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Transcript
Chapter 6
Population and Community Ecology
Nature exists at several levels of complexity
• What levels of complexity make up the
biosphere?
• What do scientists study at each level of
complexity?
• How do populations and communities
differ?
Populations are dynamic (constantly changing)
The size of a population is the difference between the number
of INPUTS (births and immigrations) and OUTPUTS (deaths
and emigration)
If INPUTS exceed OUTPUTS populations GROW
If OUTPUTS exceed INPUTS populations DECREASE
• Population ecology: The study of factors
that cause populations to increase or
decrease.
Factors that Regulate Population Abundance
and Distribution
•
•
•
•
•
Population size- the total number of individuals within a defined
area at a given time. (California Condor)
Population density- the number of individuals per unit area at a
given time. (hunting/fishing zones)
Population distribution- how individuals are distributed with
respect to one another.
Population sex ratio- the ratio of males to females (estimate
number of offspring growth in next generation)
Population age structure- how many individuals fit into particular
age categories. (helps predict how fast populations grow)
Population Distribution
Factors that Influence Population Size
• Density-dependent factors- the size of the
population will influence an individual’s
probability of survival.
• Amount of available food
• Paramecium
• Food= limiting resource
• Carrying capacity (K)= limit to how
many individuals a food supply can
support
Factors that Influence Population Size
• Density-independent factors- the size of the
population has no effect on the individual’s
probability of survival. (tornado)
• Bird populations
• What factors regulate the size of a
population?
• What did Gause discover in his classic
experiments?
• What is the difference between densitydependent and density-independent
factors that influence population size?
• Give an example…
Exponential Growth Model
• Population growth models – used to predict
population size at any moment in time.
Exponential Growth Model
• Growth rate- the number of offspring an
individual can produce in a given time
period, minus the deaths of the individual or
offspring during the same period.
• Intrinsic growth rate- under ideal conditions,
with unlimited resources, the maximum
potential for growth. R
Exponential Growth Model
Nt =
rt
N0e
R= intrinsic growth rate of a population
N0 = # of reproducing individuals that are currently in the
population
Nt = population’s future size
T= time
E= the base of the natural logarithm
Exponential Growth Model
•
J-shaped curve- when graphed the exponential
growth model looks like this. (population is not
limited by resources)
Exponential Growth
• $1000 in the bank
• 5% annual interest rate
• After one year – earned $50
• 2 year = 52.50
• 10 year = 77.57
• 20 = 126.35
nd
th
th
(density independent – value will grow by
same % each year)
• No population can experience
exponential growth indefinitely!
“Do the math”
• Look at pg. 156
• After reading through try to complete
“YOUR TURN” on your own paper.
Logistic Growth Model
•
•
Logistic growth- when a population whose growth is
initially exponential, but slows as the population
approaches the carrying capacity (k).
S-shaped curve- when graphed the logistic growth model
produces an “S”.
Variations of the Logistic Model
• If food becomes scarce, the population will
experience an overshoot by becoming larger
than the spring carrying capacity and will
result in a die-off, or population crash.
Variations of the Logistic Model
•
•
Reindeer in St Paul island – Alaska
Limited food, water and nest sites…
Variations of the Logistic Model
•
Lynx and Hares – Canada (predator/prey)
Variations of the Logistic Model
•
Wolves and Moose – Isle Royale National Park
Reproductive Strategies
•
•
K-selected species- the population of a
species that grows slowly until it reaches the
carrying capacity. Ex. elephants, whales,
and humans.
R-selected species- the population of a
species that grows quickly and is often
followed by overshoots and die-offs. Ex.
Mosquitoes, mice and dandelions
Survivorship Curves
Metapopulations
• Metapopulations- a group of spatially distinct
populations that are connected by occasional
movements of individuals between them.
corridor
• What happens if you alter the r or K
terms in the logistic growth model?
• What did scientists learn from the
records of the Hudson’s Bay Company?
• What is a metapopulation? How do they
contribute to the preservation of
biodiversity?
Community Ecology
•
The distribution of a species is
determined by 3 factors
•
•
•
Range of abiotic and biotic
factors that it can tolerate
Able to disperse
Interactions with other species
•
•
•
•
Competition
Predation
Mutualism
Commensalism
Competition
• Competition- the
struggle of individuals
to obtain a limiting
resource .
• Gause – two species of
paramecium
• Competitive exclusion
principle – two species
cannot exist if they
compete for the same
resources.
Resource Patitioning
Predation
• Predation- the use of one species as a resource
by another species.
• True predators- kill their prey.
• Herbivores- consume plants as prey.
• Parasites- live on or in the organism they
consume.
• Parasitoids- lay eggs inside other organisms.
Mutualism
• Mutualism- A type of interspecific interaction
where both species benefit.
• Acacia Trees and Pseudomyrmex ants
Commensalism
• Commensalism- a type of relationship in which
one species benefits but the other is neither
harmed nor helped.
Symbiotic Relationship
• Relationship between two species that
live in close association with each other
• Commensalism, mutualism, parasatism
Keystone Species
• Keystone species- a species that plays a role in
its community that is far more important than
its relative abundance might suggest.
Primary Succession
• Primary succession- occurs on surfaces that are
initially devoid of soil.
Secondary Succession
• Secondary succession- occurs in areas that
have been disturbed but have not lost their
soil.
Aquatic Succession
Factors that determine species richness:
• Latitude
• Time
• Habitat size
Theory of Island Biogeography
• Theory of island biogeography- the theory
that explains that both habitat size and
distance determine species richness.