Community Ecology (Lectures 17-23)

Question 1

what is a community?

Answer 1

> a group of populations coexisting in a given location.

- patterns of species diversity at a local regional scales

Question 2

how do you study communities?

Answer 2

> scale up from two-way interactions to multi-species interactions - all the same types of interactions
 - predator/prey dynamics
 - competition
 - facilitation
> scale down from ecosystem factors
 - primary productivity
 - climate
 - biogeography

Question 3

how do you categorise communities?

Answer 3

> theoretically: set of species actively interacting
- direct competition/predation/facilitation
- indirect interactions
- gene flow
practical/ operational: group of organisms in an area smaller than a landscape that share clear physical/compositional characteristics and/or clear boundaries.
- species on a sand dune
- species in a hot spring
- species in a meadow

Question 4

how do you define communities?

Answer 4

> closed or open systems
trophic levels
food webs

Question 5

describe trophic levels for defining communities

Answer 5

> transfer of energy through a community

• measured by which types of species eat other types of species
• chain is kind of outdated.

Question 6

describe food webs

Answer 6

> explore interactions among species across the trophic levels

• connectivity through predation/herbivory
• who eats who
• transfer of energy

Question 7

wwhat are some issues with food webs?

Answer 7

> not all species fit into set categories or fit into more than one
 - omnivores
 - detritivores
 - parasites
 - pollinators
> does not generally incorporate processes occurring within trophic levels
 - intra-specific competition
 - interspecific competiton

Question 8

what are interaction networks?

Answer 8

Include:
> trophic interactions
 - vertical links
> competitive and facilitation
 - horizontal links
 - don't involve eating eachother
 - pairs of species interacting

Question 9

what are some common ways of selecting a subse of species to study?

Answer 9

> taxonomic groups
- mammals, reptiles, plants
trophic guilds
- group of organisms that use the same resources
functional groups
- subset of a community that function in a similar way
types of interactions
- organisms across trophic guilds that form interaction webs through a single mechanism
- pollination, mycorrhizeal interactions, decomposition.

Question 10

describe community structure

Answer 10

> a community has attributes that differ from those of its components
- number of species
- relative abundance of species
- nature of species interactions
- physical structure
‘fit’ of organisms to the physical environment + species interactions explain the ecological processes that control community structure
evolution equally important for understanding which set of species are found in a given community

Question 11

what is species diversity?

Answer 11

= the number and abundance of species in a defined area
> important components of diversity
- relative abundance = proportion of individuals in a community from a single species
- species richness = the number of species in the community
- composition = the identity of the species in the community
- species evenness = tells us about the commonality and rarity of species

Question 12

what is the shannon index?

Answer 12

> common measure of diversity
s = number of species
pi = relative abundance of each species

Question 13

what is pielou’s evenness

Answer 13

> low evenness if one or two species dominate

> high evenness if all species have similar abundances

Question 14

describe diversity and scale

Answer 14

> diversity will vary depending on the scale at which it is measured and the effort put in to measuring it.
species accumulation curves
higher number of samples = higher diversity

Question 15

species interactions in communities

Answer 15

> are all species of equal importance to a community?
- Diversity?
- function?
- stability?
studies of diversity provide limited information about the processes resulting in the diversity and composition we see in given communities

Question 16

describe community assembly

Answer 16

> understanding mechanisms of community assembly is a central goal of community ecology research

• species interactions with their environment
• the importance of the niche in understanding biological communities
• species interactions
• direct interactions
• indirect interactions
• intraspecific interactions

Question 17

what are three niche theories?

Answer 17

> eltonian niche: the functional attributes of a species (including its trophic position).
- the environmental tolerances of a species
- a species’ relationship with food and enemies
- classic def.
grinnellian niche
- the niche of a species is determined by the habitat it lives in and behavioural adaptations to the environment
hutchinsonian niche
- N-dimensional hypervolume
- dimensions are environmental conditions and resources that determines a species’ way of life.

