Extinction Of Dinosaurs Essay Examples

Essay about Dinosaur Extinction

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     A number of different theories have been assessed throughout the course of this research to attempt to reach a conclusion as to the reason behind the extinction of the Tyrannosaurus Rex. Although all arguments are credible, and supportive with educated information and data, the most conclusive theory of all is The Alvarez Asteroid Impact theory.
     Alvarez, a researcher at the University of California, discovered a pencil thin layer of Iridium around the rocks in Gubbio, Italy. (New Scientist, 1) Iridium is an element found in meteorites and asteroids. In 1980 it was proven that the layer if Iridium was evidence of a huge comet or meteorite that crashed into the earth sixty five…show more content…

As regular citizens there isn't much to do to prevent a problem such as this. If an asteroid wants to hit the earth its going to try to regardless to how people treat the environment. We really have no control in what happens in space, and how our atmosphere works.
      One way that our country is helping citizens learn about these fascinating creatures that existed so long ago and what happened to them, is our beautiful museums. The leading dinosaur exhibit is in the Smithsonian. The Smithsonian Museum of Science provides a huge dinosaur exhibit including all of the theories of how dinosaurs were killed. It is very important to educate people on the past, for the future. If they know what happened back then, they will have ideas on how to solve certain problems when they are in charge.
      There are many technologies used in dinosaur studies. One of course is the
Microscope. Most scientists use microscopes no matter what field of science they are in. Even paleontologists use them to discover certain characteristics of the fossils they are examining to determine how old they are or what species of dinosaur they belong to. Another technology that we can use today to prevent an event such as the Alvarez Asteroid is telescopes. Telescopes are great. They allow humans to see what they would

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The extinction of the dinosaurs

by Michael J. Oard

Dinosaur extinction is still a major enigma of earth history. In this review article, extinctions in the geological record will be briefly mentioned. Many of the imaginative theories for the extinction of the dinosaurs will also be presented. Within the uniformitarian paradigm, the meteorite impact theory, once considered ‘outrageous’, now is the dominant theory. However, the volcanic theory is still believed by a majority of palaeontologists. Both theories have their strengths and weaknesses. The unscientific behaviour of those involved in the meteorite paradigm change will be briefly explored. Evidence that the dinosaurs died in a cataclysm of global proportions will be presented, such as the huge water-laid dinosaur graveyards found over the earth. Occasional monospecific bone-beds and the rarity of fossils of very young dinosaurs suggest a catastrophic death and burial. The billions of dinosaur tracks recently discovered provide testimony to unusual, stressful conditions. Nests, eggs, and babies are a challenge to a Flood model, but there are enough unknowns associated with the data that solid conclusions are difficult to draw. The part that impacts and volcanism play in a Flood paradigm will be briefly discussed. The question of whether the K/T boundary and the extinction of the dinosaurs should be considered a synchronous event within the Flood will be considered.


Dinosaurs bring wonder to children and adults alike. That such great beasts once roamed the earth is hard to imagine. Even harder to imagine is that some dinosaurs such as Tyrannosaurus rex were probably giant killing machines (after the Fall, anyway). Of all the many questions related to dinosaurs, their disappearance from the earth is the most mysterious of all. (Their demise, of course, assumes that no dinosaurs are alive today, as some people believe, but which is beyond the scope of this review article.)

The mystery is heightened when one realises that the dinosaurs were well adapted to their environments and apparently had a worldwide distribution. Dinosaurs have been unearthed on every continent, including Antarctica.1,2 Their traces are even found on a few isolated oceanic islands, such as Spitsbergen3 and North Island, New Zealand.4

Besides Antarctica and Spitsbergen, dinosaurs have been dug up from other high latitude or inferred high palaeolatitude locations.5 For instance, they have been unearthed from the North Slope of Alaska near the Arctic Ocean.6,5,6,7,8 These high latitude discoveries have initiated many questions on whether dinosaurs were endotherms, ectotherms, or some combination in between; whether they migrated towards lower latitudes to avoid winter cold and darkness; or if they actually lived at these polar locations all year round.9 Polar dinosaurs have greatly perplexed uniformitarian scientists, as exemplified in the following comment by Michael Benton:

‘Should we now imagine dinosaurs as thermally insulated warm-blooded animals that ploughed through snowdrifts and scraped the ice off the ground to find food?’10

During the past 20 years, dinosaur tracks have been discovered at over 1,500 locations from around the world (Figure 1).11 Tracks are even known from polar latitudes, such as in Alaska near the coast of the Arctic Ocean12 and from the isolated North Atlantic island of Spitsbergen.13 The number of tracks is in the billions. Some areas display tracks on multiple layers of sedimentary rock.14,15,16

Dinosaur eggs, as well as nests, embryos and hatchlings, are now recognised from at least 199 locations around the world (Figure 2).17 A new discovery from Spain suggests a whopping 300,000 eggs packed into a rock volume of about 12,000 cubic metres.18,19 These rocks are probably within marine sandstone, so according to the uniformitarian paradigm the nests are automatically said to have been laid at the seashore. Despite all these eggs, embryos within the eggs are very rare.20 Characteristics of nests, eggs, and hatchlings in north central Montana, USA, have given rise to interesting interpretations of dinosaur maternal care.21,22

Why did the dinosaurs, as well as the marine reptiles and the flying reptiles, vanish from off the face of the earth? This is the burning question. Although many dinosaurs became extinct well before the End Cretaceous, nevertheless Zhao Zi-Kui indicates that dinosaur extinction still remains a major enigma of earth history, despite two promising theories:

