Unit 5: Energy Transfer
- Created by: Chloe Inglis
- Created on: 05-03-17 13:08
View mindmap
- Unit 5: Energy Transfer
- Energy and Ecosystems
- Use of natural and artificial fertilisers
- Natural
- Environmental issues concerning use of nitrogen fertilisers
- Artificial
- Leaching
- Eutrophication
- Environmental issues concerning use of nitrogen fertilisers
- Artificial
- Natural
- Food chains and energy transfer
- Efficiency
- Trophic levels
- Carrying capacity
- Biomass
- Productivity
- Farming practices
- Environmental issues concerning use of nitrogen fertilisers
- Leaching
- Eutrophication
- Environmental issues concerning use of nitrogen fertilisers
- Net Primary Production (NPP) = Gross Primary Production (GPP) - Respiratory Losses (RL)
- Use of natural and artificial fertilisers
- Natural
- Natural
- Farming practices
- Productivity
- Nutrient Cycles
- Phosphorus cycle
- Nitrogen cycle
- Nitrogen fixation
- Nitrification
- Nitrates
- Nitriles
- Ammonia
- Nitrates
- Ammonia
- Denitrification
- Atmosphere
- Role of mycorrizae
- Phosphorus cycle
- Use of natural and artificial fertilisers
- Respiration
- Glucose
- Pyruvate
- Anaerobic Respiration
- Lactate (animals)
- Ethanol + CO2 (plants and micro-organisms)
- Immediate
- Aerobic Respiration
- Acetyl Coenzyme A
- Krebs Cycle
- 2H+
- Oxidative Phosphoryl-ation
- Redox
- Electron Transfer Chain
- Chemiosmotic Theory
- ADP + Pi
- ATP
- ATP synthase
- ATP
- 2H
- O2
- Terminal acceptor
- H2O
- O2
- Terminal acceptor
- Photolysis
- O2
- O2
- Oxidative Phosphoryl-ation
- CO2
- Carboxylation
- 2 - 4 - 6 carbon molecules
- ATP
- 2H+
- Krebs Cycle
- Link Reaction
- Acetyl Coenzyme A
- Krebs Cycle
- 2H+
- Oxidative Phosphoryl-ation
- Redox
- Electron Transfer Chain
- Chemiosmotic Theory
- ADP + Pi
- ATP
- ATP synthase
- ATP
- 2H
- H2O
- Photolysis
- H2O
- Oxidative Phosphoryl-ation
- CO2
- Carboxylation
- 2 - 4 - 6 carbon molecules
- ATP
- 2H+
- Krebs Cycle
- Acetyl Coenzyme A
- Acetyl Coenzyme A
- Anaerobic Respiration
- Glycolysis
- Pyruvate
- Anaerobic Respiration
- Lactate (animals)
- Ethanol + CO2 (plants and micro-organisms)
- Immediate
- Aerobic Respiration
- Link Reaction
- Link Reaction
- Anaerobic Respiration
- Pyruvate
- Pyruvate
- Glucose
- Photo-synthesis
- Leaf Structure
- Cuticle
- Thick
- Waxy
- Epidermis
- Upper
- Lower
- Mesophyll
- Spongy
- Palisade
- Chloroplast
- Chlorophyll
- Grana - thylakoids
- Light-dependent reaction
- Photosystem I + II
- H2O
- Photolysis
- H+
- Electrons
- Photo-ionisation
- Photo-excitation
- Photo-ionisation
- H+
- Oxygen
- Electron Transfer Chain
- NADPH
- Reduction
- NADPH
- Electrons
- Photo-excitation
- Photo-excitation
- Electron Transfer Chain
- Photolysis
- Light-dependent reaction
- Stroma
- Light-independent reaction
- Calvin cycle
- CO2
- RuBP
- RUBISCO
- Glycerate-3- Phosphate = 2 x GP
- Reduction
- Energy = ATP
- NADPH
- Reduction
- Energy = ATP
- NADPH
- NADPH
- Energy = ATP
- Reduction
- NADPH
- Energy = ATP
- Triose Phoshate
- Glucose - form useful organic compounds
- Reduction
- RUBISCO
- RuBP
- CO2
- Calvin cycle
- Light-independent reaction
- Stomata
- Guard Cells
- Open + Close
- Transpiration
- Open + Close
- Guard Cells
- Cuticle
- Leaf Structure
- Energy and Ecosystems
- Epidermis
- Upper
- Lower
- Calvin cycle
- CO2
- RuBP
- Glycerate-3- Phosphate = 2 x GP
- Triose Phoshate
- Glucose - form useful organic compounds
- Triose Phoshate
- Glycerate-3- Phosphate = 2 x GP
- RuBP
- CO2
- Light vs. Dark
- Experiments
- Graphs
- Photo-synthesis
- Leaf Structure
- Cuticle
- Thick
- Waxy
- Mesophyll
- Spongy
- Palisade
- Chloroplast
- Chlorophyll
- Grana - thylakoids
- Light-dependent reaction
- Photosystem I + II
- H2O
- Photolysis
- Oxygen
- Electron Transfer Chain
- NADPH
- Reduction
- NADPH
- Electron Transfer Chain
- Oxygen
- Photolysis
- Light-dependent reaction
- Stroma
- Light-independent reaction
- Light-independent reaction
- Stomata
- Guard Cells
- Open + Close
- Transpiration
- Open + Close
- Guard Cells
- Cuticle
- Leaf Structure
Comments
No comments have yet been made