Transcript Ecology I
Ecology of Organisms and
Populations
Ch. 18
Ecology
Study of interactions between
organisms and their environment
Ecology can be divided into four
increasingly comprehensive levels:
Organismal
ecology
Population ecology
Community ecology
Ecosystem ecology
Ecology
Organismal ecology
Is concerned with
evolutionary
adaptations that
enable individual
organisms to meet
the challenges posed
by their abiotic
environments.
http://www.seabird.org/assets/killer%20whales%20internet%202.jpg
Ecology
Population ecology
Is concerned with
populations, groups
of individuals of the
same species living
in the same area.
Concentrates mainly
on factors that affect
population density
and growth.
http://newsimg.bbc.co.uk/media/images/44609000/jpg/_44609350_puffins512.jpg
Ecology
Community ecology
Is concerned with
communities,
assemblages of
populations of
different species.
Focuses on how
interactions between
species affect
community structure
and organization.
http://www.mass.gov/envir/forest/images/multiLayerForest.jpg
Ecology
Ecosystem ecology
Is concerned with ecosystems, which include all the 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.
http://www.african-books.com/images/Animals/montage.jpg
Components of the
Environment
The abiotic component
Consists
of nonliving chemical and
physical factors.
The biotic component
Includes
the living factors.
Abiotic Factors of the
Biosphere
On a global scale, ecologists have recognized
striking regional patterns in the distribution of
terrestrial and aquatic life.
Global distribution patterns
Reflect regional differences in climate and other abiotic
factors.
Sunlight
Solar energy powers nearly all ecosystems.
Availability of sunlight affects aquatic and
terrestrial environments.
http://artfiles.art.com/images/-/Aflo/Sun-Shining-in-BlueSky-Over-Tree-in-Winter-Snow-Biei-Hokkaido-JapanPhotographic-Print-C13062664.jpeg
Water
Aquatic organisms may face problems
with water balance.
For terrestrial organisms, the main
water problem is drying out.
Temperature
Environmental
temperature
http://www.wildherps.com/images/herps/standard/desert_iguana.jpg
http://www.sciam.com/media/inline/A186A7F7-D8EADDDF-0F715313A7DA2A91_1.jpg
Is an important
abiotic factor
because of its effect
on metabolism.
Wind
Some
organisms depend on nutrients
blown to them by wind.
Organisms such as plants depend on wind
to disperse pollen and seeds.
Can also affect the pattern of a plant’s
growth.
http://www.asdk12.org/staff/vanarsdale_mark/pages/Ecology_Images/wind_tree.jpg
Rocks and Soil
Soil
variation contributes to the patchiness
we see in terrestrial landscapes.
In streams and rivers, the composition of
the soil can affect water chemistry.
Periodic Disturbances
Catastrophic disturbances
Can devastate biological communities.
After a disturbance,
An area is recolonized by organisms, or repopulated by
survivors.
The structure of the community undergoes a succession of
changes during the rebound.
Ecosystems
What biotic and abiotic factors do you
see in this picture of the rain forest?
Ecosystems
What biotic and abiotic factors do you
see in this picture of a tundra?
Ecosystems
What biotic
and abiotic
factors do
you see in
this picture of
our study
area?
Creek Ecology
Delegate duties
Paint the picture…
Start collecting samples to use in your study.
Field Guides are available.
Homework tonight: Define Bold terms in
What is Population Ecology? Section pages
386-396. Have checked Wednesday. Pick
one term and relate to our study site on
Edmodo. Post by Wednesday.
Presenting your data…
Using the tree data for example
Data Charts
Species:
Circumference
(m)
DBH (m) =
Basal Area (m2)
circumference/pi = 0.7854 (DBH)2
Then summarize your data in
another table…
Species
Total
No. of
Individ
uals
Density
Relative Total
Density Basal
Area
Domina
nce
Relative Importa
Domina nce
nce
Value
Populations
•
A population is…
Members of the same species…
Who live in the same place
At the same time.
Populations
•
The environment where a population
lives: habitat.
Populations
Population ecologists study many
things about populations in their
habitats:
Population size
Population density
Population growth
Population Density
Population density
Is the number of individuals of a species per unit of area or
volume.
