Test 1

Question 1

Teleology

Answer 1

the explanation of phenomena by the purpose they serve rather than by postulated cause

Question 2

Fitness

Answer 2

relative ability to survive and reproduce

Question 3

Adaptation

Answer 3

trait that improves the fitness of an organism

Question 4

Natural Selection

Answer 4

the increase in the frequency of individuals with inherited traits that increase their fitness relative to other individuals

Question 5

Phenotype

Answer 5

the characteristic morphology, physiology, and behavior of the organism

Question 6

Genotype

Answer 6

the sum total of an organism’s genes. Determines the phenotype

Question 7

Genes

Answer 7

a sequence of DNA that codes for the amino acid sequence that constructs a specific protein

Question 8

Mutation

Answer 8

a random change in the DNA sequence of a gene

Question 9

Population Genetics

Answer 9

a field of genetics that analyzes the dynamics of genes in an entire population

Question 10

Gene Pool

Answer 10

the sum total of alleles in a population

Question 11

Allele Frequencies

Answer 11

the proportion each allele represents in the gene pool

Question 12

Hardy-Weinberg Equilibrium

Answer 12

a mathematical representation of the genotype frequencies of a population in which the allele and genotype frequencies are not changing (i.e.: Not evolving)

Question 13

Genetic Drift

Answer 13

random changes in allele frequencies

Question 14

Gene Flow

Answer 14

the net loss or gain of certain alleles by movement of individuals

Question 15

Mutation Pressure

Answer 15

change in allele frequency due to the origin of new alleles in the population

Question 16

Selection Coefficient

Answer 16

the proportion of a genotype that is not represented in the next generation due to death or reproductive failure

Question 17

Directional Selection

Answer 17

a form of selection in which one tail of the bell curve is favored

Question 18

Stabilizing Selection

Answer 18

the form of selection in which the central portion of the phenotypic bell curve is favored

Question 19

Evolutionary Trade-Offs

Answer 19

the idea that many traits that confer a fitness advantage with respect to one aspect of the environment can also have a fitness cost relative to another

Question 20

Disruptive Selection

Answer 20

a form of selection in which the two tails of the phenotypic bell curve are favored

Question 21

Non-Darwinian Evolution

Answer 21

genetic drift

Question 22

Effective Population Size

Answer 22

the subset of the total population that mates at random

Question 23

Phenotypic Plasticity

Answer 23

the ability of an organism to produce different phenotypes in different environments

Question 24

Heritability

Answer 24

a measure of the proportion of the phenotypic variation for a trait that is determined by additive effects of its gene

Question 25

Ecotype

Answer 25

a genetically distinct population that is adapted to local environmental conditions

Question 26

Red Queen Hypothesis

Answer 26

the idea that the environment changes faster than adaptations can arise by natural selection

Question 27

Adaptive Landscape

Answer 27

a graphical representation of the fitness associated with different genotypes in a population

Question 28

What did Darwin observe?

Answer 28

• variability of life forms

- similarities between life forms that were not located near each other

Question 29

What were Darwin’s logical arguments?

Answer 29

• heritable variation within species
• prodigious reproductive potential of organisms
• intense competition and high mortality

Question 30

Natural selection states that

Answer 30

individuals with inherited traits that increase their fitness will increase in frequency in the population relative to other competing individuals

Question 31

What are some drawbacks in Darwin’s theory?

Answer 31

• mechanisms of inheritance were not fully understood
• the concept of the gene was not yet developed
• flaw of believing in blended inheritance
• other mechanisms of evolution not yet appreciated

Question 32

Evolution

Answer 32

genetic change in a population, specifically a change in allele frequency

Question 33

What is population genetics based on?

Answer 33

the concept of a gene pool (the sum of all alleles in a population)

Question 34

What is the equation for Hardy-Weinberg?

