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Ch. 10 Energy Metabolism: Photosynthesis, Particles/Waves of Radiation,…
Ch. 10 Energy Metabolism: Photosynthesis
Photosynthesis
Light-dependent reactions (Thylakoid reactions)
Nature of Light
Electromagnetic radiation spectrum
Quantum
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Photons
Nature of Pigments
Activated
Ground State
Excited state
Fluoresence- release of light by a pigment
Spectrums
Absorption- shows which wavelengths are more strongly absorbed by a pigment
Action- shows which wavelengths are most effective at powering a photochemical process
Accessory Pigments- molecules that strongly absorb pigments
Stroma reactions
Anabolic Metabolism
Photosystem 1
Photosystem 2
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Energy & Reducing Power
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Reducing Power
Oxidation
Reduction
Energy Carriers
Guanosine Triphosphate
Methods of Synthesizing ATP
Substrate-level Phosphorylation
Oxidative Phosphorylation
Photophosphorylation
Other Electron Carriers
Plastocyanin
Plastoquinones
Cytochromes
Environmental and Internal factors
Leaf Structure
Water
Light
Quantity/Quality of light
Duration of sunlight
Light compensation Point- (no photosynthesis)
C4 Metabolism
Photorespiration
CAM (Crassulacean Acid Metabolism
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Particles/Waves of Radiation
Photosynthetic Units
Metabolic Adaptations
Energy is produced by reactions from the plant's structures such as leaves absorbing carbon dioxide