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HW 6 due Thursday 03/29 Answer all warmup questions

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Presentation on theme: "HW 6 due Thursday 03/29 Answer all warmup questions"— Presentation transcript:

1 HW 6 due Thursday 03/29 Answer all warmup questions
Watch all videos and include a one paragraph summary explaining the concepts that were explored in detail. There are two videos.

2 Ch. 21 Warm-Up Use the following information to help you answer the question below: Population = 1000 people AA = 160 Aa = 480 aa = 360 What are the genotypic frequencies? Allele frequencies? Use directional, stabilizing or disruptive selection to answer the following: The mice in the Arizona desert have either dark or light fur. Birds produce 4-5 eggs per clutch Average human baby weighs 7 lbs. Darwin's finches and beak size during drought

3 Chapter 22 The Origin of Species

4 What You Need to Know: The biological concept of a species.
Speciation may occur when two populations become reproductively isolated from each other. There are prezygotic and postzygotic barriers that maintain reproductive isolation in natural populations. How allopatric and sympatric speciation are similar and different. How a change in chromosome number can lead to sympatric speciation. Why speciation rates are often rapid in situations where adaptive radiation occurs or during times of ecological stress. The connection between speciation in a isolated population and a change in gene frequency, a change in the environment, natural selection, and/or genetic drift. How punctuated equilibrium and gradualism describe two different tempos of speciation.

5 Speciation = origin of species
Microevolution: changes in allele frequencies within a single gene pool Macroevolution: evolutionary change above the species level cumulative effects of speciation over long periods of time

6 HHMI Video Clip: Reproductive Isolation and Speciation
Running Time: 2:38 min

7 Biological Species Concept
Species = population or group of populations whose members have the potential to interbreed in nature and produce viable, fertile offspring Reproductively compatible Reproductive isolation = barriers that prevent members of 2 species from producing viable, fertile hybrids

8 Types of Reproductive Barriers
Prezygotic Barriers: Prevent mating or hinder fertilization Types: Habitat isolation Temporal isolation Behavioral isolation Mechanical isolation Gametic isolation Postzygotic Barriers: Prevent hybrid zygote from developing into fertile adult Types: Reduced hybrid viability Reduced hybrid fertility Hybrid breakdown

9 Types of Reproductive Barriers
REDUCED HYBRID VIABILITY REDUCED HYBRID FERTILITY HYBRID BREAKDOWN

10 Types of Reproductive Barriers
REDUCED HYBRID VIABILITY REDUCED HYBRID FERTILITY HYBRID BREAKDOWN

11 Types of Reproductive Barriers
REDUCED HYBRID VIABILITY REDUCED HYBRID FERTILITY HYBRID BREAKDOWN

12 Types of Reproductive Barriers
REDUCED HYBRID VIABILITY REDUCED HYBRID FERTILITY HYBRID BREAKDOWN

13 Other definitions of species:
Morphological – by body shape, size, and other structural features Ecological – niche/role in community Phylogenetic – share a common ancestor, form one branch on tree of life

14 Two main modes of speciation

15 Two main modes of speciation:
Allopatric Speciation “other” “homeland” Geographically isolated populations Caused by geologic events or processes Evolves by natural selection & genetic drift Eg. Squirrels on N/S rims of Grand Canyon Sympatric Speciation “together” “homeland” Overlapping populations within same geographic area Gene flow between subpopulations blocked by: polyploidy habitat differentiation sexual selection Eg. polyploidy in 80% of plants (oats, cotton, potatoes, wheat)

16 Allopatric speciation of antelope squirrels on opposite rims of the Grand Canyon

17 Sympatric Speciation by Polyploidy
Autopolyploid: extra sets of chromosomes Failure of cell division (2n  4n) Eg. Strawberries are 4n, 6n, 8n, 10n (decaploid)!

18 Allopolyploid: 2 species produce a hybrid
Species A (2n=6) + Species B (2n=4)  Hybrid (2n=10)

19 Hybrid Zones Incomplete reproductive barriers
Possible outcomes: reinforcement, fusion, stability

20 Grizzly Polar “Grolar” or “Pizzly”

21 Bear Evolution

22 Fusion: The breakdown of reproductive barriers

23 Time Course of Speciation
Gradualism Common ancestor Slow, constant change Punctuated Equilibium Eldridge & Gould Long periods of stasis punctuated by sudden change seen in fossil record

24

25 HHMI Short Film: Lizards in an Evolutionary Tree
Topic: Adaptive Radiation Running Time: 17:50 min


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