‘Thus, the dinosaurs could quickly make use of the available ecological and evolutionary opportunities. However, they all vanished from the earth in the global events at the end of the Cretaceous. The cause poses a difficult question for which no ready answer is apparent.’23

Extinctions in general

Dinosaurs, although creating the most interest, are but one group of animals that became extinct at the end of the Cretaceous (the geological timescale is used for communication purposes only and is not meant to endorse the geological column or time-scale). Extinctions have also occurred in all other periods of geological time. The subject of extinctions is rather controversial due to

  1. taxonomic difficulties,
  2. the unknown time-stratigraphic range of most species,
  3. the multiplication of names for the same organism, and
  4. the unknown palaeobiogeographic distribution of many taxa.24

A few evolutionists actually believe there was no such thing as ‘mass extinction’.25 Many others see a background level of extinction punctuated by nine periods of high extinction rates. Table 1 lists the geological time of these nine mass extinction events and their probable causes.26

The most singular extinction event in the supposed history of life was not the End Cretaceous disappearance of the dinosaurs, but the End Permian demise of most groups of marine and terrestrial animals.27 The gravity of this End Permian event varies, depending upon the scientist doing the analysis and upon whether the datum is at the species, genus, or family level. One estimate is that 57 percent of marine families and 96 percent of marine species were decimated.28 Referring to Table 1, this extinction is attributed to cooling from an ‘ice age’ in combination with a marine regression. However, according to the uniformitarian paradigm the late Carboniferous and early Permian ‘ice age’ had ended millions of years before29 and should have caused a marine transgression due to melting ice, at least up until mid Permian time. Recent research is now trying to tie in the massive End Permian time extinctions with a giant meteorite impact, based on the finding of shocked quartz in Australia and Antarctica.30

Since geologists love cycles, five of the extinction events in Table 1 motivated David Raup and John Sepkoski to postulate a 26 million year extinction periodicity over the past 250 million years of geological time.31 One hypothesis for the cycle was that Nemesis, a twin star of the Sun, periodically disturbed the hypothetical Oort cloud of comets, some being ejected into the Solar System.32 Some of these comets then collided with the earth, resulting in the periodic mass extinctions. Nemesis has of course never been observed, neither has the Oort cloud. It is interesting that the 26 million year periodicity motivated other scientists to statistically scrutinise terrestrial impact structures, which supposedly ‘verified’ the 26 million year cycle.33 Many scientists now dispute the 26 million year periodicity, revealing in the process questionable assumptions in taxonomic analysis:

‘Patterson and Smith’s analysis produced the unexpected result that only a quarter of the families and family distributions recognised by Raup and Sepkoski are valid. The other three-quarters fell into six inappropriate groupings …’34

The 26 million year cycle of impact craters is very likely an example of the reinforcement syndrome, in which an hypothesis tends to be supported by further research, when the support really is not there.35

Extinction event Suggested uniformitarian causes
1. Late Pleistocene Climate warming and predation by man
2. Eocene/Oligocene Transition Severe cooling, Antarctic glaciation, and ocean current changes
3. End Cretaceous Bolide impact
4. Late Triassic Increased rainfall and marine regression
5. End Permian Severe cooling, glaciation, and marine regression
6. End Devonian Cooling related to widespread anoxia of epeiric seas
7. Late Ordovician A Gondwana glaciation
8. Late Cambrian Habitat reduction probably caused by marine transgression
9. Late Precambrian Marine regression, anoxia, sluggish ocean, biological stress, etc.
Table 1.Nine major mass extinctions and their suggested cause or causes.

Theories of dinosaur extinction

Naturally, such a mystery as dinosaur extinction has spawned a wide range of theories, ranging from the plausible to the entertaining.36,37,38,39,40,41 In 1963, a geologist counted 46 theories, and many more have been added since then.42 Probably only the cause of the Pleistocene ice age has generated as many bewildering theories. (As of 1968, there were 60 theories for the cause of the ice age.43 In 1957, a prominent ice age specialist, J. K. Charlesworth, summarised ice age theories:

“Pleistocene phenomena have produced an absolute riot of theories ranging ‘from the remotely possible to the mutually contradictory and the palpably inadequate.’”44)

Some dinosaur extinction theories postulate that dinosaurs died from the cold, while others suggest the beasts died from the heat, or else it was too hot in the summer and too cold in the winter. One theory hypothesises that the climate became too wet, while another that the climate dried out to kill off the dinosaurs.

The dinosaurs could have starved to death or died from overeating. Or their extinction may have been caused by a nutritional problem, such as newly ‘evolved’ flowering plants not providing the proper nutritional balance. Or the flowering plants could have evolved poisons that killed the dinosaurs, as some theorise. A variant on the poisoning theme is that poisonous insects evolved and stung the dinosaurs into extinction. Others thought the water became poisonous with chemicals. Another ingenious twist is that butterflies and moths evolved and the larvae stripped the plants of leaves causing the herbivores to pass away, bringing on the extinction of the carnivores. Another theory suggests the herbivorous dinosaurs simply changed their eating habits to a less favourable diet, causing the demise of all the dinosaurs. Some postulate that too many carnivores decimated the herbivorous dinosaurs.

