Thanks Zoe. From the link: "In the summer of 1995, at least 15 iguanas survived Hurricane Marilyn on a raft of uprooted trees. They rode the high seas for a month before colonizing the Caribbean island, Anguilla. These few individuals were perhaps the first of their species, Iguana iguana, to reach the island. If there were other intrepid Iguana iguana colonizers of Anguilla, they died out before humans could record their presence.zoegirl wrote:Danny,
grading exams right now and will provide some ideas of merit (hopefully without typos and on topic).
There have been multiple studies showing the possibilities of genetic variation within a population. Of mutations, there are plenty of examples of mutations, most harmful, plenty neutral, and some beneficial depending on the environment. For instance, the mutation that causes sickle cell anemia is beneficial in those areas with malaria. Cystic fibrosis is another possible mutation that provides some resistance in some environmental areas.
These sorts of examples, however, rarely would lead to speciation in themselves.
Speciation occurs in two main pathways: allopatric speciation and sympatric speciation. In allopatric speciation, two groups of the same species are geographically isolated and thus reproductive isolation occurs automatically. The idea then is that because these two sub-populations cannot interbreed, each group is accumulating different variations and mutations. Conceivably, then, if the two populations were to come together at some point, they would be sufficiently different that they cannot interbreed and produce fertile offspring (the hallmark of biological speciation). This can happen several potential ways (perhaps mate choice plays a significant role, perhaps the sperm and eggs cells no longer recognize each other, perhaps the timing of mating is off, or mating behaviors).
For allopatric speication, the best evidence lies on ring species, where a population, around geographic barrier, changes in subtle ways and the two ends of the "ring" around the barrier no longer interbreeds (mind you, this doesn't necessarily mean that they can't, just that they won't). In this instance, the two ends represent the best evidence of reproductive isolation and speciation. Now...the big issue, however, is that these difference are still relatively miniscule in the grand idea of evolution. In the case of salamanders, notice that the differences lie in the coloration and the recognition of the genders.
The other main method is called sympatric, where something happens to one group within the same geographic area that causes that subset to be reproductively isolated, either the genome of the cells has doubled, mating choice, mating behaviors, or some other factor where the two populations cannot interbreed.
Best examples of these cases involve those factors above or plants that have gone polyploid, with several sets of their genomes, that prevents them from pollinating a flower of the previous genome.
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Anyhoo, just some thoughts to generate more conversation....
"Evolutionary biologists would love to know what happens next: will the colonizing iguanas die out, will they survive and change only slightly, or will they become reproductively isolated from other Iguana iguana and become a new species? We could be watching the first steps of an allopatric speciation event, but in such a short time we can't be sure. "
What actual evidence is there to suggest these Iguana might become a new species if they are reproductively isolated from other Iguana? The link says "we have several plausible models of how speciation occurs - but of course, it's hard for us to get an eye-witness account of a natural speciation event since most of these events happened in the distant past. We can figure out that speciation events happened and often when they happened, but it's more difficult to figure out how they happened. However, we can use our models of speciation to make predictions and then check these predictions against our observations of the natural world and the outcomes of experiments. As an example, we'll examine some evidence relevant to the allopatric speciation model. Scientists have found a lot of evidence that is consistent with allopatric speciation being a common way that new species form:
"Geographic patterns: If allopatric speciation happens, we'd predict that populations of the same species in different geographic locations would be genetically different. There are abundant observations suggesting that this is often true. For example, many species exhibit regional “varieties” that are slightly different genetically and in appearance, as in the case of the Northern Spotted Owl and the Mexican Spotted Owl. Also, ring species are convincing examples of how genetic differences may arise through reduced gene flow and geographic distance."
Now the pictures of the Northern Spotted and Mexican Spotted Owls are just different looking Owls. I'm asuming these 'differences' are simply 'adaptive' differences and have nothing whatsoever to do with a full transition from a species to another. If these subtle differences are the 'start of something bigger' then what, roughly, is this 'bigger' something? When does the Owl become a new species, Zoe?
"Experimental results: The first steps of speciation have been produced in several laboratory experiments involving “geographic” isolation. For example, Diane Dodd took fruit flies from a single population and divided them into separate populations living in different cages to simulate geographic isolation. Half of the populations lived on maltose-based food, and the other populations lived on starch-based foods. After many generations, the flies were tested to see which flies they preferred to mate with. Dodd found that some reproductive isolation had occurred as a result of the geographic isolation and selection in the different environments: “maltose flies” preferred other “maltose flies,” and “starch flies” preferred other “starch flies.” Although, we can't be sure, these preference differences probably existed because selection for using different food sources also affected certain genes involved in reproductive behavior. This is the sort of result we'd expect, if allopatric speciation were a typical mode of speciation."
Reproductive isolation seems rather inevitable given the separation and dietry changes involved in the experiment, but what has ruled out these sub-populations of same species from 'inter' breeding, Zoe, in case I missed it? Allopatric speciation appears a mere theoretical stepping stone on the path to spec iation.
Dan
You'd hate my accent Zoe, but I know I'd love yours...
Lol, I hadn't been keeping up with this thread earlier, so I just saw this. Why would Zoe not like your accent? I know the accents vary a lot, depending on the area, and while I love some accents there, others I don't so much. Have you seen that XBOX game Fable? A lot of the accents on there are not very pleasant. You can marry someone in that game, and I picked the same person out twice! I wasn't trying to (her face is hidden), but the accent she has (um . . . you play a guy) is very nice, I guess it would be considered upper class. She says kind-of snooty things sometimes too, LOL. Anyway, you would like our accent?
