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

Driving question: How does ecosystem deal with animal and plants after they died?. Dead plant/animal (large organic molecules). Minerals (from soil). Flow chart of decomposing process. Digestion. Digestion. Small organic molecules. Inorganic matter (H2O , CO2, minerals). Biosynthesis.

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

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

  2. Dead plant/animal (large organic molecules) Minerals (from soil) Flow chart of decomposing process Digestion Digestion Small organic molecules Inorganic matter (H2O , CO2, minerals) Biosynthesis Back to ecosystem system Decomposer biomass (large organic molecules) Cellular Respiration 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 Are mushroom plants?

  5. Biosynthesis part

  6. What do mushrooms grow?

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

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

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

  11. What happens of biosynthesis at microscopic scale ?

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

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

  16. What happens for biosynthesis at atomic-molecular scale ?

  17. Matter transformation for biosynthesis at atomic-molecular scale Large scale Polysaccharides (chains of sugar molecules) Macroscopic Sugar Microscopic scales scales Protein amino acids Atomic molecular Water Matter Process Matter Movement Material identity Analyzing Digestion Biosynthesis All Energy 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 Matter Movement Material identity Analyzing Digestion Biosynthesis All Energy 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 Atomic molecular Matter Process Matter Movement Material identity Analyzing Digestion Biosynthesis All Energy Cellular respiration Energy transformation Blank

  20. Biosynthesis at atomic-molecular scale Heat Chemical energy Chemical energy Large scale Macroscopic polysaccharides Sugar Microscopic scales scales Protein amino acids Atomic molecular Water Matter Process Matter Movement Material identity Analyzing Digestion Biosynthesis All Energy Cellular respiration Energy transformation Blank

  21. The end

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