Welcome to my Metazoic site! This site discusses the existence of the creatures to come along after humans will be extinct. I first became interested in a world after man when I acquired my first copy of Dougal Dixon's After Man: A Zoology of the Future in 1992. However, I unwittingly created creatures that did not exist from the time I was about 8 years old. But it was after I obtained a copy of that book (now a collector's item) that I decided to take these same creatures I created as a child and make them more realistic in an evolutionary sense. Though it may be hard for a lot of us to grasp, humans will soon become extinct. One of the biggest factors of how this will happen is the current overpopulation rate. Which is why I don't contribute to the population. I created this world with little more than mammals fulfilling all ecological niches with the help of some friends. I even gave the era of the age after man a name, I called it the Metazoic, derived from the words for "After-era" (Meta, meaning after, and zoic meaning era). We are now in the Cenozoic era. To view all the animals I have created since I began this project, you can go to the "Meet the Mammals" section of this site. To discuss your own ideas about what you think will happen in the future world, and share your ideas with others, please feel free to leave a comment.
One more thing, some of you may find this site quite offensive, and you have a right to your own opinion. But please respect my right to have an opinion too. I'm not saying there is no GOD, I believe it was HIM who got the ball rolling. But I believe after that, evolution took over. There is so much more evidence of evolution than there is of creation. Even that going on right under our noses. Other than that, enjoy yourself and visit our many links.

Monday, December 29, 2008

Family of the Week: The Immanids

Well, life must go on. And my life does NOT revolve around the SE forum, hehe! I've just been so busy I haven't had any time to post any blogs much.

Anyway, Immanids, also known as the "rinkadons", these are large, heavy-set relatives of the therapeds, but they more closely resemble elephants with short trunks. In most species there is an elongated muzzle, tusks, small eyes, large ears, the legs are very much like we see in modern elephants. The tail is short, and in some species even has tassels on the end. They are considerably faster runners than elephants, but cannot jump like the therapeds and other species in this order can. The fur is very fine, they are not naked like modern elephants, but rather has smooth, soft fur, much like we see in rabbits. The ears are like those we see in elephants, and in only one species are as large as those seen in the African elephant, that species is Aequicapistrum, from the USA and Asia. The ears are mostly round on the edges, and somewhat triangular in shape. All species in this family are large, most are well over 7 feet tall. Tusks are present in all species, the largest of which belong to Anthropodonta, in one of the 2 species in this genus, the tusks are longer than the legs, and almost as long as the body. The tongue is long and flexible and acts like the trunk of an elephant to grasp leaf clusters out of trees, or grass and plants from the ground. The feet are short and rounded at the soles and equipped with claw-like hooves they use for defense against predators. The neck is relatively short compared to other trelatebrates, but every bit as flexible.

Most of these species are browsers and get most of their food from trees, though they think nothing much of chopping off bushes or gathering plants and other low-growth vegetation. They are strict vegetarians, feeding on many varieties of leaves, grass, plants, flowers, fungi and even fruits, nuts and berries. They cannot hop, but when the need arises, they can rear up on their hind legs to reach higher branches. The short tail is useful at this point for balancing the animal as it is standing, and helps to counterbalance the head when the forelimbs are brought back to Earth, so the weight of the head does not crush the forelimbs. Though the eyes are small, they still have very good eyesight. Their hearing though is their most valuable sense. The sense of smell is no better than our own however. The hearing is ultra-bionic. They can pick up the faintest footfalls from as far as 5000 feet away. Enough time for them to know there is a predator nearby and give them the greatest chance of escape. Sometimes when confronted with a predator, these animals rear-up on their hind limbs and slash with their clawed forelimbs. They can also gore a predator, using their tusks, or by biting. But mostly these animals prefer to run away from danger.

The largest species is Immanis, with a full height of about 18 feet. There is no small species, as most of these species are quite large, but the smallest among them is Anthropodonta, with a height reaching about 10 feet. They actually have few predators, but the greatest among their predators are the Deinognathids, particularly Ictocamelus. Large viverrids may also bring them down. The calves are vulnerable to a variety of predators, including large foxes and weasels like Phobogula. Parents are usually pretty good at keeping most predators at bay from their young though.

I have a place for this family on my site once I get to it, but I haven't gotten around to doing it just yet. Sometime though. I did a rough sketch of a species in this family and managed to scan it in finally. This is just to give you the viewers an idea of what these animals would look like if you could see one today.

Tuesday, December 23, 2008

SE Forum Getting on My NERVES!!!

I should have left!! I'd been considering it, and now I realize I should have done it. Face it, I said it before and I'll say it again, forums SUCK!!!!! Now the forum's owner is starting to act like Adolph Hitler!! I remember this happened on the Switchboard, Vicki took on the same personality. Today's altercation was about bipedal mammals walking like dinosaurs. I think it's not too far-fetched. Humans learned to walk putting one foot in front of the other, from animals that were almost completely quadrupeds. Dinosaurs learned to do it from animals whose hips were built like frogs and lizards. No lizards today are bipeds at all. Some can run on their hind legs in short bursts, but that's it. I have my opinions, and I think that way for a reason. I stand by what I say and it seems everyone hates that!!! Well, I told him he can kiss my ass and left! I don't have to take that shit from a guy who believes squids will take over the land!! And this isn't the first time that's happened. He's cussed me out before because of my opinions. He was once on my forum and I never remember cussing him out! In fact, I always treated him like an equal, even if I didn't share a lot of his beliefs!! I don't care that he doesn't believe me, I just don't like how he debates. He gets ugly! Too ugly. And it makes no sense for me to take that from someone who believes land-dwelling, tree-swinging squids are more feasible than theropod-like mammals. Uh-uh!

