Ecology 13 - BIOLOGY JUNCTION

Darwin Events AP

Darwin Day Events

	Darwin Trivia Game Questions: When was Charles Darwin born? What was the name of the ship on which he was the naturalist? What islands were the main source of his findings? What was the complete title of his original book? What famous American president shares the same birth date? How long was his voyage scheduled to last?
“Darwin Trivia Game”

The Galapagos Islands
Adaptations of the Galapagos Finches
	The “Missing” Link
Darwin “Fortune” CookiesDarwin only took with him a simple microscope on the Beagle to observe microscopic organisms. When Darwin was sixteen, his father took him out of school because he felt that Charles was wasting time, and he sent him to Edinburgh University. Charles Darwin was born on February 12, 1809 in Shrewsbury, England. Darwin transferred to Cambridge to study the theology of the Church of England wanting to become an Anglican priest.
	“Changes From Within” Lyrics & music by: Nicole Higham Sung by: Brett Rabeneck, Bradley Wise, & Carrie Steves
Changes From Within Verse 1: Once I read a book, and this is what it said, That the Origin of Species, came from Darwin’s head. He studied all the life, from some islands of the west, and distinguished adaptations, and who survived the best. He was much more successful than scientists before, And his use of common logic, convinced them even more.Chorus: And it read: You take two monkeys, and you put them to the test, Check out their different habitats, and see nature at its best. According to Darwin, a species can begin, From an individual that changes from within. Verse 2: Natural selection, a theory he derived Sys the strongest just get stronger while the weakest don’t survive. So he published his ideas, he was sort of in a bind There was another man, who wasn’t far behind. Their ideas were the same, their timing coincided, But Darwin finished first, and in the glory he delighted. Verse 3: About all of his theory, that I choose to sing about Some people think it’s true, while others have their doubts. To me it’s quite reasonable, to have either point of view But think about it carefully, no matter what you do. For starters think about that which, you really do believe For me this includes a little story about Adam and Eve. 2nd Chorus: I appreciate your patience, as an audience you’ve been kind I bet this kind of song, wasn’t what you had in mind I’ll leave you with this list of things that really matter most, There’s life and love and happiness, but first the Holy Ghost.

Burying a Darwin Day Time Capsule
	BACK

Evolution Quiz 2

Name:

Theory of Evolution

True/False

Indicate whether the sentence or statement is true or false.

Within populations, divergence leads to speciation.

Genetic similarities between species is evidence of common ancestry.

Shared common traits are a clue to common ancestry.

The pelvic (hip) bones of a snake are vestigial organs.

Darwin would have explained giraffes having long necks as a trait that allowed the fittest to survive.

Darwin was the first scientist to propose that living things evolve.

Most organisms produce more offspring than can possibly survive.

Multiple Choice

Identify the letter of the choice that best completes the statement or answers the question.

The change that results in a species being better suited to its environment is known as

a.	reproduction.	c.	adaptation.
b.	variation.	d.	selection.

New species form

a.	when ecological races diverge more and more.
b.	because of natural selection.
c.	when members of the same species become adapted to new environments.
d.	All of the above

10.

Natural selection causes

a.	changes in the environment.
b.	plants and animals to produce more offspring than can survive.
c.	changes in the frequency of certain alleles in a population.
d.	All of the above

11.

The theory of evolution predicts that

a.	closely related species will show similarities in nucleotide sequences.
b.	if species have changed over time, their genes should have changed.
c.	closely related species will show similarities in amino acid sequences.
d.	All of the above

12.

Mutations are important to the understanding of evolution because they increase the

a.	value of natural selection of animals	c.	use of organs in animals
b.	production of variations in animals	d.	differentiation of animal embryos

13.

The human appendix is an example of a structure that is

a.	homologous	c.	a variation
b.	acquired	d.	vestigial

14.

The modern theory of evolution supports the concept that inheritable variations within a species may result from

a.	recombination of genes during fertilization	c.	changes in autosomes
b.	use and disuse	d.	acquired characteristics

15.

The occurrence of the same blood protein in a group of species provides evidence that these species

a.	evolved in the same habitat	c.	descended from a common ancestor
b.	evolved in different habitats	d.	descended from different ancestors

16.

According to modern ideas of evolution, the fittest individuals are those that

a.	are stronger	c.	are best adapted to their environment
b.	move faster	d.	have the largest brains

17.

After all the grass was eaten, early horses had to stretch for food on trees. Consequently these horses developed longer legs and necks. This statement is consistent with the views of

a.	Darwin only	c.	both men
b.	Lamarck only	d.	neither man

18.

