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Transcript of Tuesday 3/17/15 AIM: How are species related? DO NOW: Why do scientists develop theories? Are...
Tuesday 3/17/15
• AIM: How are species related?
• DO NOW: Why do scientists develop theories? Are theories facts? Why or why not?
• HOMEWORK: Text read pages 375-377.Reading check pages 375 and 377
Theory
• An explanation to a natural phenomena
• After a hypothesis is tested and yields the same results theories are developed
• Theories change if scientific results change– Ex: abiogenesis: life just appears randomly– NOT TRUE
Scientific theory of the origin of life
Francisco Redi:disproved abiogenesis
Louis Pasteur
Louis Pasteur
• Pasteurization: boils liquids to kill microbes
• He found microscopic organisms live in the air and water surrounding us
1920’s Alexander Oparin and John Haldane: postulated conditions of
early earth
Theory of primordial Soup• Hypothesized the early conditions of earth• Boiling oceans, volcanic eruptions, lightning
storms• Atmospheric gases methane (CH4),
ammonia (NH3), hydrogen (H2), and water (H2O).
• Energy sources electric current through lightning storms and sun’s UV light
• Early earth’s conditions interacted to form amino acids and small nucleic acids
Tuesday 5/5/14
• AIM: How were the first cells developed?
• DO NOW: What were the conditions of early earth? Could you survive in them?
• HW: Textbook read pages 380-381. RC page381
1953 Stanley Miller and Harold Urey
Miller and Urey
• Actually created a closed system simulating early earth conditions
• Observed small simple organic compounds were formed– Amino acids– Nucleic
• Supports primordial soup hypothesis
From amino acids to the protocell
• Amino acids combines to form proteins
• Proteins evolved into RNA
• RNA into DNA• Somehow cell
membranes were synthesized it is still unclear how
How did the first types of cells develop?
• Small organic compounds combine to create some types of membrane surrounding molecules and nucleic acid
• This was called a protocell
Wednesday 3/18/15
• AIM: What is the scientific explanation for the origin of life?
• DO NOW: In your own words explain the scientific explanation of the origin of life by primordial soup.
• HOMEWORK: Text read pages 375-377. Answer the reading check questions on pages 375 and 377
First cells
• Prokaryotes: no nucleus
• Most likely archaebacteria
How then did we go from single celled prokaryotes to
eukaryotes?
Lynn Margulus: endosymbiont theory
• 1960’s explains how eukaryotic cells arose
• Eukaryotic cells evolved from symbiotic relationships with prokaryotic cells
• Evidence is seen in the DNA of both chloroplasts and mitochondria of eukaryotes which has more similarities to prokaryotic DNA and not eukaryotic
Alternative theory of origin of life: Deep sea vents
• Life originated in the hydrothermal volcanic vents in the deep sea
• Chemosynthesis: used the digestion of living things to make food
• Photosynthesis uses light
To make food• Chemosynthesis uses
digested molecules to make food
Assessment
• In your own words explain the scientific explanation of the origin of life by primordial soup
AIM: What are some pieces of evidence for AIM: What are some pieces of evidence for evolution?evolution?
DO NOW: In your own words explain the DO NOW: In your own words explain the scientific explanation of the origin of life.scientific explanation of the origin of life.
Homework: Textbook Read pages 423-426 Homework: Textbook Read pages 423-426 questions 3 and 4 pg 430questions 3 and 4 pg 430
Organic Evolution
Organic Evolution
• The central idea of biological evolution is that all life on Earth shares a common ancestor, just as you and your cousins share a common grandmother.
• Biological evolution, simply put, is descent with modification.
• Small-scale evolution (changes in gene frequency in a population from one generation to the next)
• Basically offspring displays different traits than parents• Large-scale evolution (the descent of different species
from a common ancestor over many generations).
Organic evolution
• Looks at the mechanism of change
• How does change happen
Thursday 3/19/15
• AIM: How do scientists determine common ancestry?
• Do NOW: What is descent with modification?
