Sea dragons: big news about ichthyosaurs, which cruised ancient oceans while dinosaurs ruled the land.About 250 million years ago, reptiles stepped up to fill ecological niches left vacant in the wake of one of Earth's biggest mass extinctions. Just a few million years later, as the earliest dinosaurs stomped about on land, some of their reptilian relatives slipped into the surf and began to exploit the rich ocean ecosystems. Before long, these ichthyosaurs--Greek for fish lizards--became major players in the marine environment, taking on the roles that seals, dolphins, and whales occupy today. Ichthyosaurs This list of ichthyosaurs is a comprehensive listing of all genera that have ever been included in the order Ichthyosauria or the parent clade Ichthyopterygia, excluding purely vernacular terms. swam through prehistoric seas for more than 150 million years, almost as long as their dinosaur cousins ruled the land. While some of the creatures retained the lizardlike proportions of their ancestors, others were as sleek as porpoises and probably had a lifestyle similar to that of those modern mammals. Analyses of ichthyosaur fossils are shedding new light not only on their body structure, but also on what they ate and how they may have homed in on their prey. Fossils still being teased from the rock strongly hint that the largest predator ever on our planet may well have been an ocean-dwelling ichthyosaur. OUT TO SEA The bones inside an ichthyosaur's flippers n. 1. A type of shoe with a paddle-like front extending well beyond the end of the toe, used an aid in swimming (especially underwater). betray the creature's descent from land animals. What in ancestral species had been the upper leg bone became short, broad, and flat in ichthyosaurs. The bones of the ankles and feet also took on a paddle shape, and individual digits were closely packed within a streamlining envelope of soft tissue. Such flippers wouldn't have supported the animal's weight on land, says Larry D. Martin, a vertebrate paleontologist at the University of Kansas The University of Kansas (often referred to as KU or just Kansas) is an institution of higher learning in Lawrence, Kansas. The main campus resides atop Mount Oread. in Lawrence. Many ichthyosaur fossils come from layers of limestone formed out of ocean-floor ooze that was particularly good at preserving fine details of the creatures it entombed Entombed, or entomb, may refer to:
The fine-grained sediments that encased en·case tr.v. en·cased, en·cas·ing, en·cas·es To enclose in or as if in a case. en·case  ment n. the ancient reptiles also preserved evidence of the creatures' stomach contents, giving paleontologists insight into the creatures' diet. Many ichthyosaur species ate prodigious amounts of belemnites, extinct relatives of squid that had long, torpedo-shaped internal skeletons and tough hooks on their arms. Some ichthyosaur remains contain hundreds of belemnite bel·em·nite n. A cone-shaped, fossilized internal shell of any of an extinct genus of cephalopods related to the cuttlefish. [New Latin belemn shells and thousands of their hooks, says Martin. What's more, Martin notes, ichthyosaur diversity waxed and waned with the planet's climate. When average worldwide temperatures were high, many species of the ancient reptiles flourished. Sediments laid down during global cool spells record few ichthyosaur species. Although the first ichthyosaurs and dinosaurs evolved at about the same time, these reptiles didn't go extinct together. Ichthyosaurs gradually disappear from the fossil record of about 90 million years ago, a full 25 million years before mass die-offs wiped out the dinosaurs. LEAPIN' LIZARDS? Several factors suggest that at least some ichthyosaurs had metabolisms unlike those of modern reptiles. For example, today's marine iguanas are still tied to the land. They must climb out of the water and bask in the sun between feedings to keep their body temperature up and their biochemistry active, says Ryosuke Motani, a vertebrate paleontologist at the Royal Ontario Museum The Royal Ontario Museum, commonly known as the ROM (rhyming with Tom), is a major museum for world culture and natural history in the city of Toronto, Ontario, Canada. in Toronto. Ichthyosaurs couldn't leave the water, so they must have generated some heat internally. Their large body mass would also have helped the reptiles maintain a body temperature higher than the surrounding water, just like modern leatherback leatherback, marine turtle, Dermochelys coriacea, found in tropical, subtropical, and temperate waters around the world. The largest of all turtles, it may reach a length of 7 1-2 ft (230 cm) and weigh 1200 lb (540 kg). turtles do, Motani notes. Furthermore, the streamlined shape and the skeletal characteristics of some ichthyosaurs suggest that these animals cruised efficiently. Using the same sort of equations with which' engineers analyze fluid flow around boats and aircraft, Motani found that species in the ichthyosaur genus Stenopterygius had an optimal cruising speed of about 1 