HEE Chapter 3 Population Principles
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Transcript HEE Chapter 3 Population Principles
Population Principles
Chapter 3
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Population Characteristics
Population - Group of individuals of the
same species inhabiting the same area
simultaneously. (6.4 Billion – 2004)
– Natality and Mortality
Natality ________________________________
________________________________
Birth Rate (Humans Born / 1,000)
– Mortality __________________________________
Death Rate (Humans Died / 1,000)
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Figure 7.1
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Population Characteristics
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Population Growth Rate ___________________________________.
Often expressed as a percentage of the total
population. (Geometrically – Population)(Arithmetically
– Food Supply)
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Survivorship Curve - Shows proportion of
individuals likely to survive to each age.
– High mortality in young.
– Mortality equitable among age classes.
– Mortality high only in old age.
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Survivorship Curve
(Fig.7.2)
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Sex Ratio and Age Distribution
Sex Ratio - Age Distribution
– Sex Ratio __________________________________
_________________________________.
Females determine the number of
offspring produced in sexually
reproducing populations.
– Age Distribution __________________________________
_________________________________.
Greatly influences population growth
rate.
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Age Distribution in Human Populations
(Fig.7.3)
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Population Density and Spatial Distribution
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Population Density ___________________________________
___________________________________.
– High population may lead to increased
competition for resources.
Dispersal - Movement of individuals
from densely populated locations to new
areas.
Emigration - Movement from an area.
Immigration - Movement into an area.
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Population Growth Curve
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Biotic Potential ___________________________________
___________________________________
___________________________________
– Generally, biotic potential is much above
replacement level.
Natural tendency for increase.
All living populations follow an
exponential growth curve.
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Exponential Growth Curve
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Lag Phase ___________________________________.
Exponential Growth Phase (Log Phase)___________________________________
___________________________________
________________________. *Currently*
Stable Equilibrium Phase ___________________________________
___________________________________
___________________________________
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Biotic Potential (Fig.7.4)
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Typical Population Growth Curve (Fig.7.5)
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Carrying Capacity
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Carrying Capacity ___________________________________
___________________________________
___________________________________.
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Environmental Resistance
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Environmental Resistance ___________________________________
___________________________________
___________________________________.
– Four main factors:
Raw Material Availability
Energy Availability
Waste Accumulation and Disposal
Organism Interactions
Disease, Predation, and Space
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Carrying Capacity (Fig.7.6)
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Bacterial Growth Curve (Fig.7.7)
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Fig. p.138
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Reproductive Strategies
and Population Fluctuations
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Not all species reach a stable carrying
capacity.
– Species can be broadly lumped into two
categories:
K-strategists
r-strategists
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K - Strategists
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Large organisms
Long-lived
Produce few offspring
Provide substantial parental care
Populations typically stabilize at a carrying
capacity.
Usually occupy relatively stable
environments.
Reproductive strategy is to invest in a few,
quality offspring.
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K - Strategists
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Controlled by density-dependent limiting
factors.
– Factors that become more severe as the
size of the population increases.
Diseases
Deer - Lions - Swans
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r - Strategists
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Small organisms
Short-lived
Produce many offspring
Little if any parental care
Usually do not reach carrying capacity
(boom-bust cycles).
Exploit unstable environments.
Reproductive strategy is to produce large
numbers of offspring to overcome high
mortality.
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r - Strategists
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Controlled by density-independent limiting
factors.
– Population size is irrelevant to the limiting
factor.
Weather Conditions
Grasshoppers - Gypsy Moths - Mice
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Population Cycles (Fig.7.8)
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Human Population Growth
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Major reason for increasing human
population growth rate
is__________________________________
___________________________________
___________________________________
_
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Historical Human Population Growth
(Fig.7.9)
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Doubling Time
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Doubling Time of a Population (years) :
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70 / Population Growth Rate (%)
( 70 / 2.0% = 35 years )
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Doubling Time for the Human Population
(Fig.7.10)
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Human Population Growth
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Interactions Affecting Carrying Capacity
– Available Raw Materials
– Available Energy
– Waste Disposal
– Interaction With Other Organisms
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Social Factors Influence Human Population
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Humans are social animals who have
freedom of choice.
– People make decisions based on history,
social situations, ethical and religious
beliefs, and personal desires.
Biggest obstacles to controlling human
population are not biological, but are the
province of philosophers, theologians,
politicians, and sociologists.
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Ultimate Size Limitation
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If the world continues to grow at current rate,
population __________________________.
Human population subject to same biological
constraints as other species.
– Human population will ultimately reach a
carrying capacity and stabilize.
Disagreement about exact size and
primary limiting factors.
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Elephant Trade
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Snow Goose
(Pg.145)
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