• HOMEWORK: text read 380-381. reading check on page 381
Darwin’s descent with modification
• Each generation shows a slight variation from the prior
• Successful variations remain in the gene pool
• Unsuccessful variations are removed
Organic Evolutiona) Changes in the genetic characteristics
of a population over generations
b) Genetic changes alter:
proteins produced by organism
c) Changes in proteins affect the physical trait
species
• A group of organsims capable of mating and producing fertile offspring
Family Tree Diagramsa) used to show probable
evolutionary relationships
b) some interpretations
c) multiple species can evolve from a single ancestor
d) many species have become extinct
Evolution
• Change over time
• Natural selection vs Artificial Selection
• Natural selection: environmental conditions are the selecting agents
• Artificial selection: humans are the selecting agents
Theory of evolution by Natural selection
• Nature chooses the physical trait best fit for survival
Evidence for EvolutionI. Fossils
Evidence of a living thingshow structural changes (skip to slide 48)
II. Comparative Sciences• result from common ancestry
• the greater the similarity, the closer the evolutionary relationship and the more recent the common ancestor
• III. The geological record• IV. Biogeography (Pangea)
Fossil Formation: law of superposition
• The relative age of a fossil is determined by the layer of rock it is found in
• Lower layers are older than top layers
• Older. Simple organisms(lower layers) are common ancestors to more complex (upper layers)
Comparative Studies looks for Similarities
Between Species
1. Cytology
2. Anatomy (structure)
3. Development embryology
4. Biochemistry
Friday 3/20/15
• AIM: what are some pieces of evidence to change over time?
• DO NOW: explain how the fossil record can help determine common ancestry
• Comparing fossils in the same layer as well as to prior layers allows us to determine relatedness
Cytology
a) cells with similar organelles appear in virtually all species
b) similarities in cell structure suggest that all organisms may have evolved from a single ancestor
Comparative anatomy
• Compares the physical structures of organisms within different species– Homologous structures– Analogous Structures– Vestigial
Tuesday 3/24/15• AIM: How can we determine common ancestry by
analyzing physical structures?• DO NOW: Choice 1: List and describe the different
branches of comparative sciences• CHOICE 2: 1- Comparative __________ analyzes
the developing embryos of different species.• 2- _____________ structures are similar in both
structure and function.• 3- Comparative biochemistry studies ________.• HOMEWORK: Evidence of evolution analysis
questions
Pair and share
• 1- Which comparative study analyzes homologous and analogous strutures?
• 2- What information can we get through the analysis of homologous and analogous structures?
Comparative anatomy
• Compares the anatomical structures of different species to try and determine a common ancestor
Homologous Structuresa) structures in different
species that are truly similar and develop in the same way
b) ex: vertebrate forelimbs
c) result from common ancestry
d) may now be used for different purposes
Analogous structures
• Similar in function but not structure
• Gives evolutionary information about the natural environment the organisms were exposed to
• Does not give common ancestry
• Ex: wing of butterfly (chitin)– Wing of bat (bones)
Vestigial Structures (Vestiges)
a) useless structures “left over” from ancestors
b) ex: snakes have small leg bones inherited from their lizard ancestors
c) human vestiges include:• appendix• coccyx (tail bones)• tonsils
Comparative Embryologya) different species go
through similar stages of early development
Studies the embryological development of organisms
• AIM: how is common ancestry determined?
• DO NOW: explain how the fossil record can show common ancestry
• Explain what information we get from analogous structures
ComparativeBiochemistry
a) different species have many of the same genes (DNA sequences) and produce similar proteins
b) provide the most precise information for determining evolutionary relationships
Comparing DNA Sequences For A Specific Protein
Species #1: ATC CTA GCC TTT AAA
Species #2: ATC CTT GCC TAT AAA
Species #3: ATC CTA GCC TTT AAA
Species #4: ATT CTT GCG TAT AAA
1. Which two species are most closely related?
Answer: #1 and #3
2. Species #3 is _______closely related to species #4 than it is to species #2
Answer: less
AIM: how is common ancestry determined
DO NOW: What is the closet common
ancestor of species I and N?Which species became extinct?
Biogeography
• Looks at the location of species and their environment
• Pangea: the supercontinent
• Plate tectonics• Species found in similar
climates all over the world have similar characterisitcs
The geological time scale
• Derived from the examination of fossils
• Explains major geological and biological events in the earths history
Divides into 4 major eras
• Precambrian Era: Life beginsautotrophic prokaryote eukaryotes multicellular eukaryotes
• Paleozoic Era: Cambrian explosion: ancestors of most animal groups.
