Evolution (Part 1)

10.1 – Early Ideas About Evolution

v  Key Concept: There were theories of biological and geologic change before Darwin.

Early scientists proposed ideas about evolution.

v  Evolution is the biological ______.

v  A species is a ______.

Theories of geologic change set the stage for Darwin’s theory.

v  There were three theories of geologic change:

v  ______: natural disasters such as floods and volcanic eruptions have shaped landforms and caused species to become extinct.

v  ______: changes in landforms resulted from slow changes over a long period of time

v  ______: the geologic processes that shape Earth are uniform through time

v  Uniformitarianism is the ______of geologic change.

10.2 – Darwin’s Observations

v  Key Concept: Darwin’s voyage provided insight on evolution.

Charles Darwin

v  Known as the ______

v  Traveled around the world on the HMS Beagle

v  Observed ______and ______in species

v  Published findings in his book Origin of Species

v  1800’s

Darwin observed differences among island species.

v  Variation: ______

v  Galapagos tortoises that live in areas with tall plants have ______

v  Galapagos tortoises that live in areas with low plants have ______

v  Galapagos finches (Darwin’s finches) that live in areas with hard-shelled nuts have ______

v  Galapagos finches that live in areas with insects/fruit have ______

v  Adaptation: feature that allows an organism to ______

v  ______to their environment

v  Adaptations can lead to ______

Darwin observed fossil and geologic evidence supporting an ancient Earth.

v  Darwin found fossils of extinct animals that resemble ______

v  Darwin found ______high up in the Andes ______

v  He saw land move from underwater to above sea level during an earthquake

v  Darwin extended his observations to the evolution of organisms (gradual change leads to great change over time)

10.3 – Theory of Natural Selection

v  Key Concept: Charles Darwin proposed natural selection as a mechanism for evolution.

Several key insights led to Charles Darwin’s idea for natural selection.

Natural selection: mechanism by which ______

______

Artificial selection: process by which humans change a species by breeding it for certain traits.

v  Heritability: ______

v  There is a ______due to overpopulation and limited resources

v  Darwin proposed that adaptations arose over ______

Natural selection explains how evolution can occur. There are four main principles to natural selection:

v  Variation: heritable ______are the basis for natural selection

v  Overproduction: ______

v  Adaptation: certain variation that ______than other individuals it competes against

v  Fitness: ______

v  Descent with modification: Heritability of adaptations. ______, as long as the environmental conditions remain beneficial for the trait

Natural selection acts on existing variation.

v  Natural selection can act only on ______.

v  New alleles (leading to new phenotypes) are not made by natural selection – they occur by genetic mutations.

v  ______in addition to their original function.

10.4 – Evidence of Evolution

v  Key Concept: Evidence of common ancestry among species comes from many sources.

Fossils & the Fossil Record

v  ______

v  Ways of dating fossils:

v  Relative dating: ______the age of fossils by comparing fossil to others in the same layer of rock

v  Pro: can be used ______of the fossil

v  Con: ______(earthquakes, mudslides, etc.) and this can mess up estimate

v  Radiometric dating: uses the ______(carbon-14 changes into nitrogen-14)

v  Pro: can give an ______

v  Con: ______(if all isotopes have decayed)

Biogeography

v  Island species most closely resemble nearest mainland species

v  Populations can show ______

v  Example: ______

Embryology

v  ______, diverse organisms

v  Identical larvae, diverse adult body forms

v  ______as embryos

Homologous Structures

v  ______

v  Evidence of a ______

v  Example: ______(humans, cat legs, whale fins, bat wings)

v  Not to be confused with analogous structures – those that have similar functions but are not made of similar structures. Not evidence of a close evolutionary relationship. Example: bat wings, insect wings.

(Evidence of evolution continued…)

Vestigial Organs/Structures

v  ______in an

early ancestor but have ______

v  Evidence of ______

v  Examples:

v  Human ______

v  ______(ostrich, penguins)

v  Hindlimbs on ______

Molecular Biology

v  ______(A, T, C, & G)

v  Similarities in ______

v  Two closely related organisms will have similar ______

v  ______will also be very close if the species are closely related

Evolution (Part II)

11.1 – Genetic Variation Within Populations

v  Key Concept: A population shares a common gene pool.

Genetic variation in a population increases the chance that some individuals will survive.

v  Genetic variation leads to ______

v  Necessary for ______

v  Genetic variation is stored in a population’s ______

v  Made up of ______

v  Allele combinations form when organisms have ______

v  Allele frequency: a measure of how common a certain allele is in a population. Can be impacted by natural selection.

Genetic variation comes from several sources.

v  Mutations

v  Can form a new allele

v  Passed to offspring if in a gamete

v  Recombination

v  Usually occurs during meiosis

v  Parents’ alleles rearranged during gamete formation

11.2 – Natural Selection in Populations

v  Key Concept: Populations, not individuals, evolve.

Microevolution

v  Evolution ______

v  Observable change in allele frequencies

v  Can ______

v  Types: Directional selection, Stabilizing selection, Disruptive selection

Directional Selection

v  Favors phenotypes ______

Stabilizing Selection

v  Favors the ______

Disruptive Selection

v  Favors ______

11.3 – Other mechanisms of Evolution

v  Key Concept: Natural selection is not the only mechanism through which populations evolve.

Gene Flow

v  ______

v  Occurs ______-their alleles become part of the gene pool.

v  Keeps neighboring populations ______

v  Low gene flow increases the chance that two populations will ______

Genetic Drift

v  Change in allele frequencies due to ______

v  Causes a ______

v  Common in small populations

v  ______is genetic drift ______

v  Occurs when an ______

v  ______is genetic drift that occurs ______

v  Occurs when ______

Sexual selection occurs when certain traits increase mating success.

v  Sexual selection

v  Occurs due to ______

v  Males produce sperm continuously

v  Females are more limited in potential offspring each cycle

v  Two types:

v  Intrasexual selection: ______

v  Intersexual selection: ______

11.5: Speciation through Isolation

v  Key Concept: New species can arise when populations are isolated.

If gene flow stops between two populations, they are said to be isolated.

v  Adaptations, mutation, and genetic drift may change the ______of the populations, and over time the populations may become more and more ______

v  ______: when members of different populations can no longer mate successfully with one another.

v  This is the final step before ______(the rise of two or more species from one existing species)

Several kinds of barriers can prevent mating between populations, leading to reproductive isolation.

v  Behavioral isolation: differences in courtship or ______.

v  Geographic isolation: ______barriers that divide a population into two or more groups.

v  Temporal isolation: ______prevents reproduction between populations.

11.6 – Patterns in Evolution

v  Key Concept: Evolution occurs in patterns.

Species can become extinct.

v  Extinction: ______

v  Background extinction

v  Mass extinction

Background Extinction

v  Occur ______, but at a ______

v  Usually affect only a ______in a small area

v  Can by caused by ______

Mass Extinction

v  ______, but ______

v  Can operate at a ______

v  Caused by a ______

v  At least 5 mass extinctions in the last 600 million years

Extinction

v  Species go extinct because they ______