meter per second. That's the same speed range as today's Pacific blue marlin and yellowfin tuna, which have elevated metabolisms fueled by a diet similar to the ichthyosaur's. Motani reports his findings in the Spring 2002 Paleobiology pa·le·o·bi·ol·o·gy n. The branch of paleontology that deals with the fossils of plants, animals, and other organisms. pa . Certain skeletal features of the thunniform, or tuna-shaped, Stenopterygius also hint that the animal was a fast cruiser, says Emily A. Buchholtz, a vertebrate paleontologist at Wellesley (Mass.) College. The creature's vertebrae Vertebrae Bones in the cervical, thoracic, and lumbar regions of the body that make up the vertebral column. Vertebrae have a central foramen (hole), and their superposition makes up the vertebral canal that encloses the spinal cord. are shaped like hockey pucks, and they're stacked so close to one another that the spine is essentially unbendable. In the base of the crescent-shaped tail, the ends of the bones are somewhat rounded, which suggests there was some flexibility there. Buchholtz says it's probable that Stenopterygius swam just like a tuna does, flicking its tail back and forth while holding most of its body rigid. This so-called oscillatory oscillatory characterized by oscillation. oscillatory nystagmus see pendular nystagmus. swimming style would keep the ichthyosaur more streamlined than an undulating swimmer like, say, an eel. Buchholtz analyzed the likely swimming modes of various ichthyosaurs in the March 2001 Journal of Vertebrate Paleontology The Journal of Vertebrate Palaeontology (JVP) was founded in 1980 at the University of Oklahoma by Dr. Jiri Zidek. It is a scientific journal that publishes original contributions on all aspects of the vertebrate paleontology, including vertebrate origins, evolution, functional . But some ichthyosaurs--especially early species that still had the long tail, flexible spine and the lizardlike proportions of their landlubber land·lub·ber n. A person unfamiliar with the sea or seamanship. land lub ancestors--probably undulated their bodies when they swam. That motion is less efficient because there's more fluid drag on the body. Therefore, it's likely that these long, slim ichthyosaurs couldn't swim as fast as their thunniform cousins, says Buchholtz. What's more, an undulatory mode of swimming may have had detrimental effects on an ichthyosaur's breathing, says Richard Cowen, a biologist at the University of California, Davis The University of California, Davis, commonly known as UC Davis, is one of the ten campuses of the University of California, and was established as the University Farm in 1905. . Among today's air-breathing animals that flex their torso side-to-side when they walk--lizards and salamanders, for example--none can run and breathe at the same time. If an ichthyosaur undulated its body while swimming, it probably couldn't go more than 100 m or so at full speed without taking a breath, says Cowen, and it would need to pause when it came to the surface for air. One way around this limitation would have been to adopt a swimming style known as porpoising. By leaping from the water as they took a breath, just as porpoises and other aquatic mammals often do today, ichthyosaurs could inhale enough oxygen to sustain a high speed while chasing prey, escaping predators, or traveling long distances. Even if thunniform ichthyosaurs could hold their bodies perfectly rigid when swimming, Cowen, speculates they may have porpoised, anyway. Dolphins, killer whales, and even penguins adopt this swimming style when migrating long distances. It enables sea animals, while taking breaths during leaps, to avoid the fluid drag that is greatest just below the water's surface. Buchholtz agrees that thunniform ichthyosaurs didn't have to porpoise porpoise, small whale of the family Phocaenidae, allied to the dolphin. Porpoises, like other whales, are mammals; they are warm-blooded, breathe air, and give birth to live young, which they suckle with milk. when they swam but that they probably had the speed and the body shape to do it. "It's neat to think that they might have," she adds. GO DEEP The faster an ichthyosaur could swim, the deeper it could dive on a single breath to chase its prey. And there's plenty of evidence to suggest icthyosaurs foraged at great ocean depths, says Motani. For starters, some of the more streamlined ichthyosaurs had extremely large eyes. Temnodontosaurus, which had a body length of about 9 m, had the largest eyes of any animal known. One specimen's eyes are more than 26 centimeters across, or larger than a dinner plate. Another thunniform species, the aptly named Ophthalmosaurus, was only about 4 m long but had eyes more than 22 cm across, the largest eyes relative to its body size of any known creature. By comparison, today's champion, the giant squid, has eyes about 25 cm in diameter, and blue whales have eyes 15 cm across, the largest of any living vertebrate. Large eyes could house more light-gathering cells and therefore be more sensitive than