Question 18

describe the fundamental niche constraints on community structure

Answer 18

> all living organisms have a range of environmental conditions under which they can successfully survive, grow, and reproduce
this range of environmental conditions conditions is not the same for all organisms
species pool - how many species are around to fill a community?
- biogeography
- evolutionary history
- ecology

Question 19

describe the species pool

Answer 19

> same types of organisms often occupy similar environmental space

Question 20

compare and contrast intra- vs. interspecific interactions

Answer 20

> intraspecific interactions:
- interactions among the individuals of a given species
interspecific interactions:
- interactions among individuals of a different species
the strength of these interactions can be used to understand why some species can coexist in a community and others cannot

Question 21

describe direct interactions

Answer 21

> positive, neutral and negative interactions within or between specie that only involve the individuals (of the species) involved in the interaction

• competition for resources
• pollination
• facilitation

Question 22

how do you asses interactions?

Answer 22

> consider direction, magnitude and stability (the net effect or long term outcome)

Question 23

describe the different types of competition/facilitation

Answer 23

> interspecific competition -/-
 - resources - food, shelter etc
> mutualisms +/+
 - resources 
 - services (pollination)
> commensalisms +/0
 - resources
 - habitat

Question 24

how do we measure impacts of species on other species?

Answer 24

> relative changes in:
 - biomass
 - reproductive success
 - population size
> models allow us to assess the effects of one species on another and then scale up to populations

Question 25

what are keystone species?

Answer 25

> key ecological role filled by 1 species
removal of these species impacts many other species
typically not the most abundant species
impacts of removal typically disproportionate to abundance
punch above their weight

Question 26

what are dominant species?

Answer 26

> the most common species in the community
often defined separately for each trophic level
- e.g., dominant predator, dominant producer etc
dominance is usually assumed to result from competitive exclusion
this happens in two pathways:
- transitive competition - linear hierarchy of competition
- intransitive competition - circular network of competiton

Question 27

what are ecosystem engineers?

Answer 27

> species that create particular environmental characteristics of an ecosystem
- without them, the ecosystem changes fundamentally

Question 28

are all species equally important? describe interaction strength

Answer 28

IS = ln((C/E)/I))

• IS = per capita interaction strength
• C = the # of target individuals in the presence of the interactor species
• E = the # of target individuals in the absence of the interactor species
• I = the # of interactor individuals

IS = (C-T)/(T*M)

• IS = per capita interaction strength
• C = mean density of target species in the presence of the interactor species
• T = mean density of a target species in the absence of the interactor species
• M = mean density of the interactor species

Question 29

what is a network analysis?

Answer 29

> analytical approach to studying interaction webs while accounting for biological complexity.
- incorporates information on:
- strength of interactions
- direction of interactions
- commonality of interactions
common approach to the study of food webs and pollinator networks
- easiest if examining 1 type of interaction

Question 30

describe ecological network analysis

Answer 30

> quantify links among species in a community
allows assessment of many different direct interactions among species in communities
provides insight into mechanisms driving and maintaining diversity
doesn’t require as much detailed information as interactions strength analyses

Question 31

What are the terms associated with network analysis?

Answer 31

> modules
 - linked subset of species within communities with more interactions ith each other than between modules
> Peripherals (specialists)
- a species with few links within its own module and rarely any to other modules
> Generalists: species that interact with lots of other species
- connectors: species that link modules together through their interactions with species in multiple modules
- module hubs: lots of interactions within its own module, forms the main structure of a module
- network hubs: is a 'super generalist' holding together both its module and the whole network.

Question 32

how do you quantify ecological networks?

Answer 32

> modularity, nestedness, asymmetry, other features of networks
modularity of a community (extent of module organisation in a community) can by caused by:
- habitat heterogeneity
- divergent selection regimes
- phylogenetic clustering (groups of related species)
structure of network modules reflects:
- outcomes of coevolutionary processes
- community resilience: capacity for community to maintain its functionality under disturbance/change
- long term stability

Question 33

what are indirect interactions?