• Mesozoic Era: Dinosaurs. K-T boundary
• Cenozoic Era: Mammals. Humans
Extinction
• Each era ended with mass extinction
• Extinction: all individuals within a species dies forever!!!!– The species is never seen again in
evolutionary history
• If there is not a variant within a species to survive an extreme change in environment then the species becomes extinct
So how do new species arise?
Speciation• The evolution of two or
more species from a common ancestor
Important example:
the Evolution of Finches on the Galapagos islands
Mechanisms for speciation
• This attempts to explain how new species develop from ancestor species
• Gradualism or Punctuated equilibrium
Gradualism vs Punctuated equilibrium
• Both processes are referring to the development of new species caused by natural selection
• In gradualism slight changes in each generation lead to a longer, slower speciation process
• In punctuated equilibrium an extreme environmental change caused a rapid shift in the gene pool leading to a quick speciation process
• SPECIATION• develop of a
new species from a previously existing species
Thursday 3/26/15• AIM: How do fossils provide evidence for evolution?• DO NOW: 1- Take out your lab!!!!• 2-What are homologous structures? • 3-How do they give evidence to a common ancestor?• CHOICE 2: 1-______ are similar in both structure and
function.• 2- _______ tell us there were similar environmental
stresses but not common ancestor which led to the development of the trait
Two Theories About the Rate of Evolution
1. Gradualismspecies evolve slowly and steadily
(traditionalists like Darwin believe in gradualism)
2. Punctuated Equilibriumspecies may remain relatively stable for
many generations and then change dramatically in a short period
Both theories may be correct:some species have evolved gradually
while others may have evolved in abrupt spurts
Fossil Evidence for Evolution
Fossils are:
• naturally preserved remains of dead organisms
• show structural changes resulting from evolution
Fossils are found in:
• 1. Sedimentary Rock
• 2. Burgess shale
• 3. Ice
• 4. Tar
• 5. Amber
Types of Fossils1. Complete organisms Molds and casts
can be preserved in ice, tar or amber
2. Partial remains (ex: skeleton)
3. Imprints or trace fossilsimpressions left by organism
4. Petrified fossilsgradual absorption of minerals turns
the remains into a stone like material
Fossil Samples
• Trace fossils • Mold and cast
• Petrified fossils • Replacement
• Amber • Frozen
Fossil Formation
• Sedimentary Rock • Burgess Shale
• AIM: how does the geological time scale create a timeline for the origin of life
• DO NOW:In your own words explain how fossils give us insight to common ancestry.
• HOMEWORK: Textbook pages 441-443 questions 1-8. WRITE OUT THE QUESTION FOLLOWED BY THE ANSWER
Determining The Age of Fossils Relative dating:
1. Rock Layer Positionsin undisturbed layers of sedimentary rock
the law of superposition
the deeper the layer, the older the rock (& the older & simpler the fossils)
2. Index Fossils
a) The age of these fossils is known
b) Other fossils found in same layer are the same age
The fossils found in layer B resemble the fossils found in layer A. This similarity suggests that
• 1-the fossils in layer B were formed before the fossils in layer A
• 2-modern forms of life may have evolved from earlier forms of life
• 3- vertebrate fossils are only found in sediments • 4-the fossils in layer A must be more complex than those
in layer B
•
• Explanation: These fossils demonstrate gradualism, the theory on the time frame of evolution that states that species gradually change over time. Since the fossils are found in different layers of sedimentary rock, the older layer contains species that evolved into newer species with some changes in the newer layer of rock.
3. Radioactive Dating of Fossils1. All living organisms maintain small of
amounts of radioisotopes (ex: Carbon 14)
2. After death, radioisotopes change into non-radioactive “decay” products
3. Ratio of decay product to radioisotope increases over time and can be used to estimate fossil’s age
4. Half life: the amount of time it takes for half of the atoms of a radioactive element to decay
If the half-life of carbon-14 is 5800 years, how old is this specimen after 3 half lives?
5,800 yrs 11,600 yrs 17,400 yrs
Half Lives Radioisotope Decay Products
O 2000 grams O
1 1000 grams 1000 grams
2 500 grams 1500 grams
3 250 grams 1750 grams
Conclusions Based on Fossil Record
1. Earth is about 4.5 Billion old
2. First organisms were bacteria and evolved about 3.2 Billion years ago
3. Biodiversity (the variety of different species) has increased
4. Organisms have become more complex
5. Most species became extinct
6. Life first evolved in the water, land organisms evolved more recently
Adaptation to EnvironmentBecause organisms with superior traits produce more offspring than organisms with inferior traits the next generation will have…
a) a higher % of superior characteristics and a lower % of inferior characteristics and …
b) be better suited to it’s environment
• AIM: How does an entire new species evolve from a parent species?
