Test 2

Question 1

Water moves in the hydrolytic cycle via

Answer 1

fluxes between major pools

Question 2

Abiotic factors such as ___ are important in shaping aquatic communities

Answer 2

• temperature
• salinity
• light
• pressure
• oxygen content

Question 3

What are lotic systems?

Answer 3

streams and rivers

Question 4

The most valuable marine communities occur

Answer 4

near shore

Question 5

Broad sense heritability

Answer 5

the proportion of the total variation in a phenotypic trait that is due to the genetic differences among individuals
-ranges from 0-1

Question 6

Narrow sense heritability

Answer 6

the proportion of the total phenotypic variance that is due to additive genetic variance, Va
-ranges from 0-1

Question 7

Stimulus response

Answer 7

a specific behavior elicited by a specific stimulus

ex: courtship displays

Question 8

Communication

Answer 8

any action by one individual that alters the probability of a behavior of another

Question 9

Natural selection

Answer 9

fitness refers to both an organism’s ability to survive and reproduce

Question 10

Sexual selection

Answer 10

some traits may improve reproductive success while reducing survival

Question 11

How can you tell if an organism is male or female?

Answer 11

females produce larger gametes than males

Question 12

Monogamy

Answer 12

when a male mates with a single female

Question 13

What is serial monogamy?

Answer 13

a monogamous relationship that lasts for a single breeding season

Question 14

Polygyny

Answer 14

when a male mates with more than one female during a breeding season

Question 15

Polyandry

Answer 15

females mate with more than one male during a breeding season

Question 16

Inclusive fitness

Answer 16

the relative ability to transfer one’s genes, or copies of them, into the next generation

Question 17

What are the equations for broad sense heritability?

Answer 17

H^2 = Vg/Vp
Vp = Vg + Ve
-Vg: genetic variation among indiv.
-Ve: environmental variation
-Vp: total phenotypic variation

Question 18

What are the equations for narrow sense sense heritability?

Answer 18

1) h^2 = Va/Va+Vd+Ve
-Va: variation due to additive genetic differences between indiv.
-Vd: the effect of dominance (the masking of recessive genes by dominant ones)
-Ve: environmental variation
2) “the breeder’s equation”
R = h^2s
-s: selection coefficient
-R: change in the trait over time
-h^2: heritability

Question 19

Behaviors are a result of ___ as well as ___

Answer 19

genetic makeup; environment and experience as an individual

Question 20

Traits with high heritability respond to natural selection ___ than traits with low heritability

Answer 20

more rapidly

Question 21

If h^2 is high, the rate of evolution is ___

Answer 21

greater

Question 22

Females are limited by ___ and ___, but not ___

Answer 22

• number of eggs they can make and other investments

- NOT MATES

Question 23

Female fitness increases as a function of the quality of the progeny, making ___ more important

Answer 23

mate choice

Question 24

Males are limited by ___, not ___

Answer 24

• number of mates

- NOT SPERM

Question 25

Male fitness increases with ___

Answer 25

number of females he inseminates

Question 26

When there is competition for mates, sexual selection will be

Answer 26

stronger

Question 27

Which sex is normally competitive?

Answer 27

males

Question 28

Which sex is normally choosy?

Answer 28

females

Question 29

What does Bateman’s principle say?

Answer 29

• because males compete, they experience greater variation in reproductive success than females
• leads to a strong selection on males
• sexual selection and asexual dimorphism are tightly related

Question 30

What are the 3 ways that males compete?

Answer 30

• combat
• post copulatory competition
• infanticide

Question 31

What is combat?

Answer 31

direct male to male competition; females may be oblivious

Question 32

What is post copulatory competition?

Answer 32

When females mate with more than one male

• make lots of sperm
• males guard their mates
• add pheromones to make females less attractive
• prolonged copulation
• block next guy’s sperm
• remove previous sperm

Question 33

What is infanticide?

Answer 33

killing another male’s offspring to make females receptive to mating sooner and avoids investment in non-related offspring
-mostly in mammals

Question 34

What is the balance hypothesis?