Answer 34

p^2 + 2pq + q^2 = 1

Question 35

Genetic drift is more pronounced in

Answer 35

smaller populations

Question 36

Genetic drift can cause alleles to

Answer 36

become fixed or lost over time

Question 37

Gene flow can reinforce or counteract

Answer 37

selection and genetic drift

Question 38

Most mutation rates are ___ and most mutations are ___

Answer 38

low; deleterious

Question 39

High mutation rate + high population size + low generation time =

Answer 39

rapid evolution of a serious pathogen (flu virus)

Question 40

Selection increases

Answer 40

Darwinian fitness

Question 41

Darwinian fitness

Answer 41

the ability of an individual genotype or phenotype to both survive and reproduce

Question 42

What is the frequency before selection of AA, Aa, and aa?

Answer 42

AA- p^2
Aa- 2pq
aa- q^2

Question 43

What is the fitness of AA, Aa, and aa?

Answer 43

AA- 1
Aa- 1
aa- 1-s

Question 44

What is the frequency after selection of AA, Aa, and aa?

Answer 44

AA- p^2
Aa- 2pq
aa- q^2x(1-s)

Question 45

A selection coefficient of 1 is

Answer 45

lethal

Question 46

What does the idea of uniformitarianism say?

Answer 46

that modern landforms arose slowly by gradual processes rather than rapid, cataclysmic events

Question 47

How can gene flow enhance or slow evolution by natural selection?

Answer 47

A genotype may be selected against in a population, causing their deaths. However, gene flow can enhance or slow evolution by selection. For ex., aa may be selected against, but organisms with the aa genotype can choose to leave the population to avoid death. This enhances evolution by natural selection. However, when other organisms of the aa genotype enter the population, it provides a longer period of the aa allele being present in the population. This slows evolution by natural selection.

Question 48

What is the relationship between “effective population size” and random meeting?

Answer 48

The effective population size is the subset of the total population that mates randomly. *anything that reduces random mating reduces effective population size

Question 49

Can evolution occur without a change in fitness?

Answer 49

yes

Question 50

What is the relationship between the selection coefficient (s) and fitness?

Answer 50

Fitness of a genotype selected against = 1-s; this means that the frequency of the genotype is decreased by s each generation

Question 51

Thermophile

Answer 51

organism that tolerates high temperatures

Question 52

Poikilotherms

Answer 52

organisms whose internal temperature varies, often in response to external temperatures

Question 53

Ectotherm

Answer 53

organism whose body temperature is determined by the external environment

Question 54

Homeotherm

Answer 54

organism whose body temperature is regulated within narrow limits

Question 55

Endotherm

Answer 55

organism whose internal temperature is maintained by metabolic activity

Question 56

Physical (abiotic) factors

Answer 56

physical conditions that affect an organism’s growth and survival

Question 57

Physical resources

Answer 57

the energy and inorganic material an organism requires

Question 58

Law of tolerance

Answer 58

the concept that there are upper and lower bounds to the physical factors within which an organism can survive

Question 59

Principle of allocation

Answer 59

the concept that an adaptation to one selective factor may preclude or reduce adaptations to others

Question 60

Torpor

Answer 60

a state of decreased physiological function during periods of harsh conditions

Question 61

Hibernation

Answer 61

an extended form of torpor

Question 62

Aestivation

Answer 62

a period of torpor or hibernation to avoid heat and water stress

Question 63

Obligate hibernator

Answer 63

an organism that must seasonally hibernate

Question 64

Facultative hibernator

Answer 64

an organism that doesn’t have to become torpid but does so during harsh conditions and can arouse quickly if conditions change

Question 65

Migration

Answer 65

seasonal movement from one region to another and back

Question 66

Behavioral thermoregulation

Answer 66

behaviors that allow the organism to seek and use external factors such as sunlight or warm rocks to change their internal temp

Question 67

Acclimation

Answer 67

an individual’s physiological adjustment to challenging abiotic conditions

Question 68

Heat shock proteins (HSPs)

Answer 68

proteins that protect the organism from sudden increases in temp

Question 69

Cold acclimation proteins (CAPs)