• DO NOW: Handout. Observe the pictures. Explain what is happening from picture 1-5. Which individuals survive and explain WHY.
• Homework: page 453 Reading check
• Exam Friday
If the earth’s history (4.5 Billion Years) was compressed into 1 day
• 12:00:01 AM - formation of the earth
• 7:00 AM – life begins (prokaryotic bacteria)
• 2:00 PM –first eukaryotic organisms
• 6:30 PM – first multicellular organisms
• 10:00 PM – first land organisms
• 11:59: 58 PM – humans evolve
• If you were trying to determine the age of a fossil, would you rather use relative or radiometric dating? Why or why not?
Monday 3/30/15
• AIM: How does an entire new species evolve from a parent species?
• DO NOW: What are the different pieces of evidence for evolution?
• What are the 2 mechanisms of evolution?
• HOMEWORK: Read 386-389. answer Reading check on page 387 and question 1 on page 389
Review
• The fossil record
• Comparative Sciences
• The geological time scale
• Biogeography
• How does the biogeographical location of a species give evidence for evolution?
What is speciation?
Development of a new species from a pre-existing species
How are physical traits created?
Genes code for physical traits
Peppered Moths
• 1- Before Industrial Revolution light color was best fit for survival
• After Industrial Revolution
2. Air pollution caused soot to accumulate in major cities
3. In polluted areas, light colored moths were more likely to be eaten by birds
4. Moths evolved from mostly light to mostly dark color in a short period
5. There was a shift in the gene frequency
less light color more dark
Comparing Gene Frequencies
Why are these gene frequencies changing?
“A” increases chances of survival and is more likely to be passed on to offspring
Tuesday 3/31/15 DO NOW:
Homework Due Tuesday 4/14/15
• Textbook pages 393-395 questions 1-12.
• On a sheet of loose leaf, write the number and your answer choice
• EX:
• 1-3
• 2-4
• 3-2
Adaptations
• adaptation in biology is a trait with a current functional role in the life history of an organism that is maintained and evolved by means of natural selection
• Adaptations usually occur because a gene mutates or changes by accident
• Structural adaptations• Behavioral adaptations
Mimicry
Mimicry
• One species looks or acts like a different species in order to increase survival
• Structural adaptation for survival
Camoflauge
• Physical traits resemble environmental surroundings so the organism can blend in
Behavioral adaptations are the things organisms do to survive
• Ex: birds migrate south in the winter
Adaptations are changes
• Changes are caused by mutations– Changes in the gene– Shift in the gene frequency of the population– Continuous mutations can lead to speciation
• Development of a new species
3 Steps in Speciation
Geographic Isolation
Adaptive Radiation
Reproductive Isolation
#1-Geographic IsolationAncestral species is split up into separate populations by physical barriers that prevent interbreeding
Physical Barriers include:
mountains, rivers, deserts, bodies of water
#2-Adaptive RadiationIsolated populations begin to evolve in different directions due to:
A. Natural Selection(they adapt to different environments)
B. Genetic Drift(random events)
Genetic DriftChanges in a population resulting from random events like:
1. Founder Effectinitial differences between groups
founder population is majority
2. Different Mutations occur in each group
3. Sexual Reproduction produces different combinations in each group
4. Accidental Deaths
Genetic drift Founder effect
Genetic drift: Founder Effect
• When a small part of a population moves to a new locale, or when the population is reduced to a small size because of some environmental change,
• the genes of the "founders" are the majority
• EX: Polydactyl (6 fingers) Amish people
Wednesday 4/1/15
• DO NOW: what is speciation?
• 2- how does speciation happen?
• HOMEWORK: Textbook pages 393-395 questions 1-9,11 and 12.