Actually the past month, I haven't been going in there much. But not because of the owner's attitude. I just haven't had much time. I always did like this guy (he calls himself Proletarian now, he's changed his name several times), before he got his own forum he seemed like a nice guy. But my attitude towards him is beginning to change. I don't like Hitler, and I don't like those who act like him. I tell you, a person should not be allowed to administrate a forum unless they are mature and unbiased. Not everyone is like me, let's face it. I can debate without getting too ugly. At least I never cussed anyone out. Well, I do on here, in fun. But believing things like monkey-like squids is too ridiculous. But notice I never attacked any one person in particular!!

Well, I don't know if I will be going back, I don't think so. I've given much contact info on there, they know where to find me if they want to contact me. Those people can believe whatever they want now for all I care. I'm through. No more forums for me! I wish the rest of those people luck, because their administrator needs to grow up. Until he can learn to debate in a mature manner, I'm staying away from him. I don't need people like that in my life. Well, heck. He's a cat-lover, and he acts just like all the rest of the cat-people I've ever met. One of the big reasons why I don't like felines. But I do have my opinions, and I stand by what I say. I don't believe any of my ideas are that far-fetched. In fact, I've learned this past year that a lot of my ideas are not as unscientific as everyone else has said they are. So this is why I have stuck with a lot of my ideas. Well, I am not worried at all. I don't think they will miss me at all on there. I know enough about people to know that I was not one of the favored members on that forum at all. Look at the post commemorating my project as "Project of the Month", only one person took notice besides Proletarian and me. But it's like one of those "oh well" moments. You cannot please everyone all the time.

Monday, December 22, 2008

Family of the Week: The Gerbbucks

The family of gerbbucks, the Adillidae, consists of small to large sized, bipedal rodents. Descended from modern gerbils, most of these species are designed to travel along in the desert climates. Though some have adapted to plains, forests and even rain forests. All species are bipedal and walk and run like modern ostriches. The feet are like those of an ostrich or emu, even equipped with slashing claws they use for defense. The ears are large in most species, and pointed at the tip. The largest ears in the family belong in the genus Adillus. The eyes are large, the fur is thick and woolly and covers all but the hands and feet. The tail is relatively short in most species and usually held out. The tail may also have a tassel on the tip in most species. All species are mostly vegetarians, feeding mainly on grass, leaves, berries, seeds, fungi, and lichens. Sometimes the smaller species will even feed on insects, and larger species can supplement their diet by taking smaller invertebrates, lizards or bird eggs. Unlike modern gerbils, these animals are diurnal. Most species are also social and travel in medium-sized herds, usually no more than about 50-100 individuals. The smaller species may live in couples or small family groups.

The largest species in this family are among the genus Tragerbillus. Many of these species can reach a height of about 10 feet. They are one of the few gerbbuck species that lives in dense rainforests. They are also the only gerbbuck species that has only 2 toes on the feet. One very long one, tipped with a 5-inch long, razor-sharp claw, and the outside toes are very short with a shorter, more blunt claw. These animals use these huge claws on the inside toes as weapons against predators. Properly aimed, they can actually disembowel a predator, using the tail to stand back on, as they reach their feet up and kick at a predator. The hands are equipped with 4 short fingers. The ears of this species are diamond-shaped and not as large as those on Adillus. The eyes are large and almond-shaped.

Brachiomillops is the most unusual of these animals, it is the closest one to being a quadruped. They have arms as long as their legs and sometimes travel using all fours or on their legs only. If they need a quick get-away they usually sprint off on all fours, using leaping and long strides to get way ahead of whatever startles them. If they are just running, or going after each other, or walking, they usually balance up on their hind legs, looking like ostriches with long tails to help them keep their balance.

The smallest species are in the genus Adillulus, particularly the Malaysian species. They are small and rather rat-like. The tail is well furred, but thin. The ears are small, but triangular-shaped. They live in mostly cloud forests and dig their own burrows to roost in, using their hind legs to clear away the dirt. They live in small family groups of no more than about 10 individuals, and their babies. Like all smaller rodents in the Metazoic, these animals are prolific breeders.

I have not yet started working on this group, but there is a place for it once I am done. This is one of the few cases I tolerate "mutt-names" among animals of the future, when it ends in "buck" or "bok", since even now a lot of ungulates have names that end with that suffix. Since these animals still resemble large versions of modern gerbils in a lot of ways, that is how I came up with the collective name "gerbbuck" for the animals in this family.

New Family Posted: The Anteaters!!

I have posted a new family group on my Metazoic site. It's been a long time since I worked on these! But I've finally completed the anteaters family. I also added a new genus to the family, Myrmarctella, a small tree-dwelling creature, a lot like today's silky anteaters. Of course this one is not pictured on the site, except for maybe the size-chart. But I posted an updated version of the checklist to include this animal. I also made a few more minor changes. I also posted the link to the checklist on the size-chart title page. It's at the very bottom of the page. Of course I kept the link to the checklist also on the homepage, I just shrunk it to make room for any other links I want to put up.

Anyway, here is the link to the new page. Not all the species are there, but this gives a good idea of what most of the family members look like. Here is the link: http://www.metazoica.com/anteaters.html

If you have any comments, you can let me know here.

Thursday, December 18, 2008

Jumbo (Humboldt's) Squids At Risk

This is mostly for those who believe The Future is Wild that squids will take over the land. Jumbo, or Humboldt's, squid are the most high-energetic and adaptable squid in the World. I keep bringing this up to those who believe that squids will take over the land, I never believed it because it is just too far-fetched and stupid. But squids are not that adaptable. If humboldt's squid cannot survive the changes taking place now, and they are the most adaptable squids, how do these people think squids will take over the land? It was the squids that made me lose interest in TFIW in the first place. After they said mammals will become extinct and squids will take over forests and trees, I said "This is too stupid!!" I haven't seen that show since and I haven't cared to either. I admit to liking some of their mammal and a very few of their bird ideas, but nothing else. Octopus are actually much more adaptable than squids, so there is no way squids would win anything over octopus. And no, squids are NOT octopus. That's like saying that lions and mongooses are the same thing. Octopus and squids are different. Squids cannot even survive outside the deep ocean, octopus can live in small tidal pools. And some people want to believe squids will be able to swing through the trees like gibbons??? Or grow to great sizes like brontosaurs?? No way!! And I have stated this time and again. I have nothing personal against these people, but to believe in these squids is just simply delusional. To believe squids will ever be anything more than deep sea creatures is delusional. 50-foot long carnivorous deer would be much more likely.


