Friday, July 16, 2010

"So Much To Do.....So Little Time" -Napoleon Bonaparte Yet, When it Comes to a Museum, There is Plenty of Time!!

It is this quote that fits the typical human being, and I am no exception. And, though I have little respect for emperors and warlords like Mr. Bonaparte, I do admit he "hit the nail on the head" with this statement, if you will. We all have societal obligations as well as familial ones. However, no matter how busy one's life becomes, one should always find time to indulge in his/her own individuality. If this does not happen, then we may very well lose our sanity (....or....what's left of it......if we had any to begin ;)) and life will undoubtedly become unbearable.  Thankfully, the aforementioned outcome is highly unlikely as each of us finds time in one form or another.

Now, this post is to notify you, readers, that I am down in Houston, Texas, for the Weekend visiting my grandparents. Tomorrow, my mom, Candace, my step-dad, Dave, and I are taking the day to visit the many Museums in the area, including the Houston Museum of Natural Science to see the new exhibit on the famous Jurassic Age Solnhofen Limestone Quarry where the first specimen of Archaeopteryx lithographica  was  first discovered and described in 1860, the Houston Museum of Art, the Holocaust Muesum, etc.

As such, I will be completing a blog post about the trip, prior to Fossil Fact #14 tomorrow. Alas, it is getting late and I'm suffering from jetlag. So, I bid you adeiu and good night, readers.

Saturday, July 10, 2010

Artwork of the Day #14!!!!!!!!!!!!!!!!!!!!!!!!!!

 This depiction was obtained from the site: of the Cambrian Agnatha Haikouichthys. A Facebook friend  suggested I discuss this really ancient group of Chordates that still exist today in the form of Lamprey and Hagfish in Fossil Fact #14. Unfortunately, I feel I need to do a lot of research prior to even starting this post as I am unfamiliar with this group. All I can say is keep watching Facebook and Twitter, as well as Blogger's Post Notifications, for news of the post! I am unsure of the artist otherwise I would gladly cite him/her and Definitely link to him/her.

Sunday, July 4, 2010

Fossil Fact #13!!!!!!!!!!!!!!!!!!!!

I have officially returned, readers and I just want to first apologize for my two-month absence. It was rude and insulting to leave such loyal readers "hanging," like that for two months (the activities during those said months will be explained in greater detail in future posts.). For that, I am truly sorry and I hope you all can find it in your hearts to forgive me.

Now, that this is all said and done, I want to do this Fossil Fact as a reward for your patience (and, in some cases, impatience) for the first post in two months of school and growing up. The topic for today, at the suggestion for my new friend, Ian Garofalo, is the so-called "Dino-Bird Theory" here in "pop culture" of Paleontology. ;) The theory describes the relationships between our flying neighbors the birds, and theropods.  So, let's get right into it! :)

Dinosaurs Alive? A Look at the Relationship between Birds and Dinosaurs:

What's that up in the sky? It's a plane! No, it's a Bird! No, it's a......Dinosaur?! That's what the latest research on theropod dinosaurs seem to tell us. Now, I assume that you all look a bit incredulous, and, believe me, that is truly understandable. The relationship between birds and Dinosaurs is clear in the genetics, molecular biology and anatomy of many coelurosaurs. The implications indicate that a change in taxonomy is needed, or is it? That depends on how you could classify a bird and a dinosaur.

What is a Dinosaur?
Now, recall that a Dinosaur is a unique type of Archosauria ("ruling reptile") with the ability to walk either upright, bipedally or quadropedally, thanks to their hip design (The Saurischians have their pubis pointed backwards, with it, the illium and the ischium creating a ball-and-socket joint with the femur, while the Ornithischians have a much similar design yet, the pubis and the ischium pointing forward, still creating that ball-and-socket joint with the femur, much like the Saurischians, or Theropods and Sauropods.). The Dinosaurs are also unique in many respects, depending on the stage of their diversity and evolution.

For examply, the Triassic saw many early carnivores like Eoraptor, Herrarasaurus, Coelophysis and Liliensternus, share many of the same features as the archosaurs they co-existed with, yet, some of the primitive features of a "true" theropod; the ankle joints weren't as pronounced as in later taxa. They had features such as fore-arms with the primitive five-digits of their predecessors, the brain wasn't as developed, et cetera.

