Evolutionary Biology Final Exam Study Guide PDF

Summary

This document is a study guide for an evolutionary biology final exam. It covers topics like evolution by natural selection, speciation, and molecular phylogeny, and includes key concepts and figures from the study. Contains multiple topics, potentially including questions about the evolution of organisms and their behaviors in various environments.

Full Transcript

Tyler Alexander

Evolutionary Biology Final Exam Study Guide

**Evolution by Natural Selection**

- Darwin's finches' speciation on islands

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- Feeding ecology of finches

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- Are the finches variable?

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- Heritability -- the degree the offspring resembles parents

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- Are survival and reproduction non-random? **Yes**

- What can cause genetic correlation?

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**Speciation**

- Evolutionary relationship of living things

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- How many species are there on earth?

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- Species are evolutionarily "independent" units

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- Reproductive isolation

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- Morphospecies

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- Morphospecies -- fossils

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- Phylogenetic species concept

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- Phylogeny results from descent with modification

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- Molecular phylogeny

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- Phylogenetic criteria 

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- Biological species concept

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- Isolation

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- Gene flow (Eukaryotes)

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- Allopatric speciation

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- Geographical isolation

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- Vicariance

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- Meiosis and the steps

- Polyploidy can create immediate genetic isolation.

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- Polyploid speciation common in plants

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- Chromosomal mutations can also lead to speciation

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- Other mechanisms of isolation

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- Divergence

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- Natural selection and genetic drift

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- Are these divergent phenotypes the result of evolution by natural
selection? 

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- Assortative mating (Another way that populations can diverge in ways
that promote speciation involves mating behavior)

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- Hybridization and gene flow

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- Pre- and post-zygotic isolation

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- The geneticist Theodosius Dobzhansky (1937) reasoned that if
populations have diverged during a period when the groups lived in
different geographic areas, then any hybrid offspring that are
produced should have markedly reduced fitness relative to
individualsin each of the parental populations. 

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- **Human embryonic development**

- Two and four cell stage of the embryo can be separated and develop
into individuals (identical twins, quadruplets)

- Key points about the 8 cell stage embryo (2-3 days):

- **Cell type:** The individual cells are called blastomeres. 

- **Compaction:** A significant event happening at this stage where
the blastomeres flatten and tightly connect to each other. 

- **Embryonic genome activation:** This process, where the embryo\'s
own genes start to be expressed, usually begins around the 8-cell
stage. 

- **Totipotency:** Each cell at this stage has the potential to
develop into any cell type in the body, including the placenta. 

- However, if you attempted to separate these egg cells the embryo
would die.

- Primordial germ cells have developed by the 2^nd^ week -- ovaries &
testes

- Medawar's theory - the force of natural selection remains high until
the first reproduction

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