High-Energy Jumbo Squid at Risk With Warming
Emily Sohn, Discovery News

Dec. 18, 2008 -- Jumbo squid are long-distance commuters. Every day, these gangly creatures migrate more than 500 hundred vertical feet. It's a high-energy lifestyle -- and one that's going to suffer as a result of global warming, according to a new study.

Squid now appear to be joining the list of marine creatures at risk from rising levels of carbon dioxide in the atmosphere. As the oceans absorb some of this CO2 load, pH levels drop, and the water becomes more acidic.

Previous research has shown that ocean acidification makes it harder for corals, mollusks and other calcifying organisms to build skeletons and shells. The new study suggests that the effects of acidification are more complicated and far-reaching than many scientists expected.

"For the first time we've definitively proven important negative effects of high carbon dioxide levels on uncalcifying organisms like squid," said Rui Rosa, an animal physiologist at the University of Lisbon. "We've proven that CO2 will have a tremendous impact on their ability to move by the end of the century."

Not to be confused with the mysterious giant squid, which can exceed 40 feet in length, jumbo squid (Dosidicus gigas) are common and well studied. Also known as Humboldt squid, these animals can grow up to 2.5 meters (8-plus feet) long and weigh up to 50 kilograms (110 pounds).

They are a commercially important fishery catch in Mexico and South America.

Jumbo squid are the only species of squid that follow their prey each night to extremely deep, oxygen-poor layers of water and return each day to feed at the water's surface.

Squid move by jet propulsion, which demands a huge amount of energy -- and squid have some of the highest metabolic rates in the sea. Jumbo squid, in particular, burn a lot of gas in their 175-meter (575-foot) daily commute.

To see how ocean acidification might affect this jet-set way of life, Rosa and colleague Brad Seibel, of the University of Rhode Island, netted 86 jumbo squid in the Gulf of California. On their research boat, the researchers placed each squid in a water-filled chamber, in which they varied temperature, oxygen and CO2 levels. Throughout the experiment, they measured the animals' metabolic rates.

When the animals faced levels of CO2 projected for the end of the century, the study showed, their metabolism slowed by 30 percent. They also became 45 percent less active. Elevated temperatures exacerbated these effects.

As water temperatures and CO2 levels rise, Rosa predicts, jumbo squid will grow more lethargic, making it harder for them to catch prey and escape from predators. Their habitat range will also become compressed. Results appear in the Proceedings of the National Academy of Sciences.

The new work might help explain why Humboldt squid, once only found in tropical waters, are now showing up as far north as Alaska and British Columbia.

"I had always thought of this species as being one of the most adaptable in the ocean," said Ron O'Dor, senior scientist at the Census of Marine Life in Washington, D.C. "Now we are seeing that is being squeezed in ways no one had really appreciated."

More surprises will probably follow.

"Nothing in the ocean is safe from the impacts of global warming and acidification," O'Dor added. "Everything is going to have to make adjustments."

Wednesday, December 17, 2008

Size-Charts Now Viewable!

Well, I talked about it, and though I am still working on this project, I have decided to make this available on my website now. I am making this viewable in the form of an online book. There is a content page that has links to each family. If you click on each of those links, you can view the completed size-charts I've done already. Let me know how you like them. Keep in mind, it is not finished. I've only done a few pages. As I love lemurs, past present and future, those are always the first ones to get done. It is now only available for your viewing pleasure only. I hope to have all these done next year, but I cannot really make any promises right now because it's a busy time of year, and I have a LOT of other things to get done. Including a trip to California to promote my UMG site.

I also still want to work on my herps page. I have no real idea when I will be getting around to that. There will be an announcement on this blog once it gets done. I'm just no damn good at drawing herps!! I can still use some help if anyone would like to volunteer their talents! Otherwise I hope you don't mind seeing herps that look like shit!! And a rather long wait!! LOL! I have another family group in the making, and it should be up soon. How soon I don't know, but I will try to have it up. Meantime, enjoy the size charts I've done so far, you can access the book on the home page at www.metazoica.com. Or, you can take the short cut http://www.metazoica.com/Title.html

Tuesday, December 16, 2008

Koalas Are Not Dwarfs of Prehistoric Counterparts

We often think that most animals start off small and get bigger. It's a survival method for the species. In evolutionary terms, smaller animals have a better chance at long-term survival than larger animals. That is before humans interfered. Humans hunt anything now, big or small. And most of the extinctions going on now are due to over hunting and global warming. But anyway, in this article, it is discovered that modern koalas are not descended from the larger koalas that died off about 30,000 years ago. In fact they were simply 2 separate, and closely related species. This article also explains how if we could find out how this giant koala died off, we might be able to solve the puzzle as to how all other Australian megafauna died off.


Koala Not a Dwarf of Prehistoric Versions
Dani Cooper, ABC Science Online

Dec. 16, 2008 -- Australia's iconic koala is not a dwarf and the finding has major implications for theories on what happened to the continent's prehistoric megafauna, a Queensland palaeontologist said.

Gilbert Price, of the University of Queensland's Center for Microscopy and Microanalysis, said there has been a long-held view that modern koalas were a dwarf version of the giant prehistoric koala that lived between 30,000 and 700,000 years ago.

However, in a paper published in Quaternary Science Reviews, Price said modern koalas are a separate species that at times coexisted with the Late Pleistocene giant Phascolarctos stirtoni, which weighed between 20 and 30 kilograms.