Astronomical or geophysical causes have often been invoked, for instance a change in the earth’s gravity, the axial tilt, or a reversal in the magnetic field. Some postulate a sudden bath in cosmic radiation. One theory, reinforced at one time by the iridium anomalies in sedimentary rocks, is that a supernova exploded near the earth.45 In this case the supernova would have increased the solar proton flux, which would have broken down the protective ozone layer, allowing ultraviolet radiation to zap the dinosaurs. Or the supernova explosion could have sharply increased cosmic rays.46 Another imaginative hypothesis claimed that intense volcanism spewed up large quantities of radioactive elements, so that the dinosaurs died of radiation poisoning.

In 1978, it was proposed that a spillover of cold brackish water from an isolated Arctic Ocean caused an ecological chain reaction, first killing off the pelagic plankton and ending with the terrestrial animals.47 Another terrestrial theory postulated that the land became too hilly. Many palaeontologists favour a regression of shallow seas, which suppressed dinosaur speciation rates and increased extinction rates. The mechanism for this vague hypothesis supposedly was due to competitive interchange between faunas and increased disease vectors.

A variety of theories suggest that either the pressure or some other component of the atmosphere changed to kill off the dinosaurs. One example is a decrease in carbon dioxide; another example is an increase in oxygen given off by too many plants. However, others have suggested oxygen decreased due to a decrease in plankton.48

A past popular favourite was that little mammals, waiting for ‘the great die-off ’ in order to evolve, advanced dinosaur extinction by eating dinosaur eggs. However, vertebrate palaeontologists generally believe the mammals were too small to have accomplished this feat.49

There is a large list of far-fetched to entertaining theories (some possibly suggested tongue-in-cheek), including extinction by parasites, slipped vertebral discs, hormonal disorders, shrinking brains, chronic constipation, over specialisation, inability to change, becoming too large, senility, hyperpituitarism, cataracts, racial senescence (they simply lived long enough), and social problems causing malformations of their bones during growth. Charig lists the following as the most outrageous: poison gases, volcanic gases, meteorites, comets, sunspots, God’s will, mass suicide and wars.50 Interestingly, volcanism, meteorite impacts and cometary collisions are now the major contenders, and I will argue that the real reason is an ‘act of God’ through the agency of the worldwide Genesis Flood. ‘Outrageous’ geological theories, for example, J. Harlen Bretz’s Spokane Flood as the origin of the channelled scabland in eastern Washington, USA, should not be so freely dismissed.

In spite of the recent dominance of the meteorite hypothesis, scientists continue to add new causes or subsidiary causes for the extinction of the dinosaurs. Some of these recent mechanisms are:

  1. cancer triggered by huge bursts of neutrinos released by dying stars in the Milky Way Galaxy;51,52
  2. AIDS;53 and
  3. hypercanes, super hurricanes that could be triggered by meteorite impacts, causing environmental catastrophe.54,55

Revival of the meteorite extinction theory

Ever since 1980, the meteorite hypothesis has swept to centre stage, and a large literature now surrounds it. Back in 1979, the meteorite hypothesis was considered outrageous by many geologists. The turnaround came with the discovery of an iridium (Ir) anomaly at the Cretaceous/ Tertiary (K/T) boundary.56 In thin clay layers (1 cm to several tens of centimetres thick) found at Gubbio, Italy, and at Stevns Klint, Denmark, the contained Ir concentrations were increased 30 and 160 times respectively above background levels. The earth’s crust is depleted in iridium and other platinum group elements, while meteorites are enriched in them. A 10 km diameter meteorite was said to have injected 60 times its mass in pulverised rock into the stratosphere, causing a cooling trend that wiped out about 50 percent of the biota, including all the dinosaurs. Conversely, others envision the impact caused a sudden, short-term temperature rise, instead of cooling from a ‘nuclear winter’-like mechanism.57 The sudden heating supposedly was caused by an oceanic impact which injected water into the stratosphere producing a ‘vapour canopy’ effect.

It did not take long to discover Ir anomalies at other K/T sites.58,59,60 Currently, there are 103 known K/T iridium anomalies from around the world, mostly in marine sediments either on the bottom of the ocean or on land.61 As for the frequency of meteorite bombardment, Eugene Shoemaker estimated that the earth probably was struck 5 to 10 times by meteorites that formed craters greater than 140 km in diameter.62 So an impact at the K/T boundary is not as outlandish within the uniformitarian paradigm as many first thought. Other scientists using computer climate models reinforced the scenario of disastrous climatological and ecological effects.63

The discovery of shocked quartz in eastern Montana, USA, in 1984,64 and at many other sites around the world65 since then, is considered further proof of the meteorite hypothesis. Shocked quartz differs from ordinary quartz, in that the crystal lattice has become compressed and deformed by pressure. Under a scanning electron microscope, the quartz exhibits planar striations in one or more directions on a crystal face.

Various other, more minor and equivocal evidence has been adduced in favour of the meteorite/asteroid extinction hypothesis, such as:

  1. a palynological change from ferns to angiosperms in ‘continental’ deposits;66
  2. the existence of microtektites,67 which are small, droplet-shaped blobs of silica-rich glass;
  3. soot-rich horizons supposedly from global wildfires caused by the heat of impact;68
  4. various isotopic ratios;69
  5. various other platinum group elements;70 and
  6. the discovery of the ‘smoking gun’—the Chicxulub structure on Mexico’s Yucatán Peninsula.71

Thus, the meteorite extinction theory has seemingly been verified by an overwhelming amount of observational data.

