1. Biology EOC Review Pack
The answers

2. 1) List the characteristics of life
Energy
Homeostasis
Organization
Reproduction
Adaptation & Evolution
Growth & Development
Adjust to a stimulus

3. 2) Explain the difference between independent & dependent variables
Dependent depends on Independent
Independent - what is tested/changed
Dependent - effect; what you’re measuring
Ex. In Redi’s experiment, what is the independent variable?
Covering the jar
Dependent variable?
Presence of maggots

4. 3) Explain the purpose of a control group
For comparison
To compare with experimental group data
Receives no treatment
Redi’s control group:
Uncovered jars

5. 4) What is the difference between quantitative and qualitative data?
Quantitative : quantity : numbers
data presented in graphs
Qualitative : words, descriptions

6. 5) Summarize the steps in the scientific method.
1. Problem
2. Background (research other experiments)
3. Hypothesis
4. Experiment
5. Observation (data)
6. Conclusion (analyze data)

7. 6) Fill in the chart: Carbohydrates
Elements
present
Building blocks
(monomers)
(subunits)
Function
Examples
C : H : O
1: 2: 1
monosaccharides
Quick energy; short term energy storage
Starches, cellulose (plant cell walls), glycogen (liver), glucose, sucrose

8. 6) Fill in the chart: Lipids
Elements
present
Building blocks
(monomers)
(subunits)
Function
Examples
C : H : O
Very little oxygen
Fatty acids
Long term energy storage, insulation, plasma membrane
Fats, oils, waxes, steroids, cholesterol

9. 6) Fill in the chart: Proteins
Elements
present
Building blocks
(monomers)
(subunits)
Function
Examples
C H N
O P (S)
Amino acids
Joined by
Peptide bonds
Catalyze chemical reactions, transport O2 in blood, tissue structure
Enzymes,
hemoglobin,
insulin

10. 6) Fill in the chart: Nucleic Acids
Elements
present
Building blocks
(monomers)
(subunits)
Function
Ex.
C H O (simple sugar)
N (bases)
P (backbone)
Nucleotides
(Show me your nucleotide)
Store genetic info in a code
DNA
&
RNA

11. Iodine (Lugol’s solution) Turns dark purple/black
7) Draw a line from the organic molecule to the test and fill in the test results.
Biomolecule
Test
Test Results
Lipids
Iodine (Lugol’s solution)
Turns dark purple/black
Carbohydrates- starches
Brown paper bag
Bag becomes see-through
Proteins
Benedict’s
Solution turns from blue to orange (coppery)
Carbohydrates – simple sugars
Biuret’s
Solution turns from light blue to violet

12. 8) Draw, Label, & Color an Animal Cell
vacuole
ribosomes
mitochondria
nucleus
Plasma membrane/
cell membrane

13. 8) Draw, Label, & Color Plant Cell
Cell wall
(cellulose)
nucleus
vacuole
Plasma/cell
membrane
ribosomes
chloroplast
mitochondria

14. 8) Organelle function & analogy chart
Nucleus
Contain DNA, control cell processes
Control center; king; brain
Plasma Membrane
Select what enters & leaves cell
Club bouncer; airport security
Cell Wall
Gives plant, bacterial, & fungi cells structure
Walls of a house

15. Organelle Function Analogy Mitochondria
Perform aerobic respiration; break down glucose to produce ATP
Red Bull; Powerhouse; Duke Power
Vacuoles
Store nutrients, waste, & water
Brown paper bag; U Store It
Chloroplast
Capture light energy, convert it to chemical energy (glucose)
Solar panel
Ribosome
Assemble (synthesize) proteins
Factory (blue collar workers)

16. 9) Which cells would have more mitochondria – fat cells or muscle cells? Why?
Muscle cells – they are more active; need more ATP; perform more active transport (needs ATP)
Highly-folded membrane=
increased surface area

17. 10) Which cells would have more chloroplasts – stem, leaf, or root cells? Why?
Leaf cells – they are the main photosynthetic organs; designed & positioned to collect maximum sunlight (to make glucose)

18. *Plants, animals, protists, fungi
11) Fill in the Venn diagram comparing Prokaryotic and Eukaryotic cells in terms of size, chromosome structure, organelles, and types of organisms.
Prokaryotic
Eukaryotic
*Much larger
*Many chromosomes
*Nucleus
*Membrane-bound
organelles
(mitochondria,
vacuoles,
chloroplast)
*Plants, animals, protists, fungi
*Very small
*One chromosome
*Plasmid
*No nucleus
*No membrane-bound
organelles,
*Bacteria
Ribosomes
Cytoplasm
Cell membrane
Flagella
Cell wall?