Answer 34

states that male traits are exaggerated by female choice until their overall fitness cost is too high

Question 35

What is the “truth in advertising” hypothesis?

Answer 35

states that elaborate phenotypic traits of males are an indicator of overall fitness
-helps females choose a superior male, thereby increasing the quality of her progeny

Question 36

The mating system involves

Answer 36

• the number of mates an individual copulates with during mating season
• the relative contribution of males and females to parental care
• how long the relationship between males and females lasts

Question 37

What is characteristic of social monogamy?

Answer 37

• female bonds with 1 male

- male and female share in parental care

Question 38

What is characteristic of genetic monogamy?

Answer 38

• all progeny of a socially monogamous pair is produced by the male and female of that pair
• rare

Question 39

What are the ecological determinants of monogamy?

Answer 39

• if successful rearing of the young requires both parents, monogamy is advantageous for both sexes
• if reproduction is highly synchronous
• most common type of mating system in passerine birds

Question 40

What are ecological determinants of polygyny?

Answer 40

-spatial distribution of females

spatial distribution of other critical resources

Question 41

What are behavioral determinants of polygyny?

Answer 41

• lek-mating species
• males display together on traditional sites known as leks
• females choose their mate based on these displays
• a few males obtain the majority of copulations

Question 42

What are the ecological determinants for polyandry?

Answer 42

• fitness benefit to females
• nuptial gifts from male to female
• reduces the probability of mating with a poor quality male

Question 43

What are the fundamental components of social systems?

Answer 43

• group size/composition
• degree of cooperation b/w individuals
• mating system

Question 44

Group size and distribution depend on

Answer 44

• abundance
• distribution
• types of resources

Question 45

Cooperation among individuals includes

Answer 45

• cooperative hunting in wolves
• shared care of the young
• altruistic behaviors

Question 46

What is Hamilton’s rule?

Answer 46

states that genes for altruism can increase in frequency if rB - C > 0

• r: coefficient of the relationship of the altruist
• B: fitness benefit to the recipient
• C: fitness cost to the altruist

Question 47

What is a stimulus-response?

Answer 47

specific behavior elicited by a specific stimulus

-behavioral response is invariant

Question 48

What is an example of a stimulus-response?

Answer 48

Courtship displays

-if each individual does not perform the prescribed behavior, courtship breaks down and mating doesn’t occur

Question 49

What are commonly used forms of communication?

Answer 49

• visual
• auditory
• olfactory
• tactile signals

Question 50

What determines the choice of what type of signal to use?

Answer 50

the nature of the communication and the physical properties of the environment

Question 51

What is sexual dimorphism?

Answer 51

differences in size, coloration, or morphology between males and females

Question 52

Sexual dimorphism suggest that

Answer 52

different selective forces operate on males and females

Question 53

How do females bear direct anatomical, physiological, and energetic costs of reproduction?

Answer 53

• lay and incubate eggs or carry them to term internally
• there is a point at which female fitness can’t increase by producing more young
• her fitness increases as a function of the quality of young she produces

Question 54

Male contribution, sperm, can be produced in great numbers so male fitness increases with

Answer 54

the number of females he inseminates

Question 55

What does Bateman’s principle suggest?

Answer 55

males experience greater variance in reproductive success than females

Question 56

Opportunity for selection to affect one sex increases the degree of

Answer 56

sexual dimorphism

Question 57

What is female choice?

Answer 57

a mechanism of sexual selection in which females choose mates on the basis of their physical or behavioral characteristics

Question 58

What is male to male competition?

Answer 58

a form of sexual selection in which males compete with one another directly or indirectly for access to females

Question 59

What is the balance hypothesis?

Answer 59

states that male traits are exaggerated by female choice until their overall fitness cost is too high
-natural and sexual selection gradually come to a balance

Question 60

What is the “truth in advertising” hypothesis?

Answer 60

suggests that elaborate physical traits of males are an indicator of overall fitness
-explains the elaboration of the traits important to females that don’t contribute to male fitness

Question 61

What is a mating system?

Answer 61

the length of the relationships between males and females, the relative contributions of males and females to parental care, and the number of mates an individual copulates with

Question 62

What are the advantages of female promiscuity?