• On a sheet of loose leaf, write the number and your answer choice
Genetic drift: bottleneck effect
Genetic drift: bottle neck effect
• There is a shift in the observable traits due to some type of event that eliminates many individuals within a species
• The new surviving population does not resemble the original population
Genetic drift: bottle neck effect
• Original population has a large genetic diversity
• New population has small genetic diversity
#3-Reproductive Isolationa) Groups have become so different that
they can no longer interbreed if reunited
b) May result from differences in anatomy, behavior, body chemistry,mating season, chromosome content
c) Isolated groups are now considered to be separate species
The graph below shows changes in the populations of two species that interact only with each other
over a period of time. In a complete sentence describes the
two species.
A
B
Monday
• AIM: How does evolution work?
• DO NOW: If you were a hawk looking for food, which of the rabbits would you dive for and why?
HOMEWORK
• Read 382-383. RC on 383. Page 385 q 2
• How does competition cause a shift in the gene pool?– Variation within a species causes different
methods of competition– The individuals with successful adaptations
will survive and reproduce passing the successful trait to offspring
List in order the scientists who helped develop the scientific
theory of the origin of life
Origin of Life
• Primordial Soup
• Amino acids and small nucleic acids
• Protocell
• Anaerobic prokaryote
• Aerobic prokaryote
• Single celled Eukaryote
• Multicelled eukaryotes
How are the mitochondria and chloroplasts similar to
prokaryotes?Large organelles
Double membranesHave DNA
Reproduce as neededUse oxygen
How did the earth become biodiverse?
• Evolution is the process by which modern organisms have descended from ancient ancestors.
• Evolution is responsible for both the remarkable similarities we see across all life and the amazing diversity of that life — but exactly how does it work?
Three Theories of EvolutionLamarck
Darwin
Modern Synthesis
Lamarck’s Theory (Use and Disuse)
1) 1st major theory of evolution
2) Lamarck believed that:
a) evolution occurs in response to “need”
b) acquired characteristics could be passed on
ex 1) if you learn a lot, you’ll have smarter kids
ex 2) if you use an organ it will be larger in offspring, if you don’t it will shrink
3) Experiments showed that Lamarck was wrong
Use and disuse: Giraffe necks are long because they use them
• AIM: How did the earth become so biodiverse?
• DO NOW: 1- Regents review book read page 144-top of 145. In your own words, what is organic evolution?
2- Read pages 151-top 152. List and briefly describe the three modifications to the theory of evolution.
Homework:Regents Review book page 370 questions 15 and 16. page 382 question 41
Tuesday 4/14/15• AIM: What are the major concepts that helped
Darwin develop his Theory of evolution by natural selection?
• DO NOW: List and explain the mechanisms for evolution.
• OR: In the process of _________ there are slow changes over a long period of time
• In the process of punctuated equilibrium there are long periods of ____ followed by short periods of _______
HOMEWORK:Text read 382-383. Reading check on page
383
Charles Darwin: 1809-1882
• Proposed a mechanism for biodiversity
• From 1831 to 1836 Darwin served as naturalist aboard the H.M.S. Beagle
• Visited places around the world
• Studied plants and animals everywhere he went
Darwins travels• Concentrated on the
species found on the Galapagos islands
• 620 miles off the coast of Equador
• Observed the finch bird
• Wrote a book The origin of species
The Father of Evolution
• I have called this principle, by whicheach slight variation, if useful, is preserved, by the term Natural Selection. —Charles Darwin from "The Origin of Species“
• November 24, 1859
How did Charles Darwin develop his Theory?
Darwin’s observations
• Specifically he paid close attention to the finch birds on each island
• He looked at their beaks• He determined that each finch had a different
beak shaped specifically for the food which was available to them
• He also noticed that finches on the Galapagos resembled finches in similar environments in other parts of the world
Darwin’s observations
• Overproduction
• Competition
• Variation
• Survival of the fittest
Darwin’s Theory (Natural Selection)
Overproduction Struggle for Existence
CompetitionInherited Variation
Natural Selection
• • Survival of the fittest
Adaptation to Environment
Wednesday 4/15/15
• AIM: how did Darwin develop his theory of evolution by natural selection?
• DO NOW: 1- What is evolution?• 2- What is overproduction?• 3- What kind of things do individuals within a
population compete for?• HOMEWORK: Textbook reread page 380-
381. Is natural selection the same thing as evolution? EXPLAIN YOUR ANSWER
Thursday 4/16/15• AIM: How did Charles Darwin develop his
theory of natural selection?