The volcanic theory

The triumph of the meteorite theory has come with much dissent, especially from palaeontologists who opted for a volcanic mechanism, often combined with marine regression, to explain the data.72,73,74,75 Even in spite of what seems like impressive confirmation of the meteorite theory and reinforced by the scientific press and news media, the dispute continues.76 If you read only the evidence for the impact theory, you would be impressed. However, if you read further the evidence for the volcanic theory, you would discover that the meteorite theory is not as well supported as it may seem.

Volcanic adherents point to the evidence of massive volcanism around the K/T boundary, for instance, the 1 million km3 of Deccan basalts in India and the extensive volcanism in western North America related to the Laramide Orogeny. To them, it is more logical that the dinosaurs died out gradually from all this volcanic activity.

As it turns out, iridium is also associated with volcanism, especially with dust injected into the atmosphere from basaltic extrusions.77 For instance, the fine airborne particles above an Hawaiian basaltic eruption were found to be highly enriched in iridium, much higher than in the K/T boundary clays at Gubbio and Stevns Klint.78,79 High iridium has also been associated with other volcanic eruptions and found within volcanic dust bands in the Antarctic ice cores. This fine material is of similar particle size as the K/T boundary clay.

Even shocked quartz has been associated with volcanism.80,81,82 Impact supporters counter that this shocked quartz is only weakly deformed compared with the K/T boundary shocked quartz, and that shocked quartz is associated with known impact craters as well as nuclear bomb test sites.83,84 However, Officer and Page argue that shocked grains are not found at some K/T boundary clays, and some shocked quartz grains are too large to have been transported far by the atmospheric winds.85 Officer adds that evidence of high-pressure shock is now found within rocks formed by explosions within volcanoes.86

Many other arguments are brought forth that favour the volcanic theory and/or are inimical to the meteorite theory, such as:

  1. various elemental ratios, especially arsenic and antimony to iridium;87
  2. iridium spread over too thick a vertical interval at the K/T boundary, which supposedly would represent hundreds of thousands of years;88,89,90,91
  3. clays above and below the K/T boundary not much different from the K/T boundary clay;92
  4. survival of some environmentally sensitive plants and animals that should have gone extinct,93 such as frogs, tropical plants94,95 and marine plants that require uninterrupted sunlight;96,97
  5. iridium spikes and shocked quartz at many other geological times;98,99,100,101,102,103,104,105
  6. many extinctions well before the K/T boundary;106,107,108
  7. many missing K/T intervals;109
  8. the new discovery of polar dinosaurs that supposedly could withstand periods of cold and darkness;110,111
  9. much Cretaceous clay or shale of volcanic origin in North America;112
  10. no statistical support for a sudden extinction of dinosaurs;113 and
  11. the possibility that the Chicxulub structure is not of impact origin.114

Because the extinctions near the K/T boundary are believed to be either gradual or stepwise,115 some impact enthusiasts have backed off and instead have suggested extinctions by multiple comet impacts over a 3 million year period.116 The main problem with the cometary hypothesis is that comets have a low abundance of iridium.117 Since relatively small iridium spikes have been found associated with 10 other extinction horizons, some investigators have suggested post-depositional mobility of iridium and other platinum group elements.118 This mobility also would render ambiguous any elemental or isotopic ratios.

Adherents to the volcanic hypothesis offer good counter arguments to all the arguments used in support of an impact. However, impact enthusiasts counter all the volcanic arguments. There is evidence both in favour of and against each hypothesis.

The process of paradigm change in science

The dinosaur extinction controversy has revealed how a particular subfield reacted to a paradigm change. Before 1980, practically all scientists were strongly biased against the meteorite hypothesis. This strong bent was mostly due to the uniformitarian assumption of historical geology:

“Geological sciences have undergone a major shift in paradigms. For two centuries, the tenet of uniformitarianism, encapsulated in the phrase ‘the present is the key to the past’, was the skeleton upon which the history of the Earth was constructed.”119

The meteorite hypothesis severely challenged the uniformitarian assumption.120 But, the impact enthusiasts had chemical data, instead of speculation. The iridium anomalies could not only be observed, but could be further tested at other K/T sites. The finding of iridium spikes at other K/T boundaries convinced most scientists, although at the time the geochemistry of iridium was poorly known, and still is poorly known in a marine environment.121 Eventually, meteorite impacts came to be viewed as part of the uniformitarianism paradigm after all.

Thus the meteorite theory was quickly supported and built up by the scientific press, especially by the journals Science and Nature. Then the popular press accepted it as fact, followed by most intellectuals.122 The only group of scientists that were not persuaded were the palaeontologists, except for those who advocated punctuated equilibrium, since the idea of impacts fits nicely into their theory. The palaeontologists had already worked out the order and timing of dinosaur palaeonecrology, and it was a slow evolutionary birth and death. They also did not like ‘outsiders’ such as ‘alien’ physicists (Luis Alvarez was a famous physicist who had received the Nobel prize) messing around in their speciality.123,124 Palaeontologists mostly favour the volcanic theory with marine regression.

So, before 1980 scientific bias was against the meteorite theory, but afterwards it was against all other theories. Scientists, nowadays, barely consider the palaeontologists’ arguments, many of them quite good from the uniformitarian standpoint. They simply believe the iridium anomalies and the shocked quartz grains prove the meteorite theory.