19. 12) From smallest to largest, fill in levels of cellular hierarchy: Cells  Tissues  Organs  Organ Systems  Organism

20. 13) How do cells communicate?
4 Ways:
1) Direct contact:
protein receptors
2) Short-range
signals: proteins
3) Long-range
signals: hormones
4) Complex: chemical
& electrical signals

21. 14) Why do cells need to maintain homeostasis?
Cells need a stable environment to support enzyme activity
15) How do cells maintain homeostasis in:
pH – buffers decrease impact of change
temperature – bodies shiver, pant, sweat
blood glucose levels – insulin increases absorption of glucose after meals
water balance – water follows concentration gradient – seeks equilibrium, moves by osmosis from high to low concentration

22. 16) Why is water important to cells?
It gains & loses heat very slowly
Dissolves & transports nutrients
Helps body eliminate wastes from cells
Lubricates joints & acts as shock absorber

23. 17) Define: Active Transport, Passive Transport, Diffusion, Osmosis, Semi-permeable membrane
Active transport: Requires energy & transport protein. Moves materials against concentration gradient (lowhigh)
Passive transport: No energy; moves materials with concentration gradient (highlow)
Diffusion: Random particle movement; passive
Osmosis: Water movement; passive
Semi-permeable membrane: allows some materials to pass

24. Red blood cell in distilled water
18) Draw & Describe a situation in which water would move into a cell by osmosis.
Water moving in
Red blood cell in distilled water
Water moves in 
Cell swells

25. Red blood cell in strong sugar/salt water
19) Draw & Describe a situation in which water would move out of a cell by osmosis.
Water moving out
80% water
90% water
Red blood cell in strong sugar/salt water
Salt/sugar Sucks! the H2O out = cell shrinks

26. 20) How is ATP made and used in the cell?
Cellular respiration produces ATP by breaking down glucose to release energy
Happens in the mitochondria
Used in
Active transport, mitosis, meiosis…

27. 21) Draw & Label the cycle from ATP to ADP.
ATP - Adenosine Triphosphate
Releasing
energy
Storing
energy
ADP - Adenosine Diphosphate

28. 22) What are enzymes?
Proteins that control the rate of chemical reactions in cells; end in –ase (ex. Lactase, sucrase, amylase)
They are Catalysts = reusable
23) What is their importance in biological processes?
They start & speed up chemical reactions that otherwise would take too long & interrupt homeostasis
24) Explain what is meant by “they are re-usable and specific.”
They are not used up in reactions, so they can be used again & again
They are substrate-specific (each enzyme’s active site has a specific shape that only fits a certain substrate=substance the enzyme breaks down or assembles

29. 25) What affects enzyme activity?
pH – enzymes in stomach work best in acidic (1.5-2) pH
Temperature – enzymes in humans work best around 98.6 degrees F
In some chemosynthetic bacteria, around 700 degrees Celsius
Explain the term denature.
Enzyme’s active site becomes deformed so that it can no longer bind to its substrate

30. 27) Label the diagram: Substrate broken Into products Substrate Active
site
Enzyme binding
with substrate
Enzyme ready
To be used again
Enzyme:
B, C, D

31. A) Aerobic – uses oxygen (O2)
28) What are the main differences between aerobic and anaerobic respiration?
A) Aerobic – uses oxygen (O2)
much more effective at making ATP
Happens in the mitochondria
B) Anaerobic – NO O2!!
Very ineffective
What is alcoholic fermentation? What are the products? What types of cells do this?
Anaerobic process, happens when plant or fungal cells have no O2
produces CO2, alcohol, & a little ATP

32. Lactic acid fermentation (anaerobic) Causes muscle cramps
30) What type of fermentation might be used in your own muscle cells when they do not get enough oxygen? What might this cause?
Lactic acid fermentation (anaerobic)
Causes muscle cramps
31) What type of fermentation does
yeast use? What might it produce?
Alcoholic fermentation (anaerobic)
Produces alcohol, CO2, and a little ATP

33. O2 + C6H12O6  CO2 + H2O CO2 + H2O  O2 + C6H12O6
32) Equation for Cellular Respiration:
O2 + C6H12O6  CO2 + H2O
Reactants Products
oxygen carbon dioxide
glucose water
ATP
33) What is chemosynthesis? Where might it be used?
converting chemical energy into glucose; places with no sunlight
34) Equation for Photosynthesis:
CO2 + H2O  O2 + C6H12O6
Reactants Sunlight Products
carbon dioxide oxygen
water glucose

34. 35) Describe the role of photosynthesis and cellular respiration in the carbon cycle.
Pulls CO2 out of atmosphere
uses it as a reactant
Decreases global warming
Who does it?
Plants, plant-like protists, algae
Where: chloroplast
Cellular respiration
Releases CO2 into atmosphere
CO2 is a product
Who does it?
ALL living things
Plants, plant-like protists, fungi, animals, bacteria…
Where: mitochondria

