biology sylvia s. mader michael windelspecht chapter 44 population ecology lecture outline copyright...
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BiologySylvia S. Mader
Michael Windelspecht
Chapter 44 Population
EcologyLecture Outline
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
See separate FlexArt PowerPoint slides for all figures and tables pre-inserted into
PowerPoint without notes.
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Outline• 44.1 Scope of Ecology• 44.2 Demographics of Populations• 44.3 Population Growth Models• 44.4 Regulation of Population Size• 44.5 Life History Patterns• 44.6 Human Population Growth
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44.1 Scope of Ecology
• Ecology The study of the interactions of organisms with
• Other organisms and the physical environment Habitat - Place where an organism lives Population - All the individuals of a species within a
particular space Community – Various populations of multiple species
interacting with each other Ecosystem - Community interacting with the
environment Biosphere - All the communities on Earth whose
members exist in air and water and on land3
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Ecological Levels
4
Organism Population Community Ecosystem
© David Hall/Photo Researchers, Inc.
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44.2 Demographics of Populations
• Demography is the statistical study of a population
• Demography includes Population density Population distribution Growth rate of a population
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Demographics of Populations
• Density and Distribution Population Density - Number of individuals
per unit area Population Distribution - Pattern of
dispersal of individuals across an area of interest
Limiting factors are environmental aspects that particularly determine where an organism lives
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Distribution Patterns of the Creosote Bush
7
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Young, smallshrubs
b. Clumped
Largeshrubs
a. Mature desert shrubs
Mediumshrubs
c. Random
d. Uniform
(a): © The McGraw Hill Companies, Inc. Evelyn Jo Johnson, photographer
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Demographics of Populations
• Population Growth The rate of natural increase depends on
• The number of individuals born each year, and• The number of individuals who die each year
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Demographics of Populations
• Population Growth (continued) Biotic Potential
• The maximum rate of natural increase for a population that can occur when resources are unlimited
Biotic potential depends on factors that influence the population’s reproduction, including
• The usual number of offspring surviving to reproductive age
• The amount of competition within the population• Age of and number of reproductive opportunities• Presence of disease and predators
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Biotic Potential
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a. b.(mice): © E. R. Degginger/Photo Researchers, Inc.; (rhinos): © Corbis RF
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Demographics of Populations
• Mortality Patterns A cohort
• Composed of all the members of a population born at the same time
– Life tables demonstrate how many members of a cohort are still alive after certain intervals of time
Survivorship• The probability that newborn individuals of a cohort
will survive to a particular age
• Survivorship Curves– A plot of the number of organisms surviving at each age
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A Life Table for a Bluegrass Cohort
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Demographics of Populations
• Survivorship Curves Type I
• Characteristic of a population in which most individuals survive past the midpoint of the life span and death does not come until the end of the life span
Type II• Death is linear over time (unrelated to age)
Type III• Typical of a population in which most individuals die very
young
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Survivorship Curves
14b: © Holt Studios/Photo Researchers, Inc.; c: © Bruce M. Johnson; d: © Digital Vison/Getty RF Images
I
I
II
III
III
Nu
mb
er o
f S
urv
ivo
rs
Percent of Life Span
Nu
mb
er o
f S
urv
ivo
rs
Percent of Life Span
b. Bluegrasses
d. Mosquitoes
1,000
100
10
00 50 100
1 million
10,000
100
0
0 50 100
50
Death occurs after midpoint.
Death unrelated to age.
Death comes early on.
II
Nu
mb
er o
f S
urv
ivo
rs
Percent of Life Span
a.
c. Lizards
Percent of Life Span
Nu
mb
er o
f S
urv
ivo
rs
1,000
100
10
0
0 50 100
1,000
100
10
00 100
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
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Demographics of Populations
• Age Distribution The proportion of the population that falls into various
age categories There are three major age groups
• Prereproductive• Reproductive• Postreprodutive
At least three age structure diagrams are possible• Increasing population• Stable population• Decreasing population
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Age Structure Diagrams
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Increasing Population Decreasing PopulationStable Population
Age Structure
Postreproductive Ages
Reproductive Ages
Prereproductive Ages
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44.3 Population Growth Models
• Two working models for population growth: Semelparity
• Members of a population have only a single reproductive event in their lifetime
– Ex: insects
Iteroparity• Members of the population experience many
reproductive events throughout their lifetime– Ex: most vertebrates, shrubs, and trees
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Patterns of Reproduction
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a. b.