• DO NOW: Choice 1: List and describe the 4 observations Darwin made in his travels
• Choice 2: 1- Within a population, individuals display ______ or different characteristics.
• 2- Resources within an environment are limited causing ______ within the population
• HOMEWORK: DUE TOMORROW Text pages 393-394 questions 1-9
Overproduction
• Species produce many more offspring than environment can support
• Population size is limited by:
space, food supply, disease, predators, etc.
Variation
• In any sexual reproducing species, there are differences within individuals
Competition
• Not only do individuals within a population compete but different species with similar needs compete
• Intraspecies competition: within ones own species
• Interspecies competition: between two different species
Struggle for Existence
• Overproduction of offspring creates competition for survival between the members of the species
Survival of the fittest
• Fitness: refers to physical or behavioral characteristic that helps survival
• The most fit individuals are those capable of getting the food, shelter, females etc.
Pair and Share
• Using the flow chart that was started, explain how Darwin developed his hypothesis of Natural Selection.
Finches migrate from
South America to the
galapagos islands
What happened on the islands?
How did this effect
the observed
traits?
• AIM: How does nature choose fitness?
• Homework: RRB page 373 question 22. Page 369 questions 13 and 14
DO NOW:the cactus
warbler & wood pecker finch
All live on one island.
Which of these finches is least
likely to compete with the
Other two?
• Overproduction causes competition– There are too many individuals– The environment cannot maintain
• Individual variation causes different methods of survival– The variation with the greatest chance of
survival is said to be the fittest– These individuals survive and reproduce
passing the fit trait to their offspring– Over a period of time this shifts the observed
phenotype in the population (evolution)– NATURE CHOOSES FITNESS
Inherited Variations• All populations have variations
that can be passed to offspring
• New variations can arise spontaneously and may be harmful or beneficial
• Weakness in Darwin’s Theory:
failure to account for the sources of variation
It is important to note• If Nature drastically changes, the
definition of fitness may change– Ex: Himalayan Rabbits
Theory of Evolution by Natural Selection
• In a varied population, Nature chooses which traits are best fit for survival.
• As Nature changes, new variants become fit so over a long period of time there is a shift in observed characteristics of the population
• Natural selection is the mechanism for evolution the shift in observed traits
Natural Selection (Survival of the Fittest)
• In the “struggle for existence” between members of a species, the ones with the best “adaptations” for their particular environment (the “fittest”) are most likely to survive and reproduce
• “Adaptations” are inherited characteristics which improve the chances of survival and / or reproduction
Darwin was afraid of the skepticism
• Because of the strong religious beliefs of his time Darwin did not want to use the word “evolution”
• He called his observations Descent with modification– Current day species descended from ancestral species– Natural selection is the mechanism for descent with
modification (changes in observed characterisitcs in a species over a period of time)
• The more characteristics in common, the closer the ancestor
Click on: Watch Darwin Video
• Darwin | American Museum of Natural History
Why was Darwin’s Theory of Natural selection incomplete?
Darwin had no idea how variation occurred
• Gregor Mendel, Hugo deVries and Thomus Hunt Morgan were all geneticists who helped figure out the source of variation.
• Genetic Recombination: crossing over during gamete formation
• Genetic Mutation: random changes in gene
Selecting agents
• Factors that choose fitness– Ex: temperature, predators, pH, habitat, water
availability
Evolution
• Natural selection– Nature is the
determining factor
• Artificial selection– Humans are the
selecting factors
Modern (Synthetic) Theory3 Components
#1. Darwin’s Theory of Natural Selection
( he was correct, but his explanations were incomplete)
#2. An Explanation of the Sources of Inherited Variations
Genetic recombination (meiosis) and mutation
#3. Population Genetics
Sources of Inherited Variation
#1 Mutations
a) random changes in genes
b) generally harmful and recessive
c) if most mutations are harmful, how can they contribute to improvements in a species?
d) natural selection preserves good mutations while eliminating harmful ones
#2 Genetic Recombination
a) Homologous chromosomes swap information during Prophase 1 of meiosis
b) refers to inherited variations resulting from sexual reproduction
b) sexual reproduction creates variety through:
meiosis, fertilization & crossing over
Genetic Variety and Extinction
• The greater the genetic variety within a species the greater the chance that some can survive in a changed environment.