In most cases, it is impractical or impossible to count all
individuals in a population.
In some cases, population densities are estimated by indirect
indicators, such as number of bird nests or rodent burrows.
Populations
Populations are densest where there
are resources available.
Populations
Patterns of Dispersion
The
dispersion pattern of a population is
the way individuals are spaced within the
population’s geographic range.
Clumped Pattern of Dispersion
Individuals aggregate in patches.
Uniform Pattern of Dispersion
Results from interactions among the individuals of
a population.
Random Pattern of Dispersion
Individuals are spaced in a patternless,
unpredictable way.
Estimating Population Size
activity
Estimating Population Size Check
Homework
Study. Quiz on Notes and Population
Size Estimates Wednesday.
Pitfall Trap
How to build an insect pitfall trap
Population Growth Models
Two
models, the exponential growth model
and the logistic growth model, will help us
understand population growth.
The growth rate
Is the change in population size per time
interval.
The Exponential Growth Model: The
Ideal of an Unlimited Environment
The exponential growth model
Describes the rate of expansion of a population
under ideal, unregulated conditions.
The Exponential Growth Model: The
Ideal of an Unlimited Environment
• A key feature of the exponential growth
model is that the rate at which a population
grows depends on the number of individuals
already in the population.
The Logistic Growth Model: The
Reality of a Limited Environment
In
nature, a population may grow
exponentially for a while, but eventually
one or more environmental factors will limit
its growth.
Population-limiting factors restrict
population growth.
Copyright © 2007 Pearson Education Inc., publishing as Pearson Benjamin Cummings
The Logistic Growth Model: The
Reality of a Limited Environment
The logistic growth model
Describes growth of an idealized population that is
slowed by limiting factors.
A comparison of the logistic growth model
and the exponential growth model
Carrying Capacity
Is the number of
individuals in a
population that the
environment can
just maintain with no
net increase or
decrease.
http://www.abc.net.au/reslib/200710/r189329_709751.jpg
Regulation of Population
Growth
Density-Dependent Factors
Are population-limiting factors whose effects
intensify as the population increases in size.
Increase a population’s death rate and decrease
the birth rate.
Regulation of Population
Growth
Density-independent factors
Are population-limiting factors whose intensity is
unrelated to population density.
Include events such as seasonal freezing.
In many natural populations, density-independent
factors limit population size before densitydependent factors become important.
Growth Rate
Four influences:
Birth rate
Death rate
Immigration
Emigration
Birth + Immigration – Death – Emigration
Population Cycles
Some populations
Have regular boomand-bust cycles.
Boom-and-bust
cycles of the
snowshoe hare and
one of its predators,
the lynx
Answer the following
questions:
What two types of
Name an
growth models
are there?
What’s the
difference?
What four things
are considered in
Growth Rate?
example of a
density
dependent
limiting factor.
Densityindependent
limiting factor?
How many People can live on
Planet Earth?
Population
Answer
questions.
Complete #5 and
email to me.
Growth activity.
Finish for
homework.
Communities and Ecosystems
Ch. 19
Key Properties of
Communities
Diversity—variety of different kinds
of organisms that make it up
Prevalent form of vegetation—
determines kinds of organisms that
will survive in the area
Stability—ability to resist change and
return to its original species
composition after being disturbed
Trophic level—feeding relationships
among the various species
Diversity
Which community is more diverse?
The diversity of a
community
Is the variety of different
kinds of organisms that
make up the community.
Species richness, the
total number of different
species in the
community
Relative abundance of
the different species
Interactions Between
Populations of Different
Species
Interspecific interactions—occur b/w
populations of different species
Coevolution—a change in one species
acts as a selective force on another
species
Interspecific Competition
Competition occurs when 2 or more
populations overlap in their niches
Limiting
resources
Food
Space
Mates
Generally, one will out-compete the
other
Competition in Nature
Two possible Outcomes
1. Weaker competitor becomes extinct
2. One or both species may evolve
enough to use a different set of
resources (resource partitioning)
Competition cannot operate for long
periods of time
Competitive Exclusion
Principle
Two species cannot
coexist in a community
if their niches are
identical
Joseph H. Connell Study
Interactions Between Populations of
Different Species
Predation—consumption of
one organism by another
Parasitism—specialized
predator (parasite) lives
on/in its host, not killed
immediately
Endoparasitism—live
inside host
(tapeworms/viruses)
Ectoparasitism—live
on surface
of host
(mosquitoes/aphids)
Herbivory—herbivores
consume plants
http://www.dldigital.com/images/z_oldimages/2002-10-d28aphid2-fr18.jpg
Predator and Prey
Relationships
Great Whites
Interspecific
competition
Predator Adaptations
Most predators have acute senses.
