1. FLOW OF ENERGY AND NUTRIENTS WITHIN ECOSYSTEMS

2. Energy is involved in every activity on Earth

3. Photosynthesis and Cellular Respiration

4. Photosynthesis:
Plants transform light energy from the sun into chemical energy (glucose):
light energy + carbon dioxide + water → glucose oxygen

5. Cellular Respiration:
Most other living things transforms chemical energy (glucose) into useable energy:
glucose oxygen → carbon dioxide + water + useable energy

6. Autotrophs (Producers)
Get energy by making thier own food (photosynthesis)
Heterotrophs ( consumers and decomposers) get energy by consuming other organisms.

8. Heterotrophs get energy by consuming other organisms:
Consumers:
Decomposers – get energy by eating waste/dead organisms

9. Types of Consumers Herbivore – eats only plants (producers)
Omnivore – eats producers and consumers
Carnivore – eats only other consumers

10. How can we model the flow of energy in an ecosystem?
Food Chains
Food Webs

11. 1. Food Chain
A Food Chain is a model that describes how energy is passed from one living thing to another (one path).
Each step in a food chain is called a trophic level.

12. Trophic Levels
A secondary consumer can also be top predatory or tertiary consumer

14. Food Webs
Complex model that describes how energy in an ecosystem is transferred through two or more interconnected food chains (many paths).

15. Food Web

16. Food Web
Can an animal be both a secondary and tertiary consumer?

18. What if the environment is contaminated?
Plants take up water and nutrients from the soil.
Consumers also drink water from the environment.
Toxins in the environment can bind to nutrients in the soil or water and can also be taken up.

19. Bioaccumulation is the gradual build-up of toxic chemicals in living organisms at a faster rate than can be excreted or broken down. 
The longer lived organism has more time to accumulate toxins. Eg Tuna vs mino
Synthetic Chemicals enter the environment contaminating the air, water, and soil.
Plants take up some of these chemicals, and the chemicals bioaccumulate in the fat tissue of herbivores and carnivores.
Synthetic Chemicals enter the environment contaminating the air, water, and soil.
Plants take up some of these chemicals, and the chemicals bioaccumulate in the fat tissue of herbivores and carnivores.

20. If the accumulation is too high, it can be harmful.
Indicator species

21. Chemical accumulation is measured in Parts per million (ppm)
1 particle of a substance mixed with other particles
(1 drop of dye in 150 L of water)
Hot water tank about 150 L

22. Flow of Energy
As each organism eats another, not just energy is transferred up the food chain and accumulate in the fatty tissues.

23. Biomagnification: build up through trophic levels
Toxic substances become increasingly concentrated at subsequent trophic levels
Herbivores eat large quantities of plants
Predators must eat many times their weight in prey over their life time. 

24. Biomagnification Some chemicals are get stored in fat tissue
When energy is needed, fat is burned to release the energy
The chemicals then also get released into blood stream 
Herbivores eat large quantities of plants and carnivores eat many times their body weight of prey during their lifetimes. 
Therefore even small concentrations of chemicals in producers and primary and secondary consumers can build up to cause problems at higher trophic levels.

25. How do chemicals enter the environment?

26. What kind of toxic substances?
PCBs – synthetic chemicals that don’t break down (used in transformers, capacitors, motor oil, etc)
POPs - Persistent organic pollutants (pesticides like DDT)
Heavy Metals - Mercury, Cadmium, Lead
Nanoparticles – electronics, sporting goods, cosmetics, clothing.

27. PCBs
Polychlorinated biphenyls are synthetic chemicals that were widely used from 1930s to 1970s in industrial products such as paints, plastics, and lubricants. 
They were banned in 1977
PCBs have a long half-life (Half-life is the time it takes for the amount of a substance to decrease by half.). 
In humans they can suppress the immune system, disrupt hormones and cause cancers.

28. PCBs and Orcas
Because Orcas live for so long, they accumulate a lot of PCBs
A study found that PCBs will interfere with Orcas' reproduction – until Even though banned for decades
Orcas retain high levels of PCB's, especially in calves. 

29. Persistent organic pollutants (POPs)
POPs where used in insecticides
remain in water and soil for many years. 

30. DDT (dichloro-diphenyl trichloroethane)
Insecticide introduced in 1941 to control disease-carrying mosquitoes. 
Binds strongly to soil and persists for as long as 15yrs
Banned in 1972 (Canada and US)
Affects nervous system, immune system and reproduction
Harmful at 5 ppm
Accumulates in plants and then fatty tissue of the fish, birds, and animals that eat the plants.
Washed into streams and lakes, it affects aquatic food chains by first accumulating in plankton.

34. Heavy Metals also bioaccumulate
Heavy Metals – high density, toxic metals
Lead – extremely toxic, not considered safe at any level, 
Can be ingested, absorbed through skin, inhaled
Was used in insecticides, paints and gasoline
Batteries, , electronics
can cause anemia, nervous & reproductive system damage, kidney failure.

35. Cadmium Binds to organic matter in soil
Extremely dangerous in soil – plants take it up, animals eat plants
Highly toxic
causes lung diseases, cancer, nervous & immune system damage in humans
Manufacture of plastics and nickel-cadmium batteries
Also get it from smoking 
Half-life in bone tissue is 30yr

36. Mercury Coal burning Highly toxic
Accumulates in brain heart, and kidneys 
Suppresses immune system

37. Bioremediation
Bioremediation is the use of living organisms to help break down contaminants in the environment
Usually micro organisms
Some bacteria are used to clean up oil spills 
Plants such as fescue, alfalfa, juniper, and poplar trees also act as natural traps to biodegrade hazardous wastes in soil, taking in and concentrating heavy metals in their tissues. 
In wetland ecosystems, water hyacinth and bullrushes may be used. 

38. Bioaccumulation Activity

39. Energy Transfer
Only a small amount (10%) of the energy transferred is available for the next trophic level  because most of the energy is used by organisms to live.  
consumers
10%
Producers
demo

40. Use the food web provided to answer the following questions
1. List the producers/autotrophs
 2. Identify a herbivore ________________________
3. What type of animal is a snake?
4. What is the role of bacteria?
 5. If rabbits were removed from this food web, how would it effect:
a)Shrubs ____________________
b) Mountain lion __________________
c) Grasshopper ____________________
d) Shrew _________________________