It has been observed that white mice live in areas with white soil and brown mice live in areas with dark soil. Which statement best describes the situation?

a.	All organisms tend to increase in numbers at a geometric rate
b.	In each generation, the number of individuals in a species remains constant
c.	There is a struggle to survive
d.	Variations are passed to offspring. Favorable variations aid survival and reproduction

19.

Squirrels on the north rim of the Grand Canyon differ in many respects from those on the south rim (the river prevents passage from one to the other). Which statement best describes the situation?

a.	In each generation, the number of individuals in a species remains constant
b.	Variations, which may be inherited, are found among individuals in each species
c.	The inheritance of favorable variations may eventually lead to the development of a new species
d.	All organisms tend to increase in numbers at a geometric rate

20.

The idea of the survival of the fittest is part of the explanation of the theory of evolution called

a.	use and disuse	c.	natural selection
b.	inheritance of acquired characteristics	d.	continuity of the germ plasm

21.

The process of change with time during successive generations among living things is

a.	evolution	c.	extinction
b.	law of use and disuse	d.	none of these

22.

Which of the following is an example of a morphological adaptation?

a.	hibernation	c.	an enzyme
b.	crab’s claws	d.	migration

23.

Competition between individuals of a species occurs primarily because of

a.	a scarcity of resources	c.	low birth rates
b.	advantageous variations	d.	acquired characteristics

24.

The book, Origin of the Species, was written by

a.	Charles Darwin	c.	Jean Baptiste de Lamarck
b.	Alfred Russell Wallace	d.	Thomas Malthus

25.

Variation is most important to Darwin’s theory of evolution because it

a.	provides material on which natural selection acts
b.	allows individuals to explore new habitats
c.	minimizes competition within a species
d.	allows individuals to make the best use of limited resources

26.

Evolutionary change is a(n)

a.	assumption	c.	collection of hypotheses
b.	fact	d.	debatable opinion

27.

Unlike Lamarck’s theory of evolution, Darwin’s theory included the idea

a.	that species change over time
b.	of natural selection
c.	that acquired characteristics are inherited
d.	that organisms change by a desire to better themselves

28.

According to Darwin, the process in which organisms best suited to their environment survive and reproduce is called

a.	convergent evolution	c.	natural selection
b.	divergent evolution	d.	artificial selection

29.

Genes that are active during the early development of fishes, birds, and humans are the shared heritage from a(an)

a.	fish	c.	common ancestor
b.	bird	d.	early human

30.

Darwin began to formulate his concept of evolution by natural selection after

a.	experimentation with animals.
b.	observations of many species and their geographical location.
c.	reading the writings of Wallace.
d.	agreeing with Lamarck about the driving force behind evolution.

31.

Charles Lyell’s work suggests that

a.	Earth is many millions of years old.
b.	Earth is several thousand years old.
c.	all fossils were formed in the last 1000 years.
d.	all rocks on Earth contain fossils.

32.

Which is a major concept included in Lamarck’s theory of evolution?

a.	Change is the result of survival of the fittest.
b.	Body structure can change according to the actions of the organism.
c.	Population size decreases the rate of evolution.
d.	Artificial selection is the basis for evolution.

33.

An adaptation is an inherited characteristic that can be

a.	physical or behavioral.
b.	physical or geographical.
c.	acquired during the organism’s lifetime.
d.	the result of artificial selection.

34.

The hypothesis that species change over time by natural selection was proposed by

a.	James Hutton.
b.	Jean-Baptiste Lamarck.
c.	Thomas Malthus.
d.	Charles Darwin.

35.

Charles Darwin’s theory of evolution explains all of the following EXCEPT

a.	how species become extinct.
b.	how inherited traits are passed from parent to offspring.
c.	how species change over time.
d.	how evolution takes place in the natural world.

Ecosystem Quiz

Name:

Ecosystem Interactions

True/False

Indicate whether the sentence or statement is true or false.

Freshwater habitats are independent of terrestrial habitats.

An ecosystem consists of biotic and abiotic factors.

Clearing a forest would reduce the amount of energy available to the consumers.

While an understanding of the interactions between organisms and their environment was very important to early hunter and gatherer humans, it is even more important today because humans are having significant effects on the environment.

Cutting down trees in a forest alters the habitat of the organisms living in the forest.

An organism’s niche includes its habitat.

Multiple Choice

Identify the letter of the choice that best completes the statement or answers the question.