35. Describe the structure of DNA. Who discovered this structure?
Double helix, Double stranded
Watson & Crick
37) Draw & label a DNA strand 2 nucleotides long. C G T A D P H H H

36. China Grove is where it’s AT
38) Name the nitrogenous bases in DNA and what each pairs with.
Adenine (A) pairs with Thymine (T)
Cytosine (C) pairs with Guanine (G)
China Grove
is where it’s AT
39) What type of bond is formed between the bases in DNA? Why is it important?
Weak Hydrogen bonds
Unzip easily for DNA replication & transcription

37. 40) a. Describe the structure of RNA.
Single stranded; simple sugar : ribose; has U (Uracil) instead of T
b. What is the role of mRNA?
Take message from DNA in nucleus to ribosome; it is single-stranded so it can leave through nuclear pore
c. What is the role of tRNA?
Like a Truck bringing supplies (amino acids) to the factory (ribosome) so proteins can be assembled
What base is found in RNA that is not found in DNA? What does it correspond to?
Uracil = corresponds to Adenine
Uracil replaces Thymine

38. 42) Why is DNA Replication considered semi-conservative?
Makes 2 new strands (half new & half original)
43) What are 3 main differences between DNA and RNA:
A. DNA: double-stranded; RNA:single-stranded
B. DNA sugar: deoxyribose; RNA sugar: ribose
C. DNA has T; RNA has U
44) When in the cell cycle does DNA replication occur? Where in the cell does it happen?
During Interphase (before mitosis or meiosis)
Happens in the nucleus

39. 45) What is Transcription and where does it happen?
Double-stranded DNA -> single-stranded mRNA
Happens in the nucleus
46) What is Translation and where does it happen?
mRNA goes to ribosome; tRNA brings amino acids to ribosome; proteins are synthesized (made/assembled)
47) What is a codon?
3 nitrogen bases = 1 amino acid

40. 48) Draw an animal cell and show the processes starting with DNA and finishing with protein synthesis.
alanine
tRNA AA
Delivery
amino acid
tRNA bringing
amino acid to ribosome
Translation
protein
ribosome
Product:
ala
val
tyr
peptide bonds
mRNA
Transcription
DNA
nucleus

41. 49) Use this original DNA strand to make a complementary DNA strand.
Original: TAC CGA CCT GGG TAT ATG ACT
Complementary: ATG GCT GGA CCC ATA TAC TGA
50) Use the original DNA above to make an mRNA strand:
mRNA: AUG GCU GGA CCC AUA UAC UGA

42. 51) Use the mRNA strand to make a polypeptide chain. p.292
mRNA: AUG GCU GGA CCC AUA UAC UGA
Polypeptide
Chain:
Met Ala Gly Pro Ile Tyr Stop

43. 52) Define cancer. Uncontrolled cell division caused by gene mutation
What causes it? Over- or underproduction, or production of proteins at the wrong times
Give examples of 3 types of cancer & explain their known causes.
Skin cancer – UV rays from sun (hole in ozone layer)
Mouth/throat cancer – chewing/dipping/smoking tobacco
Breast cancer – genetic predisposition (altered BRCA1 or BRCA2 genes)

44. 53) Compare & contrast mitosis & meiosis using a Venn diagram.
=reduction
division
*sexual
*asexual
*Provides genetic
variation
from
-crossing over
-independent
assortment
*Produces identical
daughter cells
*cell division
*somatic
(body) cells
*Prophase
Metaphase
Anaphase
Telophase
*1 division
*Diploid=2n
*gametes (sex cells)
Males:sperm
Females:ovules
*Necessary to
complete cycle
of life
*cloning
*regeneration
*2 divisions
*copy
*haploid=n
*budding
*so a species can survive in changing environment
*so organism can grow

45. 54) Put the stages of mitosis in order
54) Put the stages of mitosis in order. Label what is happening in each stage.
3rd:
chromosomes separate at centromeres, begin to move to poles
2nd:
chromosomes line up at equator
4th: chromosomes move
toward poles;
cell begins to pinch
apart
1st: nuclear envelope dissolves; centrioles appear; chromatin coils up = chromosomes
Remember: puppy PMAT!