Gilbert used improved dating techniques to analyze fossils and found that between 300,000 and 500,000 years ago the two koalas were both living in Australian trees.

"It's fascinating that up until fairly recently in geological terms we did have two types of koalas kicking around," said Gilbert. "The fossil records do suggest that they lived in the same place at the same time [perhaps] there is something about their sizes that allowed them to fill a slightly different ecological niche.

"The big question is why one koala species survived past 50,000 years ago and the other didn't make it."

Gilbert said understanding this may help prevent the modern-day koala from becoming extinct. However he said a lack of well-dated fossil records makes it difficult to determine the true ancestor of the modern koala.

He said his finding also suggests that the debate about why Australia's megafauna became extinct need to be revisited.

"My work shows we've got to sort out this dwarfing hypothesis first," he said.

The "dwarfing hypothesis" was originally developed to explain the body-size relationship between extinct Pleistocene mammalian megafauna and smaller-sized, similar-looking, modern-day animals, said Gilbert.

It has been applied to other present-day Australian mammals including the grey kangaroo, Tasmanian devil and the koala. Gilbert said the dwarfing phenomena has been used to support opposing megafauna extinction theories.

He said on one side dwarfing is viewed as the result of a physiological response to climate-induced changes in habitat and food supplies, while the counter view holds that it was human induced through targeting of larger animals in hunting.

However Gilbert said his study shows that dwarfing itself "has not been fully tested".
"A combination of more intensive physical dating, better stratigraphic control in regard to collecting methodologies, and up-to-date taxonomic information is critical for testing such hypotheses," he wrote. "Until such information becomes available an understanding of the fate of many Late Pleistocene forms, and the origins of many extant taxa, will remain elusive."

Monday, December 15, 2008

Why Do We Yawn

I found this very interesting article that actually explains why we yawn. I always wondered why that happens. I always heard it was because we were in need of extra oxygen. That's what I learned in school. And that may be one reason, but it is probably not the only reason. This explains why whenever I am supposed to be deep in concentration, I always start yawning! It always happens, without fail. It even explains why yawning is so contageous. I had teachers in High School who would send kids to the principal that yawned in class!!! If only they knew! But we are not the only creatures that yawn, many others do as well.


The Yawn Explained: It Cools Your Brain
Jennifer Viegas, Discovery News

Dec. 15, 2008 -- If your head is overheated, there's a good chance you'll yawn soon, according to a new study that found the primary purpose of yawning is to control brain temperature.

The finding solves several mysteries about yawning, such as why it's most commonly done just before and after sleeping, why certain diseases lead to excessive yawning, and why breathing through the nose and cooling off the forehead often stop yawning.

The key yawn instigator appears to be brain temperature.

"Brains are like computers," Andrew Gallup, a researcher in the Department of Biology at Binghamton University who led the study, told Discovery News. "They operate most efficiently when cool, and physical adaptations have evolved to allow maximum cooling of the brain."

He and colleagues Michael Miller and Anne Clark analyzed yawning in parakeets as representative vertebrates because the birds have relatively large brains, live wild in Australia, which is subject to frequent temperature swings, and, most importantly, do not engage in contagious yawning, as humans and some other animals do.

Contagious yawning is thought to be an evolved mechanism for keeping groups alert so they "remain vigilant against danger," Gallup said.

For the study, the scientists exposed parakeets to three different conditions: increasing temperature, high temperature and a moderate control temperature. While the frequency of yawns did not increase during the latter two conditions, it more than doubled when the researchers increased the bird's ambient temperature.

A paper on the findings has been accepted for publication in the journal Animal Behavior.

"Based on the brain cooling hypothesis, we suggest that there should be a thermal window in which yawning should occur," Gallup said. "For instance, yawning should not occur when ambient temperatures exceed body temperature, as taking a deep inhalation of warm air would be counterproductive. In addition, yawning when it is extremely cold may be maladaptive, as this may send unusually cold air to the brain, which may produce a thermal shock."
The parakeets yawned as predicted.

It's now believed yawning operates like a radiator for birds and mammals.

If air in the atmosphere is cooler than brain and body temperatures, taking it in quickly cools facial blood that, in turn, cools the brain and may even alter blood flow. Prior studies reveal yawning leads to a heightened state of arousal, so a morning yawn may function somewhat like a cup of coffee in providing a jolt of energy.

The new findings also explain why tired individuals often yawn, since both exhaustion and sleep deprivation have been shown to increase deep brain temperatures, again prompting a yawn-driven cool down. Yawning additionally appears to facilitate transitional states of the brain, such as going from sleep to waking periods.

Gordon Gallup, Jr., a State University of New York at Albany psychologist, did not work on the study, but, as Andrew Gallup's father, paid close attention to the research. The senior Gallup also happens to be a leading expert on the science of yawning and other widespread evolved traits.

"It is interesting to note that instances of excessive yawning in humans may be indicative of brain cooling problems," Gallup, Jr., told Discovery News, pointing out that patients with multiple sclerosis often experience bouts of excessive yawning "and MS involves thermoregulatory dysfunction."

"Bouts of excessive yawning often precede the onset of seizures in epileptic patients, and predict the onset of headaches in people who suffer from migraines," he added.

In the future, researchers may focus more on brain temperature and its role in diseases and their symptoms. But the new study on yawning changes the popular notion that yawns are mere signs of boredom.

On the contrary, as Gallup said, "yawning more accurately reflects a mechanism that maintains attention, and therefore should be looked at as a compliment!"

Family of the Week: The Cerots

These are mostly giant, bulky relatives of the Therapeds. The smallest among them are as big as a large rhinoceros. They have a set of horns usually on the head. They use these horns for sparring with others of their own kind, but sometimes, they also use these horns in defense against predators. These are very effective weapons, as most predators will try to avoid a charging animal. The species with the most horns is Exiogcus, with a total of 6 horns on their head. The first 2 horns are rather small and placed just in front of the ears. They are peg-shaped and not really useful for much except to bunt warning strikes at a rival. Then in the center of their snout there is a set of rather sharp horns that curve foreward. At the end of the snout there is a set of horns that curve upward.