Abiotic factors affect an ecosystem by all of these except the

a.	quantity and quality of water	c.	nitrogen-fixing bacteria
b.	amount of light available	d.	quantity of minerals

The most important single factor affecting the biosphere is

a.	solar radiation	c.	precipitation
b.	the biotic community	d.	wind

Which of the following is the smallest ecological unit?

a.	a community	c.	a population
b.	a biome	d.	an ecosystem

10.

Collectively, physical factors such as light, temperature, and moisture that affect an organism’s life and survival are called the

a.	biotic environment	c.	ecosystem
b.	abiotic environment	d.	niche

11.

The rate of photosynthesis carried on by plants living in a body of water depends upon the

a.	oxygen content of the water	c.	amount of light that penetrates the water
b.	nitrogen content of the water	d.	elevation of the body of water

12.

Which of the following would not be included in a description of an organism’s niche?

a.	its trophic level	c.	its color
b.	the humidity it prefers	d.	when it reproduces

13.

Ecology is the study of the interaction of living organisms

a.	with each other and their habitat.
b.	and their communities.
c.	with each other and their physical environment.
d.	and the food they eat.

14.

The destruction of the ozone layer may be responsible for an increase in

a.	cataracts.	c.	cancer of the retina.
b.	melanoma.	d.	All of the above

15.

Ozone in the atmosphere

a.	leads to formation of acid precipitation.
b.	combines readily with water vapor.
c.	absorbs harmful radiation from the sun.
d.	All of the above

16.

Ecological models are useful for

a.	making predictions about future ecological changes.
b.	testing predictions about future ecological changes.
c.	evaluating proposed solutions to environmental problems.
d.	All of the above

17.

The physical location of an ecosystem in which a given species lives is called a

a.	habitat.	c.	community.
b.	tropical level.	d.	food zone.

18.

Which of the following is not an adaptation for avoiding unfavorable conditions?

a.	acclimation	c.	dormancy
b.	body temperature regulation	d.	migration

19.

Which of the following would not be included in a description of an organism’s niche?

a.	its trophic level
b.	the humidity and temperature it prefers
c.	its number of chromosomes
d.	when it reproduces

DNA Quiz 2

Name:

Mendel’s Genetics

True/False

Indicate whether the sentence or statement is true or false.

The law of segregation states that two or more pairs of alleles separate independently of one

another during gamete formation.

Cells that contain a single set of chromosomes are said to be haploid (N).

Crosses involving a study of one gene are called monohybrid crosses.

A dominant allele masks the effect of a recessive allele.

Mendel concluded that the patterns of inheritance are determined entirely by the environment.

A Punnett square represents the phenotype of an organism.

The physical appearance of an individual organism, as determined by the genes it has inherited from its parents, is called its genotype.

Individuals must exhibit a trait in order for it to appear in their offspring.

In codominance, two alleles are expressed at the same time.

Multiple Choice

Identify the letter of the choice that best completes the statement or answers the question.

10.

In fruit flies, the gene for long wings, L, is dominant to the gene for short wings, l. A heterozygous long wing male and a short wing female produce many offspring. The possible genotype(s) among the long-winged offspring is (are)

a.	Ll only	c.	LL and Ll
b.	ll only	d.	Ll and ll.

11.

In drosophila, curled wing is recessive to straight wing. If a homozygous straight-winged fly is mated with a curled-wing fly, how many different phenotypes will be produced?

a.	1	c.	3
b.	2	d.	4

12.

If an organism has two identical alleles for a trait, it is

a.	homozygous.	c.	homozygous dominant.
b.	heterozygous.	d.	heterozygous recessive.

13.

Alleles for the same trait separate during

a.	fertilization.	c.	meiosis I.
b.	mitosis.	d.	meiosis II.

14.

The inheritance of genes that determine one trait (hair color) is not affected by the inheritance of genes that control another trait (tongue rolling). Which of Mendel’s rules apply to the above statement?

a.	the rule of dominance	c.	the rule of independent assortment
b.	the rule of segregation

15.

In fruit flies, the gene for straight wings, C, is dominant to the gene for curly wings, c. Two flies, when bred, produced 98 straight-winged and 102 curly-winged offspring. What was the genotype of the curly-winged offspring?

a.	CC	c.	cc
b.	Cc	d.	straight-winged

16.

All homozygous individuals have:

a.	the same genotype	c.	two alleles exactly alike
b.	the same phenotype	d.	a hybrid genotype.

17.

If a family has three daughters, the probability that the next child will be a girl is

a.	1/4.	c.	1/2.
b.	1/3.	d.	3/4.

18.

Mendel explained the reappearance of recessive traits in the F2 generation in his principle of

a.	independent assortment.	c.	dominance.
b.	segregation.	d.	blending inheritance.