46. 55) Define:
a. Diploid: 2n; has 2 sets of chromosomes
b. Haploid: n; has 1 set of chromosomes
56)a. What is crossing over? Exchange of genetic material in meiosis
b. When does crossing over occur? During Prophase I of meiosis
c. What’s the benefit of crossing over? Genetic variation=survival of the species

47. (find all possible combinations of letters)
57) Define Independent Assortment. Alleles for different traits are inherited separately – not linked together
How does it increase variation? New genetic combinations
This diagram shows a diploid cell with two pairs of homologous chromosomes. Due to independent assortment, what is the possible genetic makeup of gametes produced?
ST, St, sT, st
(find all possible combinations of letters)
A B
a b

48. 58) What is a gene mutation? Any change in DNA
Define and give an example of each (with before and after mutation). Before After
Point mutation: substituting one N base for another
GGA TCG GGG TCG
Frameshift mutation: inserting or deleting one N base; changes entire strand from that point
GGA TCG GGA TAC G
How do mutations increase variation? Allows for genetic diversity=raw material for natural selection

49. 59) What is segregation of alleles
59) What is segregation of alleles? Alleles separate during gamete formation & randomly unite during fertilization
How does it increase variation? Get more different combinations of alleles
60) How can reproductive variations benefit a species?
More variations = More chances species will survive during in a changing env.

50. 61) Define nondisjunction
61) Define nondisjunction. Failure of chromosomes to separate during meiosis
What does it cause? Trisomy 21 = 3 chromosomes at pair 21 (down syndrome)
62) Define fertilization. Sperm & egg fuse together.

51. 63) Define: Dominant – masks recessive trait
Recessive –is masked by dominant trait; only expressed if genotype is homozygous recessive (two little letters)
*Homozygous – two of the same alleles;
2 dominant alleles: TT recessive alleles: tt
*Heterozygous – 2 different alleles;
1 dom. & 1 rec.: Tt
Genotype – organism’s genes: Tt or TT or tt
Phenotype – physical expression of genes; tall or short

52. #63 cont.
Test Cross – cross unknown genotype w/ known genotype (homozygous recessive)
Co-dominance – both alleles are dominant; use two different letters: B=Black feathers W=White feathers; **checkered chicken
Incomplete dominance – neither allele is dominant; heterozygous is mixture, intermediate of both traits; use same letters, one with prime (‘):
LL=long L’L’=short, LL’=medium
Sex-linked – gene carried on X chromosome;
Autosomal – gene is found on chromosome pairs #1-22 (anything but sex chromosomes)

53. 64) Using the diagram, what is the:
a. Phenotype of the F1 generation? inflated
b. Genotypic ratio of the F2 generation?
I I i
I i
P1 Cross
I i
I I
I i
i i
F1 Cross
Key:
I:Inflated
i:constricted I i
25% II, 50% Ii, 25% ii

54. 3 tall: 1 short T t T t TT tt Tt
65) Two heterozygous tall pea plants are crossed. If tall is dominant to short, what are the expected phenotypic results?
(appearance)
Key:
T: Tall
t: short
T t T t TT tt Tt
3 tall: 1 short

55. Mr. Jones: A (IAIA or IAi)
66) Blood Type question (Multiple Alleles): Mr. Jones has blood type A and Mrs. Jones has blood type AB. What is the chance that they will have a child with blood type A if both of Mr. Jones’s parents were AB?
50% chance
Key:
Mr. Jones: A (IAIA or IAi)
Mrs. Jones: AB (IAIB) IA IB
IAIA
IAIB
IA IA
Mr. Jones & Mrs. Jones
IA IB IA IB
IAIA
IBIB
IAIB
Mr. Jones’ parents

56. IB i IAi IAIB IA i Yes it is ii IBi
67) Is it possible to have a child with type O blood if one parent is type A and the other is type B? Use a punnett square to prove your answer. IA i
IAIB ii
IAi
IBi
IB i
Yes it is

57. The mother has to be a carrier (heterozygous for colorblindness)
68) Color blindness is a sex-linked recessive trait. A mother with normal color vision and a colorblind father have a colorblind daughter. What does this conclude about the mother?
Xn Y XN Xn
XNXn
XN Y
XnXn
Xn Y
Key:
N: Normal vision
n: colorblind
Colorblind daughter
The mother has to be a carrier (heterozygous for colorblindness)

58. 69) Two healthy parents have a child with cystic fibrosis
69) Two healthy parents have a child with cystic fibrosis. Use a punnett square to explain how this happened. What are the chances they will have another child with cystic fibrosis?
N n N n NN nn Nn
Key:
N: Normal
n: cystic fibrosis
Child with cystic fibrosis
25% chance of having another child with cystic fibrosis

59. hh Hh
70) A woman is diagnosed to be heterozygous for Huntington’s. Her husband is healthy. What are the chances their children have the disorder?
Hh or HH
h h H h Hh hh
Key
H: Huntington’s
h: normal
50% chance

60. Nn nn
71) A man is resistant to malaria. His wife has sickle cell anemia. What are the chances their children could be resistant to malaria? Nn
Key
N: Normal
n: sickle cell anemia
N n n Nn nn
50% chance

