Download Population size

CHAPTER 52
POPULATION ECOLOGY
Characteristics
 Density
 Distribution
 Size
 Age
Structure
Density

Direct Counts– Larger, less numerous organisms

Plankton Population Sampling
– Time x velocity x diameter = M3
– Total # of plankton/ M3 = # plankton per M3
– 75 plankton/0.5 M3 = 150/M3


Mark & Recapture- many animals
Aerial Surveys –
– Line transects etc.
– observe large areas, large animals by sight

Mist nets for migrating birds
Mark & Recapture
# marked in 1st catch = # recaptures in 2nd catch
Population total
total # in 2nd catch
OR:
N = # marked in 1st catch x total # in 2nd catch
# of recaptures in 2nd catch
# marked = 50
recaptures = 10
N = 50 x 100/10
Total in 2nd catch = 100 #
N = 500
Dispersion
How the individuals are arranged in the
landscape.
 Uniform –

– all parts of the habitat suitable, but has intraspecific competition

Random
– all parts of habitat suitable

Clumped– Habitat is patchy or
– Social behaviors
Dispersion
Population Size
Starting size of population
 Add: Births and immigration
 Subtract: Deaths and emigration
 Gives the New population size,

Population Growth
Time
# Females
Eggs/Female
# Flies
1
1
100
100
2
50
100
5,000
3
2,500
100
250,000
4
125,000
100
12,500,000
5
6,250,000
100
625,000,000
6
312,000,000
100
31,250.000,000
7
15,625,000,000 100
1,563,500,000,000
Exponential
Growth
Growth curve for field
Mice in a cornfield
Exponential Growth
Biotic Potential – Pop.
Grows as fast as
physiology allows.
 Unlimited resources
 No pollution build up
 Ideal conditions
 Short lived period
 Often quickly die out,
colonize new areas
Fig. 9.4, p. 201
 R selected species
Population size (N)

Time (t)
Exponential Growth
Logistic Growth
Logistic Growth
Slower initial
growth
 Long –term stable
pop. At carrying
capacity (K).
 K is size of pop.
Area can sustain.
 Growth slowed by
limiting factors

Population size (N)
K
Time (t)
Logistic Growth
Fig. 32.2
Population Limiting Factors

Density dependent
factors
–
–
–
–
–
–
–

Competition
Predation
Stress/crowding
Waste accumulation
Disease
Space
Resources
Density independent
factors
– Weather/climate
– Periodic disturbances
Population Life History Strategies
K
R
Type I vs Type III

Type III (R selected)
– Short maturation &
lifespan
– Many offspring
– No parental care
– High death rate

Type I (K selected)
– Long maturation &
lifespan
– Few offspring
– Extensive parental
care
– Low death rate
K-Selected Species
elephant
saguaro
Fewer, larger offspring
High parental care and protection of offspring
Later reproductive age
Most offspring survive to reproductive age
Larger adults
Adapted to stable climate and environmental
conditions
Lower population growth rate (r)
Population size fairly stable and usually close
to carrying capacity (K)
Specialist niche
High ability to compete
Late successional species
r-Selected Species
cockroach
dandelion
Many small offspring
Little or no parental care and protection of offspring
Early reproductive age
Most offspring die before reaching
reproductive age
Small adults
Adapted to unstable climate and environmental
conditions
High population growth rate (r)
Population size fluctuates wildly above and below
carrying capacity (K)
Generalist niche
Low ability to compete
Early successional species
European Kestrals

r selected
– Population grows at
biotic max
– Lots of offspring
– Little parental care
– Reproduce early,
often
K selected
– Population adapted
to being at carrying
capacity
– Few offspring
– Lots of parental care
– Reproduce late,
infrequently
Testing
a
hypothesis
Human Population Growth
or
Go Forth and Multiply
Human Population growth
 For
most of our history a logistic curve.
 Currently exponential growth
– Not uniform around the globe
– Developing nations growing fastest
 What
has made the change possible?
– Drop in death rate. Birth rate has fallen, not
increased.
 How
long will this be sustainable?
 Future predictions for growth?
Human Population Growth
World – Wide Trend??
 Growth
rates differ within and
between countries:
Births per woman
Births per woman
<2
4-4.9
2-2.9
5+
3-3.9
Data not
available
Infant deaths per 1,000
live births
<10
10-35
36-70
71-100
100+
Data not
available
Infant deaths
Population Growth
Annual world
population growth
<1%
1-1.9%
2-2.9%
3+%
Data not
available
Fig. 11.3, p. 240
Income and country
GNP per capita, 1998
Low income
(Under $1,000)
Middle income
($1,000–$10,000)
High income
(Above $10,000)
Fig. 1.5, p. 9
General age structure diagrams
Rapid Growth
Slow Growth
Zero Growth Negative Growth
Males
Females
Males
Females
Canada
United States
India
Australia
Mexico
China
USA age structure Diagrams
Age
Females
Males
20
Millions
20
Millions
24
1955
Millions
24
1985
24
24
24
Millions
24
2015
Yellow= Baby Boomers
2035
NOW WHAT?
Where we are:
 1930,
2 billion
 September 1999, 6 billion
– 3 people every second
– 250,000 every day
– 87 million every year
–12 billion by 2050
–8 Billion- if slower rate
Influence on environment
 More
land for agriculture, resource
exploitation
 More land for cities, roadways, suburbs
 Less fish in the sea for the food chain
 Deforestation
 Oil, gas won’t last forever
 Pollution builds up
 Better “green” technologies?
 Heightened awareness, concern?
 Better understanding of ecosystems?
Human domination of landscape
Arctic
Circle
Tropic of
Cancer
Equator
Tropic of
Capricorn
Human disturbance
Antarctic
Circle
Predominantly natural
Partially disturbed
Human dominated
Every second…
5 people are born
and 2 people die,
a net gain of 3
people.
Improved medical care has dramatically
reduced infant mortality and mortality of
women during labor.
Demographic transition
Larger urban families cost more, birth rate
drops
 Population now much larger, slows its growth
rate
 Influence of other (cultural, religious) pressures
can slow birth rate decline
 Women often lack freedom to determine family
size, education employment opportunities

Demographic transition
Death rate (infant mortality) drops first
 Birth rate remains constant
 Population increases quickly
 Economy transitions from agriculture to urban

Stage 1
Preindustrial
Stage 2
Transitional
Stage 3
Industrial
Stage 4
Postindustrial
relative
population
size
births
deaths
low
increasing
very
high
decreasing
low
zero
negative
Births per thousand population
USA demographic transition & population size
32
30
28
26
24
22
20
18
16
14
0
1910
World War II
Demographic
transition
1920
Depression
1930
1940
Baby boom
1950
1960
Year
Baby bust
1970
Echo baby boom
1980
1990
2000
2010
Total fertility rates in USA 1917-2000
4.0
Births per woman
3.5
3.0
2.5
2.1
2.0
1.5
Baby Boom
(1946-64)
1.0
0.5
0
1920
1930
1940
1950
1960
1970
1980
1990
2000
1975 on ….Below native replacement rateimmigration keeps population growing
2010
Legal immigration to the United States between 1820 and 1997
1907
1914
New laws
restrict
immigration
Great
Depression