Answer 62

• increases genetic diversity of offspring
• ensure the female has opportunity to mate with a number of males with high fitness or to increase the probability that at least one male is fertile

Question 63

What is the most common relationship between males and females?

Answer 63

polygyny

Question 64

What is female defense polygyny?

Answer 64

a form of polygyny that occurs when groups of females are guarded by males

Question 65

What does resource defense polygyny suggest?

Answer 65

if critical resources are distributed such that males can defend them, the males may obtain a territory that attracts multiple females

Question 66

Which is the rarest mating system?

Answer 66

polyandry

Question 67

What are the direct benefits of polyandry to females?

Answer 67

• nuptial gifts provided by males

* energy or nutrient rich resources that increase the female’s reproductive success

Question 68

What are the indirect benefits of polyandry to females?

Answer 68

superior male genes

Question 69

What is outcrossing?

Answer 69

a plant mating system in which mating occurs between different individuals

Question 70

What is autogamy?

Answer 70

a plant mating system in which individuals self fertilize

Question 71

What is apomixis?

Answer 71

a plant mating system in which individuals reproduce asexually

Question 72

What is degree of self-incompatibility?

Answer 72

a phenomenon in plants in which individuals can’t self-fertilize

Question 73

What is protogynous development?

Answer 73

a pattern of development in plants in which female parts of the flower develop before male parts

Question 74

What is protandry?

Answer 74

a developmental phenomenon in which the male parts of the flow mature before the female parts

Question 75

What is a habitat?

Answer 75

the abiotic and biotic characteristics of the place where an organism lives

Question 76

What is a microhabitat?

Answer 76

the subset of the habitat that differs in important abiotic and biotic characteristics
-ex: caribou choose different microhabitats within the tundra during different seasons

Question 77

What is a home range?

Answer 77

the portion of the habitat used by an individual on a daily or seasonal basis

Question 78

What is territoriality?

Answer 78

exclusive use of a portion of the home range

Question 79

What determines the size of a territory?

Answer 79

resources of importance and their spatial distribution

Question 80

What is dispersal?

Answer 80

the one-way movement of an individual from the natal area

Question 81

What is the natal area of an individual?

Answer 81

the place where the individual was born

Question 82

When an organism is described as philopatric, what does that mean?

Answer 82

it means they do not disperse

Question 83

What is saturation dispersal?

Answer 83

dispersal of individuals that occurs when the habitat is filled or resources are limiting

Question 84

What is pre-saturation dispersal?

Answer 84

dispersal of individuals that occurs before the habitat is filled or resources are limiting

Question 85

What is inbreeding depression?

Answer 85

a decrease in fitness due to mating among related individuals

Question 86

What is altruistic behaviors?

Answer 86

any behavior that increases fitness of others at the expense of the altruist’s fitness

Question 87

What is an example of an altruistic behavior?

Answer 87

alarm calling behavior of Belding’s ground squirrels

Question 88

Mating systems are shaped by

Answer 88

pattern of resource distribution

Question 89

What is eusocial?

Answer 89

describes a complex social system in which there is divisions of labor or castes, a high level of cooperation, and sometimes altruism

Question 90

Coarse-grained environmental variation

Answer 90

patch size is larger than the organism’s mobility (an organism experiences few environments over its lifetime)

Question 91

Fine-grained environmental variation

Answer 91

patch size is smaller than the organism’s mobility range, an organism is exposed to many environments

Question 92

Biological species

Answer 92

in sexually reproducing organisms, a species is a group of populations that can interbreed and produce fertile offspring

Question 93

Ecotype

Answer 93

genetically distinct populations adapted to local environment via natural selection

Question 94

Subspecies/race

Answer 94

a local, distinct form that is distinctly different in phenotypes (may rarely interbreed)

Question 95

Phenotypic plasticity

Answer 95

development of different phenotypes in different environments by the same genotype

Question 96

Common garden experiments

Answer 96

individuals with different phenotypes in the field are grown under similar conditions