Answer 69

proteins that protect the organism from sudden decrease in temp

Question 70

Heat

Answer 70

thermal energy that can be transferred from one body to another

Question 71

Calorie

Answer 71

the amount of heat required to raise one gram of water 1*C

Question 72

Specific heat capacity

Answer 72

the amount of heat a substance requires to raise one gram 1*C

Question 73

Conduction

Answer 73

the transfer of heat between two bodies in physical contact

Question 74

Radiation

Answer 74

the transfer of heat between two objects not in physical contact

Question 75

Convection

Answer 75

the physical movement of a heated fluid (gas or liquid)

Question 76

Heat of vaporization

Answer 76

the decrease in an object’s heat content by the evaporation of water

Question 77

Emissivity

Answer 77

the tendency of an object to emit radiation

Question 78

Absorptivity

Answer 78

the tendency of an object to absorb radiation

Question 79

Critical temp

Answer 79

the max and min temp an organism can experience without expending energy to maintain a constant internal temp

Question 80

Thermal neutral zone

Answer 80

range of temp between the upper and lower critical temp

Question 81

Non shivering Thermogenesis

Answer 81

the use of brown fat to increase heat production

Question 82

Countercurrent heat exchange

Answer 82

an arrangement of vessels such that the flow is in opposite directions, maximizing the temp differential between the fluids and thus maximizing heat exchange between them

Question 83

Thermogenic

Answer 83

describes plants that can raise their internal temp above ambient

Question 84

Gular fluttering

Answer 84

rapid throat movement in birds to lose heat by evaporative cooling

Question 85

Water potential

Answer 85

energy gradient between two systems caused by their relative water and solute concentration. water flows from high energy to low energy

Question 86

Pressure potential

Answer 86

the water energy due to pressure exerted as water is forced from one place to another

Question 87

Turgor pressure

Answer 87

pressure potential caused by the influx of water to a cell with a rigid cell wall

Question 88

Matric pressure

Answer 88

the attraction and adhesion of water on surfaces

Question 89

Metabolic water

Answer 89

water is produced by oxidative metabolism

Question 90

Xerophyte

Answer 90

a plant that tolerates hot, dry environments

Question 91

Field capacity

Answer 91

the amount of water held in the soil

Question 92

Permanent wilting point

Answer 92

when the water potential of the soil is so low that the water cannot be extracted by the roots

Question 93

C4 pathway

Answer 93

alternate photosynthetic pathway in which carbon is fixed as a 4-carbon molecule by an enzyme with high efficiency for CO2

Question 94

C3 pathway

Answer 94

a photosynthetic pathway in which carbon is fixed as a 3-carbon molecule by RuBP carboxylase

Question 95

Photorespiration

Answer 95

pathway that occurs in C3 plants when the CO2 levels fall so low that RuBP carboxylase picks up O2 instead of CO2

Question 96

Adventitious roots

Answer 96

roots produced at or above the soil surface

Question 97

Shelford’s Law of Tolerance

Answer 97

species differ in the factors that limit their growth and in their ranges of tolerance

Question 98

Beyond tolerance limits, an organisms fitness is

Answer 98

compromised

Question 99

Principle of Allocation

Answer 99

adaptations and specialization have evolutionary trade offs (costs and benefits in every situation)

Question 100

What are examples of small scale behavioral avoidance?

Answer 100

• thermoregulations
  
  • moving to spots of more favorable temp
  • basking
  • modifying posture
• local stress and predator
  
  • burrowing
  • nocturnal behavior

Question 101

What are examples of large scale behavioral avoidance?

Answer 101

migration

Question 102

What are examples of metabolic avoidance?

Answer 102

• metabolic arrest (periods of torpor)
• aestivation (torpor to avoid heat and water stress)
• hibernation

Question 103

What does high temp do to organisms?

Answer 103

causes denaturation of proteins and DNA

Question 104

Low temperature can cause

Answer 104

freezing of intracellular water

Question 105

Heat can be gained or lost by

Answer 105

• conduction
• radiation
• convection

Question 106

Heat can only be lost by

Answer 106

evaporation of water

Question 107

Heat can only be gained by

Answer 107

metabolism

Question 108

H(total) = H(m) +/- H(c) +/- H(cv) +/- H(r) - H(e)

Answer 108

H(m) = metabolic heat produced
H(c) = condensation heat gain/loss
H(cv) =convection heat gain/loss
H(r) = radiation heat gain/loss
H(e) = evaporative heat loss

Question 109

Plants are generally ectothermic but can influence air flow by

Answer 109

leaf size, shape, and orientation

Question 110

What’s the difference between laminar and turbulent flow?