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a: © Breck P. Kent/Animals Animals/Earth Scenes; b: © Doug Sokell/Visuals Unlimited
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Population Growth Models
• Exponential Growth Rate of population growth increases as the total
number of females increases Biotic potential is having full effect and birthrate is
a maximum during exponential growth Phases of an exponential growth curve
• During the lag phase, growth is small because the population is small.
• During the exponential growth phase, growth is accelerating.
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Model for Exponential Growth
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1 2 3 4 5 6 7 8 90
Generation PopulationSize
Number ofFemales
10.0
24.0
57.6
138.2
331.7
796.1
1,910.6
4,585.4
11,005.0
26,412.0
63,388.8
12
28.8
69.1
165.9
398.1
955.3
2292.7
5502.5
13206.1
31694.5
a.
70
60
50
40
30
20
10
10
R = 2.4
exponential growth
lag
b.
c.
Generations
Po
pu
lati
on
(th
ou
san
ds)
To calculate population size from year to year, use this formula:
Nt+1 = RNt
Nt = number of females already present
R = net reproductive rate
Nt+1 = population size the following year
5
10
9
8
7
6
5
3
4
2
1
0
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Population Growth Models
• Logistic growth Occurs when limiting environmental factors
oppose growth Phases of a logistic growth curve
• During the lag phase, growth is slow because the population is small.
• During the exponential growth phase, growth is accelerating.
• During the deceleration phase, growth slows down.• During the stable equilibrium phase, there is little if
any growth.
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Model for Logistic Growth
22
100
200
300
400
700
600
500
2 4 6 8 10 12 14 16 18
a.
b.
c.
0
2
4
6
8
1012
14
16
18
9.6
29.0
71.1
174.6
350.7
513.3594.4
640.8
655.9
661.8
0
19.4
42.1
103.5
176.1
162.681.1
46.4
15.1
5.9
Nt
K
lag
deceleration
Nt
Growth of Yeast Cells in Laboratory Culture
Time (t )(hours)
Number ofindividuals (N)
Number of individualsadded per 2-hour period
Nu
mb
er
of
Yea
st C
ells
exponentialgrowth
stableequilibriumphase
Time (hours)
To calculate population growth as time passes, use thisformula:
N = population size
N/t = change in population size
r = rate of natural increase
K = carrying capacity
K – N = effect of carrying capacity on population growth
= rNK
K – N
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Population Growth Models
• Carrying Capacity The maximum number of individuals of a
species the environment can continuously support
• The closer the population to the carrying capacity, the more likely its resources will become scarce and that biotic effects such as competition and predation will become apparent
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44.4 Regulation of Population Size
• Density-independent Factors The population density does not influence
the intensity of the factor’s effect• Natural disasters
• Density-dependent Factors The percentage of the population affected
increases as the population density increases• Competition• Predation• Parasitism
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Density-independent Effects
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a. Low density of mice b. High density of mice
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Density-dependent Effect
26
2,000
1,500
1,000
500
01910 1920 1930 1940 1950
Nu
mb
er o
f R
ein
dee
r
exponentialgrowth
decline asa resultof suddenresourcedepletion
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
© Paul Janosi/Valan Photos
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Density-dependent Effects -- Competition
27
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a. Low density of birds b. High density of birds
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Density-dependent Effects -- Predation
28a. Low density of mice b. High density of mice
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44.5 Life History Patterns
• Life histories contain characteristics of a population such as The number of births per reproduction The age of reproduction The life span The probability of an individual living the entire life span
• Each population distributes energy among its life span, reproduction events, and care of offspring.
• Related species may have different life history patterns.
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Parental Care Among Frogs and Toads
30
a. Mouth-brooding frog,Rhinoderma darwinii
b. Strawberry poison arrow frog,Dendrobates pumilio
c. Midwife toad, Alyces obstetricans
(a): © Michael Fogden/Animals Animals; (b): © Michael Fogden/Animals Animals;(c): © Tom McHugh/Photo Researchers, Inc.
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Life History Patterns
• r is the rate of natural increase of a population.
• K is the carrying capacity of the environment.
• Some populations are subject to r-selection, and other populations are subject to K-selection.
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Life History Patterns
• r - Selection In unstable or predictable environments, population
growth is controlled by density-independent factors. Population size is low relative to K.
