Ecological Pyramids Virtual Lab activity, Schemes and Mind Maps of Biology

This gives you a ratio that you can use for comparison, write your answer as a decimal. Complete this for all three of your ecosystems. EXAMPLE. 1st Order ...

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Biology Name: _________________ and ___________________
Class Period: _______ Date: _____________
Ecological Pyramids Virtual Lab activity
http://glencoe.mcgraw-hill.com/sites/dl/free/0078802849/383926/BL_02.html
Place the organisms in the correct trophic levels to complete the pyramids for 3 different ecosystems. After
you have correctly placed all the organisms fill in the data in the tables below for the pyramids of numbers
and energy.
Data for Pyramid of Energy
Ecosystem Primary Consumers
(amount of energy) 1st Order Heterotrophs
(amount of energy) 2nd Order Heterotrophs
(amount of energy) 3rd Order Heterotrophs
(amount of energy)
Deciduous Forest
Hot Desert
Grassland
Antarctic Ocean
Shore
Freshwater Lake
Now you can ask yourself, “how well does the energy transfer from one trophic level to the next?” What you
want to know is how much energy is left over from one trophic level to the next. To do this you will
complete a “conversion efficiency” between each tropic level. To do this you divide the energy at the higher
energy level by the energy at the lower trophic level. This gives you a ratio that you can use for comparison,
write your answer as a decimal. Complete this for all three of your ecosystems.
EXAMPLE 1st Order Heterotrophs (amount of energy)
_______________________________________________________
Primary Consumers (amount of energy)
744 units of energy
___________________________________________
7,500 units of energy 0.992
==
1s
t
Order Heterotrophs
(amount of energy)
______________________________
Primary Consumers
Ecosystem
(amount of energy)
2nd Order Heterotrophs
(amount of energy)
______________________________
1st Order Heterotrophs
(amount of energy)
3rd Order Heterotrophs
(amount of energy)
______________________________
2nd Order Heterotrophs
(amount of energy)
1.
2.
3.
If you round-off your numbers above which of the following decimal numbers most closely matches ALL
your numbers?
A. 0.23 B. 0.10 C. 0.30 D. 0.01
This exercise shows you that _____% of energy from the lower level is available to the next level up.
With this information complete the flow chart below that shows how much
energy will be found at each level for the generalize ecosystem,
(one has been done for you).
Producers
_________
units of ener
gy
Herbivores (1st consumers)
_
_
1000
_
_
units of ener
gy
Omnivores (2nd consumers)
_________
units of ener
gy
Carnivores (3rd consumers)
_________
units of ener
gy
Top Carnivore (4th consumers)
_________
uni
t
(
s
)
of ener
gy
pf2

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Biology Name: _________________ and ___________________

Class Period: _______ Date: _____________

Ecological Pyramids Virtual Lab activity

http://glencoe.mcgraw-hill.com/sites/dl/free/0078802849/383926/BL_02.html

Place the organisms in the correct trophic levels to complete the pyramids for 3 different ecosystems. After

you have correctly placed all the organisms fill in the data in the tables below for the pyramids of numbers

and energy.

Data for Pyramid of Energy

Ecosystem Primary Consumers

(amount of energy)

1 st^ Order Heterotrophs (amount of energy)

2 nd^ Order Heterotrophs (amount of energy)

3 rd^ Order Heterotrophs (amount of energy)

Deciduous Forest

Hot Desert

Grassland

Antarctic Ocean

Shore

Freshwater Lake

Now you can ask yourself, “how well does the energy transfer from one trophic level to the next?” What you

want to know is how much energy is left over from one trophic level to the next. To do this you will

complete a “conversion efficiency” between each tropic level. To do this you divide the energy at the higher

energy level by the energy at the lower trophic level. This gives you a ratio that you can use for comparison,

write your answer as a decimal. Complete this for all three of your ecosystems.

EXAMPLE

1 st^ Order Heterotrophs (amount of energy)


Primary Consumers (amount of energy)

744 units of energy


7,500 units of energy

1 st^ Order Heterotrophs (amount of energy)


Primary Consumers

Ecosystem

(amount of energy)

2 nd^ Order Heterotrophs (amount of energy)


1 st^ Order Heterotrophs (amount of energy)

3 rd^ Order Heterotrophs (amount of energy)


2 nd^ Order Heterotrophs (amount of energy)

If you round-off your numbers above which of the following decimal numbers most closely matches ALL

your numbers?

A. 0.23 B. 0.10 C. 0.30 D. 0.

This exercise shows you that _____% of energy from the lower level is available to the next level up.

With this information complete the flow chart below that shows how much

energy will be found at each level for the generalize ecosystem,

(one has been done for you).

Producers _________ units of energy

Herbivores (1st^ consumers) __ 1000 __ units of energy

Omnivores (2nd^ consumers) _________ units of energy

Carnivores (3rd^ consumers) _________ units of energy

Top Carnivore (4th^ consumers) _________ unit(s) of energy

Data for Pyramid of Numbers

Ecosystem Primary Consumers

(# of Individuals)

1 st^ Order Heterotrophs (# of Individuals)

2 nd^ Order Heterotrophs (# of Individuals)

3 rd^ Order Heterotrophs (# of Individuals)

Deciduous Forest

Hot Desert

Grassland

Antarctic Ocean

Shore

Freshwater Lake

Does the population size increase or decrease at higher trophic levels in the pyramid of numbers for all of

your ecosystems? Explain your answer.

_______________________________________________________________________________________

_______________________________________________________________________________________

What might happen to an ecological pyramid of numbers in a forest ecosystem if most of the deer were

killed due to hunting by people and disease?

_______________________________________________________________________________________

_______________________________________________________________________________________

What would happen to an ecosystem if the decomposers disappeared?

_______________________________________________________________________________________

_______________________________________________________________________________________

Could there be a food chain without herbivores and carnivores?

_______________________________________________________________________________________

_______________________________________________________________________________________