61. 25% Black: 50% checkered: 25% white
72) In chickens, feather color is co-dominant. One allele codes for black and another allele codes for white. The heterozygous bird is checkered. Cross two checkered birds. What is the phenotypic ratio that results?
Key:
BB: Black feathers
WW: White feathers
BW: checkered chicken
B W B W BB WW BW
25% Black: 50% checkered: 25% white

62. 73) In snapdragons, flower color is inherited by incomplete dominance
73) In snapdragons, flower color is inherited by incomplete dominance. There is a red allele, a white allele, and the heterozygous is pink. What is the phenotypic ratio if you cross a white flower with a red flower?
Key:
RR: red
R’R’: white
RR’: pink
R R R’
RR’
100% pink

63. 74) Use the pedigree showing inheritance of hemophilia to answer the following questions:
*Remember: you may have to complete a Punnett square to answer the question correctly.
a. What is the genotype of individual I-1?
b. What is the genotype of individual I-2?
c. What is the phenotype of individual III-1? What is their genotype?
XNY
XNXn
Has hemophilia
XnY

64. 75) Black is dominant in rabbit fur color
75) Black is dominant in rabbit fur color. Suggest a test cross to determine a black rabbit’s genotype if mated with a white rabbit, it has 14 offspring: 7 black & 7 white.
Key:
B:Black fur
b:white fur
Test Cross: cross a known:
(homozygous recessive = white fur)
with the unknown; look at offspring
B b b Bb bb
B B b Bb
½ of offspring are black; ½ are white
Genotype of unknown black must be Bb
All black offspring

65. 76) What is a polygenic trait
76) What is a polygenic trait? Determined by more than one gene; creates a bell curve
Give three examples. Height, skin color, eye color
77) Describe Gregor Mendel’s pea plant experiments. Tall pea + short pea = all tall (principle of dominance)
78) Why are males more likely to express a sex-linked disorder? Have only 1 X chromosome; if male gets 1 allele for disorder has no way to mask it

66. 81) What are the uses of DNA fingerprinting
81) What are the uses of DNA fingerprinting? Forensics: solve crimes, convict criminals, overturn wrongful convictions; wildlife conservation: catch poachers; I.D. parents

67. 82) What is a karyotype and what is it used for? picture of chromosomes
**Can see gender & chromosomal disorders (down syndrome)

68. 83) What is gene therapy? Absent or faulty gene replaced by normal, working gene
84) How can genetic engineering allow us to produce human insulin using bacteria? Isolate insulin gene; insert into bacteria; bacteria clone gene

69. 85) What is a transgenic organism. Give an example
85) What is a transgenic organism? Give an example. organism containing genes from other species; Insert recombinant DNA into host genome
(red cat has
genes from
bioluminescent
jellyfish,
Aequoria victoria)

70. 86) What is cloning? making a genetically identical copy

71. 87) What is gel electrophoresis. Briefly explain the steps involved
87) What is gel electrophoresis? Briefly explain the steps involved. A way to sort DNA fragments by size
1.Cut DNA w/ restriction-enzyme. Put
fragments into gel.
2. Add electricity.
Shorter fragments move farther
3. Result: DNA fingerprint
p. 346

72. 88) a. What is this image? A DNA fingerprint
b. How was it prepared? gel electrophoresis
c. Based on the evidence (Evs), who is guilty – suspect 1 or 2? Suspect 2

73. 89) What problems could be associated with genetically modified organisms? unintended gene transfer to native species; unknown effects on human health; economic issues (poor farmers can’t afford GM seed)
90) What is the Human Genome Project? Complete mapping of all genes in human genome
Why is it useful? To ID people with genetic disorders early (prevention/treatment); find cures for disorders

74. 91) Contrast abiogenesis (spontaneous generation) and biogenesis
91) Contrast abiogenesis (spontaneous generation) and biogenesis. Abiogenesis:life appears from non-living things; Biogenesis: life comes from life
92) What did Louis Pasteur contribute to our understanding of the origins of life? Disproved spontaneous generation of microorganisms (broth experiments)

75. 93) Explain Miller and Urey’s hypothesis – created building blocks for life in lab (amino acids)
94) How did early Earth’s conditions contribute to the development of life? No free O2 = first organisms anaerobic & simple (prokaryotic)
95) Explain the evolution of eukaryotic cells and aerobic organisms. (Endosymbiont Theory) evolution of prokaryotic cells to eukaryotic cells
(aerobic bacteriamitochondria; cyanobacteriachloroplast)

76. 96) What can you infer from a fossil record? Evolutionary relationship
Where do you find the oldest/youngest fossils? Oldest in bottom layer; youngest on top
97) Which is more accurate – relative dating or radiometric dating? Explain each concept briefly. Relative dating uses rock layers; Radiometric: uses radioactive isotopes
Which is referred to as absolute dating? Radiometric dating

77. 98) Explain what scientists could conclude from this diagram.
They all evolved from a common ancestor because of similar arrangement of bones.