Answer 33

> positive, neutral and negative interactions between two species that indirectly impact a third species.
- all the same types of interactions as involved in direct interactions
- in complex communities indirect interactions are often just as important as direct interactions
the net impact of species interactions on a focal species
the enemy of my enemy is my friend

Question 34

what are the types of indirect faclitation?

Answer 34

> trophic cascade
- predator eats herbivore, therefore primary producer has less herbivory stress
predator of competitor
prey of commensal host
prey of mutualist
indirect facilitation mediated by directly helpful interactions
- communalism chain

Question 35

how can ecosystem engineers have indirect effects?

Answer 35

> species that modify their environment to indirectly impact a third species

Question 36

what is a simple model of community assembly?

Answer 36

> community assembly
- the set of processes involved in determining the diversity of species in a community
- assumed to drive multi-species stable coexistence
many processes involved
different processes are more or less important for different communities

Question 37

what are the three steps in community assembly process?

Answer 37

1) dispersal and the regional species pool
2) environmental filtering and niche compatibility
3) biotic interactions/ coexistence dynamics

Question 38

describe dispersal ability

Answer 38

> different trees have different dispersal ability of seeds that limits the areas it can reach
the traits of seeds, e.g., bigger if carried by animals etc
access to communities

Question 39

what is an environmental filter?

Answer 39

> an environmental condition that restricts which species ca persist in a particular location or community
- generally an abiotic factor
- water availability
- temperature range
- food/nutrient availability
- light
strong filtering leads to more similar species from the regional pool

Question 40

what is the limiting similarity theory?

Answer 40

> concept that more similar species will compete more strongly with each other and thus stable coexistence is less likely among similar species
- required resources
- life history
- approches for resource acquisition
used as an underlying assumption in most models of community assembly
- increasingly replaced with modern coexistence theory

Question 41

what are functional traits?

Answer 41

> any morphological, physiological or phenological feature of a species
- wind dispersed
- drought resistance
- nitrogen fixation
- leaf area
- heat tolerance
traits considered ‘adaptive’ if they give a plant an advantage in a specific habitat
traits considered ‘ecologically important’ if they have direct links to ecological processes

Question 42

describe modern coexistence theory

Answer 42

> how can ecologically similar species coexist without competitively excluding each other?
limiting similarity assumes 1 type of competitive difference
- differences in competitive ability as measured by fitness differences
- what species does best when under direct competition?
modern coexistence theory: stable coexistence is mediated by two types of ‘ competition’-based species differences:
- competitive ability/fitness differences and
- niche differences
COEXISTENCE can occur as long as niche differences are greater than fitness differences

Question 43

explain fitness differences

Answer 43

> limit diversity by driving he best adapted species to a given environmental context (niche) to drive other species to local extinction
not density dependent
- species A is more effective at obtaining N than species B
measured as competitive effect of one species on another

Question 44

explain niche differences

Answer 44

> differences in species’ niches that promote diversity
they reduce negative effects of interspecific competition, allowing species to increase from rarity
also limit population growth at high densities (negative frequency dependence)
measured as relative strength of intraspecific competition.

Question 45

what are the mechanisms of coexistence?

Answer 45

> stabilising effect of niche differences:
- niche differences can prevent competitive exclusion by the strongest competitor by reducing the intensity of interspecific competition relative to intraspecific competiton.
negative density dependence
- stabilising effect depends on the density of intra-specific individuals
- intraspecific competition is stronger at higher density than low, so at low densities, populations increase but at high densities niche differences

Question 46

what are the types of stabilising mechanisms?

Answer 46

> variation-independent mechanisms
 - resource partitoning
 - predator partitioning
 - frequency-dependent predation
> storage effect
 - species are effected differently by spatial or temporal variation in the environment

Question 47

describe the different ways organisms can partition resources

Answer 47

> niche partitioning
character displacement
- co-occuring species evolve traits’ or strategies that allow them to avoid direct competition with other species
behavioural resource partitioning
- pragmatic
- responding to the competitor pool at the given location
- avoid direct competition

Question 48

describe the storage effect

Answer 48

> stable coexistence of similar species by avoidance of stronger competitors through space and or time.

