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Organismal Biology Review for Test #1 (on 9 February 2005)

Note: Chapters on test: 22, 23, 24, 25, 26, 27 – after putting this study sheet together, I decided to wait and put Chapter 28 (Protista) on the next test (you have plenty with the chapters up to 27)

A couple questions will come from the Evolution lab – especially review similarities in vertebrate embryos

Helpful study tips – READ THE CHAPTERS (but you can skip the parts I said to skip); try practice self-quizzes at the end of each chapter; if you have the CD that came with the book, it also has practice quizzes and helpful hints

Don’t wait until Tuesday night to start studying – start going information now (reading, notes, etc) – write down the parts that are hard for you to remember

Test will be all multiple choice – probably 50-60 questions. There will be some questions that have options like: a and b, b and c, all the above, none of the above.

Chapter 22 – Descent with Modification…

On the Origin of Species – written by Charles Darwin, published 1859; purpose of

HMS Beagle’s trip

Natural selection – what it is, examples

Carolus Linnaeus – Swedish botanist – binomial nomenclature

Sedimentary rocks – often hold fossils; older fossils are usually deeper

“acquired traits”- WRONG – Lamarck

Galapagos Islands – where they are, their biological significance, “Darwin’s Finches”

Lyell – Earth is much older than people had thought before

Wallace – had same ideas about natural selection as Darwin

Descent with modification

Page 435 – know chart – Observations and Inferences about natural selection

Malthus – his writings about population increase influenced Darwin’s thinking

Artificial selection

Population and species – “biological” definitions

Natural selection and pesticide resistance

Homology (similar structures that have the same embryonic origins)

Biogeography – how it tells us about related animals

Endemics

Difference between the word “theory” and “hypothesis” in the scientific meaning

Chapter 23 – The Evolution of Populations

More about populations and species

Gene pool

Hardy-Weinberg equilibrium – know what it means,recognize the equation, know what p

and q are; know why this equation is used and know the assumptions it has

genetic drift, bottleneck effect, founder effect – what are they and what do they have to

do with gene frequency changes

gene flow, gene diversity

mutation

polymorphism – what it is and examples

cline – what it is and examples

Darwinian fitness (reproductive fitness) – what it is

Page 458 – know this page well – know about directional, diversifying, and stabilizing

selection – under what circumstances each might occur; recognize the graphs and which one they go with

advantages/disadvantages of reproducing sexually vs asexually

intrasexual and intersexual selection – definitions and examples of each

selection works directly on phenotype

know what phenotype and genotype are

Chapter 24 – The Origin of Species

Patterns of speciation – anagenesis vs cladogenesis

Biological species concept (breeding or potentially breeding, viable and fertile offspring)

Page 467 – know Fig. 24.5 well – summary of reproductive barriers between closely

related species – prezygotic and postzygotic barriers

Allopatric vs sympatric speciation – what each is and how each might occur

Adaptive radiation

Punctuated equilibrium

Horse evolution – some major phenotype changes along the way from ancestors to

modern horse

Chapter 25 – Phylogeny and Systematics

Sedimentary rocks and fossils (again)

Geological time table – page 487 – don’t have to memorize it, but should know generally

what is really old and what is much newer

Radiometric dating, half life of C-14 – how used to age rock and fossils

Pangaea, continental drift, and how this affected speciation

Mass extinctions – what were they

Taxon – an example of a taxon would be Mammalia (but NOT the word Class)

Systematics – definition

Genus, specific epithet, species name – know the fine points

Page 493 – know Fig. 25.7 – (Domain, Kingdom, Phylum, etc)

Clade – know generally what it is and recognize a picture of one

Analogy vs homology and convergent evolution (see page 495)

Chapter 26 – Early Earth and the Origin of Life

Page 511 – Fig. 26.1 – know order in which different groups are found in the fossil

record

Oxygen on Earth – when and how did it start

Spontaneous generation – experiment to discount it (Louis Pasteur)

Biogenesis – life arises from the reproduction of preexisting life

Page 522 – Fig. 26.15 – know 5-kingdom system

Page 523 – Fig. 26.16 – know 3 systems of classification

Chapter 27 – Prokaryotes…

Page 527 – Fig. 27.2 – know 3 domains of life

Shapes of prokaryotes– cocci (spherical), bacilli (rod-shaped), helical (corkscrew-shaped)

Know main characteristics of prokaryotes –

Differences between gram-positive and gram-negative bacteria – know structure of cell walls and why this makes one type (negative) more harmful; peptidogylcan and lipopolysaccharide

Taxis – movement towards or away from a stimulus

Binary fission (asexual reproduction) (but some prokaryotes can transfer genetic material

between individuals)

Endospore

Autotroph vs heterotroph

Saprobe – absorb their nutrients from dead organic mater

Parasite – absorb their nutrients from the body fluids of living hosts

Nitrogen fixation – what is it

Obligate aerobes, facultative anaerobes, obligate anaerobes

Archaea – live in extreme conditions (extremophiles)

Halo – salty (saline)

Thermo – usually refers to hot with respect to Archaea

Page 537 – Table 27.2 – know differences for first 3 characteristics and last one

Exotoxin (e.g., botulism) vs endotoxin (e.g., Salmonella)

Lyme disease

Symbiosis, mutualism, commensalisms, host, parasitism

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