energy flow in ecosystems
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Energy flow in ecosystems
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energy flow in ecosystems
- 1. Energy Flow in Ecosystems
- 2. Overview: Ecosystems • An ecosystem consists of all the organisms living in a community, as well as the abiotic (non-living) factors with which they interact • Ecosystems range from a small, such as an aquarium, to a large, such as a lake or forest
- 4. • Ecosystem dynamics involve two main processes: energy flow and chemical cycling • Energy flows through ecosystems • Matter cycles within them • Physical laws govern energy flow and chemical cycling in ecosystems – Conservation of Energy (first law of thermodynamics) – Energy enters from solar radiation and is lost as heat – Conservation of matter - Chemical elements are continually recycled within ecosystems • Ecosystems are open systems, absorbing energy and mass and releasing heat and waste products
- 5. Energy, Mass, and Trophic Levels • Autotrophs build molecules themselves using photosynthesis or chemosynthesis as an energy source • Heterotrophs depend on the biosynthetic output of other organisms
- 7. Key Chemical cycling Energy flow Sun Heat Primary producers Primary consumers Secondary and tertiary consumers Detritus Microorganisms and other detritivores Figure 55.4 Arrows represent energy flow so they go from prey TO predator
- 8. Energy transfer between trophic levels is typically only 10% efficient
- 9. The Law of Conservation of Energy • Energy cannot be created or destroyed; it may be transformed from one form into another, but the total amount of energy never changes.
- 10. What is energy?
- 12. How is all energy divided? Potential Energy Kinetic Energy All Energy Gravitation Potential Energy Elastic Potential Energy Chemical Potential Energy
- 13. Potential Kinetic • energy of position or energy in storage. – Water behind a dam – Hammer over head – Food on the plate • energy of motion, the form capable of doing work – Flowing water – A falling hammer – Electrons regenerating ATP in a biological cell
- 14. What is Chemical Potential Energy? o Potential energy stored within the chemical bonds of an object.
- 15. What is Chemical Potential Energy? o Examples of energy in chemical bonds
- 16. Energy is nature’s way of keeping score. We sense energy only when the score changes: 1) either a transformation from one form of energy to another, 2) or a transfer of energy from one point to another.
- 17. Production Efficiency • When a caterpillar feeds on a leaf, only about one-sixth of the leaf’s energy is used for secondary production • An organism’s production efficiency is the fraction of energy stored in food that is not used for respiration
- 18. Plant material eaten by caterpillar Growth (new biomass; secondary production) Cellular respiration Assimilated Feces Not assimilated 100 J 33 J 67 J 200 J Figure 55.10 Joule (J) is the common measurement unit for energy.
- 19. • Birds and mammals have efficiencies in the range of 13% because of the high cost of endothermy. (Endotherms can regulate their body temperatures by producing heat within the body.) • Fishes have production efficiencies of around 10%. • Insects and microorganisms have efficiencies of 40% or more. Interesting Energy production facts:
- 20. Trophic Efficiency and Ecological Pyramids • Trophic efficiency is the percentage of production transferred from one trophic level to the next • It is usually about 10%, with a range of 5% to 20% • Trophic efficiency is multiplied over the length of a food chain
- 21. Energy Pyramid
- 22. • Approximately 0.1% of chemical energy fixed by photosynthesis reaches a tertiary consumer • A pyramid of net production represents the loss of energy at each level Tertiary consumers Secondary consumers Primary producers Primary consumers 1,000,000 J of sunlight 10,000 J 1,000 J 100 J 10 J
- 23. • In a biomass pyramid, each level represents the dry mass of all organisms in each level. • Most biomass pyramids show a sharp decrease at successively higher trophic levels Biomass is plant or animal material used as fuel to produce electricity or heat.
- 24. • Dynamics of energy flow in ecosystems have important implications for the human population • Eating meat is a relatively inefficient in terms of utilizing photosynthetic production • Worldwide agriculture could feed many more people if humans ate only plant material • Fossil fuels used to produce foods Role of Humans in Energy flow:
- 25. ENERGETICS • Energetics is the study of how energy gets from something like the sun into the organisms. – Photosynthesis - Chemosynthesis – Cellular Respiration • Watch the following video to review what we have learned: Energy Flow in Ecosystems