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Unit 1 Study Guide

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Title: Unit 1 Study Guide


1
Unit 1 Study Guide
  • Questions and Answers
  • Population Ecology, Community Interactions, and
    Ecosystems
  • Chapters 3, 4, and class notes

2
What and How to Study
  • Study the PowerPoint lectures and their review
    questions.
  • Read the chapters assigned in the text.
  • Know the key vocabulary terms (lists at the end
    of each chapter and/or the glossaries).
  • Prepare frequently prior to the test. Review the
    film study questions where applicable.
  • These statements apply to all of the unit tests
    and exam.

3
Please Note
  • The study guide question project is a work in
    progress, and accordingly, it is incomplete.
    Therefore none of the study question sets should
    be considered a substitute for a complete and
    exhaustive test preparation. This applies to all
    four of the study guide question sets.

4
Question 1
  • 1. How did the community respond to the Angel
    Island deer problem?

5
Answer 1
  • How did the community respond to the Angel Island
    deer problem?
  • The community demanded that the deer be moved
    to the mainland, rather than be killed by
    hunters.

6
Question 2
  • 2. Ultimately what happen to most of the deer?

7
Answer 2
  • 2. Ultimately what happen to most of the deer?
  • They died from car impacts, dogs, coyotes, and
    hunters.

8
Question 3
  • 3. What is there to be learned from the Angel
    Island experience?

9
Answer 3
  • 3. What is there to be learned from the Angel
    Island experience?
  • Answers will vary.. But many will include an
    element of unexpected consequences.

10
Question 4
  • 4. Define the term, population.

11
Answer 4
  • 4. Define the term, population.
  • A group of individuals of the same species
    occupying a given area during a particular period
    of time.

12
Question 5
  • 5. What is a population age structure diagram?

13
Answer 5
  • 5. What is a population age structure diagram?
  • A demographic analytic method that divides a
    population into age categories (often by gender)
    and displays it as a graph.

14
Question 6
  • 6. A populations ______ _____ includes
    members of the reproductive and pre-reproductive
    age categories.

15
Answer 6
  • 6. A populations reproductive base includes
    members of the reproductive and pre-reproductive
    age categories.

16
Question 7
  • 7. Define crude population density.

17
Answer 7
  • 7. Define crude population density.
  • The number of individuals in some specified
    area of habitat.
  • It does not take into consideration the
    distribution of organisms.

18
Question 8
  • 8. What are two distribution patterns (there are
    three)?

19
Answer 8
  • 8. What are two distribution patterns (there are
    three)?
  • Clumped
  • Random
  • Uniform
  • (Any two will do.)

20
Question 9
  • 9. State two methods of determining population
    size (there are three).

21
Answer 9
  • 9. State two methods of determining population
    size (there are three).
  • Direct counts
  • Can sample an area, then extrapolate
  • Capture-recapture method

22
Question 10
  • 10. What are two rates that increase population
    size?

23
Answer 10
  • 10. What are two rates that increase population
    size?
  • Birth rate
  • Immigration rate

24
Question 11
  • 11. When is a zero population rate attained?

25
Answer 11
  • 11. When is a zero population rate attained?

When births immigration deaths emigration
26
Question 12
  • 12. State the Exponential Growth Equation.

27
Answer 12
  • 12. State the Exponential Growth Equation.
  • G rN

28
Question 13
  • 13. Given G rN, what do the symbols represent?

29
Answer 13
  • 13. Given G rN, what do the symbols represent?
  • G is population growth per unit time
  • r is net reproduction per individual per unit
    time
  • N is population size

30
Question 14
  • 14. What type of organisms are r strategists?

31
Answer 14
  • 14. What type of organisms are r strategists?
  • Weedy species and pioneer species

32
Question 15
  • 15. State three characteristics of r
    strategists.

33
Answer 15
  • 15. State three characteristics of r
    strategists.
  • Short life
  • Rapid growth
  • Early maturity
  • Many small offspring.
  • Little parental care.
  • Little investment in individual offspring.
  • Adapted to unstable environment.
  • Pioneers, colonizers
  • Niche generalists
  • Prey
  • Regulated mainly by extrinsic factors.
  • Low trophic level.

34
Question 16
  • 16. Define biotic potential.

35
Answer 16
  • 16. Define biotic potential.
  • Maximum rate of increase per individual under
    ideal conditions

36
Question 17
  • 17. What is K?

37
Answer 17
  • 17. What is K?
  • Maximum number of individuals that can be
    sustained in a particular habitat (carrying
    capacity)

38
Question 18
  • 18. State the logistic equation.

39
Answer 18
  • 18. State the logistic equation.
  • G rmax N ((K-N)/K)

40
Question 19
  • 19. Given the logistic equation,
  • G rmax N (K-N/K)
  • What do the symbols stand for?

41
Answer 19
  • 19. Given the logistic equation,
  • G rmax N (K-N/K)
  • What do the symbols stand for?
  • G population growth per unit time
  • rmax maximum population growth rate per unit
    time
  • N number of individuals
  • K carrying capacity

42
Question 20
  • 20.Refering to the former equation, what happens
    to G as N approaches K?

43
Answer 20
  • 20.Refering to the former equation, what happens
    to G as N approaches K?
  • G (growth rate) approaches zero. The population
    stops growing.