Many predators
Have adaptations such as claws, teeth, fangs, stingers, or
poison to help catch and subdue prey.
Are fast and agile.
http://upload.wikimedia.org/wikipedia/commons/thumb/7/7c/H
awk_eating_prey.jpg/300px-Hawk_eating_prey.jpg
http://images.encarta.msn.com/xrefmedia/sharemed/targets/images/pho/00123/
00123ed3.jpg
Plant Defenses Against
Hebivores
www.treklens.com/.../Sweden/phot
o198584.htm
Physical defenses
thorns, hooks/spines
on leaves
http://en.wikipedia.org/wiki/Image:Toxic
odendron_radicans.jpg
Chemical defenses
Make plant
distasteful or
poisonous
Morphine from opium
poppy
Nicotine from tobacco
Poison Ivy
http://images.wildmadagascar.org/pictu
res/isalo/walking_stick0071.jpg
Animal Defenses Against
Predators
Behavioral defenses
Alarm cries
Distraction displays
Cryptic coloration/shape
(camouflage)
Blend in with environment
Asposematic coloration
Red/black; yellow/black
Stick Insect
www.laspilitas.com/.../Monarch_butte
rfly.htm
Mechanical/chemical
defenses
Quills, spines, and other
similar structures
Toxins—distasteful or
poisonous
Monarch butterfly on Milkweed
Animal Defenses Against
Predators
Mimicry—prey resembles
species that cannot be eaten
Batesian mimicry: Imitate
color patterns or
appearance of more
dangerous/unpalatable
organisms
Müllerian mimicry: 2
unpalatable species that
inhabit the same
community mimic each
other
Animal Defenses Against
Predators
Mimicry can be used to lure
prey
Snapping turtle wriggles
tongue like a worm to
attract and capture small
fish
http://www.lancashiremcs.org.uk/g
allery/pics/lophius.jpg
Angler Fish attract prey
close enough to their
mouths to be easily
grabbed
defense against
predators
Symbiotic Relationships
Non-Beneficial
Parasitism—host harmed
Beneficial
Mutualism—both partners benefit
Lichens-association b/w fungus and algae
Nitrogen-fixing bacteria and legumes
Caribbean Cleaner
Community Structure
Predators can
moderate
competition among
its prey species
Keystone species
can alter the whole
community
Community Structure
Lake Davis, CA
Introduction of a
http://www.dfg.ca.gov/lakedavis/
Northern Pike
http://aquanauts_dc.homestead.com/files/northern_pike1.jpg
species (exotic
species) into a
community can have
drastic affects on
the existing
community
members
Disturbances in a Community
Storms, fire, floods, droughts,
overgrazing, or detrimental human
activities:
Remove
organisms
Alter resource availability
Create opportunities for new species
that have not previously occupied the
habitat
Humans are the biggest disturbance
Logging,
agriculture, overgrazing
Ecological Succession
Primary succession
Begins in a virtually lifeless area where soil has
not formed
Lichens and mosses colonize first
Soil gradually forms and small plants and shrubs
take root
Secondary succession
Occurs where an existing community has been
cleared by some disturbance that leaves soil in
tact
Earliest plants to recolonize are often those that
grow from wind-blown or animal-borne seeds
Ecological Succession
Tolerance to abiotic conditions
determines early species
Competition among early species shape
the succession of an area
Mt. St. Helen 1980 Eruption
MSH80_st_helens_spirit_lake_before_may_18_1980.jpg
http://www.jqjacobs.net/photos/volcano/st_helens.html
http://denali.gsfc.nasa.gov/research/volc2/MSHreflection.gif
Mt. St. Helen
Secondary Succession
http://www.kgw.com/newslocal/stories/L_IMAGE.101688cd0b5.93.88.fa.7c.2791
3b573.jpg
Red alder disperses easily and is
capable of rapid growth on the nutrientpoor, volcanic deposits.