19.

If any offspring from a test cross show a recessive phenotype, the parent with the unknown genotype is

a.	heterozygous dominant.	c.	heterozygous recessive.
b.	homozygous dominant.	d.	homozygous recessive.

20.

A homozygous black rabbit is mated with a heterozygous rabbit. If black is dominant over white, they should produce:

a.	all white rabbits
b.	all black rabbits
c.	half black and half white rabbits
d.	one pure dominant and heterozygous individual.

21.

Mendel’s finding that the inheritance of one trait had no effect on the inheritance of another became known as the

a.	law of dominance.	c.	law of segregation.
b.	law of universal inheritance.	d.	law of independent assortment.

22.

The phenotype of an organism

a.	represents its genetic composition.
b.	reflects all the traits that are actually expressed.
c.	occurs only in dominant pure organisms.
d.	cannot be seen.

23.

In humans the ability to taste PTC paper is dominant to non-tasting and hair color shows incomplete dominance (Dark hair x blond hair => brown hair). A brown haired man who cannot taste PTC paper marries a woman with brown hair and who can taste PTC paper. Their first child had brown hair and could not taste PTC paper. What are the chances that their next child will be a brown taster?

a.	1/4	c.	1/8
b.	1/2	d.	3/8

24.

Two long-furred cats were mated and produced 25 percent short-furred cats. The parents were probably:

a.	pure recessive individuals
b.	pure dominant individuals
c.	heterozygous individuals
d.	one pure dominant and heterozygous individual.

25.

When certain types of black roosters are crossed with white hens, speckled chickens result. These chickens, which have a mixture of black and white feathers, show

a.	dominance.	c.	polygenes.
b.	codominance.	d.	recessive

26.

codominance : both traits are displayed::

a.	probability : crosses	c.	homozygous : alleles are same
b.	heterozygous : alleles are the same	d.	Punnett square : chromosomes combine

27.

A Punnett square is used to determine the

a.	probable outcome of a cross.	c.	result of segregation.
b.	actual outcome of a cross.	d.	result of meiosis I.

28.

If a family has four sons, the probability that the next child will be a boy is

a.	1/2.	c.	1/5.
b.	1/4.	d.	4/5.

29.

Suppose that on Mars green creatures are dominant over red creatures and that 3-eyes are recessive to 4-eyes. Assume that inheritance of traits on Mars occurs the same way as on Earth. A cross between 2 GgEe Martians would result in what fraction of the offspring being red-3-eyed Martians?

a.	1/16	c.	4/16
b.	2/16	d.	9/16

30.

The fact that a man and woman, both of whom have wavy hair, could have children with curly hair, wavy hair, or straight hair is best explained by the phenomenon called

a.	codominance.
b.	dominance.
c.	incomplete dominance.
d.	None of the above; this would be impossible.

31.

A Punnett square does not show the

a.	genetic makeup of the eggs.	c.	genetic makeup of the sperm.
b.	probable outcome of a cross.	d.	actual outcome of a cross.

32.

The “father” of genetics was

a.	T. A. Knight.	c.	Gregor Mendel.
b.	Dr. Judd.	d.	None of the above

33.

What is the probability that the offspring of a homozygous dominant individual and a homozygous recessive individual will exhibit the dominant phenotype?

a.	0.25	c.	0.66
b.	0.5	d.	1.0

34.

Which of the following is the designation for Mendel’s original pure strains of plants?

a.	P	c.	F1
b.	P1	d.	F2

35.

F2 : F1 ::

a.	P : F1	c.	F1 : P
b.	F1 : F2	d.	dominant trait : recessive trait

36.

The passing of traits from parents to offspring is called

a.	genetics.	c.	development.
b.	heredity.	d.	maturation.

37.

homozygous : heterozygous ::

a.	heterozygous : Bb	c.	dominant : recessive
b.	probability : predicting chances	d.	homozygous : BB

38.

The phenotype of an organism

a.	represents its genetic composition.
b.	reflects all the traits that are actually expressed.
c.	occurs only in dominant pure organisms.
d.	cannot be seen.

39.

If an individual has two recessive alleles for the same trait, the individual is said to be

a.	homozygous for the trait.	c.	heterozygous for the trait.
b.	haploid for the trait.	d.	mutated.

40.

Tallness (T) is dominant to shortness (t) in pea plants. Which of the following represents a genotype of a pea plant that is heterozygous for tallness?

a.	T	c.	Tt
b.	TT	d.	tt

41.

How many different phenotypes can be produced by a pair of codominant alleles?

a.	1	c.	3
b.	2	d.	4

42.

