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Birds, with their feathers and toothless bills, bipedal locomotion and flight form such a distinct class, it is hard to imagine that they derived from any other group of animals. But Archeopteryxprovides an excellent example of an intermediate evolutionary form among the vertebrates. The fossil record of birds is slim, though, because they are so lightweight that they tend to float and decompose or be eaten by scavengers before they become entrapped in sediments.
About 150 million years ago a feathered creature the size of a crow died and was trapped in sediments. Archeopteryx lithographica is considered to be a missing link between reptiles and birds because it has characteristics of both groups. Archeopteryx had a shoulder girdle, pelvic girdle, and legs similar in shape to modern birds. Its feathers were exactly like those of modern birds except in arrangement; it had paired clavicles to form a furcula (wishbone), a distinctly avian feature; and a foot with three digits forward and one back.
Distinctly reptilian features include: small teeth in jaw sockets; a long tail of 20 vertebrae; six fused vertebrae (vs 11 in birds); free toe bones with claws on all digits; simple ribs with no lateral extensions; abdominal ribs. The bones of the wing and leg were relatively short and stout. Although it had a sternum (breasstbone), there was no keel where flight muscles attach. /maschine-20-software-download-mac-free.html. Thus it was a weak flier or a glider. It weighed about 2000 grams, was probably predatory, and may have been homeothermic.
Is Archeopteryx the ancestor of all modern birds? Most likely, it is on a sideline of bird evolution although closely related to the mainstream of evolution. The Pterosaurs and pterodactyls were once considered ancestors of birds, and there are certain similarities such as pneumatic bones, but the pterosaurs had a wing membrane like bats and no feathers. Birds evolved from a group of small bipedal dinosaurs.
Evolution of Flight
We find a number of animals that are gliders or fliers. Several kinds of reptiles and amphibians developed the ability to fly with horizontal ribs stretched into sails, or with a membrane between the ribs and hand. The Malay frog flattens its body and stretches its limbs to glide. Even one tropical snake parachutes by flattening its body. Also flying squirrels, bats, phalanger (primate), fish, etc. Almost all of these vertebrate forms evolved from an arboreal ancestor (except for flying fish and pterosaurs that jumped off cliffs.)
So it is likely that early reptiles in the bird-to-be stock climbed trees and jumped from them with elongated scales being used to lengthen the glide, scales having evolved a lengthened shape perhaps for protection or insulation as Archeopteryx was probably partially homeothermic. Selection for longer glides would have selected for longer scales/feathers. Archeopteryx probably climbed trees with its claws
Evolution of Homeothermy
Living reptiles are poikilothermic (“cold-blooded”) and so extinct reptiles have been regarded likewise. But both mammals and birds are homeothermic (“warm blooded”), so the transition must have occurred in the later reptiles.
Geologic History
Archeopteryx appeared 140-160 million years ago in the Jurassic Period of the Mesozoic Era.The o jays backstabbers free mp3 download.
About 100 million years ago, birds had evolved into essentially modern-looking forms. Birds probably evolved a carina for flight and flightless birds lost them later.
Roughly 1700 species of birds have been identified by fossil remains. Of this number, about 800 are extant and 900 extinct. So we have been able to identify about 10,000 species, which is perhaps only about 6% of all species that have ever existed- we just don’t have fossil evidence for the rest.The latest estimate of the total number of bird species that have ever lived is 166,000.
Key concepts
Adaptation
Traits
Evolution
From National Science Education Standards: Populations and ecosystems
Introduction
Have you ever thought about the differences between a hummingbird and a hawk? They are both birds and yet they look nothing alike! Why do you think they look so different?
Aside from hawks being very big and hummingbirds being very small, these two birds exhibit other differences. Take their beaks, for example. A hawk’s beak is razor sharp and can tear the flesh off the small animals it eats. A hummingbird’s beak is long and thin, which helps it dip into the flowers to sip nectar (a sugary fluid the hummingbird uses for food). How can two species of bird have beaks that are so different?
Today we will explore how, in different environments with different food types, specific adaptations, or changes in physical features, are more beneficial than others. You will use common household items and seeds, grains and nuts to mimic how birds might use their beaks to pick up food.
Background
When you look at different bird beaks, you’re seeing a great example of something called adaptation. Adaptations are traits that developed to perform a certain function and allow organisms to thrive in their environment. Although one adaptation might be very useful for a certain species in a specific environment, that same trait might not be useful for another species in a different environment.
To understand how adaptations arise, it helps to understand the process of evolution. Populations of plants, animals and other living organisms change over many, many generations. Scientists call this process natural selection. Natural selection happens in a species when individuals that have traits better adapted for their environment survive longer and have more babies. They pass on the beneficial adaptations to their offspring. So, over the generations these adaptive traits become more common in the population until nearly all individuals in a species have the adaptation.
