An action thriller by Jock Miller


Fossil fuel has an ageless affinity with dinosaurs. To create oil, dinosaurs died.


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The perfect energy storm is sweeping over the United States: Japan’s Fukushima nuclear plant meltdown has paralyzed nuclear expansion globally, BP’s Gulf of Mexico oil spill has stalled deep water drilling, Arab oil countries are in turmoil causing doubt about access to future oil, the intensity of hurricanes hitting the Gulf’s oil rigs and refineries has intensified due to global warming, and the nation’s Strategic Oil Supply is riding on empty.

As the energy storm intensifies, the nation’s access to Arab oil, once supplying over sixty percent of our fossil fuel, is being threatened causing people to panic for lack of gas at the pumps, stranding cars across the country and inciting riots.


The U.S. Military is forced to cut back air, land, and sea operations sucking up 58% of every barrel of oil to protect the nation; U.S. commercial airlines are forced to limit flights for lack of jet fuel; and businesses are challenged to power up their factories, and offices as the U.S. Department of Energy desperately tries to provide a balance of electric power from the network of aged power plants and transmission lines that power up the nation.

The United States must find new sources of domestic fossil fuel urgently or face an energy crisis that will plunge the nation into a deep depression worse than 1929.

The energy storm is very real and happening this very moment. But, at the last moment of desperation, the United States discovers the world’s largest fossil fuel deposit found in a remote inaccessible mountain range within Alaska’s Noatak National Preserve surrounding six and a half million acres.

Preventing access to the oil is a colony of living fossil dinosaurs that will protect its territory to the death.

Nobody gets out alive; nobody can identify the predator--until Dr. Kimberly Fulton, Curator of Paleontology at New York’s Museum of Natural History, is flown into the inaccessible area by Scott Chandler, the Marine veteran helicopter pilot who’s the Park’s Manager of Wildlife. All hell breaks loose when Fulton’s teenage son and his girlfriend vanish into the Park.


Will the nation’s military be paralyzed for lack of mobility fuel, and will people across America run out of gas and be stranded, or will the U.S. Military succeed in penetrating this remote mountain range in northwestern Alaska to restore fossil fuel supplies in time to save the nation from the worst energy driven catastrophe in recorded history?

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Birds Inherited Strong Sense of Smell From Dinosaurs





Feathers, air sacs, nesting behavior—the earliest birds owed a lot to their dinosaurian ancestors. The first birds also inherited a strong sense of smell.

Modern birds have not been thought of as excellent scent-detectors, save for some super-smellers such as turkey vultures, which detect the scent of rotting carcasses. We typically think of avians as more visual creatures, and in some birds, the part of the brain that processes information from smells is relatively small.

But birds actually have a diverse array of scent-detecting capabilities, and a poor sense of smell may be a more recent characteristic of some lineages. After all, birds have been around for over 120 million years. We wouldn’t expect that birds have always been the same from the time they originated.

We obviously can’t directly test the ability of fossil organisms to detect scents, but, as shown in a study published this week by Darla Zelenitsky and colleagues, the shape of prehistoric brains may hold some crucial clues about the senses of extinct animals. The key was the olfactory bulb. This is a part of the brain—highlighted by the yellow flash in the video above—that is specialized for perceiving scents.

To estimate how important an animal’s sense of smell was, the scientists looked at the size of the olfactory bulb. This follows from a well-established principle in brain anatomy called proper mass—the more important the function of a brain part is to an animal, the larger that brain region will be. In other words, if an animal had a relatively large olfactory bulb it likely relied heavily on scent, whereas a tiny olfactory bulb would indicate the unimportance of scent to that animal. By comparing modern bird brains with virtual brain casts of extinct birds and non-avian dinosaurs, Zelenitsky and co-authors tracked how the sense of smell developed in dinosaurs and the earliest birds.

The brain anatomy of 157 living and fossil species was examined in the study. What the scientists found did not match the conception that birds lost their smelling skills early. Quite the opposite.

Multiple lines of evidence have confirmed that birds evolved from maniraptoran dinosaurs—a subgroup of coelurosaurs containing dinosaurs such as Deinonychus, Struthiomimus, Oviraptor and others—and the brain studies showed that sense of smell improved during the evolution of this group. The dinosaur Bambiraptor, for example, had a sense of smell comparable to that of turkey vultures and other birds that rely on scents to track down food.

This strong sense of smell was passed on to the earliest birds. Rather than decreasing, the relative olfactory bulb size remained stable during the evolutionary transition between non-avian dinosaurs and the first birds. Unexpectedly, olfactory bulb size then increased as archaic bird lineages proliferated, and the earliest members of the modern bird group—the neornithes—were even better-skilled at picking up scents than their predecessors. In fact, Zelenitsky and colleagues suggest, the improved sense of smell in the neornithes might have made them better foragers than earlier types of bird, and this may have some bearing on why they survived the end-Cretaceous mass extinction 65 million years ago while more archaic bird lineages perished.

The results of the new study reverses one of the long-standing misconceptions about birds and their evolution. Some modern bird lineages lost their powerful scent detecting abilities over time, but, early on, birds were as adept at picking up smells as their dinosaur ancestors. Paired with future studies focused on the parts of the brain associated with vision, studies like this will help us better understand how birds and dinosaurs navigated through their prehistoric worlds.

References:

Zelenitsky, D., Therrien, F., Ridgely, R., McGee, A., & Witmer, L. (2011). Evolution of olfaction in non-avian theropod dinosaurs and birds Proceedings of the Royal Society B: Biological Sciences DOI: 10.1098/rspb.2011.0238


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