Unlike most modern rhinos which would be their modern counterparts, these mammals are fully haired. The body is covered in soft, rather woolly fur. The heads are rather horse-like, and all have horns of one kind or another. All species are strict vegetarians, feeding on grass, flowers, bushes, berries, even browsing leaves and blossoms on low branches from trees. The tails are relatively short for the body, usually less than the size of the total head and body length, the legs and feet are like those of rhinos. The eyes of these animals are rather small as well, but the eyesight is very good. As is the hearing. Their sense of smell however, is not much better than ours. In the species Durambulus, the horns cover also the back. They have a series of small, stubby spikes down the spinal region, with very long, backward-facing horns on the shoulders. This protects this animal against any smaller predators that might attack them from the back. However, it doesn't do much good against the largest predators. These are also the smallest species in this family, the largest among them being no smaller than a rhinoceros. As most cerots do, these animals live in herds, and are usually not that migratory, though when the need arises, they don't hesitate to migrate to greener pastures. The herds are not that large, usually no more than about 50 individuals.

The largest species are in the genus Hadrobestia. The head and body length of these animals are around 35 feet long, not counting the 12-foot long tail. They live in small groups, not more than about 10 individuals. They are characterized by the 2 long, straight horns over the eyes. They are very aggressive chargers and most predators will not bother them. The most unusual set of horns belong to Bodiceros. It has one long horn on the end of the snout and a smaller horn that curves foreward right behind it. They defend themselves by charging at the offender full-force. They begin a charge with warning signs of quickly raising and lowering their head. Bodiceros is perhaps the most aggressive of all the cerots, as it lives in a very hostile environment. They live in small herds, usually family groups.

Few predators will tackle these animals. Among the greatest are the largest deinognathids and mongooses that hunt in packs. If you'd like to view the cerots that are presented on my site, you can at this link: http://www.metazoica.com/cerots.html

Saturday, December 13, 2008

Magnetic Blip May Have Caused History's Greatest Extinction Wave

All evolutionists know that the wave of extinction that happened at the end of the Permian Period was the largest extinction event in Earth's history. 90% of all living things died off. Amazingly, the creatures that would become the dinosaurs were among those to survive. Nobody really knows what happened to wipe out almost all living things on the planet at that time, but in this article I found, it is believed complications in the Earth's magnetic field may have been the cause. This could cause all but the most highly-adaptable of animals to die off.


Did Magnetic Blip Trigger Mass Extinction?
Michael Reilly, Discovery News

Dec. 12, 2008 -- It was a dying on a scale never seen before or since on Earth. The slaughter was everywhere; the fertile ocean and balmy supercontinent Pangea were transformed into killing fields, littered with the bodies of ancient animals. By the time the dust had settled on the Permian-Triassic mass extinction 250 million years ago, 90 percent of life on the planet had been snuffed out.

Now a new theory suggests the catastrophe was set in motion 15 million years earlier, deep in the Earth. On the edge of the molten outer core, a plume of super-hot material began rising through the mantle, upsetting convection in the core and throwing the planet's magnetic field into disarray.

The weakening of Earth's magnetic field exposed the surface to a shower of cosmic radiation, says Yukio Isozaki of the University of Tokyo. He believes the radiation broke nitrogen in the atmosphere into ions that acted as seeds for clouds enshrouding the planet.

"This would've caused severe cooling and a drop in sea level" as the cool temperatures allowed massive ice sheets to accumulate on the continents, Isozaki said. "If you check the rock record at that time, tropical coral reefs die first. Then you start to see fauna from mid latitudes move into the tropics. It all points to cooling."

The superplume disrupted the magnetic field and put a strain on creatures living on the surface, but it was only the beginning. Five million years later it reached the surface, Isozaki said, and the hot material punched through the crust, erupting as three successive supervolcanoes.

Today the remnants of those volcanoes are scattered through India, China and Norway. On their own they were too small to do much harm, but together Isozaki thinks they cooled the climate even further, launching an extinction as bad as the one that would kill the dinosaurs 185 million years later.

Then, 10 million years later, the Permian-Triassic extinction struck.

"The effects of the superplume were just the first punch of extinction," Isozaki said. "Then came the knockout punch, the Permian-Triassic extinction."

Isozaki thinks both "punches" were caused by the same superplume. Ten million years after the smaller volcanoes blew their tops, a much larger volcano, the Siberian Traps, erupted, launching the worst killing in the planet's history.

Gregory Retallack of the University of Oregon agrees that the late Permian round of extinction was bad -- as much as 67 percent of species were eradicated. But he doesn't think the two events are related. In the 10 million years after the first punch in the late Permian, he said, life recovered.

"The late Permian looks good all over the world," Retallack said. "You've got corals, healthy marine communities, and lots of fossil flora on land."

There's no questioning the severity of the Permian-Triassic crisis -- "We almost lost it there," Retallack said -- but whether the two can be traced a single mantle superplume, or they were unrelated, remains a mystery for now.

Friday, December 12, 2008

Size-Charts, Current Project

I have decided to do something a little bit different on my website. I am making up size-charts for each family on my checklist. Whether or not I am doing them up on my website. I thought it'd be interesting to put up size depictions of each animal. I've done several so far and I managed to scan them and put them up on the site, but so far nothing points to them yet. It's still a work in progress. With these, it'd be easier to display the varied sizes of each animal in each family.