Question 97

Muller’s ratchet

Answer 97

process by which the genomes of an asexual population accumulate deleterious mutations in an irreversible manner

Question 98

Population bottlenecks

Answer 98

persistence of drift and inbreeding AFTER population re-expansion, caused by burden of ongoing homozygosity and expression of deleterious alleles

Question 99

Effective population size

Answer 99

the size of “an ideal population” of organisms (ideal refers to a hypothetical population in a Hardy-Weinberg sense with constant population size, equal sex ratio, and no immigration, emigration, mutation, or selection) that would experience the effects of drift or inbreeding to the same degree as the population we are studying

Question 100

Ecological effects of temporal variation depend on

Answer 100

• amplitude of the change
• speed of the change
• predictability

Question 101

What give rise to ecotypes?

Answer 101

genetically determined differences between populations inhabiting different environments

Question 102

What give rise to phenotypic plasticity?

Answer 102

non-genetic changes

Question 103

What are the factors that favor the evolution of ecotypes?

Answer 103

• existence of genetic variation in the trait
• intensity of natural selection
• geographical barriers to gene flow

Question 104

What does Fischer’s fundamental theorem suggest?

Answer 104

the rate at which the mean fitness of a population increases by natural selection is equal to the additive genetic variation in fitness (i.e., the combined effects of all the different genes that affect fitness)

Question 105

What is a reaction norm?

Answer 105

the range of all possible phenotypes that one genotype can produce

Question 106

Spatially (and temporally) fine-grained environments favor ___ ___ because it is the optimal response under variable ecological conditions

Answer 106

phenotypic plasticity

Question 107

Coarse-grained environments lead to more predictable selective pressures that favor

Answer 107

fixed genetic adaptations

Question 108

In common garden experiments, if the field phenotypes persist in the common garden

Answer 108

the differences among populations are likely genetically controlled

Question 109

If the phenotypes in the common garden are similar, the variation in the field is due to

Answer 109

phenotypic plasticity

Question 110

What is the ultimate source of all genetic mutation?

Answer 110

mutations

Question 111

Once mutations arise, their frequencies and combinations change due to

Answer 111

• meiosis
• natural selection
• genetic drift
• breeding system

Question 112

What are mechanisms that decrease genetic variation?

Answer 112

• stabilizing selection
• directional selection
• inbreeding
• genetic drift

Question 113

What are mechanisms that increase or maintain genetic variation?

Answer 113

• overdominant selection (when a heterozygotes’ phenotype different than either homozygous phenotype and heterozygotes have higher fitness)
• disruptive selection
• negative frequency-dependent selection (fitness depends on whether genotype is rare/common, highest fitness when your genotype is rare)
• outcrossing (breeding with distantly related individuals)
• migration/gene flow

Question 114

What is the two fold cost of sex?

Answer 114

asexual individuals pass on twice as many genes to their offspring as sexual individuals

Question 115

What is an evolutionary stable strategy?

Answer 115

an adaptation that increases in frequency when rare

Question 116

Is sex an evolutionary stable strategy?

Answer 116

no

Question 117

Red Queen Hypothesis

Answer 117

selection in a constantly changing environment favors sex

Question 118

Wright’s F-statistic

Answer 118

F(IT) = F(IS) + F(ST)

• F(IT): genetic variation
• F(IS): variation within populations
• F(ST): variation between populations

Question 119

The higher the value of F(ST), the larger the proportion of the total genetic variation is due to

Answer 119

the differences among populations

Question 120

Spatial variation in the environment is the result of

Answer 120

discontinuities in physical and biological factors from place to place

Question 121

Infraspecific variation

Answer 121

genetic or phenotypic variation within a species

Question 122

Magnitude of the differences between patches determines

Answer 122

the selective pressure exerted on the organism

Question 123

What are ecotones?

Answer 123

boundaries between habitat types

Question 124

The degree to which patches are isolated determines

Answer 124

the potential adaptive response of the organism

Question 125

Temporal change occurs

Answer 125

over many time scales

Question 126

Unpredictability poses a ___ than a constant environment

Answer 126

greater challenge

Question 127

What is an essential feature of infraspecific variation?

