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.

Thursday, February 5, 2009

Dogs to Wolves

We all know that today's dogs are decended from the gray wolf, but according to this article wolves are really wolves in dogs' clothing. It talks about the different color mutations in wolves, much like the variations of colors in domestic dogs, like how a labrador can be either black or yellow or chocolate. Kinda funny really, and very interesting, no one understands why wolves have developed the black phase in the wild. I was attracted to the article because it was about one of my favorite subjects, wolves. So without further adeu, here's the article.


Found: Wolves in Dogs' Clothing
Randolph E. Schmid, Associated Press

Feb. 5, 2009 -- Today's dogs are descendants of ancient wolves. Now, it turns out, at least some of today's wolves inherited traits from ancient dogs.

Gray wolves have that name because of their color, but in North America many of them have dark or black coats instead of the standard gray.

The genetic mutation producing dark coats appears to have occurred in dogs, and then spread from them to wolves when the species mated, according to researchers led by Gregory S. Barsh of Stanford University.

The dark-coated wolves are almost exclusive to North America and are much more common in forested areas where they make up 62 percent of the wolf population, compared with 7 percent in open tundra, the researchers noted.

But wildlife biologists don't think wolves rely much on camouflage, Barsh said. "It's possible there is something else going on here."

"It's sort of intuitively appealing, when you see animals that sort of blend in with their environment, to say ... that explains natural selection, that somehow they are better camouflaged either as predator or prey," Barsh said in a broadcast interview made available by the journal Science, which published his research in Friday's edition.

But wolves don't have a lot of predators, and there's no evidence to suggest that a black coat color leads to any increase in a wolf's ability to capture its prey, he said.

Also, Barsh added, black wolves, like humans, turn gray with age, "so you would think that if the black coat-color mutation was being selected because it caused the black coat color, you wouldn't get these older gray wolves, they would stay black."

The same protein responsible for coat color differences in dogs and wolves is associated with fighting inflammation and infection in humans. Thus, it "might give black animals an advantage that is distinct from its effect on pigmentation," Barsh said in a statement.

Co-author Tovi M. Anderson noted that the mutation for black coats has been cultivated by humans in the domestic dog for thousands of years. "Now we see that it not only entered the wild population, but also is benefiting them," she said.

Genetic tests indicate the mutation was introduced into wolves by dogs sometime in the last 10,000 to 15,000 years, Anderson said. That's about the same time the first people crossed the Bering land bridge, probably accompanied by dogs.

"We usually think of domestication as something that is carried out to benefit humans," Barsh said. "So we were really surprised to find that domestic animals can serve as a genetic reservoir that can benefit the natural populations from which they were derived."

"Although it happened by accident, black wolves are the first example of wolves being genetically engineered by people," added co-author Marco Musiani of the University of Calgary in Canada. "It is somewhat ironic that a trait that was created by humans may now prove to be beneficial for wolves as they deal with human-caused changes to their habitat."

Yale University researcher Mark Gerstein, who was not part of the research team, called the report "exciting."

"Positive selection is an important driving force in mammalian evolution. However, there are not many concrete and dramatic examples of it in action. This paper demonstrates such an example using coat color in wolves -- an easy to recognize and relate to characteristic," he said in an interview via e-mail.

"Furthermore, it shows how the diversity in the gene pool can be maintained and developed in non-obvious ways -- e.g. through the interbreeding of domesticated animals and wolves," Gerstein said.

He also praised the research for developing a clear, evolutionary history of the genes that determine color in wolves.

The research was funded by the U.S. National Institutes of Health, National Science Foundation and Swedish Research Council.

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