44
Question 1
  • 1.A(n) ______ is the type of place where
    individuals of a species typically live.

45
Answer 1
  • 1.A habitat is the type of place where
    individuals of a species typically live.

46
Question 2
  • 2. All the populations that live together in a
    habitat is known as the _________.

47
Answer 2
  • 2. All the populations that live together in a
    habitat is known as the community.

48
Question 3
  • 3. Cite three (3) factors which shape
    community structure. There are several.

49
Answer 3
  • 3. Cite three (3) factors which shape community
    structure. There are several.
  • Climate and topography
  • Available foods and resources
  • Adaptations of species in community
  • Species interactions
  • Arrival and disappearance of species
  • Physical disturbances

50
Question 4
  • 4. Define niche.

51
Answer 4
  • 4. Define niche.
  • Sum of activities and relationships in which a
    species engages to secure and use resources
    necessary for survival and reproduction (Its role
    in the environment).

52
Question 5
  • 5. What is mutualism? Give an example.

53
Answer 5
  • 5. What is mutualism? Give an example.
  • A close relationship where both species benefit.
  • Yucca moth and Yucca

54
Question 6
  • 6. What is commensalism? Give an example.

55
Answer 6
  • 6. What is commensalism? Give an example.
  • Commensalism helps one species and has no effect
    on the other
  • Snail and shrimp

56
Question 7
  • 7. There are two major types of competition. What
    are they?

57
Answer 7
  • 7. There are two major types of competition. What
    are they?
  • Intraspecific within the species
  • Interspecific between species

58
Question 8
  • 8. How do river otters reduce intraspecific
    competition?

59
Answer 8
  • 8. How do river otters reduce intraspecific
    competition?
  • They avoid each other (partition the river).

60
Question 9
  • 9. Define competitive exclusion principle.

61
Answer 9
  • 9. Define competitive exclusion principle.
  • When two species compete for identical resources,
    one will be more successful and will eventually
    eliminate the other.

62
Question 10
  • 10. What is the adaptive advantage of resource
    partitioning?

63
Answer 10
  • 10. What is the adaptive advantage of resource
    partitioning?
  • Minimizes competition and allows coexistence

64
Question 11
  • 11. How are predators different from parasites?

65
Answer 11
  • 11. How are predators different from parasites?
  • Predators are free-living they do not take up
    residence on their prey.

66
Question 13
  • 13. Name three types of parasites.

67
Answer 13
  • 13. Name three types of parasites.
  • Microparasites
  • Macroparasites
  • Social parasites
  • Parasitoids

68
Question 14
  • 14. Compare and contrast parasitoids and social
    parasites.

69
Answer 14
  • 14. Compare and contrast parasitoids and social
    parasites.
  • Parasitoids lay their eggs in the body of the
    host where they develop, mature and eventually
    kill their hosts.
  • Social parasites lay their eggs in their hosts
    nest, where the host cares for the young.

70
Question 1
  • 1. Define ecosystem.

71
Answer 1
  • 1. Define ecosystem.
  • An association of organisms and their physical
    environment, interconnected by ongoing flow of
    energy and a cycling of materials.

72
Question 2
  • 2. Compare and contrast herbivore and carnivore,

73
Answer 2
  • 2. Compare and contrast herbivore and carnivore.
  • Herbivores eat plants and carnivores eat animals.

74
Question 3
  • 3. Compare and contrast omnivore and
    detritivore.

75
Answer 3
  • 3. Compare and contrast omnivore and
    detritivore.
  • Omnivores eat both animals and plants.
  • Detritivores eat the dead animal and plant
    material (in the soil or water).

76
Question 4
  • 4. Define biomagnification.

77
Answer 4
  • 4. Define biomagnification.
  • A nondegradable or slowly degradable substance
    becomes more and more concentrated in the tissues
    of organisms at higher trophic levels of a food
    web

78
Question 5
  • 5. Which organisms are most at risk from
    biomagnification?

79
Answer 5
  • 5. Which organisms are most at risk from
    biomagnification?
  • Predators at the high trophic levels

80
Question 6
  • 6. Compare and contrast food chain and food web.

81
Answer 6
  • 6. Compare and contrast food chain and food web.
  • A straight line sequence of who eats whom food
    chain.
  • An interconnected set of food chains food web.

82
Question 7
  • 7. Compare an contrast autotroph and heterotroph.

83
Answer 7
  • 7. Compare an contrast autotroph and
    heterotroph.
  • Autotrophs make their own food (photo or
    chemsynthesis)
  • Heterotrophs cant make their own food. They must
    graze or catch their food.

84
Question 8
  • 8. What is the ultimate fate of the solar energy
    that enters a food web?

85
Answer 8
  • 8. What is the ultimate fate of the solar energy
    that enters a food web?
  • It is lost as heat.

86
Question 9
  • 9. Define bioaccumulation.

87
Answer 9
  • 9. DefineBioaccumulation. The retention of
    nonpolar molecules from our food or water. These
    molecules do not degrade very fast. Example DDT.
    Others mercury and lead

88
Question 10
  • 10. Which organisms are most at risk from
    biomagnification?

89
Answer 10
  • 10. Which organisms are most at risk from
    biomagnification?
  • Top predators (carnivores)

90
Question 11
  • 11. Can a predator and its parasite be on the
    same trophic level? Explain.

91
Answer 11
  • 11. Can a predator and its parasite be on the
    same trophic level? Explain.
  • No. A parasite dines on its host. Therefore it
    is one more step from the sun (one higher trophic
    level).

92
Question 12
  • 9. Define biogeochemical cycle.

93
Answer 12
  • 9. Define biogeochemical cycle.
  • The flow of a nutrient from the environment to
    living organisms and back to the environment.

94
Question 13
  • 10. What are two cellular biochemicals that must
    include phosphate in their molecular structures?

95
Answer 13
  • 13. What are two cellular biochemicals that must
    include phosphate in their molecular structures?
  • Phospholipids and nucleotides

96
Question 14
  • 14. How can this massive eutrophication be halted
    and the system repaired?
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