Answer 127

that the phenotype varies with the patterns of environmental variation

Question 128

What are ecotypes?

Answer 128

genetically distinct populations adapted to the local environmental conditions

Question 129

The amount of genetic variation in the population may limit

Answer 129

the adaptive process

Question 130

Fischer’s Fundamental Theorem

Answer 130

the principle that the rate of change in fitness by natural selection is equal to the additive genetic variance in the population

Question 131

Additive genetic variation

Answer 131

the combined effects of all the different genes that affect a trait

Question 132

Ecotypic differentiation is more likely to occur if the spatial variation in the environment also includes

Answer 132

barriers to gene flow among populations

Question 133

What is the difference between phenotypic difference and phenotypic plasticity?

Answer 133

phenotypic difference: arise due to the direct detrimental effect of the environment
phenotypic plasticity: when the phenotype shifts in adaptive ways in different environments

Question 134

Adaptive phenotypic plasticity requires a mechanism that not only detects ___ but also alters the ___ so as to produce the optimal phenotype

Answer 134

environmental change; developmental pathways

Question 135

Why is phenotypic plasticity both advantageous and disadvantageous?

Answer 135

the organism can respond to its environment, but the developmental complexity and energetic requirements for phenotypic changes may be a burden

Question 136

What determines whether the adaptive response to the environment is genetic or phenotypic?

Answer 136

temporal and spatial pattern of variation in the environment

Question 137

Plasticity is advantageous if the pattern of temporal variation includes

Answer 137

rapid shifts or highly unpredictable conditions for which a genetic response would be too slow

Question 138

How does disruptive selection maintain genetic variation in the population?

Answer 138

more than one phenotype is adaptive and selection ensures that each persists

Question 139

How does frequency-dependent selection maintain variation?

Answer 139

by favoring rare genes

Question 140

How does stabilizing selection decrease variation?

Answer 140

by eliminating extreme phenotypes and their genotypes

Question 141

How does directional selection decrease variation?

Answer 141

by favoring phenotypes in one tail of the bell curve and eliminating those at the other extreme

Question 142

What is genetic similarity?

Answer 142

the measure of the proportion of alleles shared by two

Question 143

Demography

Answer 143

the quantitative description of the structure of populations
-includes size, age structure, sex ratios, and growth rate

Question 144

Ecological population

Answer 144

a group of individuals of a species that occupy a particular area, its boundaries are determined by an ecologically relevant change in the environment

Question 145

Evolutionary population

Answer 145

a local group of individuals that mate at random (a deme), its boundaries are determined by the barriers to mating and gene flow

Question 146

Connectivity

Answer 146

the link between 2 or more populations by dispersal of individuals

Question 147

Abundance, N(t)

Answer 147

number of individuals in a population (NOT number of species in a community)

Question 148

Density

Answer 148

number of individuals per unit area or volume

Question 149

Genet

Answer 149

a genetically distinct individual or clonal colony in a plant population

Question 150

Ramet

Answer 150

a physiologically distinct individual within a plant genet

Question 151

Unitary organism

Answer 151

exist as separate and distinct individuals

Question 152

Modular organisms

Answer 152

develop repetitive patterns of growth of body parts

Question 153

Cohort life table

Answer 153

follows a group of individuals over time

Question 154

Static life table

Answer 154

based on a sample of the population at one moment in time

Question 155

Survivorship curve

Answer 155

graphically represents the pattern of age-specific survival

Question 156

Life expectancy (Ex)

Answer 156

the mean expectation for further life of an individual of age x

Question 157

Life span

Answer 157

the max number of years and individual in the population could potentially live

Question 158

Net reproductive rate (r0)

Answer 158

the average number of offspring produced by an individual during their lifetime

Question 159

Lincoln (mark-recapture) method

Answer 159

N=N1*N2/Nm
N: total population size
N1: number of individuals marked and released in the population at time T1
N2: number of individuals captured in the population at time T2
Nm: number of marked individuals at time T2