What I did was put a silhouette of each animal up against an average-sized man (approximately 5'5" or 167.64 cm) so it shows the difference in size and each is drawn to scale. Here is an example of what I have illustrated and will be up on my website soon:

This is a size-chart of the large Deinognathids, and it shows the largest of each genus (in the case there is more than one species) up against an average-sized man. These are old, so I had to make a few changes to them. But anyway, you now get the idea of what will be coming up next on my Metazoic site. I thought these would be a good idea. And I will be doing one of these charts for every family. It's going to take a while, but it'll be done, hopefully by the end of next year.

I have also begun working on a page for Metazoic reptiles and that should also be up soon. I got a few really good species I thought up to display. I'm not the World's best drawer of reptiles, so if anyone would like to help out in that department, please e-mail me at webmaster@metazoica.com I will do what I can by myself, but like I said, don't expect it to be great. Not unless I can get some more reptile experts to do my drawing for me!! That page should be up soon. Even after it is up, I will still be accepting any new drawings and stuff. I will try to get that page up this month.

Thursday, December 11, 2008

Koalas At Risk From Extinction

It seems Australia's cuddliest creatures are now at risk. They are dying out apparently due to global warming depleating the supply of nutrients in the Eucalyptus leaves these animals feed on. Koalas are among the World's fussiest eaters, and certain individuals will only eat certain varieties of these leaves. If that tree dies out, that koala will die too of starvation. I am the same way, I just discovered I am diabetic, and everyone tells me if I want to live, I need to change my eating habits and consume more healthy foods. I cannot do it because I find most vegetables disgusting!!! I only like peas, carrots, corn, potatoes and sometimes celery. But I cannot make a meal of that!! And I was brought up that dinner has to include meat and bread. I'd personally rather die than switch to a vegetarian diet!! But anyway, this was the article I got from Discovery News.

P.S.: Ignore the fact the title refers to them as koala "bears"!! They are NOT bears! It always chaffs my ass to hear people calling them that!!!


Koala Bears at Risk for Extinction, Group Says
Julie Shingleton, AFP

Dec. 11, 2008 -- Australia's iconic koala will become extinct in some areas of the country if the federal government does not take urgent action, conservationists have warned.

A group of Australian scientists will meet with government officials in Canberra on Friday in a bid to hammer out a national koala conservation strategy to keep key populations of the animals from dying out.

Less than 100,000 koalas are left in the country, compared to millions before they were heavily hunted for fur in the 1920s, said Deborah Tabart from the Australian Koala Foundation.

"The population of koalas in southeast Queensland has decreased from 10,000 to less than 4,000 in a decade," Tabart said.

The population in the southeast Queensland area known as the Koala Coast has fallen by at least 26 percent to 4,611 animals since a 1996-1999 survey as development encroached on their natural habitats, she said.

"We know that there are even less now, in the order of 3,800," Tabart said.

Kat Miller of the World Wildlife Fund also warned that koalas could be on their way to extinction along with several other Australian species."There are more than 1,700 federally-listed threatened populations of animals in Australia. There is an extinction crisis in Australia. The koala may well be the next one to go downhill."

The Australian Koala Foundation is urging Environment Minister Peter Garrett to declare the southeast Queensland koala population as critically endangered under law in a bid to protect their habitats from further developments.

"This is the most important thing Minister Garrett and his department can do right now to show he is serious about saving the koala," said Tabart."These declines just cannot continue if we still want to see our beautiful icon here."

Climate change has also played in the decline as it altered the nutritional make-up of their staple food, gumtree leaves, Tabart said.

Post mortems of around 700 koalas in southeast Queensland have found that most were "wasted" when they died.

"The impact of climate change on the nutritional value of eucalyptus leaves has been proven to affect koalas," she said.

Garrett has said he had charged Australia's Threatened Species Scientific Committee with assessing the risk to the koala but warned that he needed to await the committee's report before he could act.

"This is a clear indication of how seriously the Australian government is considering reports from the Australian Koala Foundation and others on diminishing koala numbers in some regions," the minister said.

Tuesday, December 9, 2008

Hot-Headed Dinosaurs

Been busy battling some christians that have been trying to pound their religion in my head, and I cannot let that happen. They have their beliefs and I have mine. A couple of these so-called "Christians" has already begun making fun of my weight problems. That's OK! They think I'm fat, I think they're stupid, so it kinda evens out! LOL! I've decided I'll let them have their fun for a while, and then when they get too boring, I will stop accepting their comments. In truth, they've already gotten a bit boring, and ANNOYING!!! Anna's right, Bible-thumpers are very annoying!! But anyway, in the midst of all this I have found yet another interesting article. This one about dino-sinuses. It even says that dinosaurs may have got infections like we do, and I hate those!! But the big, empty sinuses made the heads of dinosaurs easy to carry on their long, relatively slender necks.

Here's the link: http://dsc.discovery.com/news/2008/12/09/dinosaur-skull-sinus.html

Sinus-Laden Dino Skulls Reveal Hotheaded Life
Jennifer Viegas, Discovery News

Dec. 9, 2008 -- A fully fleshed out Tyrannosaurus rex head may have weighed more than 1,100 pounds, but much of that volume was filled with air, according to a new study that suggests all dinosaurs were airheads.

Scientists have discovered that dinos possessed more air cavities in their heads than was previously believed, including many sinuses -- the same cavities that can lead to sinus headaches and infections in people.

"Dinosaurs likely suffered from nasty sinus infections," co-author Lawrence Witmer told Discovery News.

"In fact, we have other evidence that these infections spread to their bones, so dinosaurs could have suffered from painful, pounding headaches at times," added Witmer, a professor of paleontology at Ohio University's College of Osteopathic Medicine.

He and colleague Ryan Ridgely CT scanned and 3-D imaged four dinosaur skulls: two fierce carnivores and two plant eaters. The meat eaters were T. rex and Majungasaurus, while the herbivores were represented by Panoplosaurus and Euoplocephalus, both ankylosaurian dinosaurs, which had armored bodies and short snouts.

The findings were recently published in The Anatomical Record.