Materials
• Tweezers
• Cotton swab
• Binder clip
• Several different kinds of seeds, grains or nuts that differ in size and shape. It is best if you have a wide range: some that are tiny (for instance, grass seeds or couscous), some that are medium-sized (black-eyed peas or lentils), and some that are larger (almonds, cashews, walnuts or hazelnuts).
• Timer with a second hand or clock
• Dish
• Paper
• Pen or pencil
Preparation
• Dampen the cotton swab slightly with water.
• Set out the three types of 'beaks' (tweezers, binder clip and dampened cotton swab).
• Place the three different sizes of 'food' (small, medium and large seeds, nuts, etc.) in three separate piles (separated by size) on a surface. These three piles will represent different food types; for example, a hazelnut would be a mouse that a hawk might snatch and a grass seed would be a small drop of nectar a hummingbird might eat.
• Place the empty dish within arm's reach.
• Have someone ready to time the activity using the timer.
Procedure
• Pick up the dampened cotton swab.
• Start the timer for 10 seconds. With the “beak,” collect as many pieces of the biggest 'food' as you can and place the pieces in the empty dish.
• How many were you able to collect? (Note this on the paper.)
• Return any pieces of the big food from the dish to their pile.
• Keeping the cotton swab damp, repeat the 10-second 'feeding' with the medium-sized food type.
• How many pieces of food could you collect in the dish? Note this on the paper and return the pieces to their pile.
• Now try the damp cotton swab on the smallest type of food for 10 seconds.
• How many pieces were you able to get into the dish? Record this number and carefully place the food back into its pile.
• Repeat these steps with the other two types of beaks—the binder clip and the tweezers—recording the results as you go.
• Which beak did the best at feeding on which foods?
• If only the smallest food were available, which birds in the environment would likely have the most success surviving and reproducing? Would it be the birds with the tweezer 'beaks,' the cotton swab 'beaks,' or the birds with the binder-clip 'beaks'? What if only the biggest food type were available? How would the tweezer 'beak' do if the bird were eating nectar instead of seeds?
• What might happen to the different types of food if one type of bird were to become more common?
Read on for observations, results and more resources.
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Observations and results
Different birds have very different beaks. Over many generations, hummingbirds have evolved beaks that are long, thin and well adapted to reach into flowering plants and extract nectar. Hawks, on the other hand, have evolved beaks that allow them to tear meat and eat the prey found in their environment.
How did these two types of birds develop their different types of beaks? Natural selection and evolution usually happen very slowly. For hawks, individual birds that had sharp beaks were better able to catch and eat enough food to survive and reproduce in their environment and so, over time, this trait became common in the hawk population. The same thing goes for early hummingbirds trying to reach deep into flowers for nourishing nectar.
If the environment were to change, how do you think it would affect which individuals are better able to gather food, survive and reproduce? Could this affect the kind of beak that becomes common in a population and a species? The famous scientist Charles Darwin, who wrote about evolution and natural selection, based some of his ideas on observations of the differently shaped beaks of finches he saw eating various foods on several islands.
Of course adaptation isn't limited to birds and their beaks. Examples of adaptation can be found in all living organisms. For example, if you compared the ear of an extinct woolly mammoth with that of an African elephant, you would see that an elephant's ear is much bigger! Why is this so? To understand why a creature is the way it is, you first must understand the environment in which it lives. Is it warm or cold where elephants live? How about woolly mammoths' old environment?
As it turns out, having big ears increases the surface area of an elephant's body. It is thought that this might help elephants to cool down in the heat. But because woolly mammoths lived in a cooler environment, would it be beneficial for them to have big ears or small ones?
Some adaptations can be quite strange looking. For instance, have you ever seen a picture of a star-nosed mole? It lives in dark tunnels underground. It is blind and senses its environment with a big, fleshy nose that looks just like a star. With this special sensitive smeller, star-nosed moles can navigate their dark, underground world. A star-shaped nose would be a strange adaptation aboveground where there's light and it's easy to see. But in dark underground tunnels, this fancy nose is quite a useful adaptation!
Imation superdisk driver for mac os x. Share your beak adaptation observations and results! Leave a comment below or share your photos and feedback on Scientific American's Facebook page.
Cleanup
Put away the 'beaks,' the seeds, and the rest of the materials.
More to explore
'Beaks, Songs and Speciation' from Scientific American
'Darwin's Living Legacy--Evolutionary Theory 150 Years Later' from Scientific American
Animal Adaptation game from Earth Day Canada's EcoKids
'Wild Animals' from Earth's Kids
How Do Animals Adapt? The Science of Living Things by Bobbie Kalman, ages 4–8
Darwin and Evolution for Kids: His Life and Ideas with 21 Activities by Kristan Lawson, ages 9–12
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Bird Evolution Pro Cracked
What you'll need
• Large shallow pan or tray with edges
• Flour
• Dry pudding mix, dry drink mix or cocoa powder or another powder that is a different color
• Roundish nuts, seeds and/or small fruits (such as raisins, almonds, peanut halves, cherries, and so on)
• Sifter or sieve