Question 160

Poisson distribution

Answer 160

Px=a^xe^-a/X!
x: number of occurrences
a: mean number of occurrences per grid square
e: base of the natural log
X!: x factorial; this means we multiply the value of x times the values of x-1,x-2,x-3 and so on until the remaining term is 1

Question 161

Life expectancy

Answer 161

Lx=n(x)+n(x+1)/2
Tx=L(x)+L(x+1)+L(x+2)+…+L(infinity)
e(x)=Tx/n(x)

Question 162

Net reproductive rate (R0)

Answer 162

• b(x):expected reproductive output for an individual of age x
• l(x)b(x): realized population determined by probability an individual will live to age x
• R(0): sum l(x)b(x)

Question 163

For exponentially growing populations with discrete generations

Answer 163

N(t)=R(0)+N(0)

-N(0): number of individuals at time 0 (now)

Question 164

For exponentially growing populations with overlapping generations

Answer 164

r: instantaneous growth rate, or intrinsic rate of increase
-r=b(0)-d(0)
N(t)=N(0)e^rt

Question 165

Population boundaries determined by

Answer 165

• number of individuals
• spatial distribution
• reproductive rate
• isolation vs connectivity

Question 166

What are ways to quantify population size?

Answer 166

• total census
• for large animals, trees, humans
• lincoln (mark-recapture) methods
• for small, mobile organisms
• Quadrat or transect methods
• for sessile or relatively immobile organisms
• indirect, relative measure of the abundance, but can be scaled up

Question 167

What is random distribution?

Answer 167

individuals distributed without regard to others

-neutral or little interaction between individuals and between individuals and local environment

Question 168

What is clumped distribution?

Answer 168

individuals in discrete groups, positive interactions

-attraction between individuals or to a common reassurance or little dispersal far from parent

Question 169

What is regular distribution?

Answer 169

individuals maintain min distance between themselves and their neighbors
-antagonistic interactions between individuals or local depletion of resources

Question 170

Poisson distribution is a

Answer 170

random distribution

Question 171

Type 1 survivorship

Answer 171

low survival in young ages, then high survival until old age, when mortality increases rapidly
-many mammals, including humans

Question 172

Type 2 survivorship

Answer 172

survivorship is constant across all ages

-common in small mammals, lizards, birds

Question 173

Type 3 survivorship

Answer 173

early mortality is very high, but decreases with older ages

-many marine fishes, invertebrates, and plants

Question 174

If R(0) > 1,

Answer 174

the population is increasing

Question 175

If R(0)=1,

Answer 175

the population size is stable

Question 176

If R(0) < 1,

Answer 176

the population is decreasing

Question 177

1 degree sex ratio

Answer 177

sex ratio at fertilization

Question 178

2 degree sex ratio

Answer 178

sex ration at birth or hatching

Question 179

3 degree sex ratio

Answer 179

sex ratio at sexual maturity

Question 180

4 degree sex ratio

Answer 180

sex ratio of the adult population

Question 181

Populations change in time and space by

Answer 181

• immigration to the population (I)
• emigration from the population (E)
• additions to the population via births (B)
• losses from the population via deaths (D)

Question 182

For exponentially growing populations with overlapping generations, if r > 0,

Answer 182

population declines

Question 183

For exponentially growing populations with overlapping generations, if r = 0,

Answer 183

population is stable

Question 184

For exponentially growing populations with overlapping generations, if r < 0,

Answer 184

population grows

Question 185

A transition matrix tracks

Answer 185

• the probabilities of transition from one age to another

- the corresponding reproductive output that accumulates in the process

Question 186

Which of the following is not characteristic of interspecific competition?

Answer 186

The limiting resource does not change over time

Question 187

According to the competitive exclusion principle

Answer 187

Two species can’t exist on the same limiting resource

Question 188

Character displacement

Answer 188

Is the result of selection to decrease niche overlap

Question 189

Which survivorship curve best fits a population with a large number of offspring per parent living close to carrying capacity?

Answer 189

Type 3

Question 190

In Lotka- Volterra state-space plots an isocline

Answer 190

Determines where population growth is 0

Question 191

A niche describes

Answer 191

The environmental requirements of a species