Population Ecology
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Transcript Population Ecology
POPULATION ECOLOGY
Chapter 19
ECOLOGY
Study of interactions of organisms with each other and
the physical environment
Can be divided into increasingly comprehensive levels:
Organismal ecology
Population ecology
Community ecology
Ecosystem ecology
ORGANISMAL ECOLOGY
Concerned with
evolutionary
adaptations
Enable individual
organisms to meet the
challenges posed by
their abiotic
environments
POPULATION ECOLOGY
Concentrates mainly
on factors that affect
population density
and growth
COMMUNITY ECOLOGY
Focuses on how
interactions between
species affect
community structure
and organization
ECOSYSTEM ECOLOGY
All abiotic factors in
addition to the
community of species in a
certain area
Focuses on energy flow
and the cycling of
chemicals
among the various abiotic
and biotic factors
WHAT IS POPULATION ECOLOGY?
Study of how members of a population interact with
their environment
Focuses on factors that influence a population’s:
Size
Growth rate
Density
Structure
POPULATIONS
Distribution
Pattern of dispersal of individuals across an area
Affected by availability of resources
Limiting factors
nonliving (abiotic) and living (biotic) components of an
environment that support living organisms
Environmental aspects that particularly determine where
an organism lives
Range
Portion of the globe where the species can be found
POPULATIONS
Density
Number of individuals per unit
area
How do we measure population
density?
impossible to count all individuals in
a population
estimated by indirect indicators
number of bird nests
INFLUENCES ON POPULATION
Carrying capacity
Number of individuals of a
species that a particular
environment can support
PATTERNS OF DISPERSION….
way individuals are spaced within the
population’s geographic range
Three main models of dispersion:
Clumped
Uniform
Random
PATTERNS OF DISPERSION
Clumped pattern of
dispersion
Individuals aggregate in
patches
PATTERNS OF DISPERSION
Uniform pattern of
dispersion
Results from
interactions among
the individuals of a
population
PATTERNS OF DISPERSION
Random pattern of
dispersion
Individuals are spaced
in a patternless,
unpredictable way
COMPARISON OF SPECIES
Survivorship
Life history traits
1.
SURVIVORSHIP
Chance an individual in a population survives to
various ages
Represented graphically in a survivorship
curve
Plot of individuals surviving at each age in maximum
life span
Uses a percentage scale
Can compare species with various life spans on same
graph
SURVIVORSHIP
Type I survivorship
curve
Type II survivorship
curve
Most individuals survive
until old age
Decreases consistently
over time
Type III survivorship
curve
Most individuals die early
2.
LIFE HISTORY
Set of traits that affect the organisms:
Reproduction
Survival
Key feature of a populations pattern of survivorship
Key life history traits are:
Age at first reproduction
Frequency of reproduction
Number of offspring
Amount of parental care provided
TYPES OF LIFE HISTORIES
Organisms with an
opportunistic life history:
Take immediate advantage of
favorable conditions
Typically exhibit a Type III
survivorship curve
Organisms with an equilibrial
life history:
Reach sexual maturity slowly
Produce few, well cared for
offspring
typically large-bodied and longer
lived
Typically exhibit a Type I
survivorship curve
occur in environments where
population size is at or near
carrying capacity
POPULATION GROWTH MODELS
Populations fluctuate
Mathematical models to
illustrate changes:
Exponential population
growth
Logistic population growth
POPULATION GROWTH MODELS
1. J-shaped Curve –
Exponential Growth
Lag phase: Growth is small
because the population is small
Exponential growth phase:
Growth is accelerating, and the
population is exhibiting its biotic
potential
POPULATION GROWTH MODELS
2. S-shaped Curve – Logistic
Growth
Lag phase: Growth is small because
the population is small
Exponential growth phase:
Growth is accelerating, and the
population is exhibiting its biotic
potential
Deceleration phase:
Stable equilibrium phase:
The rate of
population growth slows down
Little
if any growth takes place because births
and deaths are about equal.
REGULATION OF POPULATION GROWTH
1. density-dependent
factor
Intraspecific competition
population-limiting factor
effects intensify as the
population increases in
density
Percentage of population
affected does increase as
density of population
increases
Includes:
Accumulation of toxic
wastes
Limited food supply
Limited territory
Competition and
predation
REGULATION OF POPULATION GROWTH
2. Density-independent
factors
population-limiting factors
intensity is unrelated to
population density
Population of individuals killed
remains same regardless of
population size
Includes abiotic factors such as:
Fires
Floods
Storms
HUMAN POPULATION GROWTH
Growing almost
exponentially for
centuries
Based on the same
parameters that affect
other populations
Birth rates
Death rates
HUMAN POPULATION GROWTH
Approximately
225,000 people are added to
the world’s population every day
Approximately 82 million people are added to
the world’s population every year
Current doubling time is 56 years
(length of time it takes for population size to
double)
More
Developed Countries (MDC’s)
versus Less Developed Countries (LDC’s)
ESTIMATES OF POPULATION
Age structure of a
population
Proportion of
individuals in different
age groups
Can help predict the
future growth of
populations in different
countries
EFFECTS ON POPULATIONS INVASIVE SPECIES
Non-native species that has
spread far beyond the original
point of introduction
Causes environmental or
economic damage by colonizing
and dominating suitable
habitats
In United States, invasive
species cost about $137 billion
a year
Invasive species typically
exhibit an opportunistic life
history pattern
INVASIVE SPECIES
Kudzu
1876
invasive Asian vine
Covers about 12,000
square miles of the
southeastern United
States
Has a range limited by
cold winters
Grows 60 feet per
season!
INVASIVE SPECIES
Biological control
intentional release of a
natural enemy to
attack a pest
population
used to manage an
invasive species
Does NOT always
work!!!