A2 Energy Flow Through the Biosphere PDF

Summary

These notes cover the A2 level biology topic of energy flow through the biosphere. They discuss food chains, food webs, and ecological pyramids, including the effects of human activities on the energy flow. The materials provide key information on biomass and energy transfer.

Full Transcript

A2 - Energy Flow
Through the
Biosphere
I can…
Link the roles of producers and consumers to energy flow in the
biosphere
Discuss and provide examples of energy flow through trophic levels
Quantitatively interpret the flow of energy using models, such as
pyramids of energy, numbers, and biomass
Food Chains vs. Food Webs
Food chain: A model
that shows the linear
pathway through which
energy moves in
ecosystems
Food web: Shows
connections between
different food chains
Food Webs
Food webs are used to represent
energy transfer within an
ecosystem as opposed to linear
food chains
Are a more accurate reflection of
an ecosystem, as they allow us to
show how some organisms feed
at multiple trophic levels
Arrows always point in the
direction of energy flow
Energy Transfer Between Trophic Levels
Most food chains have very few trophic levels
○ Length is limited by thermodynamics - only some energy is
transferred from one level to another
Amount of energy transferred from one level to the next ranges (~5-20%)
○ Remaining energy isn’t passed on because it isn’t stored in tissues
○ 80-95% isn’t available from one level to the next, it is lost as heat
Recall Rule of 10: Only about 10% of energy is passed on from one
trophic level to the next
Ecological Pyramids
Ecological pyramids: Used to
model feeding relationships
throughout the trophic levels
Represent distribution of energy,
biomass, or number of organisms
in an ecosystem
Three types:
○ Pyramid of Numbers
○ Pyramid of Biomass
○ Pyramid of Energy
Pyramid of Numbers
Each bar of the pyramid represents a different trophic level
The width represents relative numbers of organisms at that level
Because more energy is available to lower trophic levels, the number of
producers usually outnumbers the consumers an ecosystem

Grassland ecosystem Forest ecosystem
Pyramid of Biomass
Biomass: Dry mass of living organisms
per unit of area (g/m2)
Pyramid of biomass indicates biomass
present at each trophic level in an
ecosystem
Is a better demonstration of how energy
is transferred from one trophic level to
another
○ Because it takes into account the
size of the organisms rather than
just the number
In what type of ecosystem might you see
an inverted pyramid of biomass?
Inverted Pyramids
Pyramids of numbers and biomass can
sometime be inverted (upside down) due to
certain situations within ecosystems
○ Inverted pyramids then lose their ability
to accurately represent passage of
energy from one trophic level to the
next
Inverted numbers pyramids occurs when we
have a large number of primary consumers
feeding on single producers
Pyramid of Energy
Represents the amount of energy that is transferred through each trophic level (measured in J
or kJ)
Pyramids of energy will always be upright - there can never be less energy in a lower level
Good at depicting why food chains are restricted in size
Humans Use of Energy in Ecosystems
Like all other organisms, humans are dependent on energy flow through
ecosystems
○ A person eating vegetables: primary consumer
○ A person eating steak: secondary consumer
○ A person eating salmon: may be a tertiary consumer
Human use of energy in an ecosystem often changes the ecosystem itself
○ Most ecosystems can adapt to small changes
○ Large-scale changes permanently change the types and sizes of
populations found in the ecosystem (ex. hunting, fishing, extensive
crop growth)
Energy Transfer and Stability of Ecosystems
As climate changes, so will distribution of organisms in an ecosystem
If organisms at bottom of ecological pyramids are affected, those changes
will be passed on through the food chain
If ecosystem has fewer and less varied producers, then food webs in this
ecosystem will change - results in more fragile ecosystem
Monocultures
Monoculture: Cultivation of a single species
Historically, humans have used ~700 different species of plants, however today we
rely on ~20 species: wheat, rice, cotton, barley, & corn
Many wild plants are helpful to humans
○ Ex. Rosy periwinkle (Madagascar) helps to treats Hodgkin’s disease (leukemia),
but many plant species are destroyed to grow food crops, especially in tropical
rainforests
Monocultures
Nutrient-poor soil of tropical rain forests are not well-suited for cereal grains like
wheat and barley - require renewal of decomposed matter for nitrogen and
phosphorus.
These cycles should not be disrupted in the rain forests
Soil not renewable and will not support crops after a few seasons
Greatest biodiversity exists in tropical rainforests