"Scientists like myself tend to look at dinosaur brains, bones, eyeballs and such, but airway systems, essentially empty spaces in the skull, sort of slipped between the research cracks over the years and did not receive much attention," Witmer said.

The study revealed that predatory dinosaur heads featured large olfactory areas with an arching airway extending from the nostrils to the throat, along with the many sinus cavities. The air spaces made the skull bones hollow, similar to strong, yet lightweight, hollow beams used in construction work.

The analysis allowed the scientists to more accurately determine the weight of fleshed out dinosaur heads. Majungasaurus' head weighed around 70 pounds, but the 1,100-pound-plus head of T. rex took them aback.

"That's more than the combined weight of the whole starting lineup of the Cleveland Cavaliers," Witmer said.

The heads of the plant-eating dinosaurs were lighter, but they featured twisty corkscrewed air passageways that Witmer likened to "crazy straws," the swirly drinking straws favored by kids.

One function of this complex network of nasal cavities was heat transfer, the researchers believe, since blood vessels ran alongside their nasal passages, allowing air to pass over the moist surfaces, cooling the blood and therefore removing excess heat from their heads.

"Most big dinosaurs would have had a problem of being too hot," Witmer said. "We now think these were warm blooded animals. You can imagine them sitting out under the Cretaceous sun."
"They created shade, but didn't often find it," he added.

The scientists also believe the nasal passages acted as resonating chambers, giving each dino its own unique "voice." It's possible that armored dinosaurs, in particular, could recognize individuals based on their vocalizations alone.

CT scans of crocodiles and ostriches found similar -- although not quite so prominent -- head air spaces, adding to the evidence that these creatures are distantly related to dinosaurs. Their collective common ancestor must have passed down the trait.

Michael Ryan, coordinator of research and head of vertebrate paleontology at the Cleveland Museum of Natural History, told Discovery News that Witmer's lab has "been the cutting edge for investigating what's going on inside of the fossil dinosaur skulls that we so painstakingly dig up."

"The new information about the convoluted nasal passages of ankylosaurs gives us the very first suggestion that these weird herbivorous dinosaurs may have had complex vocal patterns," Ryan said. "It turns out that the Late Cretaceous may have been as noisy as a frog pond during mating season, with the air being full of honks, chirps and squeaks."

Ryan added, "It's work like this that helps us to better understand these dinosaurs as once living animals."

Monday, December 8, 2008

Family of the Week: The Oreippids

These animals, I call them "hill-rats", are not really rats, but descendants of chinchillas of today. Like modern chinchillas, they are sprinters. Most species have evolved longer legs for running. As the common name I gave them implies, these are creatures of the mountainous areas of North and South America. The coat is thick to block out chilling winds, the ears are small and round in most species, and well-furred. The feet are like those of camels, soft-padded and the toes are highly flexible. The tail is long and provides the animals with superior balance. Most species are small, the size of rats to the size of jackrabbits. But one species, Oreippus, is the size of a horse. The smallest species, Acanthopsis, is the only species whose coat is spiked with sharp spines in between their thick fur.

In Acanthopsis, the spines range up to an inch long, and the tail is tipped with sharp spines. This keeps the tail out of the mouths of predators so the animal can get away. They have long, pointed ears like a rabbit. The muzzle is long and pointed and the eyes are large. The body is basically very rat-like. They roost in small underground crevices. They are solitary animals, only becoming social during the breeding season. Like all species in this family they are vegetarians. But they tend to get all the water they need from their food, so they never drink.

The species of Ornatophrys are among the most colorful of rodents. These long-legged, rabbit-sized animals have naked eye rings that during the breeding season, develop into long, colorful wattles used by the males to attract females and seduce them into mating. The females lack the wattles, but still have the naked eye rings. These wattles vary in color by species, and range from red, purple, blue to green and yellow. The tail is well-furred and carried over the back when in motion. They run like miniature horses, and are very agile animals over their rocky homes. They are social too, living in small pods of no more than 10 individuals that travel and feed together. The group contains a dominant male and female, and usually lower-ranking females and young. One of the lower-ranking females often acts as a sentinnel, and the rest of the group relies on her to warn them of oncoming predators.

Oreippus is the largest species, and lives in the largest herds. There is no real order in herds of Oreippus, but the older animals take the lead in the herd. Herds of Oreippus are as large as 100 animals. Ephalteria is the second largest member of the family, about the size of a jackrabbit, and travels in herds like horses. It is the North American version of Oreippus. The herds are not as large though. Instead of taking long leaps like jackrabbits do, Ephalteria is a sprinter, like a horse or antelope. All species are grazers, and feed on grasses, lichens and seeds.

Though these animals can defend themselves very well by biting or kicking, or even dropping their tails, they have a lot of predators in their range. Besides the mongooses and deinognathids, they also fear predatory bats and hawks, snakes, predatory lizards, lemurs, weasels and foxes. Though most species rarely go near water, when they do, they can also be taken by crocodiles. If one of the smaller animals is grabbed by the tail by a predator, they have the amazing ability to shed their tail, much like a modern chinchilla. However, unlike with chinchillas, these animals can actually grow their tail back. Though the bones that regenerate may be smaller and more slender than the original tail bones, and the flesh that regenerates is usually dark gray in color instead of pink like the original. This is the animal's best defense, particularly for the smaller species. The larger Oreippus uses it's powerful hind feet as weapons of defense, as they cannot shed their tails as easily as the smaller species.

I personally have not yet worked on this family, but there is a place for it on my site, under the large grazers. Why I have it in that group I don't know!! LOL! Most of the species would be what I consider small.

Tuesday, December 2, 2008

Extinction In Action: The Sawfish

It's true, these unique animals are in decline because of their unique design. But the fault still partially lies on humans, because if humans were not setting out nets, these fish would not be declining so rapidly.