Refer to the illustration above. The genotype represented by the cell labeled “2” is

a.	GgIi.	c.	GI.
b.	GGIi.	d.	Gi.

In rabbits, black fur (B) is dominant to brown fur (b). Consider the following cross between two rabbits.

43.

Refer to the illustration above. Both of the parents in the cross are

a.	black.	c.	homozygous dominant.
b.	brown.	d.	homozygous recessive.

44.

Refer to the illustration above. The genotypic ratio of the F1 generation would be

a.	1:1.	c.	1:3.
b.	3:1.	d.	1:2:1.

45.

In pea plants, yellow seeds are dominant over green seeds. What would be the expected genotype ratio in a cross between a plant with green seeds and a plant that is heterozygous for seed color?

a.	1:3	c.	4:1
b.	1:2:1	d.	1:1

Charles Robert Darwin

Darwin and Evolution

History of Evolution:

Plato & Aristotle believed species were fixed & could be arranged according to their complexity
In the mid eighteenth century, Carolus Linnaeus developed a system of classification that described the fixed features of species and revealed God’s divine plan
George Cuvier, in the eighteenth century to explain changes in the fossil record, proposed that a whole series of catastrophes (extinctions) and re-populations from other regions had occurred giving the appearance of change over time
Prior to Darwin, it was thought that the world was young & species did not change
In 1831, at the age of 22, Charles Darwin accepted a naturalist position aboard the ship HMS Beagle & began a five-year voyage around the world
Darwin’s many observations led him to the idea that species slowly change

C. Late Eighteenth Century Contributions

1.
a. George Cuvier (1769-1832), a distinguished French vertebrate zoologist, was the first to use
comparative anatomy to develop a system of classifying animals.
b. He founded the science of paleontology, the study of fossils, and suggested that a single fossil bone
was all he needed to deduce the entire anatomy of an animal.
c. .
d. Cuvier was also a staunch advocate of special creation and fixity of species; this presented him with
a serious problem when geological evidence of a particular region showed a succession of life forms
in the earth’s strata.
e. Catastrophism is the term applied to Cuvier’s explanation of fossil history, the belief held by Cuvier
that catastrophic extinctions occurred, after which repopulation of surviving species took place,
giving an appearance of change through time.
2. Lamarck’s Theory of Evolution
a. Lamarck (1744-1829) was first to state that descent with modification occurs and that organisms
become adapted to their environments.
b. Lamarck was an invertebrate zoologist and held ideas different from Cuvier.
c. Unfortunately, he saw the drive for perfection as inherent in all living things.
d. Inheritance of acquired characteristics was the Lamarckian belief that organisms become adapted to
their environment during their lifetime and pass on these adaptations to their offspring.
e. He believed the increasing complexity of life forms in strata is the result of a natural tendency toward
perfection inherent in all living things.
f. Experiments fail to uphold Lamarck’s inheritance of acquired characteristics; molecular mechanism of
inheritance show phenotypic changes do not result in genetic changes that can be passed on.

18.2. Darwin’s Theory of Evolution

A. Darwin’s Background

1. His nature was too sensitive to pursue medicine; he attended divinity school at Cambridge.
2. He attended biology and geology lectures and was tutored by the Reverend John Henslow.
3. Henslow arranged his trip on the HMS Beagle; Darwin was an observant student of nature.

B. Geology and Fossils

1. His study of geology and fossils caused him to concur with Lyell that the observed massive geological
changes were caused by slow, continuous processes.
a. In his book Principles of Geology, Charles Lyell presented arguments to support a theory of geological
change proposed by James Hutton.
b. In contrast to catastrophists, Hutton proposed that the earth was subject to slow but continuous
geological processes (e.g., erosion and uplifting) that occur at a uniform rate.
c. Darwin took Lyell’s book on the voyage of the HMS Beagle.
2. Fossil Evidence
a. The Argentina coast had raised beaches; he witnessed earthquakes raising the earth several feet.
b. Marine shells occurred far inland and at great heights in the Andes.
c. Fossils of huge sloths and armadillo-like animals suggested modern forms were descended from
extinct forms with change over time.

