WEIT Chap4
The Geography of Life
The distribution of species around the world is surprisingly specific. To understand the distribution of species, we must take in account the movement of continents, for example Gondwana which 40 million years ago was a super-continent that joined South America and Australia.
In each place inhabitants live because they are adapted to their land. But also huge changes occurred all along the years since the very first species, due to those geological relations. We name it the biogeography.
Nowadays, we justify biogeography with two important developments:
- Molecular taxonomy is an accumulation of DNA informations that can tell us the evolutionnary relationship between species and also the approximate times when they diverged from their common ancestors. The change of DNA sequences shapes helps us estimating the divergence times of species in poor fossil records.
- Continental drift, which is the past movements of continents.
We'll notice that natural selection is different on continents and on islands. Every theory-most of them are Darwin's-developed in our chapter contradicts the ideas of creationism, and proves that evolution can be justified by natural selection.
== Pierre.brawand 19 avril 2011 à 22:45 (CEST)
Continents
What is convergent evolution?
Convergent evolution explains how two different species that live in similar habitats can look and behave in the same way , because of similar selection pressures from their environment.
Convergent evolution proves three evolutionary theories:
- Common ancestry, which explains the features shared (or not shared) between two infraclasses of mammals.
- Speciation is the process by which a common ancestor can generate several different offsprings.
- Natural selection expresses how each spieces adapted to its own environment.
How can similar species live in similar habitats but on different continents?
The continental drift explains this particularity. Million years ago, the continents weren't situated as they're now.It was attach into one landmass. Which means that some place in our actual continents contain the same habitats be the descendants of earlier species that lived in the same place. The organisms continued to evolve even if theybut are now in completely different places on earth. It explains the fact that species or plant living in one area should weren't living in the same place anymore. The habitats staid similar in different continents, for example Africa and South America were part of the Gondwana, one continent. To be precise the organisms disperse and colonize a new area and finally can evolve. That's why there should be descendants. The common ancestor is directly link to the explanation of descendants of similar species in similar environment.
Islands
Darwin realized that islands play a very important role in the theory of evolution. Before we got to this evidence, we have to distinguish two types of islands: the continental and the oceanic ones.
What is a continental island?
It's an island which was once connected to a continent but was separated from it either with the increase of sea levels which formed a barrier or by moving continental plates. Examples: Madagascar, Great Britain.
What is an oceanic island?
This kind of island was never connected to a any continent. They came out of the seafloor "benefit of life", as for instance growing volcanoes. Examples: Hawaiian Islands, Galàpagos Archipelago.
What are the main differences between continental and oceanic islands?
There are two "sets" of facts about oceanic islands:
• Many groups of native species that we can observe on continents and continental islands, which are absent on oceanic islands.
Darwin "noticed" that this was hard to explain from a creationist point of view, because the question would be why would a creator put some species on certain islands and not on others? Moreover, why should the way in which the island was created make a difference?
Particularly, on oceanic islands live small flowering plants that can evolve into trees.
Moreover, animals such as mammals, amphibians, freshwater fish, and reptiles, introduced on oceanic islands by humans manage well, so well, that after a certain period of time, they often take over, wiping out native species. For instance, the cane toad of Hawaii (native to tropical America) was introduced in 1932 to control beetles on sugar cane plantations. Now, it has became a pest, because they are too much and they kill the other animals which take them for a meal, such as cats and dogs. This exemple shows that the introduction by humans of non-native species on oceanic islands diplace and destroy the native species.
• The groups that are found in oceanic islands are replete with many similar species
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I've made some corrections. Don't forget to mention some EXAMPLES to illustrate your points.Pierre.brawand 25 mai 2011 à 22:23 (CEST)
AllanP 5 avril 2011 à 14:37 (CEST)
EstelleV 5 avril 2011 à 14:49 (CEST)
HéloiseD 7 avril 2011 à 11:09 (CEST)
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