Toothy Sawfish Doomed by Own Design
Jennifer Viegas, Discovery News

Dec. 2, 2008 -- New efforts are underway to save the sawfish, an iconic, shark-like fish that has experienced steep population declines in recent years, primarily because its distinctive saw-shaped snout easily tangles in nets, angering fishermen.

In 2003 the sawfish became the first marine fish to be placed on the list of federally endangered species. It's been on the list ever since.

"Commercial fishermen have never liked sawfish," George Burgess, a University of Florida ichthyologist, told Discovery News. "They routinely kill sawfish because they can cause costly damage to nets."

Burgess is a University of Florida ichthyologist who serves as curator of both the International Shark Attack File and the National Sawfish Encounter Database. He's calling on the public to help with a new expansion of the sawfish database that is bringing together files formerly housed with the Mote Marine Laboratory, the Florida Fish and Wildlife Conservation Commission and two private collections.

"We'd like for anyone who has seen a sawfish in the wild to report the sighting using the form at the Florida Museum of Natural History web site," he said, explaining that the information will be used to better reveal the distribution of sawfish.

Sawfish, which can grow to anywhere from 4.6 to 23 feet in length depending on the species, once had a range that extended from the waters off of New York to the Tex-Mex border. Now it's thought that sawfish "are essentially confined to Florida," according to Burgess.

South Florida was always a primary destination for the flat-headed fish.

"I think every bar there has a sawfish saw hanging on the wall," he said, adding that while the fish can survive without the saw, its ability to hunt is severely compromised.

The fish's electro-sensitive rostrum acts like a metal detector, allowing sawfish to search, and dig into, the sea floor. The saw is also used to fend off would-be attackers.

Although Florida newspaper accounts of sawfish catches suggest the fish was plentiful there around the turn of the 20th century, the fish are now forced to hide out at more remote spots. The sawfish also have a nursery area for their young in South Florida waters.

Another remaining sawfish refuge is in Brazil at the mouth of the Amazon River, which Burgess just visited.

As for the Florida Everglades, human access to the site is limited, so it's one of the few places in the world where the fish can thrive. Under other circumstances, sawfish frequently ascend from the sea floor into bays and estuaries, where fatal encounters with fishermen frequently occur.

Compounding the problem is that, like many sharks, sawfish grow slowly, reach sexual maturity at around 10 to 12 years of age, and have a low reproductive potential. Although individuals may have a life span of 30 years or more, they give birth to live young, a process that requires a prolonged gestation period.

Other researchers are very concerned about the fate of sawfish and their shark and ray relatives.

This year, an international study organized by the International Union for Conservation of Nature and Natural Resources (IUCN) Shark Specialist Group, determined that over 50 percent of such species are now threatened with extinction.

"The traditional view of oceanic sharks and rays as fast and powerful often leads to a misperception that they are resilient to fishing pressure," said Sonja Fordham, who worked on the IUCN project.

Both she and Burgess hope better data, improved monitoring and catch limits can help to turn the extinction tide.

"In the case of sawfish, we're talking about a recovery process that requires 100 years," Burgess said.

He added, "I won't live to see it, nor will my children, but hopefully their children will."

Monday, December 1, 2008

Family of the Week: The Anacolls

These are generally large mammals, most measuring over 50 feet in length. A lot of these species grow up to 100 feet in length. They truly are the largest land mammals of the Metazoic. They resemble the prehistoric brontosaurs. They have long, flexible necks, relatively small heads, small, rounded ears. The legs are like those of elephants. The tail is long, thick and acts like a 5th leg when the animal chooses to stand on it's hind legs to reach up into the foliage and snatch a high branch.

All species of this family (the Megacollidae) are vegetarians. While they usually prefer to feed on leaves, shoots, sometimes even branches, and fruit, they will not hesitate to graze on the grasses and low-growing plants, flowers and bushes as well. Being big is an advantage to this animal, as they can almost double their grasping height when they stand on their hind legs to reach the highest level of the canopy. One species, Fereamanus, also has a 6-foot long elephant-like trunk that gives them an even bigger advantage over it's other relative species. The trunk of this animal is every bit as versatile as the trunk of a modern elephant, and can reach branches high up or pick up lower growing plants and grasses below. Another, more primitive species, called Probosciferous, has a small remnant of a trunk, but it is not the same as it is in Fereamanus.

Though there are no really 'small' species in this family to speak of, the smallest is Astrapetherium, with a total length of about 55 feet long. It is the largest mammal in it's range, but smaller than other members of this family. It is a large, but slenderly-built mammal that can easily maneuver it's way through the forests. It is a gentle giant, not even pushing away grazers of other species. The largest member of this family is Cervilecticula, with an overall length of about 150 feet. It is the largest mammal that ever lived. Though most of that length is neck and tail. These are animals of the open plains, where the trees are pretty well spread apart. Cervilecticula is so large, and needs so much food, they will feed on any variety of plant matter, including submerging in water to feed on water plants, and graze on moss and lichens as well.

The species with the longest neck in proportion to it's body size is Altodepascium. The neck is longer than the body and half the tail put together. The long, slender neck is so long, that it would seem to topple the animal when it walks. But the long, thick tail counterbalances the over-elongated neck. With it's neck, this animal can reach tall tree branches without having to stand on it's hind legs. Most anacolls live in small herds, usually in family groups. Some individuals stay with their families for life, never migrating to other herds. Life is a long time for these mammals, they can live up to 200 years!

These animals are big, but they are not without predators. Most vulnerable are the young. The larger and older family members can use their bulk to intimidate most predators, but larger pack hunters, like Deinognathus, can take on adult animals as well. The greatest predators are of course the Deinognathids, large Viverrids, some large foxes, even large monitor lizards, snakes and predatory bats. At the same time, the adults rely on some carnivorous bats to rid them of ticks, mosquitos and other biting parasites, as seen in this pic below of Folicaptus with a flock of Tylopterus bats landing on it's back.