C. Biogeography

1. Biogeography is the study of the geographic distribution of life forms on earth.
2. Darwin’s comparison of the animals of South America and the Galapagos Islands caused him to conclude
that adaptation to the environment can cause diversification, including origin of new species.
3. Patagonian hares replaced rabbits in the South American grasslands.
4. The greater rhea found in the north was replaced by the lesser rhea in the south.
5. The Galapagos Islands
a. These volcanic islands off the South American coast had fewer types of organisms.
b. Island species varied from the mainland species, and from island-to-island.
c. Each island had a variation of tortoise; long and short necked tortoises correlated with different vegetation.
d. Darwin’s Finches
1) Finches on the Galapagos Islands resembled a mainland finch but there were more types.
2) Galapagos finch species varied by nesting site, beak size, and eating habits.
3) One unusual finch used a twig or thorn to pry out insects, a job normally done by a woodpecker.
4) The finches posed questions to Darwin: did they descend from one mainland ancestor, did islands
allow isolated populations to evolve independently, and could present-day species have resulted
from changes occurring in each isolated population?

D. Natural Selection and Adaptation

1. Darwin decided adaptations develop over time; he sought a mechanism by which adaptations might arise.
2. Natural selection was proposed by both Alfred Russel Wallace and Darwin as a driving mechanism of
evolution caused by environmental selection of organisms most fit to reproduce, resulting in adaptation.
3. Because the environment is always changing, there is no perfectly-adapted organism.
4. Preconditions for natural selection
a. The members of a population have random but heritable variations.
b. In a population, many more individuals are produced each generation than an environment can support.
c. Some individuals have adaptive characteristics that enable them to survive and reproduce better.
5. Consequences of natural selection
a. An increasing proportion of individuals in succeeding generations have the adaptive characteristics.
b. The result of natural selection is a population adapted to its local environment.
6. Natural selection can only utilize variations that are randomly provided; therefore, there is no directedness
or anticipation of future needs.
7. Extinction occurs when previous adaptations are no longer suitable to a changed environment.

E. Organisms Have Variations

1. In contrast to the previous world-view, variations are highly significant.
2. Darwin suspected, but did not have today’s evidence, that variation is completely random.
3. New variations are as likely to be harmful as helpful.
4. Variations that make adaptation possible are those that are passed on generation to generation.
5. Darwin could not state the cause of variations because genetics was not yet established.

F. Organisms Struggle to Exist

1. Darwin and Wallace both read an essay by Thomas Malthus, a clergyman and socio-economist.
2. Malthus proposed that human populations outgrow resources and death and famine were inevitable.
3. Darwin applied this to all organisms; resources were not sufficient for all members to survive.
4. Therefore, there is a constant struggle for existence; only certain members survive and reproduce.

G. Organisms Differ in Fitness

1. Organisms whose traits enable them to reproduce to a greater degree have a greater fitness.
a. Fitness is a measure of an organism’s reproductive success.
b. Black western diamondback rattlesnakes are more likely to survive on lava flows; lighter-colored
rattlesnakes are more likely to survive on desert soil.
2. Darwin noted that humans carry out artificial selection.
a. Early humans likely selected wolf variants; consequently, desirable traits increase in frequency in
subsequent generations and produced the varieties of domestic dogs.
b. Many crop plant varieties can be traced to a single ancestor.
c. In nature, interactions with the environment determine which members reproduce more.
d. Evolution by artificial or natural selection occurs when more fit organisms reproduce and leave more
offspring that the less fit.

H. Organisms Become Adapted

1. An adaptation is a trait that helps an organism be more suited to its environment.
2. Unrelated organisms living in the same environment often display similar characteristics.
3. Because of differential reproduction, adaptive traits increase in each succeeding generation.

I. On Origin of Species by Darwin

1. After the HMS Beagle returned to England in 1836, Darwin waited over 20 years to publish.
2. He used the time to test his hypothesis that life forms arose by descent from a common ancestor and
that natural selection is a mechanism by which species can change and new species arise.
3. Darwin was forced to publish Origin of Species after reading a similar hypothesis by Alfred Russel Wallace.

18.3. Evidence for Evolution

A. Common Descent Adapted

1. The hypothesis of common descent is supported by many lines of evidence.
2. The more varied the evidence, the more certain it becomes.
3. Darwin synthesized much of the current data but biochemical research was yet to come.