An overview of the controversy shows that whether a person accepted or rejected the meteorite theory was greatly preconditioned by his institution of higher learning and his scientific discipline.125 The peer pressure to conform to the preconceived ideas of one’s institution is strong, as Stephen Jay Gould admits:

“I think orthodoxy is enormously supported. In fact, I would make an argument—and I think that anyone who argues against this is not being quite honest—that institutions, universities in particular, are very conservative places. Their function is not—despite lip service—to generate radically new ideas. There’s just too much operating in tenure systems and granting systems, in judgmental systems—usually older upon younger people [with] the pretenure needs to conform.”126

Such strong peer pressure results in what is called by many others a ‘bandwagon effect’,127 another name for the reinforcement syndrome. William Glen explains:

‘The “bandwagon effect”, exacerbated by the rapid pace of the mass-extinction debates, was strongly in evidence in this study; it was also documented in vivo in studies of the accretionary-terrain research program …’128

Biases were so strong that scientists resorted to many unscientific ploys to get their personal way, such as verbally attacking one another; using polemics to push their preferences, sometimes using outdated data; refusing to publish key data; and refusing grants for research they did not agree with.129,130 An after-the-fact study by William Glen indicated that few, laymen and scientists alike, really knew much about the issue.131This is a sad state of affairs within science—it is no different when it comes to the creation/evolution controversy.

Evidence the dinosaurs died in a global flood

Despite the popularity of the meteorite theory, many scientists believe the extinction of the dinosaurs has not been solved, or else that the meteorite theory needs a secondary, boosting mechanism. The extinction of the dinosaurs is still a major mystery. Gregory Paul exclaims:

“The history of the dinosaurs is marked by remarkable success and stability during the Mesozoic. Far from being inherently vulnerable, the dinosaurs survived in spite of repeated changes in sea level and climate, enormous volcanic eruptions, and great impacts. Indeed, the dinosaurs’ fecundity makes it hard to see how such resilient animals could ever have been killed off. The extinction of the dinosaurs was probably not part of the normal course of evolutionary fluctuations, nor was it just another result of random extraterrestrial disruptions. Instead, it remains one of the most extraordinary and inexplicable events in Earth history.”132

Could the reason the extinction of the dinosaurs remains such a major mystery be because of the uniformitarian bias within historical geology?

A watery cataclysm and dinosaur graveyards

For most creationists, the extinction of the dinosaurs, as well as other extinctions, is not a mystery. In fact, the extinction of the dinosaurs and many other creatures has an easy answer—they simply died in the Genesis Flood (except those dinosaurs likely taken on the Ark, which probably died soon after the Flood). Genesis 7:21-22 states:

“And all flesh that moved on the earth perished, birds and cattle and beasts and every swarming thing that swarms upon the earth, and all mankind; of all that was on the dry land, all in whose nostrils was the breath of the spirit of life, died.”

Although there are still many unknowns associated with the observed fossil data on dinosaurs, and the information that is available is often incomplete and interpreted within the evolutionary/uniformitarian paradigm, much of what is known so far fits quite well within the Flood paradigm.

The most obvious aspect of dinosaur fossils is that most dinosaurs must have been buried rapidly in water. Alternately, the dinosaurs could also have been entombed in giant mass flows. Based on the random mixing of charcoalised wood with sand found in Colorado and northeastern Wyoming, Edmond Holroyd provides evidence for at least region-wide catastrophic debris flows associated with dinosaur remains.133,134,135Furthermore, after burial fossilisation must have proceeded rapidly under special conditions in which minerals moving through the saturated sediments replaced the organic matter. Therefore, it is no surprise that water is closely associated with the burial and fossilisation of the dinosaurs. Clemens states that organisms must be buried rapidly by rare (in his mind 100-year or 500-year events) floods in order to be preserved as fossils.136 The largest dinosaurs must have been buried by even ‘rarer’ floods.

A sizeable number of dinosaurs were entombed in obvious marine sediments.137,138,139 In assumed terrestrial sediments (the equivocal environmental designation of a terrestrial environment will be briefly discussed later), mainstream scientists commonly interpret the action of water as ‘fluvial’. For diluvialists, the dinosaurs could have been buried either by sheet flow or channelised flow; either one is possible in a global Flood depending upon many variables.

Dinosaurs are often found in large bone-beds or dinosaur graveyards, where many dinosaur bones are packed together. This provides evidence for at least catastrophic local floods.140,141,142 A few of these bone-beds contain thousands of dinosaurs and indicate catastrophic action. Probably the largest bone-bed in the world is located in north-central Montana, USA. Based on outcrops, an extrapolated estimate was made for 10,000 duckbill dinosaurs entombed in a thin layer measuring 2 km east-west and 0.5 km north-south.143,144 The bones are disarticulated and disassociated, and are orientated east-west. However, a few bones were standing upright, indicating some type of debris flow.145 Moreover, there are no young juveniles or babies in this bone-bed, and the bones are all from one species of dinosaur. Horner and Gorman describe the bone-bed as follows:

“How could any mud slide, no matter how catastrophic, have the force to take a two- or three-ton animal that had just died and smash it around so much that its femur—still embedded in the flesh of its thigh—split lengthwise?”146

A cataclysmic event obviously is implied.

