Download Intro to Energy Flow in Ecosystems

Intro to Energy Flow
in Ecosystems
FOOD WEBS, ECOLOGICAL PYRAMIDS, AND
CYCLES OF MATTER
Food Chains and Food Webs
 Food chain  simplest path energy takes through an
ecosystem
Producer
Primary
Consumer
Secondary
Consumer
Tertiary
Consumer
 Food webs  interconnected food chains showing the
many paths energy takes through an ecosystem
Trophic Levels
Trophic Level  levels that
energy in an ecosystem travels
through
•# of trophic levels is determined by # of
organisms in a food web or food chain
Tertiary
Consumers
Secondary
Consumers
Primary Consumers
Producers
Decomposers
Trophic Levels
 Producers  Creates
chemical energy, or
simple sugars, using the
sun’s energy and
photosynthesis



Also called autotrophs
 means “self nourishing”
Producers use their own
sugars to feed and grow
Ex. Grass, trees, algae,
phytoplankton
 Primary Consumer




Also called heterotrophs
 means “different
nutrition”
Heterotrophs obtain food
by eating other organisms
Herbivores are primary
consumers that only eat
plants
Ex. Grasshoppers, cows,
rabbits, zooplankton
Trophic Levels
 Secondary Consumer 
consumers which eat
primary consumers


Also called carnivores
because they eat only meat
Ex. Lions, Venus fly trap,
tiger
 Tertiary Consumer 
consumers which eat
organisms from all the
other levels


Also called omnivores
because they eat plants and
meat
Ex. Ravens, humans, bears
 Decomposers 
organisms that break down
dead and decaying
organisms

Ex. Bacteria, mushrooms,
worms
Ecological Pyramids
 Ecological pyramid  models showing how
organisms or energy flows through each trophic level
of an ecosystem

An example pyramid looks like the one on the trophic level
slide
 3 types
 Energy pyramid
 Number pyramid
 Biomass pyramid
Energy Pyramid
 The energy available in
each trophic level
 Energy needs of organisms
increase moving up a
pyramid  available
energy decreases up a
pyramid
 Each level supports fewer
organisms than the one
below


90% of available energy is
lost to the environment in
each step
10% left for use by organisms
in next level
Most
Energy
Needed
Tertiary
Consumers
Secondary
Consumers
Primary Consumers
Producers
Least
Energy
Available
Number Pyramid
 The number of individual
organisms available for
energy in each trophic
level
 Number of individual
organisms declines
further up pyramid
Least
Organisms
Available
Tertiary
Consumers
Secondary
Consumers
Primary Consumers
Producers
Biomass Pyramid
 The total mass of living
organic matter at each
trophic level

Does not represent total
energy at each level
Least
Biomass
Tertiary
Consumers
Secondary
Consumers
Primary Consumers
Producers
Cycles of Matter
 Law of Conservation of Matter  matter cannot
be created or destroyed, but it can change form

The amount of matter on Earth does not change  constantly
cycles instead
 3 Important Cycles
 Water Cycle
 Carbon Cycle
 Nitrogen Cycle
Water Cycle
 Water continuously
moves between Earth’s
surface and atmosphere
 Several important
processes






Evaporation
Condensation
Precipitation
Transpiration
Runoff
Infiltration
Carbon Cycle
Carbon Cycle
 Carbon is in every living
 Fossil fuels like oil and
organism  CO2 is one of
the most common forms
 CO2 released as waste in
cellular respiration
 Plants use CO2 in
photosynthesis to
make O2
 Decomposition
releases carbon from
organisms to be reused
coal store carbon
underground
 Combustion, or
burning, releases CO2
emissions from factories
and cars
 Oceans take up huge
amounts of CO2  leads
to ocean acidification
Nitrogen Cycle
Nitrogen Cycle
 Largest nitrogen
reservoir is the
atmosphere as gas

All organisms need
nitrogen  most can’t use
it in this state
 Nitrogen fixation 
changes gas into
compounds such as
ammonia and nitrates

Performed by bacteria +
lightning
 Plants take in nitrogen
from bacteria through
roots

Animals get nitrogen by
eating plants
 Nitrogen returns to soil
in urine and through
decomposition
 Denitrification 
releases nitrogen from
soil to atmosphere as gas

Performed by bacteria