B. Fossils Evidence

1. The fossil record is the history of life recorded by remains from the past.
2. Fossils are at least 10,000 years old and include skeletons, shells, seeds, insects trapped in amber,
and imprints of leaves.
3. The fossil record traces history of life and allows us to study history of particular organisms.
4. Fossil evidence supports the common descent hypothesis; fossils can be linked over time because they
reveal a similarity in form, despite observed changes.
5. Transitional forms reveal links between groups.
a. Caudipteryx is between dinosaurs and birds.
1) This Chinese fossil shows some dinosaurs had feathers on arms, tail and probably body.
2) Advantages during running and escape gave rise to birds once lift-off occurred.
b. Eustheopteron is an amphibious fish.
c. Seymouria is a reptile-like amphibian.
d. Therapsids were mammal-like reptiles.
6. The fossil record allows us to trace the history of the modern-day horse Equus.
a. Earliest fossils show an ancestral Hyracotherium the size of a dog, with cusped low-crowned molars,
four toes on each front foot, three on each hind foot — all adaptations for forest living.
b. When forests were replaced by grasslands, the intermediates were selected for durable grinding teeth,
speed, etc. with an increase in size and decrease in toes.
c. Living organisms resemble most recent fossils in the line of descent; underlying similarities allow us
to trace a line of descent over time.

C. Biogeographical Evidence

1. Biogeography studies the distribution of plants and animals worldwide.
2. Distribution of organisms is explained by related forms of evolving in one locale and spreading to
other accessible areas.
a. Darwin observed South America had no rabbits; he concluded rabbits originated elsewhere.
b. Biogeography explains the many finch species on the Galapagos Islands but not the mainland.
3. Physical factors, such as the location of continents, determine where a population can spread.
a. Cacti are restricted to North American deserts and euphorbia grow in African deserts.
b. Marsupials arose when South America, Antarctica, and Australia were joined; Australia separated
before placental mammals arose, so only marsupials diversified in Australia.

D. Anatomical Evidence

1. Organisms have anatomical similarities when they are closely related because of common descent.
a. Homologous structures in different organisms are inherited from a common ancestor.
b. Analogous structures are inherited from a unique ancestors and have come to resemble each other
because they serve a similar function.
c. Vertebrate forelimbs contain the same sets of bones organized in similar ways, despite their dissimilar functions.
2. Vestigial Structures are remains of a structure that was functional in some ancestor but is no longer
functional in the organism in question.
a. Most birds have well-developed wings; some bird species have reduced wings and do not fly.
b. Humans have a tailbone but no tail.
c. Presence of vestigial structures is explained by the common descent hypothesis; these are traces of
an organism’s evolutionary history.
3. Embryological development reveals a unity of plan.
a. During development, all vertebrates have a post-anal tail and paired pharyngeal pouches.
1) In fishes and amphibian larvae, the pouches become gills.
2) In humans, first pair of pouches becomes a cavity of middle ear and auditory tube; second pair
becomes tonsil, while third and fourth pairs become thymus and parathyroid glands.
3) Above features are explained if fishes are ancestral to other vertebrate groups.

E. Biochemical Evidence

1. Almost all living organisms use the same basic biochemical molecules, e.g., DNA, ATP, and many
identical or nearly identical enzymes.
2. Organisms utilize the same DNA triplet code and the same 20 amino acids in their proteins.
3. Many organisms share same introns and types of repeats, which is remarkable since there is no obvious
functional reason why these components need to be so similar.
4. This is substantiated by analysis of degree of similarity in amino acids for cytochrome c among organisms.
5. These similarities can be explained by descent from a common ancestor.
6. Life’s vast diversity has come about by only a slight difference in the same genes.

F. Because it is supported by so many lines of evidence, evolution is no longer considered a hypothesis.

1. Evolution is one of the great unifying theories of biology.
2. In science, theory is reserved for those conceptual schemes that are supported by a large number of
observations or a large amount of experimental evidence and have not been found lacking.

evolution–process of change through time

Evolution includes the change in characteristics of populations through generations.
Thus, existing life forms have evolved from earlier life forms.

Evolutionary theory is a unifying principle for the biological sciences.
It provides an explanation for the differences in structure, function, and behavior
among life forms.

Through radioactive dating with uranium, geologists
estimate the age of the earth at about 4.6 billion years. (It is assumed that the earth
is at least as old as the oldest rocks and minerals composing its crust.)

fossils: direct or indirect remains of organisms preserved in media such as sedimentary rock, amber, ice, or tar

Fossils have been found that indicate organisms existed well over 3 billion years ago. These organisms were simple, single-celled organisms.

Law of Superposition: the higher up you go in an undisturbed rock stratum, the
younger the rock layers become

** Upper, undisturbed strata generally contain fossils of more complex organisms,
whereas, the lower strata contain fossils of simpler life forms.
(Tendency toward increasing complexity over time.)