• mediated by environmental heterogeneity
• density-dependent population growth rates
• buffered population growth rates

Question 49

how does storage effect differ from niche partitioning?

Answer 49

> reflects distinct responses of species to variable environmental conditions

Question 50

how can coexistence occur in relation to three population level phenomena?

Answer 50

1. every species has a different optima or preferred set of environmental conditions, making no one place (or time) the best for every species
2. species living at low densities experience less competition than species living at high densities (stabilising niche differences)
   - at low densities competition doesn’t restrict growth in populations
   - at high densities species experience greater intra-specific competition and thus more limited population growth
   - this effect relates to the environment because competition outcomes co-vary with the environment
3. “buffering” allows net positive growth rates across heterogeneous environments by waiting out bad conditions.

Question 51

explain covariance between environment and competition

Answer 51

> competitive success is related to the environmental conditions in a location
the magnitude and sign of covariance varies depending on the density of a species and its competitors
- dominant species have strong positive covariance between environment and competition
- species at low density don’t suffer from intraspecific competition
- low density species are outcompeted by dominant species under the most common environmental conditions
the most favourable environmental conditions for a dominant species are not the most favourable conditions for less abundant species in a community

OUTCOME: population growth occurs for species found at low densities when they are favoured by the environment

Question 52

Explain buffering

Answer 52

> refers to obtaining a positive growth rate by averaging across different conditions
- microenvironments (space)
- growing seasons (time)
species buffer by maintaining the bulk of their life in the most stable, least ‘bothered’ life stage:
- seed banks and other storage phases in short lived organisms
OUTCOME: populations can have positive growth rates over time, even if some years/places are no good, as long as on average growth is positive.

Question 53

what is n ecosystem function?

Answer 53

> ecosystem processes stemming from biotic communities

• productivity - biomass production
• nutrient cycling
• water purification
• soil creation and retention
• any ecological process - pollination, gene flow

Question 54

What is a BEF?

Answer 54

> biodiversity ecosystem function
core hypothesis: diversity is positively correlated with ecosystem functioning
four hypotheses about ho diversity relates to ecosystem function
- complementary hypothesis
- redundancy hypothesis
- driver and passenger hypothesis
- driver and passenger hypothesis plus overlap

Question 55

describe the complementarity hypothesis

Answer 55

> as species richness increases, there will be a linear increase in community function
- each new species has a unique and equally incremental impact on community function

Question 56

explain the redundancy hypothesis

Answer 56

> as species richness increases, there is a positive but bound effect on community function

• when diversity is low, new species tend to add unique value to the community function but that positive effect levels off and reaches a cap.
• functional additions are still thought of as equal in extent
• species can have redundant value to community function

Question 57

explain the driver and passenger hypothesis

Answer 57

> the strengths of the impacts each species had on community function varies a lot
- driver species have a large effect on community function
- passengers have small to no effect on community function
combined impacts result in a stair step increase in function

Question 58

explain driver and passenger hypothesis with overlap

Answer 58

> combines the Driver/passenger and redundancy hypotheses

• species have variable impacts on community function, causing stepped increases in function with added species
• there is a cap or upper bound on the addition of new functionality

Question 59

what are 4 key concepts in succession?

Answer 59

1. agents of change: abiotic or biotic, act at all spatial and temporal scales
2. succession results from agents of change action on communities
3. succession mechanisms are context-dependent
4. successional trajectories are diverse and display alternate stable states

Question 60

what are some abiotic agents of change?

Answer 60

> related to physical environment
temperatures, rainfall, etc
STRESS: reduced fitness of individuals
- draught -> fewer seeds per individual in plant population
DISTURBANCE: kills individuals or populations
- fire wipes out entire plant population

Question 61

what are biotic agets of chnage?