78. 99) Define Natural Selection – organisms best suited for their environment survive, reproduce, pass on favorable genes
100) How are variation and natural selection related? Variations are raw material for natural selection to happen
101) What is the role of geographic isolation in speciation? Physical barrier separating individuals of a population; they no longer interbreed = produce two species
102) How does the environment select adaptations? Individuals with adaptations best suited to environment survive, reproduce, pass on genes
103) Define the following and explain how they are related to natural selection:
* Pesticide Resistance – organisms with resistant genes survive, reproduce, pass on genes
* Antibiotic Resistance – bacteria with resistant genes survive, multiply, pass on genes (MRSA, TB)

79. 104) How does our modern classification system show the evolutionary relationship among organisms? Phylogenetic systematics aim to group species in larger categories that reflect evolutionary relationships (based on DNA analysis)
105) Based on the cladogram, which are more closely related – bacteria and marsupials or birds and marsupials?

80. 106) Originally there were only two kingdoms (plants and animals), now there are 6 kingdoms.
Prokaryotic or Eukaryotic?
Unicellular or Multicellular?
Method of obtaining nutrients
Special characteristics
Eubacteria
P (no nucleus) U
autotrophic, heterotrophic, or chemosynthetic
Antibiotics treat them; many are decomposers
Archaebacteria P
Many are chemosynthetic
Extreme habitats
Protista
E (has nucleus)
Both
Both (auto or hetero)
Amoeba, paramecium, euglena
Fungi E
both (yeast is unicellular)
Heterotrophic
Decomposition, nutrient recycling
Plantae M
Autotrophic
Has chloroplasts; photosynthesis
Animalia
complex behaviors

81. 107) Who came up with the two word naming system? Carolus Linnaeus
What is this naming system called?
Binomial nomenclature
2-name name- system
108) Name the 8 levels of our current classification system starting from largest (most similarities) to smallest (most specific).
More similar
Domain
Kingdom
Phylum
Class
Order
Family
Genus
Species
More specific
Desperate
King
Phillip
Came
Over
For
Good Spaghetti

82. 109) How has our knowledge of evolutionary relationships been affected by our understanding of:
DNA analysis- the more similar DNA sequences of 2 species, the more recently they shared common ancestor; much more reliable than physical similarities (African vultures/American vultures/Stork)
Amino Acid Analysis- Compare similarities in protein sequences (cytochrome c=cell respiration; Hox genes=embryo)

83. 112) Animal-like (unicellular) Protists: Protozoans: depend on diffusion & osmosis to maintain homeostasis; most reproduce asexually (mitosis); under stress some do conjugation
Amoeba-pseudopod aids movement, food capture;
Paramecium – cilia move it, usher food into mouth;
Euglena – moves with flagellum; has red eye spot & chloroplasts, moves toward light
113) Animals: multicellular, eukaryotic, heterotrophic
a. Chordata –
i. Mammals: have hair, mammary glands, internal fertilization, & are endothermic
ii. Amphibians: “double life”; spend part of their life in water and part on land; ectothermic; external fertilization; go through metamorphosis

84. 113)
b) Arthropoda- “jointed appendages”
* Insects – 3 body segments; 6 legs; exoskeleton made of chitin; mostly internal fertilization; open circulation system
c) Annelida- Segmented worms; breathe & excrete wastes through skin; bilateral symmetry; also use nephridia to excrete waste

85. “Xy” goes high “Phlo” goes low
114) Plants: multicellular; autotrophic; eukaryotic
a) Nonvascular plants: Mosses- do not contain vascular tissue (xylem & phloem); must grow near water; reproduce with spores
b) Gymnosperms (conifers) – “naked seed”; seeds are enclosed in cones; have needles instead of leaves; have vascular tissues (xylem & phloem)
c) Angiosperms- flowering plants; produce seeds enclosed in fruits; vascular tissue
“Xy” goes high
“Phlo” goes low

86. Increased surface area=increased activity (helps maintain homeostasis)
115) Why are the highly folded structures of mitochondria, intestines, and mammal brains significant?
Increased surface area=increased activity (helps maintain homeostasis)
116) What adaptations are necessary for plant life on land?
Vascular tissue, pollination must occur; seeds/spores dispersed by abiotic/biotic factors (wind/water/animals);