The Fossil record indicates that as many families progressed in their evolution, many limbs were merely shadows of their former selves, meaning they're vestigial. (Vestigial simply means that limbs or body parts that once had a use in our bodies, no longer carry on that function. i.e. the human appendix.) Specifically digits in the most of the larger theropod species going from five, to four, to three, and in the case of the Tyrannosauridae, two. (Actually, later Tyrannosaurs in the Cretaceous, such as Tyrannosaurus rex, Tarbosaurus bataar, Albertosaurus sarcophagus, Daspletosaurus, et cetera actually have three digits; one is merely small and vestigial, giving the appearance of two, though that's not necessarily incorrect either.)

What is a Bird?
Birds, or Aves, is a class of endotherms (animals that have to consume other organisms, in order to generate and maintain a constant body temperature, commonly referred to as "warm-blooded")  that lay hard-shelled amniotic eggs (Thus, making them one of a myriad of other animals classified as "Amniotes.") that evolved during the mid to Late Jurassic period.

There are approximately 9000 species globally. The fact that they are the descendants of the Dinosauria  is well-established among the majority of Paleontologists. However, they have evolved specializations for flight and a "unique 'one way' breathing system." The bones are light, yet strong. They have powerful flight muscles, and a skeleton in which many bones are fused or lost. And, the most defining feature--Feathers!

Now, granted, there are many bird species that are unable to fly, meaning that flight shouldn't be the defining characteristic of this clade to differentiate between birds and theropods. Early fossil birds, such as Archaeopteryx, lack the sternal keel where the flight muscles attach, that is also missing in the group of flight-less birds known as the ratites (the group that includes ostriches, emus, and rhea).

The Dinosaur-Bird Connection

Previously, I listed some of the characteristics of the two groups, but nothing truly defining of each group. This is the problem with the current taxonomic system (although, recent changes in the system have labeled Birds as a specialized sub-group of theropod dinosaurs).

Now, why the change? As you have been reading this post, I can only assume you have noticed that the line between the two clade has blurred significantly. The criteria for this change will be discussed in this section, in addition to the theory on Avian Origins, or, more popularly, known as the "Dino-Bird Theory."

Take the common domestic chicken (Gallus gallus domesticus), for example. The domestic chicken is hardly built for high-performance flight. Yet, the skeleton for Gallus gallus domesticus are clearly present. The sternum bears the aforementioned prominent sternal keel where the flight
muscles attached.

The furcula, a fused clavicle (collar bone), serves as a brace during the flight stroke; in the chicken it's appearance is a Y-shaped bone in front of the sternum (breast bone). The same clavicle in non-avian Dromaeosaurids, which provided a brace for the shoulder girdle while holding prey.

In order to reduce their weight, birds have highly shortened tails compared to extinct taxa like Archaeopteryx, whose tail contained at least 15 vertebrae in it's tail. Living birds lack teeth in the bill unlike their Mesozoic relatives.

Finally, there's the "most obvious anatomical feature" of all birds- Feathers! Of course, recent exquisite specimens from China revealed that certain genera had feathers or primitive "proto-feathers." Feathers are simply highly modified scales which are important for several reasons:

  • Soft Down Feathers trap still air close to the surface of the body thermally insulating the animal.
  • Contour Feathers establish the smooth contours of the animal's body.
  • "Flight Feathers" form the aerodynamic surfaces of the wings and tail.
Finally, feathers are important for display to females saying "hey, sexy, Check me out!" and say to rival males "I'm an adult and I'm ready to fight." Behaviors like this enable Paleontologists to hypothesize theropod behavior, since "behavior doesn't necessarily fossilize." For more information, I encourage anyone interested in the connections between Birds and Theropods, check out the sites in the Works Cited section of the post and check out some of the journals on the subject.

Works Cited

Waggoner , Ben. "UCMP Web Lift To Taxa". University of California at Berkeley. 7/4/2010 .

"Bird". Wikipedia. 7/4/2010 .