small ones. However, two Scottish researchers argue that ichthyosaurs had outsized out·size n. 1. An unusual size, especially a very large size. 2. A garment of unusual size. adj. also out·sized Unusually large, weighty, or extensive. Adj. 1. eyes not only for overall sensitivity but for focusing on small, quick prey at great ocean depths. Greater visual acuity visual acuity n. Sharpness of vision, especially as tested with a Snellen chart. Normal visual acuity based on the Snellen chart is 20/20. Visual acuity The ability to distinguish details and shapes of objects. in low light would also enable deep-diving ichthyosaurs to cooperate while hunting, say Stuart Humphries and Graeme D. Ruxton of the University of Glasgow The University of Glasgow (Scottish Gaelic: Oilthigh Ghlaschu, Latin: Universitas Glasguensis) was founded in 1451, in Glasgow, Scotland. . The pair's research appeared in the Feb. 15 Journal of Experimental Biology. In their report, the scientists pointed out that some modern mammals, such as seals, forage at depths up to twice those estimated for Ophthalmosaurus, yet seals don't have large eyes. However, many of those mammals depend on other senses to pinpoint their prey during the last moments of the chase, Humphries says. For example, seals have whiskers See metal whiskers. that can detect subtle changes in water flow caused by fleeing prey, and some toothed whales use sonar to detect and home in on their victims. New high-tech analyses of a particularly well-preserved ichthyosaur skull taking place nearly a world away from Scotland hint that some of the ancient marine reptiles may, in fact, have possessed supplementary senses for detecting prey at short range. Late last year, Benjamin P. Kear, a paleontologist at the South Australian Museum The South Australian Museum is a museum in Adelaide, South Australia, founded in 1856. It occupies a complex of buildings in the cultural precinct of Adelaide in the North Parklands on North Terrace. in Adelaide, and George Kourlis, a radiographer radiographer (rā´dēog´r  fur),n a specialist or technician in radiography. at the Royal Adelaide Hospital The Royal Adelaide Hospital is Adelaide's largest hospital with over 700 beds. Founded in 1840, the Royal Adelaide provides tertiary health care services for South Australia and provides secondary care clinical services to residents of Adelaide's inner city. , took CT scans of the skull of a juvenile ichthyosaur. The scans showed delicate internal nasal structures that formed from bones in the reptile's palate and the roof of its skull. These features, which haven't been seen before in ichthyosaur fossils, may have been related to the animal's sense of smell, says Kear. The inside of the fossil's skull bears an imprint of brain lobes that correspond to modern brain regions dedicated to interpreting sight and smell. The fossil skull's upper and lower jaws reveal deep channels and grooves that once held nerves and blood vessels Blood vessels Tubular channels for blood transport, of which there are three principal types: arteries, capillaries, and veins. Only the larger arteries and veins in the body bear distinct names. . Although scientists have seen such anatomy in other ichthyosaur fossils, Kear says that in this fossil, it's clear for the first time that the channels are associated with bony cavities that once housed branches of the trigeminal nerve trigeminal nerve n. The chief sensory nerve of the face and the motor nerve of the muscles of chewing. The nuclei of the nerve are in the mesencephalon and in the pons and extend down into the cervical portion of the spinal cord. . That major, three-branched nerve transmits sensations from broad regions of an animal's face, upper jaw, and lower jaw. The channels could have housed some elaborate sensory system. For instance, the ichthyosaur might have had electroreceptors in the skin of its face and jaws, says Kear. Those sensor cells might be akin to the cells lining the heat-sensitive pits in some snakes or the ones that some fish and sharks use to detect electric fields emitted or disturbed by prey. The young ichthyosaur, like many members of related species, could have used such a system to detect prey directly in front of it, says Kear. Although the reptile had large eyes, they pointed sideways, and the animal therefore could not see straight ahead. The fossil that Kear analyzed had been extracted from a limestone nodule nodule: see concretion. nodule In geology, a rounded mineral concretion that is distinct from, and may be separated from, the formation in which it occurs. unearthed Unearthed is the name of a Triple J project to find and "dig up" (hence the name) hidden talent in regional Australia. Unearthed has had three incarnations - they first visited each region of Australia where Triple J had a transmitter - 41 regions in all. from 110-million-year-old sediments near Hughenben, Queensland. It was only 5.6 m long, but adults of the species--the sole Australian member of the worldwide genus Platypterygius--grew to a maximum length of about 8 