Ecology - Week 11

Question 1

Conservation Plan:

Why does removal of a species have to be carefully considered?

Answer 1

it may not always be a good idea to remove them, as removal of this species may affect other species in the food web

Question 2

What is survivorship?

Answer 2

proportion of individuals surviving

Question 3

Population Dynamics:

What are the factors that regulate changes in population size?

Answer 3

• births
• deaths
• immigration: moving into a population
• emmigration: moving out of a population

Question 4

What is carrying capacity?

Answer 4

max # individuals a habitat can support over sustained period of time

Question 5

How is per capita growth rate (r) calculated?

Answer 5

(birth rate – death rate) / population

Question 6

Describe the population when the per capita growth rate is HIGH.

Answer 6

population will grow quickly

Question 7

Describe the population when the per capita growth rate is LOW.

Answer 7

population will grow slowly

Question 8

Describe the population when the per capita growth rate, r > 0.

Answer 8

population size will increase

Question 9

Describe the population when the per capita growth rate, r > 0, and is constant.

Answer 9

will see exponential growth

Question 10

When is population size increasing?

Answer 10

r > 0

Question 11

When is population size decreasing?

Answer 11

r < 0

Question 12

When is population size not changing?

Answer 12

r = 0

Question 13

Describe per capita growth rate (r) in exponential growth.

Answer 13

• r is constant

- r is density-independent

Question 14

Describe per capita growth rate (r) in logistic growth.

Answer 14

• r is decreasing to 0

- r is density dependent

Question 15

What is intrinsic per capita growth rate (r max)?

Answer 15

rate at which population grows when it is NOT limited by

• competition over resources
• predation
• disease
• environmental disasters

(first 3 are often related to population density, last one usually isn’t)

Question 16

Does r max vary between species?

Answer 16

yes

Question 17

What factors contribute to a LOW intrinsic per capita growth rate?

Answer 17

• long generation times (individuals take a long time to reach reproductive age)
• few offspring produced per individual (low per capita birth rate)
• relatively high per capita death rate compared to per capita births

Question 18

What factors contribute to a HIGH intrinsic per capita growth rate?

Answer 18

• short generation times (individuals reach reproductive age quickly)
• many offspring produced per individual (high per capita birth rate)
• relatively low per capita death rate compared to per capita births

Question 19

What happens once population reaches carrying capacity?

Answer 19

r = 0

Question 20

What happens in a logistic growth curve plot?

Answer 20

per capita growth rate starts out equal to the intrinsic growth rate, but then starts to decrease as it approaches the carrying capacity

Question 21

Is the actual growth rate or intrinsic growth rate bigger?

Answer 21

actual growth rate < intrinsic growth rate

Question 22

What happens in an exponential growth curve plot?

Answer 22

per capita growth rate = the intrinsic per capita growth rate throughout

Question 23

What is the maximum growth rate in a logistic growth curve plot?

Answer 23

carrying capacity

Question 24

What is the maximum growth rate in a logistic growth curve plot?

Answer 24

highest r

Question 25

What is an ecological disturbance?

Answer 25

any event that removes biomass from a community

Question 26

What is a population?

Answer 26

group of all the individuals of the same species, in a given area

Question 27

What is a community?

Answer 27

all of the populations that interact with one another, in a given area

Question 28

What is biomass?

Answer 28

mass of living organisms

Question 29

What can we calculate the biomass of?

Answer 29

• single individual
• whole population
• whole community
• planet

Question 30

What is succession?

Answer 30

development of a community

Question 31

Which factors will be most important in determining the composition of a community immediately following a disturbance?

Answer 31

abiotic factors

Question 32

What happens following a disturbance?

Answer 32

• density of organisms will be reduced (and, in many cases, biodiversity will also be reduced)
• all else being equal, we should expect the number of interactions between organisms to be fewer after a disturbance compared to before
• in particular, we should expect competition for particular resources (ie. space, light) to be less intense

Question 33

Describe the conditions of early successional communities.

Answer 33

harsh abiotic conditions

• soil with few nutrients and little water retention
• little shade, little protection from the elements (wind, sun, rain), etc.

