Download Population Dynamics Miller 11th Edition Chapter 10

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Source–sink dynamics wikipedia , lookup

Storage effect wikipedia , lookup

Two-child policy wikipedia , lookup

Human overpopulation wikipedia , lookup

The Population Bomb wikipedia , lookup

World population wikipedia , lookup

Molecular ecology wikipedia , lookup

Theoretical ecology wikipedia , lookup

Maximum sustainable yield wikipedia , lookup

Transcript
Population Dynamics
Characteristics of a Population
• Population - individuals inhabiting the same area
at the same time
• Population Dynamics: Population change due to
– Population Size - number of individuals
– Population Density - population size in a certain
space at a given time
– Population Dispersion - spatial pattern in habitat
– Age Structure - proportion of individuals in each age
group in population
Population Size
• Natality
– Number of individuals added through reproduction
– Crude Birth Rate - Births per 1000
– Total Fertility Rate – Average number of children
born alive per woman in her lifetime
• Mortality
– Number of individuals removed through death
– Crude Death Rate Deaths per 1000
KEY FEATURES OF POPULATIONS, con’t
Population size is limited by:
density-dependent factors
•
•
•
•
•
•
Disease
Competition
Predators
Parasites
Food
Crowding
– The greater the population,
the greater effect these
factors have.
– Ex. Black plague in the
Middle Ages – more deaths
in cities
density-independent
factors
–
–
–
–
–
–
–
Volcanic eruptions
Temperature
Storms
Floods
Drought
Chemical pesticides
Major habitat disruption
(as in the New Orleans
flooding)
• Most are abiotic factors
Population Density
• Population Density (or ecological population
density) is the amount of individuals in a
population per unit habitat area
– Some species exist in high densities - Mice
– Some species exist in low densities - Mountain lions
• Density depends upon
– social/population structure
– mating relationships
– time of year
Population Dispersion
Population dispersion is the spatial pattern
of distribution
There are three main classifications
Clumped: individuals are
lumped into groups
ex. Flocking birds or
herbivore herds due to
resources that are clumped
or social interactions
most common
http://www.johndarm.clara.net/galleryphots/
Population Dispersion
Uniform: Individuals are regularly
spaced in the environment - ex.
Creosote bush due to antagonism
between individuals, or do to regular
spacing of resources rare because
resources are rarely evenly spaced
Random: Individuals are randomly
dispersed in the environment ex.
Dandelions due to random
distribution of resources in the
environment, and neither positive nor
negative interaction between
individuals rare because these
conditions are rarely met
http://www.calflora.net/bloomingplants/creosotebush2.html
www.agry.purdue.edu/turf/ tips/2002/clover611.htm
Age Structure
• The age structure of a population is usually
shown graphically
• The population is usually divided up into
prereproductives, reproductives and
postreproductives
• The age structure of a population dictates
whether is will grow, shrink, or stay the
same size
Age Structure Diagrams
Positive Growth
Pyramid Shape
Zero Growth
(ZPG)
Vertical Edges
Negative Growth
Inverted Pyramid
Biotic Potential
• Ability of populations of a given species to
increase in size
– Abiotic Contributing Factors:
• Favorable light
• Favorable Temperatures
• Favorable chemical environment - nutrients
– Biotic Contributing Factors:
•
•
•
•
•
Reproductive rate
Generalized niche
Ability to migrate or disperse
Adequate defense mechanisms
Ability to cope with adverse conditions
Environmental Resistance
• Ability of populations of a given species to
increase in size
– Abiotic Contributing Factors:
• Unfavorable light
• Unfavorable Temperatures
• Unfavorable chemical environment - nutrients
– Biotic Contributing Factors:
•
•
•
•
•
Low reproductive rate
Specialized niche
Inability to migrate or disperse
Inadequate defense mechanisms
Inability to cope with adverse conditions
• Biotic Potential
– factors allow a population to increase
under ideal conditions, potentially
leading to exponential growth
• Environmental Resistance
– affect the young more than the
elderly in a population, thereby
affecting recruitment (survival to
reproductive age)
Population Growth
• Population growth depends upon
–
–
–
–
birth rates
death rates
immigration rates (into area)
emigration rates (exit area)
Pop = Pop0 + (b + i) - (d + e)
ZPG
(b + i) = (d + e)
Population Growth
• Populations show two types of growth
– Exponential
• J-shaped curve
• Growth is independent of population density
– Logistic
• S-shaped curve
• Growth is not independent of population
density
Exponential Growth
• Early phase of
growth
• High availability of
resources
• Little competition
• Little predation
Logistic Growth
• Limits on growth
appear
– Competition for
resources
– Predation
– Parasitism
– Illness
Population Dynamics and Carrying
Capacity
• Basic Concept: Over a long period
of time, populations of species in
an ecosystem are usually in a state
of equilibrium (balance between
births and deaths)
– There is a dynamic balance between
biotic potential and environmental
resistance
Carrying Capacity (K)
• Exponential curve is not realistic
due to carrying capacity of area
• Carrying capacity is maximum
number of individuals a habitat can
support over a given period of time
due to environmental resistance
(sustainability)
Reproductive Strategies
• Goal of every species is to produce as many
offspring as possible
• Each individual has a limited amount of
energy to put towards life and reproduction
• This leads to a trade-off of long life or high
reproductive rate
• Natural Selection has lead to two strategies for
species: r - strategists and K - strategists
r - Strategists
• Spend most of
their time in
exponential
growth
K
• Maximize
reproductive life
• Minimum life
R Strategists
•
•
•
•
•
•
•
•
•
•
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
K - Strategists
• Maintain
population at
carrying capacity
(K)
• Maximize
lifespan
K
K- Strategist
•
•
•
•
•
•
•
•
•
•
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
Survivorship Curvesvorship
Curves
• Type I
– Few offspring
– Low infant
mortality
– Parental care of
young
– Most survive until
old age
– Large mammals,
including humans
Survivorship Curvesrship
Curves
• Type II
– Equal chance of
living or dying
throughout the
lifetime
– Birds, reptiles,
small mammals
Survivorship Curves
• Type III
– High infant
mortality rate
– Many offspring
– No parental care
– Invertebrates,
fish, amphibians,
and plants
Human Population Growth
Are humans in exponential or logistic growth?