1. Outline 3-2: Energy Flow
6/24/2018

2. I. Primary Productivity
6/24/2018
I. Primary Productivity
A. The rate at which organic material is produced by photosynthesis in an ecosystem.
1. Determines the amount of energy available in an ecosystem
2. Other organisms are limited by this initial amount of energy

3. II. Trophic Levels 1. What an organism eats and what it is eaten by
6/24/2018
II. Trophic Levels
A. Organisms are assigned to a particular level in an ecosystem based on their source of energy
1. What an organism eats and what it is eaten by
B. Three main levels:
1. Producers
2. Consumers
3. Decomposers

4. a. Photosynthesis - use sunlight
C. Producers
1. Autotrophs who use energy from environment to assemble organic molecules from inorganic molecules.
2. There are 2 types of autotrophs based on type of energy used Those that do:
a. Photosynthesis - use sunlight
b. Chemosynthesis - use energy in bonds of chemicals
6/24/2018

5. Done by plants on land, algae in water & photosynthetic bacteria
6/24/2018
Photosynthesis
Done by plants on land, algae in water & photosynthetic bacteria

6. Chemosynthesis - done by several types of bacteria
6/24/2018

7. 2. Consumers b. Levels:  Primary consumers - eat producers
6/24/2018
2. Consumers
a. Heterotrophs that need to feed on other organisms to obtain energy
b. Levels:
 Primary consumers - eat producers
 rabbits, mice, etc.
 Secondary consumers - eat primary consumers
 wolf, coyote, lion, snake
 Tertiary consumers - eat secondary consumers
 hawks, eagles, etc.

8. c. Consumers classified by type of food eaten:
6/24/2018
c. Consumers classified by type of food eaten:
 Herbivores - eat producers
 Carnivores - eat consumers
 Omnivores - eat both producers & consumers
 Detritivores - feed on organic wastes & dead bodies

9. 6/24/2018
3. Decomposers
a. Cause decay of dead bodies & their waste back into inorganic minerals
b. Recycle nutrients back into soil & water for producers to use.
c. Fungi & bacteria are examples

10. III. Paths of Energy Flow
6/24/2018
III. Paths of Energy Flow
A. Food Chain
1. Specific sequence in which organisms obtain energy in an ecosystem
a. Producers  consumer levels  decomposers
Grass  grasshopper  mouse  snake  hawk
(decomposers frequently left out of food chain lists)

11. 6/24/2018
In some marine food chains, the producers are microscopic algae and the top carnivore is four trophic levels from the producer.

12. 6/24/2018

13. B. Food Web
1. A diagram of all the many inter connected food chains in an ecosystem
6/24/2018

14. Feeding Relationships
6/24/2018
This food web shows some of the feeding relationships in a salt-marsh community.
This illustration of a food web shows some of the feeding relationships in a salt marsh.

15. 6/24/2018

16. IV. Energy is Lost in Ecosystems
6/24/2018
A. Energy Transfer
1. An animal eating a plant is acquiring energy
a. Some of this energy is turned into new tissues in the animal
b. Some helps the deer in its activities: running, eating, etc.
c. Most (almost half) is lost as heat to the environment after the process of cellular respiration is complete
 Heat is not useful energy

17. 6/24/2018
B. Amount of Energy Lost
1. Plants store about ½ of energy they capture from sun.
2. Herbivores turn about 10% of the energy they consume into their own body tissue
3. About 90% of the energy that carnivores consume is used up & lost as useful energy for other organisms (Same concept as #2 in reverse)
 Only about 10% of the energy stored in one trophic level is transferred to organisms in the next trophic level 

18. 6/24/2018

19. 6/24/2018
C. Energy Pyramids
1. Diagram which shows each trophic level as a block stacked on top of other blocks.
a. Width of each block is related to amount of energy in all the organisms at that level
2. Usually shaped like a pyramid because higher trophic levels have less energy

20. 6/24/2018

21. 6/24/2018
0.1% Third-level consumers
Energy Pyramid:
Shows the relative amount of energy available at each trophic level.
Only part of the energy that is stored in one trophic level is passed on to the next level.
1% Second-level consumers
10% First-level consumers
Ecological pyramids show the decreasing amounts of energy, living tissue, or number of organisms at successive feeding levels. The pyramid is divided into sections that represent each trophic level. Because each trophic level harvests only about one tenth of the energy from the level below, it can support only about one tenth the amount of living tissue.
100% Producers

22. D. Other Kinds of Pyramids
6/24/2018
D. Other Kinds of Pyramids
1. Numbers pyramids
a.Compares numbers of organisms at each trophic level
b. May not be pyramid shaped
2. Biomass pyramids
a. Compares amount of biomass at each level
 Biomass is total dry weight of organisms

23. Ecological Pyramids Pyramid of Numbers:
6/24/2018
Ecological Pyramids
Pyramid of Numbers:
Shows the relative number of individual organisms at each trophic level.
Ecological pyramids show the decreasing amounts of energy, living tissue, or number of organisms at successive feeding levels. The pyramid is divided into sections that represent each trophic level. Because each trophic level harvests only about one tenth of the energy from the level below, it can support only about one tenth the amount of living tissue.

24. Ecological Pyramids Biomass Pyramid:
6/24/2018
Ecological Pyramids
Biomass Pyramid:
Represents the amount of living organic matter at each trophic level. Typically, the greatest biomass is at the base of the pyramid.
50 grams of human tissue
500 grams of chicken
5000 grams of grass
Ecological pyramids show the decreasing amounts of energy, living tissue, or number of organisms at successive feeding levels. The pyramid is divided into sections that represent each trophic level. Because each trophic level harvests only about one tenth of the energy from the level below, it can support only about one tenth the amount of living tissue.

25. E. Trophic Levels are Limited
6/24/2018
1. Most ecosystems on land involve only 3 or 4 trophic levels
2. This is due to the progressive loss of energy at each transfer
3. Eventually there is not enough energy left to support a large population of organisms at the next higher level
4. Eating lower on the food chain is more energy efficient
a. Eating plants instead of meat would support more people on Earth