Another bone-bed containing thousands of duckbill dinosaurs, mostly in a single layer, is found in north-eastern Wyoming.147 Over 90 smaller bone-beds make up the huge deposit in Dinosaur Provincial Park, Alberta, Canada.148,149,150 Dinosaur National Monument in Vernal, Utah, USA, is world famous for its display of a water-laid jumble of disarticulated dinosaur bones.151 Another well-known bone-bed, mostly of large carnivores, is Cleveland-Lloyd Dinosaur Quarry in central Utah.152 Colbert described the stacked dinosaur bones in Howe Quarry, Wyoming, USA as being “… piled in like logs in a jam”.153 Robert Bakker can’t help but think of a cataclysm when viewing the dinosaur graveyard at Como Bluff, Wyoming:

“Anyone who cherishes notions that evolution is always slow and continuous will be shaken out of his beliefs by Breakfast Bench [Como Bluff] and the other geological markers of cataclysm.”154

There are many other dinosaur graveyards in western North America, practically all, if not all, indicating catastrophic burial by water or aqueous slurries.

Dinosaur graveyards are not found just in the western United States, but worldwide. One of the first graveyards discovered was an Iguanodon graveyard in Belgium.155 A new sauropod graveyard has been discovered in Niger, Africa. This graveyard is dated as ‘Cretaceous’, even though the dinosaurs closely resemble ‘Jurassic’ dinosaurs of western North America and are dissimilar to dinosaurs from South America, which was expected according to the theory of plate tectonics.156 A dinosaur graveyard of well preserved, articulated dinosaurs is now being excavated at Dashanpu, China.157

Another dinosaur graveyard that has recently made the scientific news is in Mongolia, also known for its many dinosaur eggs. This is one of the few graveyards that some scientists believe was buried, not by water, but by ‘catastrophic’ sandstorms.158,159 Just recently a ‘brooding’ oviraptorid was found on top of fossilised eggs in Mongolia.160 David Weishampel says that what these dinosaurs ate in the desert is a problem. Moreover, the unique preservation of a brooding dinosaur

“… owes a great deal to rapid death and burial in what must have been a powerful sandstorm, so sudden that we are left with the impression of an animal freeze framed in the act of nest brooding.”161

It is doubtful a sandstorm could freeze-frame a brooding dinosaur. Usually any little disturbance will cause an animal to leave its eggs. There is the added question of how the dinosaurs are to be fossilised in a desert. It is more likely this powerful sandstorm was a ‘giant watery sandwave’ in a catastrophic flood.

Similar to the huge bone-bed in Montana,162,163 many of these dinosaur graveyards contain only one or mostly one type of dinosaur.164 Practically all the bones in these monospecific bone-beds are disarticulated and broken.165 Furthermore, babies and young juveniles are not only missing from monospecific bone-beds, but are extremely rare as fossils anywhere:

“Except for nesting horizons, baby dinosaur remains are extremely rare in the fossil record, suggesting that most, if not all, baby dinosaur mortality occurred in the nesting area.”166

Since dinosaurs lay many eggs, based on the number of eggs found in nests and clutches, and because infant mortality is normally high in animals, there should be many more fossils of babies and young juveniles than older juveniles and adults. In referring to dinosaur fossils worldwide, Horner and Gorman state:

“As succeeding years yielded no other major finds of baby dinosaurs, the question grew in importance. If you think about it, … more dinosaurs should have died young than died old; that’s what happens with most animals. And the high infant mortality should have produced a lot of fossils over the course of 140 million years—a lot of fossils that had never been found.”167

The pervasive lack of very young dinosaurs and the occasional monospecific bone-beds of broken and disarticulate bones is most unusual. Some type of herding behaviour is normally invoked to explain monospecific bone-beds, although the stratigraphic character of some bone-beds does not favour this hypothesis. The lack of young juveniles in the monospecific bone-beds is perplexing, because young dinosaurs should have accompanied older dinosaurs in a herd, as observed in herds of animals today. The character of these bone-beds has given rise to a number of speculative theories, including local catastrophes. One would expect that local catastrophes, such as a flash flood or a volcanic eruption, would entomb more than just one type of animal.

Could these monospecific bone-beds containing older juveniles and adults provide further evidence of a unique watery catastrophe? One would surmise that during the initial onslaught of the Genesis Flood, adult and older juveniles would have been better able to flee the encroaching Flood waters. Dinosaurs of the same species may then have herded up, when normally they do not, only to be later buried together. Herding behaviour during times of stress is observed today among elk during cold, stormy weather; cattle before earthquakes; and many other species. The herding in this case would have nothing to do with ‘gregarious behaviour’ as some evolutionists surmise. Is it possible the reason for the rarity of baby dinosaurs outside nesting areas is because they could not keep up with the fleeing herd and perished quickly. Their bones were not fossilised probably because they were too fragile.

The existence and characteristics of dinosaur graveyards not only provide strong support for the Genesis Flood, but also tell us a few details of what occurred during that great cataclysm. For instance, some bone-beds, especially those in Montana and southern Alberta, show signs of exposure on land for a while following death. This is indicated by the remains of carnivorous dinosaur teeth, and only teeth, found among the bones, as well as tooth marks incised onto the bones.168,169,170,171 In other words, these bone-beds were scavenged, which has given rise to the idea that T. rex was just a scavenger. Since the bone-beds are lying on thousands of metres of Flood sediments, it seems reasonable that the Flood sediments became temporarily exposed during the Flood.172 Flood sediments could be exposed by either tectonic uplift or the falling of sea level due to the dynamics of ocean currents on a relatively shallow, flooded continent.173

Dinosaurs fleeing the encroaching flood waters

Dinosaur tracks also provide more details on unusual conditions during their formation. The importance of dinosaur tracks is that they represent live animals, so that in a Flood model, the tracks were made within the first 150 days of the Flood.174,175 In the western United States, billions of dinosaur tracks have recently been discovered.176,177,178 Of special note are the megatracksites. One megatracksite in south-east Utah is on the upper boundary of the Entrada Sandstone, a supposedly desert sandstone. All the tracks are from a fairly large, carnivorous theropod. It is indeed strange that one type of dinosaur lived in a large area of an alleged desert. What were they supposed to eat in a desert? The evidence could be better interpreted as a group of theropods embarking on a temporarily exposed sandy surface during the Flood. Since tracks must be buried rapidly within a matter of days or weeks to be reserved,179 the sandy exposure was brief, followed by another depositional event.

