Life: The Science of Biology
11th Edition
ISBN: 9781319010164
Author: David E. Sadava, David M. Hillis, H. Craig Heller, Sally D. Hacker
Publisher: W. H. Freeman
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Chapter 22.3, Problem 3R
Summary Introduction
To review:
a. Plot the graph on the basis of given data.
b. Analyze whether the data and the hypothesis show consistency in describing that the
c. Determine whether the speciation by geographical isolation will continuously occur in Darwin’s finches when no new islands are created in the Galapagos archipelago.
Given:
It is given that in the past 3 million years, the species of Darwin’s finches have evolved on the islands of the Galapagos archipelago. The various speciation events are determined by the molecular clock analysis. The ages of the various Galapagos islands are determined by dating rock samples by geological techniques.
The table given below shows that, in the past 4 million years, the number of species of Darwin’s finches and the number of islands that existed in the archipelago at several times.
Introduction:
Darwin was the first scientist to study the species of finches, which were found in the islands of the Galapagos archipelago. These finches are one of the most famous examples of the allotropic speciation. The species differ from one another due to their environmental conditions. The various speciation events in phylogeny are determined by the molecular clock analysis. To determine the age of the various Galapagos islands, various geological techniques are applied.
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A phylogeny of 5 species of birds is shown below with values for three different
phenotypic traits for each species shown in the rows above (e.g., species A has a
wide, long beak and red tail, while species C has a narrow, very long beak and a
green tail). DNA sequencing of tissue samples found buried in a freezer confirms that
an extremely rare and reclusive species (D) is a sister species of E, but preserved
samples of entire individuals of species D have been lost, the original collector of the
samples has passed away, and no individuals of species D have subsequently been
seen in the wild. In other words, we have no idea what species D looks like.
Employing the principle of parsimony, which of the following conclusions is MOST
appropriate for the likely values of these traits in species D?
Beak width:
wide
wide
??
narrow
narrow
Beak length:
long
long
??
long
very long
Tail colour:
red
blue
??
green
green
A
E
a) wide beak, very long beak, green tail
b) narrow beak, long beak, all…
Indicate the order in which the following steps would take place to result in Allopatric Speciation
[enter 1 for the first step, 2 for the second, etc; write only the number -- no words, no spaces]
The two groups develop reproductive isolating mechanisms so that they no longer interbreed.
Interbreeding populations connected via gene flow occur across a range.
The two separate groups adapt to their new environments.
Some sort of physical barrier develops to split the once contiguous population(s) into two separate groups
If they come back together, any hybrids formed are less fit.
The Galapagos Islands are inhabited by organisms that are similar to the organisms on the mainland of South America but they have specific characteristics that set them apart.
One of the most famous groups of organisms that has been studied has been the finches. There are at least 13 different species of ground finches found throughout the Galapagos, most likely all coming from a common ancestor that arrived from the mainland of South America in the distant past.
Which of the following explanation accurately explains the variation of finches on the Galapagos Islands?
Question options:
Divergent evolution has occurred because the finches all share characteristics that are similar to the common ancestor but differ because each species occupies different niches that require different characteristics to survive.
Convergent evolution has occurred because the finches do not share characteristics that are similar to the common ancestor and differ because each species occupies…
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Life: The Science of Biology
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