1. Driving question: How does ecosystem deal with animal and plants after they died?

2. Flow chart of decomposing process
Dead plant/animal
(large organic molecules)
Minerals
(from soil)
Flow chart of decomposing process
Digestion
Digestion
Inorganic matter
(H2O , CO2, minerals)
Small organic molecules
Biosynthesis
Back to ecosystem system
Decomposer biomass
(large organic molecules)
Cellular Respiration
Fungi take in minerals from soil, like plants 
Revised it
H2O & CO2
For decomposers growth
For decomposers living

3. Three types of decomposers
Another decomposer – Invertebrates
One common decomposer: Fungi
Crucial decomposers: bacteria and microscopic fungi

4. The structure of mushroom
cap
gill
stem
hypha
mycelium
Mycelium part should be bigger than mushroom
Are mushroom plants?

5. Biosynthesis part Animal PPT: cow
Share the frame by the end of weekend

6. What do mushrooms grow?

7. Matter movement for biosynthesis at macroscopic scale
Large scale
Macroscopic
Microscopic
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

8. Matter transformation for biosynthesis at macroscopic scale
Large scale
Small organic molecules
Large organic molecules
Macroscopic
Mineral molecules
Water
Add mineral molecules in the plant cells.
Microscopic
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

9. Energy transformation for biosynthesis at macroscopic scale
Large scale
Heat
Chemical energy
Macroscopic
Chemical energy
Microscopic
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

10. Biosynthesis at macroscopic scale
Large scale
Heat
Chemical energy
Chemical energy
Small organic molecules
Large organic molecules
Macroscopic
Microscopic
Mineral molecules
Water
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

11. What happens of biosynthesis at microscopic scale ?
Zooming into three different system: digestion, blood, muscles

12. Matter movement for biosynthesis at microscopic scale
polysaccharides (chains of sugar molecules)
Large scale
Macroscopic
Microscopic
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

13. Matter transformation for biosynthesis at microscopic scale
Large scale
Sugar
polysaccharides (chains of sugar molecules)
Macroscopic
Microscopic
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

14. Energy transformation for biosynthesis at microscopic scale
Large scale
Heat
Macroscopic
Chemical energy
Chemical energy
Microscopic
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

15. Biosynthesis at microscopic scale
Heat
Large scale
Chemical energy
Chemical energy
polysaccharides (chains of sugar molecules)
Sugar
Macroscopic
Microscopic
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

16. What happens for biosynthesis at atomic-molecular scale ?
Zooming into three different system: digestion, blood, muscles

17. Matter transformation for biosynthesis at atomic-molecular scale
Large scale
Polysaccharides (chains of sugar molecules)
Macroscopic
Sugar
Microscopic
scales
scales
Protein
Simplify the digestion process: zooming in part of intestine (food from digestion to the blood)
Simplify : muscle in the leg growing
amino acids
Atomic molecular
Water
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

18. Matter transformation for protein synthesis at atomic-molecular scale
Large scale
Macroscopic
Microscopic
scales
scales
Click to see animation
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

19. Energy transformation for biosynthesis at atomic-molecular scale
Large scale
Heat
Macroscopic
Chemical energy
Microscopic
scales
scales
Chemical energy
Simplify the digestion process: zooming in part of intestine (food from digestion to the blood)
Simplify : muscle in the leg growing
Atomic molecular
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

20. Biosynthesis at atomic-molecular scale
Heat
Chemical energy
Chemical energy
Large scale
Macroscopic
polysaccharides
Sugar
Microscopic
scales
scales
Simplify the digestion process: zooming in part of intestine (food from digestion to the blood)
Simplify : muscle in the leg growing
Protein
amino acids
Atomic molecular
Water
Matter
Process
Material identity
Matter Movement
Analyzing
Digestion
Biosynthesis
Energy
All
Cellular respiration
Energy transformation
Blank

21. The end