A ‘dinosaur freeway’ has been discovered that stretches from north-east New Mexico to north-west Colorado. The tracks are generally of two types and are found on multiple stratigraphic levels that supposedly span several million years. Since the strata containing the tracks are probably conformable, it does not seem reasonable that only two types of dinosaurs used this ‘freeway’ over several millions of years. It is more reasonable that dinosaurs found a linear strip of land (or a series of shoals separated by shallow water) during the Flood while the sea level was oscillating and sediments were being deposited.

There are also a number of features of the tracks that not only are better understood within a diluvial model, but also tell us some of the unique events that occurred during the Flood. First, the tracks are practically always found on bedding planes,180 generally capping sedimentary units, which suggests a cycle of sedimentation during the Flood followed by a brief exposure above the water. Why wouldn’t the tracks be found throughout the beds if the sediments were deposited slowly over long periods of time?

Second, the lack of relief on the track-bearing strata181 indicates a rapid sedimentation event forming flat strata over a huge area. Otherwise, erosion over millions of years would have produced at least hilly topography and, therefore, tracks would traverse up and down hills.

The dinosaur-bearing Morrison Formation in the western United States (assuming all the many outcrops are time equivalent, which is questionable) represents what must have been a thin, flat plain a little above sea level. This plain covered 1,800,000 km2 from central Utah east to central Kansas, and from central New Mexico north to the Canadian border. The description of this Morrison ‘peneplain’ seems unreasonable:

“The enormous area covered by Morrison sediments and the general thinness of the sedimentary sheet (being in most areas less than 100m in thickness) indicate that the sediments were distributed by widespread, flowing water.”182

I can believe the widespread flowing water part, but did this flowing water excavate channels and valleys or create unconformities over a long period of time? The evidence for fluvial action is almost nonexistent:

“Given the flat surface over which the Morrison was deposited … the absence of evidence for major single channel systems. Lack of initial valley incision into the surface left by the retreating seas, and the absence of unconformities within the Morrison …”183

How can sediments be deposited thinly and evenly by rivers over a huge, flat surface with little slope without leaving significant channels? Such a flat plain containing both dinosaur tracks and remains is most unusual:

“Nothing on earth today closely resembles the environment of the Morrison Formation.”184

Indeed, the observations of the ‘Morrison Formation’ bear striking evidence for catastrophic sheet flow, and not slow processes over millions of years.

Third, unusual, stressful conditions are also indicated by the fact that practically all trackways are straight.185 Lockley and Hunt state: ‘First, the sauropod was changing direction, turning to the right, a phenomenon rarely recorded in trackways.’186 Any deer or elk hunter knows that land animals frequently meander, especially while looking for food. Straight tracks are usually made when the animal is in a hurry, escaping a predator or a hunter, or rapidly migrating. Even in these situations, the trackways will sometimes curve or meander a little. The fact that practically all dinosaur trackways are straight strongly favours animals desperately trying to escape some catastrophe. The worldwide extent of these straight dinosaur trackways provides evidence for a cataclysm of global proportions.

Fourth, there are very few tracks of babies or juveniles.187,188 Coombs states:

“As with bones, footprints of juvenile dinosaurs are quite rare … but this apparent scarcity may be in part an artifact of taxonomic bias.”189

Regarding this claim of taxonomic bias, it is interesting that 50 percent of the elephant tracks from Amboseli National Park, Africa, were made by juveniles.190 Although elephants probably grow much slower than dinosaurs grew, and it can be difficult recognising a small track, dinosaurs are expected to have produced many more babies than elephants. So the reasons for the rarity of tracks of both babies and juveniles is not in accord with observations from the modern world, and hence it is against the uniformitarian principle that guides geological thought. The lack of tracks of young dinosaurs fits better into the Flood model, in which babies and juveniles were less able to flee the encroaching Flood waters and hence were unable to make too many tracks.

Fifth, another uniformitarian puzzle that is better explained within a Flood paradigm is the nearly complete absence of tracks of stegosaurs, ankylosaurs and ceratopsians, although they are certainly heavy enough to make tracks and their skeletal remains are common.191 Their thick armour and large bony plates suggest they were poor swimmers (in the track record, there is evidence of swimming dinosaurs and dinosaurs making tracks in shallow water192,293,194) and so they probably succumbed to the first inundation of their habitat.

In summary, all these unusual characteristics of dinosaur tracks do not fit into the uniformitarian paradigm of slow, gradual processes over millions of years. The evidence fits better a time of worldwide stress on dinosaurs trying to escape rising Flood waters. Since the tracks were made on hundreds to thousands of metres of Flood sediments, the evidence, as with bone-beds, indicates briefly exposed sediments or shallow water during the period of rising Flood waters.195 Track layers on more than one bedding plane represent brief exposures during a generally, continuous sedimentation event. The oscillations in local sea level would have been caused by local or distant tectonic events, tides, the dynamics of the Flood currents,196 tsunamis, etc.