87. Roots – anchor plant; prevent soil erosion
117) List the main functions of these plant parts and name adaptations for survival:
Roots – anchor plant; prevent soil erosion
i. How do mycorrhizae aid in root function? Mutualistic relationships w/ fungus give roots increased surface area to help absorb more nutrients & water
Stems – structure, support
Leaves – Photosynthesis!! Increased surface area for light absorption; make glucose for plant
118) What are xylem and phloem? Vascular tissue
What do they do? Xylem moves water up from roots to leaves; Phloem moves sugar from leaves to roots
“Xy” goes high
“Phlo” goes low

88. 119) Discuss the relationship between angiosperms and their pollinators. Co-evolution; pollinator’s nectar-gathering structures match flowers to ensure pollination success
120) What adaptations do plants have to ensure reproductive success? pollen/attractive flower colors, fragrance, fruit, open time, nectar amount

89. a. HIV – virus; causes AIDS b. Influenza – virus; causes flu
121) Explain the result of mutations in viruses and other microorganisms, how does this benefit these disease-causing organisms? Mutations are driving force of evolution; organisms can evolve resistance
122) Describe the following disease causing pathogens. Are they a virus or bacteria? Which should be treated with antibiotics?
a. HIV – virus; causes AIDS
b. Influenza – virus; causes flu
c. Small Pox – virus
d. Streptococcus (strep throat) – bacteria; treat w/ antibiotics (the only living pathogen on this slide)

90. 123) Describe how genetics and the environment affect:
a. Sickle cell anemia and malaria: carriers resistant to malaria
b. Lung/mouth cancer & tobacco use tobacco causes mutations cancer
Skin cancer, vitamin D, folic acid, and sun exposure – overexposure to UV causes mutations; folic acid helps repair skin damage;moderate sun exposure aids in vit. D absorption;

91. d. Diabetes (diet/exercise and genes) –
Type I is genetic
Type II: can be genetically predisposed, BUT proper diet/exercise can help treat
e. PKU and diet – genetic disorder diagnosed at birth; proper diet prevents mental retardation

92. 124) Explain the role of T-cells and B-cells – T cells attack & kill; B cells make antibodies; both make memory cells to recognize pathogens
125) Passive vs. Active Immunity – passive-get from mother at birth; temporary; active-encounter antigens, antibodies are formed in response
126) What are vaccines and how do they work? Weakened form of pathogen; causes antibody & memory cell production to fight off future invasions

93. Symptoms: chills, fever, aches, fatigue
127) Explain malaria’s vector, symptoms, treatments, and causal organism.
Vector: mosquito
Symptoms: chills, fever, aches, fatigue
Treatments: used to be Chloroquine, but parasite evolved resistance
Causal organism: protist: Plasmodium

94. 128) Explain the effects of the following toxins in the environment:
a. Lead – causes learning disabilities (ADD); birth defects
b. Mercury – biomagnification; birth defects from infected fish

95. 131) Define the following innate behaviors and taxes:
a. Phototaxis (positive/negative) – positive: Euglenas move toward light; negative: squinting in bright light; rolly pollies run away when turn over log
b. Suckling – innate behavior to find nourishment immediately following birth
c. Migration – seasonal movement for breeding/feeding grounds
d. Estivation – decreased metabolic activity thru drought
e. Hibernation – decreased metabolic activity thru winter

96. 132) Define the Types of Learned Behavior
a. Habituation- get used to repetitive behavior b/c no negative consequence
b. Imprinting – forms a permanent attachment to mother upon hatching; helps recognize appropriate mate
c. Classical Conditioning- Pavlov’s dogs; learning by association
d. Trial and Error- random; proper response is rewarded

97. 133)Define the following social behaviors:
Communication with pheromones- chemical signals send messages about mating/finding food
Courtship Dances and behaviors- ensures male with best genes mates; elaborate displays, esp. in birds
c. Territorial Defense- males fight males of same species; strongest, best adapted male gets to mate

98. 134) Define
a) Phototropism – leaves/stems bend toward light (positive response)
b) Thigmotropism – response to touch; causes vining
c) geotropism/gravitropism – leaves/stems respond negatively to gravity pull; roots respond positively

99. Organism Population Community Ecosystem Biome Biosphere
135) List the levels of ecological organization from smallest to largest:
Organism
Population
Community
Ecosystem
Biome
Biosphere
*Single of a species
*Group of organisms,
same species
*All living things
in an area
*Biotic & abiotic
factors in an area
*Regions of
similar habitat
*Portion of earth
where all life is

100. Define and give an example of the following symbiotic relationships.
136) What is a symbiotic relationship? Permanent relationship between organisms
Define and give an example of the following symbiotic relationships.
Mutualism - both benefit
ex: clownfish/anemone
Commensalism- one benefits, one neither hurt nor helped
ex: barnacles on a whale
Parasitism- host is hurt; parasite benefits
ex: fleas on a dog
d. What type of symbiosis could Nitrogen fixation represent? Explain. Mutualism: nitrogen-fixing bacteria on plant roots get glucose, plant gets N in a form it can absorb