• If the environment changes, the definition of fitness may change
• Ex: Peppered moths in Manchester England
Peppered Moths
• Before Industrial Revolution
• After Industrial Revolution
Mechanisms for evolution
• Punctuated equilibrium
• Gradualism
• AIM: How is evolution in action in current day species?
• DO NOW: In your own words explain the greatest chance of variation within a species
• In your own words explain how fossils give us insight to common ancestry.
Microevolution vs Macroevolution
Micorevolution
• Looks at change in gene pool of a population
• Shows a shift in the observed traits within a specific population
Macroevoultion
• Looks at the major changes within the entire history of life
• Studies the origin of life or new species developments
• Mostly seen in the fossil record
Population Geneticsa) The study of changes in the genetic
characteristics of entire populations
b) used to study the rate of evolution
c) Gene Frequencythe % of one particular gene out of all
the genes for one particular trait in a population
d) Gene poolall of the genes for all of the
characteristics in a population
Comparing Gene Frequencies
Why are these gene frequencies changing?
“A” increases chances of survival and is more likely to be passed on to offspring
Conditions that Conditions that alter gene % stabilize gene%
1. Mutations
2. Natural Selection(unequal survival rates)
3. Non-random mating(unequal mating opportunities)
4. Small Population Size
5. Migration (organisms enter or leave the population)
1. No Mutations or balanced rates of mutation
2. Equal survival rates for all genotypes
3. Random mating (equal mating opportunities)
4. Large population size
5. No migration
Factors that Affect the Rate of Evolution
#1 Rate of Environmental Change **
if rate of environmental change increases, rate of evolution must increase
#2 Time Between Generations
as TBG increases, capacity for rapid evolution decreases
#3 Method of Reproduction
sexual reproduction increases capacity for rapid evolution
#4 Competition Within Species
as competition increases, evolution rate increases
Two Theories About the Rate of Evolution
1. Gradualismspecies evolve slowly and steadily
(traditionalists like Darwin believe in gradualism)
2. Punctuated Equilibriumspecies may remain relatively stable for
many generations and then change dramatically in a short period
Both theories may be correct:some species have evolved gradually
while others may have evolved in abrupt spurts
Which type of evolution rate is represented in each graph?
1. Coevolutionwhen the evolution of one species is strongly
influenced by the evolution of anotherExample: insects and flowering plants
2. Divergent Evolutionwhen species or populations evolve in different directions because of adaptation to different
environmentsExample: black bear and polar bear
3. Convergent Evolutionwhen unrelated species evolve similar characteristics because they are adapting to similar environments Example: polar bear and artic fox
Which pattern of
evolution is shown by
each picture?
• AIM: How is evolution in effect today?
• DO NOW: List at least 2 things that would cause a shift in the gene frequency.
Artificial Selection
When humans have a strong influence on the evolution of another species
Humans choose fitness
shift gene frequency and may cause speciation
Selective breeding
• Humans choose organisms with desired characteristics and breed them
Ex: #1-Antibiotic Resistance in Bacteria
1) when penicillin was first used it killed over 99% of bacteria exposed to it
2) some bacteria contain a gene which makes them resistant to penicillin
3) resistant bacteria survive use of penicillin and pass their resistance on to offspring
4) many bacteria are now resistant to penicillin and other antibiotics
5) antibiotics have been overused
Ex.#2- Industrial Melanism in Urban Moths
1. Before industrialization, most city moths were light in color because dark moths were more easily seen by bird predators
Ex.#3-Resistance to DDT1. When first used, this insecticide killed
almost all exposed insects
2. A small % of insects were genetically resistant and survived use of DDT
3. Resistant insects reproduced passing on their resistance to offspring
4. DDT resistance is now widespread
What has caused an increase in DDT resistant mosquitoes?
HIV drug resistance
• http://www.biocreations.com/animations/english_HIV/main.swf
Human Immunodeficiency Virus
• Once it enters the body, it infects White blood cells
• It uses the white blood cell to make more viruses
• The new viruses then infect more cells• Certain medications can prevent the HIV
virus from replicating so it cannot infect any new cells
Resistance
• HIV is a very sophisticated virus
• It has mutated (changed) and created variation that are resistant to medicine
• AIM: How do scientists classify species?
• DO NOW: If you were a scientist exploring unchartered land and you came across 2 new “animals” how would you determine their relatedness?