Species Interactions & Population Control

Five Major Interactions• Interspecific Competition• Predation • Parasitism• Mutualism• Commensalism

Interspecific Competition Different species competing for the same

resources

• Niche overlap– Greater overlap = more intense competition

• Outcomes:– Resource partitioning

• Evolution/speciation

– Competitive exclusion• Local Extinction

Resource Partitioning When species divide a niche to avoid

competition for resources

Competitive Exclusiontwo species competing for the same resource cannot

coexist at constant population values, if other ecological factors remain constant

Predation

SymbiosisClose long term associations between

two or more species

* Three types:1.Mutualism2.Commensalism3.Parasitism

Brood ParasitismThe manipulation and use of a host to raise the young of the brood parasite

*Nest hypothesis *Mafia hypothesis

PopulationA group of interbreeding individuals of

the same species

Population Characteristics

• Size• Density• Dispersion• Age distribution

Population SizeFour variables determine population size:

1. Births2. Deaths3. Immigration4. Emigration

=(Births + Immigration) - (Deaths + Emigration)

Population

Change

Dispersion

DispersionClumps -most popular

1. Cluster near resources2. Groups increase chance

of finding resources3. Protection4. Hunting

Dispersal Examples

Clumped(elephants)

Uniform(creosote bush)

Random(dandelions)

Territorial Solitary

Age Structure• Distribution of individuals among

various ages• Dictates how rapidly a population • Three groups:1. Pre-reproductive stage

not mature enough to reproduce2. Reproductive stage

capable of reproduction3. Post-reproductive stage

too old to reproduce

A B CD

Life table

Life Tables Shows life expectancies for age

groups Demography: Study of a populations vital

statistics and how they change over time

females males

What adaptations have led to this difference in male vs. femalemortality?

Survivorship curvesGeneralized life strategies

What do these graphs tell about survival & strategy of a species?

0 25

1000

100

Human(type I)

Hydra(type II)

Oyster(type III)10

150

Percent of maximum life span

10075

Su

rviv

al p

er th

ousa

nd

I. High death rate in post-reproductive years

II. Constant mortality rate throughout life span

III. Very high early mortality but the few survivors then live long (stay reproductive)

Reproductive strategies K-selected

late reproductionfew offspringinvest a lot in raising

offspring primates coconut

r-selectedearly reproductionmany offspringlittle parental care

insects many plants

K-selected

r-selected

Exponential Growth• Constant growth of a

population–Birth rate exceeds the death rate

• J shaped curve

Conditions for Exponential Growth

• Unlimited resources–Abundant space–Abundant food–Shelter –Decrease in predators–Decrease in disease–Reproduction

Rule of 70

• How long does it take to double? – Resource use– Population size– Money in a savings account

• Rule of 70 – 70 divided by the percentage growth rate

= doubling time in years– 70 / 7% means it takes ten years to

double

Human Population

Logistic Growth• Growth of a population slows

or stops as resources become less available

• S curve

Carrying Capacity The largest number of individuals that

a given environment can support at a given time

Regulation of population size

marking territory= competition

competition for nesting sites

Limiting factorsdensity dependent

competition: food, mates, nesting sites

predators, parasites, pathogensdensity independent

abiotic factors sunlight (energy) temperature rainfall

St. Matthew’s Island

Ecological SuccessionPredictable changes that occur in a

community over time• Two types:

– Primary– Secondary

Primary SuccessionBegins in a place without any soil

• Examples:– Volcanos– Glacier retreats

• Process begins with pioneer species– lichens or cyanobacteria

Primary Succession• Moss move in bringing insects• Ferns & grasses• Shrubs & Trees

Secondary SuccessionOrganisms evades an ecosystem

that already existed before

• Usually a result of disturbance–Human disturbance–Natural catastrophes

Steps in Secondary Succession

• Major disturbance – weeds come in

• Grasses • Pines begin to grow

–Grasses are shaded out

• Old pines die – hardwoods begin to replace

Secondary Succession

Climax CommunityA stable group of plants and/or animals

that colonize an area after a succession event

Ex: Old Growth Forest

Climax Community• Climax communities are not always

BIG trees!– Grasses in prairies– Cacti in deserts

Aquatic SuccessionTransition of aquatic habitats

(mainly ponds) filling with sediments & the eventually

becoming a terrestrial ecosystem

http://www.k8science.org/slides/slide01.cfm?q=%22dispersion+patterns%22&pg=1