A red-legged frog –one of the creatures
living in one of the dozens of ponds
created after the eruption.
70 species of birds, including
hummingbirds, western meadowlarks
and Savannah sparrows
www.kgw.com/news-local/stories/kgw_051505_env...
www.kgw.com/news-local/stories/kgw_051505_env...
An Overview of Ecosystem
Dynamics
An
ecosystem
Is a biological community and the abiotic
factors with which the community interacts.
– Energy flow
• Is the passage of energy through the
components of the ecosystem.
– Chemical cycling
• Is the use and reuse of chemical elements within
the ecosystem.
Crash Course
Energy
Flows through an
ecosystem when
consumers feed on
producers.
Cannot be recycled
within an
ecosystem, but must
flow through
continuously.
Ecosystem Dynamics
Energy
Depend on the transfer of substances in the
feeding relationships, or trophic structure, of an
ecosystem.
Trophic
relationships
Determine an ecosystem’s routes of energy
flow and chemical cycling.
Trophic
flow and chemical cycling
levels
Divide the species of an ecosystem based on
their main sources of nutrition.
Trophic Relationships
Ecosystems divided into trophic levels
(feeding levels)
Producers—autotrophs
(mostly
photosynthetic)
Primary consumers—herbivores
Secondary consumers—carnivores that eat
herbivores
Tertiary consumers—carnivores that eat
other carnivores
Detrivores—consumers that eat dead or
decaying matter
Food Chain/Food Web
Energy Flow in Ecosystems
Each level in a food
web contains a different
quantity of stored
chemical energy
When consumers eat
producers or 2
consumers eat 1
consumers, some
energy is lost in each
transfer from one level
to the next
Energy pyramid
A diagram that represents the cumulative loss
of energy from a food chain.
Simulate Energy Flow through
an ecosystem.
Chemical Cycling in
Ecosystems
Ecosystems
Depend
on a recycling of chemical
elements.
Biogeochemical cycles
Are
chemical cycles in an ecosystem that
involve both biotic and abiotic components.
Biogeochemical Cycles
Three key points :
Each circuit has an
abiotic reservoir.
A portion of chemical
cycling can rely
completely on geological
processes.
Some chemicals require
processing before they
are available as inorganic
nutrients.
Examples of Biogeochemical
Cycles
Carbon
Nitrogen
Phosphorus
Water
Carbon Cycle
Human Impacts:
Greenhouse Effect
Increase of
atmospheric CO2
Combustion of
fossil fuels
Burning of wood
from deforestation
Increase in global
temperature
Nitrogen Cycle
Human Impact:
Cultivation—turns up soil and ↑
decomposition of organic
matter; Releases more nitrogen
Harvesting ↓ nitrogen from
ecosystem
Adding industrially
synthesized fertilizers to soil
has resulted in doubling
globe’s supply
Excess nitrogen leeches
into soil and into rivers,
streams, and lakes and
ground water—
– ↑ levels are toxic to
aquatic organisms
and humans
– Algal blooms in
lakes ↑
eutrophication
Phosphorus Cycle
Human Impact:
Sewage treatment
facilities and
fertilizers
↑ amounts of
phosphates to
aquatic systems,
causing
eutrophication of
lakes.
Water Cycle
Human Impact:
Destruction of tropical
rain forest
Will change the amount
of water vapor in the air.
May alter local and global
weather patterns.
To irrigate crops,
humans pump large
amounts of ground
water to the surface.
Avatar Project
Human Impact
You have been
given a Post It
with a question.
Read
your
question and tell
the group the
research you did
to answer the
question.
Bees Ted Talk
Relate your
discussion and
the Ted Talk back
to our Avatar
Study.
Review for Ecosystem/Human
Impact Test
The test will consist of:
Multiple Choice
Short Answer
Biodiversity and
Succession Essay
Discussion of ecological
relationships.