101. 137) What is a limiting factor. What are some examples
137) What is a limiting factor? What are some examples? keeps population near carrying capacity
examples: food, disease, predators, space

102. 138) Carrying capacity = max # of organisms environment can support
Exponential
growth
Time

103. 139) What are abiotic and biotic factors?
abiotic = nonliving factors
ex: air currents, temperature, light, soil, moisture; pH
biotic factors = living factors
How are they related?
interdependent in ecosystems
Why are they important in ecosystems?
abiotic factors = shelter, resources needed for survival
biotic factors = all organisms depend on others for food, shelter, reproduction and/or protection

104. linear diagram showing feeding relationship
140) What is a food chain?
linear diagram showing feeding relationship
Draw a food chain including the following organisms: heron, minnow, plankton Plankton  minnow  heron
141) How much energy is passed from one trophic level to the next? 10%
What happens to the rest?
lost as heat
Draw & label a
trophic pyramid.

105. 2°C, 3°C, Carn.
2°C, 3°C, Carn.
3°C, Carn.
1°C, Herb.
1°C, Herb.
2°C, Carn.
1°C, Herb.
1°C, Herb.
Producer
Producer

106. 142 cont.) What would happen if grasshoppers were removed from the food web by insecticides? Producers increase; Frog population will decrease
Where would you find bacteria in the food web & what is its primary role? At all levels; decomposer
Where would you find fungi in the food web & what is its primary role? At all levels; decomposer
143) What are some factors that influence birth and death rates in the human population? Disease, sanitation, availability of resources, education of women

107. What does this graph depict about historical population growth?
Pre-Industrial revolution = slow growth
Post-Industrial revolution = exponential growth
What does it indicate about possible future growth? Continue to grow exponentially

108. resources are quickly used & polluted; disease spreads quickly
144) What effects do the following have on the environment?
Human population size?
reduce availability of resources
Human Population density
resources are quickly used & polluted; disease spreads quickly
Resource use?
Future generations will have fewer
resources available to them

109. 145) How have humans impacted the ecosystems through:
Acid rain: Caused by emissions (from automobile exhaust & coal-burning factories). Can damage trees and alter water ecosystems.
Habitat destruction: populations forced to move or die due to humans destroying or degrading habitats
Introduced non-native species: competition for food and other resources; rapid growth b/c no natural predators

110. 146) Climate change factors:
Define greenhouse effect: CO2 traps heat in atmosphere, global temp increase
How does the carbon cycle impact the greenhouse effect? Photosynthesis removes CO2 from atm.
Plants & Animals release CO2 as a waste product of respiration
ii. How have humans impacted the carbon cycle? Increased carbon emissions.
Deforestation = less carbon removed thru photosynthesis

111. 146)
How do natural environmental processes impact the greenhouse effect? Water vapor is greenhouse gas with most volume
What is global warming and what causes it? Overall increase in the average global temperature; caused by too many greenhouse gases (CO2)

112. 147) How does human resource use cause deforestation
147) How does human resource use cause deforestation? Cut down trees for building materials, clear land for development
What impact does deforestation have?
Habitat loss = Biodiversity loss
Discuss habitat fragmentation.
Separation of wilderness areas from other wilderness
Can cause edge effects; extinction; difficult for animals to find food/mates; overall species diversity declines

113. Cons = food is more expensive
148) Pesticides:
a. What are some biological alternatives to chemical pesticides? Biological controls: natural predators (ladybugs, praying mantis, spiders) eat pests
What are the pros and cons?
Pro = reduction of harmful chemicals in our food/environment; beneficial organisms are not affected
Cons = food is more expensive

114. Bioaccumulation – harmful chemicals build up in fat tissues
148) cont.
What is DDT and what is its effect on the environment? Pesticide now banned in the US. Harmful to many species & bioaccumulates. Has caused decline of bird populations.
c. Explain bioaccumulation and biomagnification.
Bioaccumulation – harmful chemicals build up in fat tissues
Biomagnification – organisms at the top of the food chain/web have more of the harmful chemical in their bodies

115. 149) Explain ozone depletion.
Ozone molecules are broken apart; allows greater # of harmful UV rays to penetrate our environment
What causes it and why is it a problem?
Chlorofluorocarbons (CFCs)
Increased UV causes skin mutations

116. 150) Give examples of sustainable practices and stewardship.
Habitat preservation (Yellowstone), recycling, reintroduction programs, ecotourism, laws to protect endangered species