Answer 61

> related to species interactions

- competition, facilitation, predation, disease

Question 62

how are agents of change described?

Answer 62

> in terms of:

• intensity: what is the severity of the storm?
• frequency: how often do storms of this severity occur?
• extent: what spatial area of the reef was affected?

Question 63

describe primary succession

Answer 63

> starts off as bare rock, maybe from a volcanic erruption
the pioneer species come in and break up the rock, and die, leaving organic matter behind for the
intermediate species to come in
then the climax community is what is the eventual state of the community.
happens over hundreds and hundreds of years

Question 64

describe secondary succession

Answer 64

> happens over 150+ years (so quickly)
the disturbance does not fully remove organic matter from the ground, still has soil etc.
disturbance and stress can reset the community at any stage.

Question 65

what are the 3 different models of sucession?

Answer 65

1. facilitation model: early species enefit later species
2. inhibition model: early species hinder later species
3. tolerance model: interactions not important, turnover due to innate species traits and life histories.
   > no one model is correct, a mix of all three is seen
   > misture depends on the study system, the temporal and spatial context of study.

Question 66

describe what happened at glacier bay

Answer 66

> the study showed that overall a combination of tolerance, facilitative and inhibitive
tolerance and facilitative model dominant in EARLY SUCCESSION
inhibition model more dominant in LATER SUCCESSION

Question 67

what are alternative stable states?

Answer 67

> climax community composition not always predictable
alternate stable states: climax communities can end up differing in composition from one another, even in the same area
hysteresis may occur when moving from one alternate state to another
ecosystem change may be difficult, costly, or impossible to reverse, may be stuck in alternative stable state
restoration can be successful with knowledge of how communities naturally change

Question 68

describe global forest diversity

Answer 68

> species richness and composition varies with latitude: more species at low latitudes
species richness an composition varies from continent to continent even when latitude is similar
same biome type on different continents vary in richness or diversity depending on location

Question 69

what are the diversity indices?

Answer 69

gamma (y) diversity: species pool for an entire region

Alpha (a) diversity: species pool for a local community (subset of gamma)

Beta (B) diversity: species turnover. several ways to calculate, generally: greater B means greater variability among communities, uniqueness of ommunities

Question 70

why do the tropics have more species? give 3 hypotheses

Answer 70

Latidudinal diversity gradient:

1. tropics are a cradle of diversity
   - high speciation rates relative to extinction rates
   - greater land area, probability of speciation
2. tropics are a museum of diversity
   - climate stability relative to polar regions -> less disruptive to diversification
   - once species originate, they stick around
3. productivity and energy hypothesis
   - more resources in tropics -> higher productivity and carrying capacities
   - faster molecular evolution and mutation rates

Question 71

give a recap of diversity in the world

Answer 71

> diversity is a result of processes interacting at a variety of scales, from global to local
relationship between local and regional richness reflects whether local factors (e.g., competiton) or larger factors (e.g., environment) are more dominant in determinging local species richness
current species distributions often reflect paleographic conditions
several hypotheses exist for latitudinal diversity gradient (cradle, museum, productivity/energy)

Question 72

explain how local and regional species processes interact

Answer 72

> if regional species richness is in a 1:1 ratio with local species richness, than all species in the region are present in each community
if ratio is local to regional if the line is asymptotic, local processes determine local richness, e.g., competiton

Question 73

describe the species -area relationship

Answer 73

> you will find more species as you sample larger areas
influenced by isolation
the number of species increases with area sampled and proximity to source populations
balance of immigration and extinction

Question 74

explain the equilibrium theory of isalnds

Answer 74

> immigration rates decline as more species added
- fewer individulas added are of a new species
extinction rates increase as more species are added
- greater probability of extinction and negative interactions
isolation influences immigration rates
size of island influences extinction rates
THEREFORE:
near, large islands have more species (high immigration, low extinction)
small, far islands have the fewest species (low immigration, high extinction)
number of species found in a given location positively related to size of area sampled and negatively related to isolation from source populations