m. Kear's juvenile had a mouth packed with 200 stout, conical teeth whose shape suggests that the ichthyosaur crushed its prey. Each tooth was about 4 cm long, 1 to 2 cm of which would have protruded from the animal's gums. And, says Kear, the ancient reptile was stricken with an ailment seen all too often in kids these days, but never before in ichthyosaurs: One of the teeth had a cavity. Kear and his colleagues are now working with the partial remains of a pregnant female Platypterygius. The abdominal cavity of that fossil, besides containing the skeleton of a fetus, is yielding new clues about the adult's diet. The stomach contents consisted not of belemnites, but of fish and hatchling turtles. The 6-cm-long turtles had been crushed and swallowed whole. Because the turtle remains didn't show any signs of being digested, Kear concludes that the ichthyosaur died soon after its [Text unreadable in original source.] meal. BIG KAHUNA-SAURUS Many people, when asked to name the largest prehistoric predator, immediately think of Tyrannosaurus Tyrannosaurus (tīrăn'ōsôr`əs, tĭr–) [Gr.,=tyrant lizard], member of a family, Tyrannosauridae, of bipedal carnivorous saurischian dinosaurs characterized by having strong hind limbs, a muscular tail, and short rex. Think again. Although some land-dwelling relatives of T. rex actually were slightly longer than the tyrant lizard king, a soon-to-be-described ichthyosaur dwarfs them all. Even a small member of the new species would have matched the size of a typical blue whale, the largest vertebrate swimming in today's oceans. The nearly complete fossil of the 210-million-year-old aquatic behemoth behemoth (bē`hĭmŏth, bĭhē`–) [Heb.,=plural of beast], large, fanciful primeval monster, like Leviathan, evoking the hippopotamus mentioned in the Book of Job. was found eroding from the streambed streambed or stream channel Any long, narrow, sloping depression on land that had been shaped by flowing water. Streambeds can range in width from a few feet for a brook to several thousand feet for the largest rivers. of the Sikanni Chief River in northern British Columbia in 1991, says Elizabeth Nicholls of the Royal Tyrrell Museum in Drumheller, Alberta. Excavations were difficult because the river floods the bone site for part of the year. Also, the large blocks of limestone that held the fossil--some of them weighing 4,000 kg--had to be helicoptered out of the remote location. The fossil is missing about 2 m of backbone. The part that's gone, which held the creature's hind limbs, was scoured away by the river, says Nicholls. She and her colleagues have removed the rock surrounding the fossil's skull, front limbs, and tail, and they're working their way from each end toward the center of the fossil. Some of the bones from the tips of the front flippers, found in sediments nearby, had been scattered by strong currents that swept the ocean bottom where the corpse originally fell. Only the skull was crushed during fossilization fos·sil·ize v. fos·sil·ized, fos·sil·iz·ing, fos·sil·iz·es v.tr. 1. To convert into a fossil. 2. To make outmoded or inflexible with time; antiquate. v.intr. . The creature's almost complete preservation enables the paleontologists to confidently peg the ichthyosaur's length at 23 m. The skull alone was 5.8 m long, and each broad, tapered flipper See DualDisc. was 5.3 m long. The largest of the creature's hockey-puck-shaped vertebrae is 27 cm across. The researchers intend to publish their description of the new species next year, says Nicholls. Even though this specimen's length easily tops the previous record for ichthyosaurs--held by a 15-m-long Shonisaurus--there's evidence that its relatives got much larger. Isolated fossil vertebrae of other animals from the same species, taken from this site and others in British Columbia, are 36 cm across. Without knowing which part of the ichthyosaur's spine these isolated bones came from, the length of the animal that grew those bones can't be estimated, Nicholls says. The eating habits of these giants remain mysterious. Members of the newly found species swam with an undulatory motion and presumably pre·sum·a·ble adj. That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. were too slow to pursue prey, says Nicholls. However, the shape of the long, slender, toothless snout snout the upper lip and the apex of the nose, especially of the pig. Called also rostrum. Has a specialized skin to survive the rigors of rooting, is supported by a separate bone (the os rostri), and also has a few sensory hairs. suggests the animal wasn't a filter feeder either. Such a filtering configuration couldn't process enough seawater to nourish the bulky beast. She suggests that the ichthyosaur was an ambush predator, lunging at its meals as they swam past. Because the scientists haven't yet exposed the creature's body, they don't know if its last meal has been preserved. Whatever--and however--the ichthyosaur ate, Nicholls says, it likely was the largest predator that ever lived. |
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