• r - Strategists (opportunistic species) Produce large numbers of offspring Have a small body size Mature early Have a short life span Do not invest energy in parental care Tend to be good dispersers and colonizers
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Life History Patterns
• K - Selection In stable, predictable environments, population size is
controlled by density-dependent factors. Population size tends to be near K.
• K - Strategists (equilibrium species) Produce small numbers of offspring Have a large body size Mature late Have a long life span Invest energy in parental care Tend to be strong competitors
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Life History Strategies
34
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(dandelions): © Ted Levin/Animals Animals; (bears): ©Michio Hoshino/Minden Pictures
Opportunistic Species(r-strategist)
• Small individuals• Short life span
• Fast to mature• Many offspring• Little or no care of offspring
• Many offspring die before reproducing
• Early reproductive age
Equilibrium Species(K-strategist)
• Large individuals• Long life span
• Slow to mature• Few and large offspring• Much care of offspring
• Most young survive to reproductive age
• Adapted to stable environment
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Ecology Focus: When a Population Grows Too Large
• White-tailed deer are prolific breeders
Female deer breed their first year, and once they start breeding, produce about two young each year of life.
• A century ago, the white-tailed deer population was less than half a million
• Today, it is well over 200 million
• Natural predators of deer, such as wolves and mountain lions, are now absent from most regions.
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Ecology Focus: When a Population Grows Too Large
• Populations that are too large may suffer from starvation as they deplete their own food supply
• For example, after deer hunting was banned on Long Island, New York, the deer population quickly outgrew available food resources
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White-tailed Deer
37
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a.
b. (a): © Tony Campbell/Shutterstock Images; (b): © Altrendo Images/Getty Images
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44.6 Human Population Growth
• The human population is undergoing exponential growth Present size is 6.7 billion people
• The doubling time of the human population is currently estimated at 52 years
• Population Size 1800 1 Billion 1930 2 Billion 1960 3 Billion 2012 6 Billion
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Human Population Growth
• More-Developed Countries (MDCs) North America, Europe, Japan, and Australia
Slow population growth
High standard of living
A demographic transition (decreased death rate followed by decreased birth rate) has occurred, so population growth has stabilized.
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Human Population Growth
• Less-Developed Countries (LDCs) Latin America, Africa, and Asia Rapid population growth Low standard of living Strategies to reduce population growth
• Family planning programs
• Social progress, which may reduce the desire for large families
• Delay the onset of childbearing
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World Population Growth
41
lowest growth
highest growth
less-developed countries
more-developed countries
a. b.
Bil
lio
ns
of
Peo
ple
1750
2
4
6
8
10
12
01800 1850 1900 1950 2008 2250
Year
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b(Top): © The McGraw-Hill Companies, Inc./Jill Braaten, photographer; b(Bottom): © Robert Harding/Robert Harding World Imagery/Corbis
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Human Population Growth
• Age Distributions Populations of MDCs and LDCs can be
divided into three age groups• Prereproductive• Reproductive• Postreproductive
MDCs and LDCs have different age structure diagrams
• Many MDCs have a stable age structure• Most LDCs have a youthful profile and are
experiencing population growth42
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Age Structure Diagrams
43
80+75–79
70–7465–6960–64
55–5950–54
45–4940–44
35–39
30–3425–29
20–2415–1910–14
5–9
0–4
80+75–79
70–74
65–6960–64
55–59
50–5445–49
40–4435–3930–34
25–29
20–2415–19
10–14
5–9
0–4
0
b. Less-developed countries (LDCs)
c.
a. More-developed countries (MDCs)
Millions
Millions
postreproductive
reproductive
prereproductive
300 300250 250200 200150 150100 10050 50
Ag
e (i
n y
ears
)A
ge
(in
yea
rs)
postreproductive
reproductive
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c: © Still Pictures/Peter Arnold, Inc.
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Human Population Growth
• Population Growth and Environmental Impact Environmental impact of a population is
measured in terms of:• Population size• Resource consumption per capita • Resultant pollution due to resource consumption
There are two types of overpopulation• Overpopulation due to population growth• Overpopulation due to increased resource
consumption 44
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Environmental Impact Caused byMDCs & LDCs
45
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Population Hazardous Waste Production Consumption
a. b.
c.
paper
metals
fossil fuels
MDCs = more-developed countries LDCs = less-developed countries
MDCs22%
LDCs10%
LDCs40%
MDCs60%
LDCs25%
MDCs75%
MDCs80%
LDCs20%
MDCs90%
LDCs78%