Question 34

Describe the conditions of late successional communities.

Answer 34

resources (nutrients, water) and shelter (shade, protection from wind and erosion) will be more plentiful, however, so will competition for those resources and niche space

however, that’s not to say that all biological interactions will be negative!

ie. taller plants shelter smaller plants from the sun and other elements
ie. nitrogen-fixers provide non–nitrogen-fixers with nitrogen
ie. forest provides habitat for animals who will assist with seed dispersal and germination

Question 35

What do we focus on when talking about early successional vs. late successional species?

Answer 35

plants

however, we can also classify certain animal species as being early vs. late successional

Question 36

Before all else, what will determine whether or not a species is found at a particular location?

Answer 36

its ability to disperse

Question 37

What is a realized niche?

Answer 37

related to its ability to outcompete other species

if it is a strong competitor, it will likely have a larger realized niche in the presence of a competitor

Question 38

Describe the importance of “before all else” in the question:

Before all else, what will determine whether or not a species is found at a particular location?

Answer 38

• in the end, it may not matter whether or not a species is capable of living in a particular location if it can’t disperse there
• furthermore, a species may be temporarily found at a particular location because it happened to disperse there, even if it is not expected to survive at that location (ie. there is a difference between simply being found at a location, and being established at that location)
• an organism’s fundamental niche, realized niche, and ability to compete with other species are all important factors that will influence whether or not it is able to survive at a particular location
• however, these are also things that will depend heavily on what other organisms are already present at that location
• for example, fireweed would grow well in an area immediately following a forest fire (when there is little competition and plenty of light), but would struggle in the same area after other species had established themselves

Question 39

Although humans may find the higher productivity and biodiversity of a late successional community appealing, why would it be misleading to think of a late-succession community as being an “end goal”?

Answer 39

• climax communities may not be able to sustain themselves indefinitely, given the intense competition for resources
• depending on the frequency of different types of disturbances, communities are expected to cycle through the process of succession
• furthermore, even after communities that have reached a high density of species, there may still be cycling (e.g., nitrogen-depleting species being replaced by nitrogen-accumulating species, which are then replaced by nitrogen-depleting species)

Question 40

Why might some areas start to recover sooner than others after a disturbance?

Answer 40

in some cases, it may be because these areas suffered slightly less damage

however, another important factor is the ability of plants to disperse to a particular location – plants will be able to disperse to areas that are closer sooner than they are able to disperse to areas that are further away

Question 41

Describe primary succession.

Answer 41

no soil

disturbances:
- volcanic eruptions
- glaciers
- floods
- landslides

Question 42

Describe secondary succession.

Answer 42

soil remains

disturbances:
- forest fires
- logging
- construction
- farming

Question 43

Conditions at the beginning of primary succession are incredibly harsh – not even soil is present, but how can an environment possibly become a productive community?

Answer 43

primary succession, made possible by lichens

Question 44

What are lichens?

Answer 44

the result of a symbiotic relationship between fungi and one or more of algae and different types of bacteria

fungi and algae/bacteria have adapted to one another (ie. they are co-evolved), and are dependent upon one another

Question 45

Why will lichens always be the first organisms present at the beginning of primary succession?

Answer 45

many lichens are capable of growing without soil (some are even capable of growing without any substrate at all)

Question 46

Lichens are incredibly diverse. Give some examples of lichens.

Answer 46

• lichens that contain algae are capable of fixing carbon (ie. undergoing photosynthesis)
• lichens that contain cyanobacteria are capable of fixing both nitrogen and carbon

Question 47

How can lichen make an environment possibly become a productive community?

Answer 47

once several layers of dead lichens (ie. organic matter) have accumulated, the substrate will begin retaining moisture
this allows mosses to move in
the combination of mosses and other accumulating organic matter forms a thin soil

Question 48

Describe pioneer species.

Answer 48

• high dispersal
• weedy/fast growing, short generations
• tolerant of harsh conditions

Question 49

Describe climax species.

Answer 49

• low dispersal
• good competitors, long-lived
• require favourable conditions