales, and seals; namely, rectal gills. They breathe air at the front end and water at the rear. Water is pulled in through the rectum and directed to sacs lined with blood vessels. These function like fish gills by extracting oxygen from the seawater. The oxygen-depleted water is them expelled and another "breath" is taken. (Green, John; ISC Newsletter, 11:10, no. 3, 1991. Actual publication date: 1997. ISC = International Society of Cryptozoology.) Routes taken by migrating leatherback turtles in 1992. From Science Frontiers #112, JUL-AUG 1997 . 1997-2000 William R. Corliss ...
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... the question became: How do hammerheads -- and perhaps other animals -- sense such exceedingly small changes in the geomagnetic field? Some birds and mammals do have small particles of magnetite in their bodies, but no one knows how they might be incorporated into a sensory organ. On the other hand, hammerheads and many other sharks are extraordinarily sensitive to electrical fields, responding to fields as low as 10-8 volt/centimeter. Possibly the sharks' forward motion cuts the magnetic lines of force generating an electrical navigational signal. No one knows as yet. And so one mystery leads to another. (Klimley, A. Peter; "Hammerhead City," Natural History, 104:33, October 1995) Comment. Some marine biologists suspect that some deep-water whales and dolphins inadvertently strand themselves while following magnetic "paths" like those radiating from Espiritu Santo. (See SF#38) From Science Frontiers #104, MAR-APR 1996 . 1996-2000 William R. Corliss ...
Terms matched: 1  -  Score: 13  -  15 May 2017  -  URL: /sf104/sf104p05.htm
... is something "special" that makes us more than automatons. Other animals may be automatons, but not us! D. Jones speculates in Nature that if consciousness is a definite, inheritable characteristic, it must have had survival value for it to have evolved. It then follows that consciousness must be en-coded somewhere in our genes. Only a single gene may be enough, for consciousness seems to be an uncomplicated phenomenon. Why? Because just a few simple molecules, such as those found in anesthetics, can disable it completely without affecting other bodily functions. Eventually, Jones continues, the gene (or small number of genes) responsible for consciousness will be identified. Then, we can determine for certain if any of the lower animals are also conscious. We think chimps and dolphins might be, but we're not really sure until we see if they have the necessary genes. In fact, the old-time behaviorists could be right, and all the other animals really are merely automatons. That would definitely make us "special"! Once we have the consciousness genes in our labs, we can introduce them into those other species, such as Rover and Kitty, upon whom we would like to confer the boon of consciousness. Many interesting experiments could be per-formed, including, of course, the elimination of consciousness genes in certain selected human subjects! (Jones, David; "States of Non-Mind," Nature, 403:263, 2000.) From Science Frontiers #128, MAR-APR 2000 . 1997 William R ...
Terms matched: 1  -  Score: 13  -  15 May 2017  -  URL: /sf128/sf128p14.htm

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