Answer 110

• laminar- moves air straight across leaf surface (inc heat loss)
• turbulent- keeps air on leaf surface, allowing for less heat loss

Question 111

All biological reactions occur in

Answer 111

aqueous phases

Question 112

Water potential =

Answer 112

osmotic potential + pressure potential + matric potential

Question 113

The bottom of the plant has ___ water potential, water potential becomes more and more ___ up the plant to the exit

Answer 113

0; negative

Question 114

C4 plants are only advantageous in what type of environment?

Answer 114

high light, high temp

Question 115

Examples of osmoconformers

Answer 115

marine invertebrates

Question 116

Examples of osmoregulators

Answer 116

vertebrates, freshwater invertebrates, marine crustacean

Question 117

Marine fish have to deal with

Answer 117

high solute concentration in water compared to low internal concentration

Question 118

Freshwater fish have to deal with

Answer 118

low solute concentration in water compared to high internal concentration

Question 119

Desert animals must employ

Answer 119

oxidative metabolism (make their own water from sugar and oxygen)

Question 120

The amount of sunlight and temperature are ___ related

Answer 120

directly

Question 121

Vegetation

Answer 121

the form of the plant life in a region

Question 122

Life zone

Answer 122

a band of vegetation associated with a specific altitude on a mountain

Question 123

Geographic range

Answer 123

the region in which a particular species is found

Question 124

Adiabatic cooling

Answer 124

the dec in all temperature that occur at higher elevation or altitude

Question 125

Maritime climate

Answer 125

the climate near a large body of water usually characterized by a narrow range of temp

Question 126

Continual climate

Answer 126

the climate in regions far from large bodies of water, usually characterized by large temp fluctuations

Question 127

Mid-latitude desertification

Answer 127

a phenomenon in which warm, dry air is found at approximately 30N and 30S resulting in a desert climate

Question 128

Rain shadow

Answer 128

the tendency of the lee side of mountain ranges to be drier than the windward side

Question 129

Aspect

Answer 129

the direction a mountain slope faces

Question 130

Parent material

Answer 130

the rock and mineral substrate underlying a region

Question 131

Tree line

Answer 131

the altitude or latitude at which trees can no longer survive

Question 132

Krumholz Growth Form

Answer 132

growth form of trees at high elevation characterized by a mat of branches near the ground and a single, often bare, shoot at snow level

Question 133

Biogeographical realms

Answer 133

regions that share species and geographical history

Question 134

Biome

Answer 134

the basic plant community types, characterized by specific vegetation, that occur in a particular region

Question 135

Flora

Answer 135

the plant species of a region

Question 136

Temperature decreases with ___ air pressure

Answer 136

decreased (temp decreased with altitude)

Question 137

Latitude affects

Answer 137

the length of days, temperature, weather, etc.

Question 138

Common limiting factors on the potential geographic range

Answer 138

• types of plants
• temp
• moisture

Question 139

Actual geographic range affected by

Answer 139

• disturbances like fire
• biotic interactions like
  
  • pollination
  • grazing
  • competition

Question 140

How do tolerance limits and dispersal interact to set a species’ range limit?

Answer 140

tolerance limits are the primary ecological filters when it comes to range limits. They determine where an organism can and cannot live, before we factor in biotic interactions

Question 141

Relationship between life zones and biomes

Answer 141

biomes are regions defined by specific vegetation while life zones are bands of vegetation that exist in the biomes. Therefore, biomes are determined by life zones

Question 142

What are important diff. between the Gleasonian and Clementsian concepts of plant communities?

Answer 142

• Gleason- plant communities are random assemblages of species that happen to be in the same tolerance limits
• Clement- species of plants in areas evolved together over large periods of time