** When comparing fossils in undisturbed strata, fossils can be found in
upper strata which, although different from fossils in lower strata, resemble
those fossils. This suggests links between modern forms and older forms, as
well as divergent pathways from common ancestors.

adaptations–changes in organisms which make them better suited to their environment

Gene mutations can be caused by such agents as radiation and chemicals. When they occur in sex cells, the mutations can be passed on to the offspring; if they occur in other cells, they can be passed on to body cells only. The experiences an organism has during its lifetime can affect its offspring only if the genes in its own sex cells are changed by the experience.

biological adaptation — changes in structures, behaviors, or physiology that enhance survival and reproductive success in a particular environment

Theory of Natural Selection

Darwin–(1859) Book–“On Origin of Species”

–stated his theory of Natural Selection

— Natural selection and its evolutionary consequences provide a scientific explanation of the fossil record of ancient life-forms, as well as the molecular and structural similarities observed among the diverse species of living organisms.

(Theory of Natural Selection)

1. Overproduction — Within a population more offspring are born than can possibly survive.

2. Competition — since the number of individuals in a population tends to remain constant from generation to generation, a struggle for survival is suggested

3. Survival of the Fittest — The individuals who survive are the ones best adapted to exist in their environment due to the possession of variations that maximize their fitness.

4. Reproduction — Variations assist or hinder individuals in their struggle for survival.
The best adapted individuals survive and reproduce, passing on the favorable variations to their offspring.

5. Speciation — as time and generations continue, adaptations are perpetuated in individuals and new species may evolve from a common ancestor.

adaptive variations–those variations which assist an organisms survival

(Weaknesses of Darwin’s Theory)

1. Darwin didn’t explain how variations arose.
2. He did not distinguish between hereditary and environmental variations.
3. Darwin believed that both environmental and hereditary variations were inherited.

Some Sources of Variation in Modern Natural Selection Theory

1. The genetic basis for variation within a species is provided by mutations and sexual reproduction. (crossing over and recombination)

2. Mutations are spontaneous and provide the raw material for evolution.

(Modern Natural Selection Theory)

1.) All species of the potential to increase in numbers.

2.) There is a finite amount of resources for any species. Species tend to make too many
organisms for these resources.

3.) Species will show genetic variability due to mutation, crossing over, and
genetic recombination (during fertilization) of genes.

4.) The scarce finite resources of the environment will select those offspring better able to survive and leave offspring.

Variation within a species increases the likelihood that at least some members of the species will survive under changed environmental conditions.

** Traits which are beneficial to the survival of an organism in a particular environment tend to be retained and passed on, and therefore, increase in frequency within a population.

** Traits which have a low survival value to organisms tend to diminish in
frequency from generation to generation.

** If environmental conditions change, traits that were formerly associated with a
low survival value may, in a changed environment, have greater survival value and
increase accordingly.

(Examples of Evolution in Modern Times)

1. Peppered moth — light colored vs. dark colored (industrialization influence) Manchester, England
2. Insect resistance to insecticides. (Resistance is not in response to the insecticide. The insecticide acts as a selecting agent.)
3. Bacterial resistance to antibiotics.

** Evolutionary factors operate on population — but not on individual organisms.

speciation: formation of two or more different species from one original population

Evolution does not necessarily mean long term progress is going to go in a certain direction. Evolutionary changes often appear to be like the growth of a bush: Some branches survive from the beginning with little or no change, many die out altogether, and others branch out repeatedly, sometimes giving rise to more complex organisms.

Note the divergence of the various groups from a common ancestor and the fact that some branches became extinct.

Extinction of a species occurs when the environment changes and the adaptive characteristics of a species are insufficient to allow its survival. Fossils indicate that many organisms that lived long ago are extinct. Extinction of a species is common; most of the species that have lived on earth no longer exist.

The SPECIES is the most fundamental unit of classification.

The purpose of biological classification is to show how organisms are related. Organisms are branched into hierarchies or groups based on structural similarities and evolutionary relationships.

Small differences between parents and offspring can accumulate in successive generations so that descendants become very different from their ancestors.

** The degree of kinship between organisms or species can be estimated from the similarity of their
DNA sequences; this similarity often closely matches organisms’ or species’ classification based on anatomical similarities.

Origin of Life

1.) 3 to 4 billion years ago — it is thought the first primitive single-celled life appeared on earth

2.) These original unicellular organisms added of carbon dioxide to the environment.

3.) Some autotrophs evolved a means of using the carbon dioxide added to do photosynthesis

4.) Autotrophic activity added free oxygen to the atmosphere. Some autotrophs
and heterotrophs evolved mechanisms by which they used this oxygen to
derive their energy. (aerobic respiration)

5.) About a billion years ago, increasingly complex multicellular organisms began to evolve.

** The great diversity of organisms is the result of billions of years of evolution that has filled available niches with life-forms.