Can dinosaur nests, eggs, and babies be explained within the Flood?

The hypothesis of exposed Flood sediments during the early stages of the Flood is further supported by dinosaur bone-beds and tracks. It is expected from this hypothesis that pregnant female dinosaurs would have laid eggs on these temporary refuges. So, the finding of fossilised dinosaur eggs, sometimes in nests, which have recently been discovered in many parts of the world,197 is not unexpected. However, of the thousands of fossilised dinosaur eggs discovered, only several contain embryos,198 and most of these have been discovered in north-central Montana and southern Alberta.199,200,201

Several features of the nests, eggs, and babies appear to contradict the above Flood model; it seems as if too much time was required for all the indicated dinosaur activity.202,203,204 For example, at a few locations, eggs have been found at two or three stratigraphic horizons, for instance, at three levels within a 3 m vertical section on Egg Mountain.205 It also has been reported that 15 baby Maiasaurs, found in and around a nest 1 km north of Egg Mountain, north-central Montana, had grown for a while.

Before discussing this subject, the reader must be aware of the many unknowns associated with dinosaur eggs, which are subject to variable interpretation by mainstream scientists. Much of the detailed information has not been published. What at first may seem contradictory to a Flood model, may be shown not to be discrepant with further data. For instance, the 15 Maiasaur babies believed to have partially grown had worn teeth, some teeth three-quarters worn.206 At first glance, these worn teeth suggest the babies had fed for a relatively long period with the help of attendant mother dinosaurs. Garner states in referring to these worn teeth:

“It is difficult to see how this sequence of events can be accommodated within the year of the Flood.”207

An alternative explanation is that the babies wore down their teeth while in the eggs and need not represent a long time of feeding. Based on the analysis of embryos near the Montana/Alberta border, Horner and Currie have concluded that embryos ground their teeth while still in the egg.208,209 (For the baby dinosaurs, worn teeth would have been no problem, since the teeth would have been simply replaced by new teeth.) Therefore, data on dinosaur eggs that at first seem inimical, may still be explained within a Flood model after further information is published.210,211

With the above example in mind, let us take a cursory view of Egg Mountain and vicinity. In north-central Montana and southern Alberta, there are several claims for nests, eggs and babies at multiple stratigraphic levels. However, in one instance the ‘different levels’ are many tens of kilometres apart.212,213 Since outcrops are isolated, the stratigraphy could easily be a little confused, due to facies changes or erosion that could have stripped more strata from one area than the other. In these cases, the eggs could be at the same time horizon.

On Egg Mountain, it was earlier published that eggs of hypsilophodont dinosaurs, Orodromeus makelai, were laid on three separate horizons within a 3 m thick vertical section. The eggs were half embedded in limestone layers between mudstone.214 Just having eggs at different stratigraphic levels is really not a problem in a Flood paradigm, in which portions of exposed land were periodically inundated.215 (It would be the same mechanism for the formation of multiple dinosaur track layers.) For example, turtles lay their eggs within hours in beach sand and then leave them. Conceivably, a fluctuating sea level could bury their eggs with more sand, and then re-expose the beach for more turtles to lay their eggs soon after the first group.216

However, palaeontologists believe that many of the eggs hatched. Support for this argument comes from the observation that many eggs have broken tops, and that 20 to 25 juveniles of various sizes were found within the nesting area on the horizons.217 Garner accepts this evidence at face value, concluding that a long period of time was required:

“Thus nest construction, egg-laying and nurture of juveniles occurred at this locality three times. If one cycle of this sort is difficult to fit into the Flood year, the establishment of three successive nesting colonies one after the other surely strains the imagination, notwithstanding that the growth of baby dinosaurs was rapid.”218

Actually, nests on Egg Mountain are rare; the eggs were mostly laid in a spiral on limestone with the pointed end down.219,220

There is new information and several observations that suggest that there is more to the story of what happened on Egg Mountain. First, there is some question on the number of horizons with anywhere from two to four suggested.

Second, the dinosaur eggs are no longer considered hypsilophodonts, but the theropod Troödon.221,222 This mistake was easy to make at the time since there was little skeletal material of Troödon and the bones of each are similar in many ways. There are eggs from a second type of dinosaur called? Troödon, which is not Troödon but from an unknown species. The 20 to 25 partial dinosaur skeletons at Egg Mountain are still considered Orodromeus, but they had not been hatched from the egg clutches, which are now Troödon eggs.

Third, the eggs may or may not have hatched. Just because the tops of many eggs were broken, does not necessarily mean the dinosaurs hatched. There are other possible explanations for this observation. Broken egg tops could have been caused by erosion from the next sediment layer or by compaction of the sediments. The tops of the eggs could have been broken by scavengers, for which there is abundant evidence in the area. There are fossils of small mammals, varanid lizards, pterosaurs and other types of dinosaurs at Egg Mountain.223,224,225,226Troödon teeth are abundant at Egg Mountain.227Troödon teeth are commonly associated with eggs at other sites of north-central Montana and southern Alberta.228,229 Could Troödon have cannibalised its own eggs on Egg Mountain, as is suggested for Coelophysis from the dinosaur graveyard at Ghost Ranch, New Mexico?230 Teeth of Albertosaurus, very similar to T. rex, also are found at Egg Mountain.231 Skeletons of 20 to 25 young dinosaurs are scattered among the eggs.232

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