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The Energetics of Life Part Two: Practice Big Questions How do the energy requirements of life affect the life strategies of organisms? How do the energy.

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Presentation on theme: "The Energetics of Life Part Two: Practice Big Questions How do the energy requirements of life affect the life strategies of organisms? How do the energy."— Presentation transcript:

1

2 The Energetics of Life Part Two: Practice

3 Big Questions How do the energy requirements of life affect the life strategies of organisms? How do the energy requirements of life affect the structures of populations and ecosystems?

4 Matter and Energy Are Required energy

5 Life is a highly ordered system.

6 The energy needs of life Organisms are endergonic systems – What do we need energy for? synthesis – building biomolecules reproduction movement active transport temperature regulation

7 How is order maintained? Life is built on chemical reactions that transform energy from one form to another Constant energy input is required organic molecules  ATP & organic molecules sun solar energy  ATP & organic molecules

8 The inevitable result of loss of order….

9 Which must be greater in a living system? This? Or This?

10 The Calculus of Life If: More food than energy expenditure. Then: Order maintaned  Growth  (Reproduction) If: More energy expenditure than food. Then: Order lost  Disease  Death

11 Organisms must regulate metabolism 2 Major Strategies in animals: Endothermy: Using energy from metabolism to maintain body temperature. (Birds and Mammals) Ectothermy: Using external thermal energy to help regulate and maintain body temperature. (all other animals)

12 Heat exchange between an organism and its environment Radiation is the emission of electromagnetic waves by all objects warmer than absolute zero. Radiation can transfer heat between objects that are not in direct contact, as when a lizard absorbs heat radiating from the sun. Evaporation is the removal of heat from the surface of a liquid that is losing some of its molecules as gas. Evaporation of water from a lizard’s moist surfaces that are exposed to the environment has a strong cooling effect. Convection is the transfer of heat by the movement of air or liquid past a surface, as when a breeze contributes to heat loss from a lizard’s dry skin, or blood moves heat from the body core to the extremities. Conduction is the direct transfer of thermal motion (heat) between molecules of objects in direct contact with each other, as when a lizard sits on a hot rock.

13 Every Choice Has Its Consequences Endothermy: Advantage: Prolonged periods of High metabolism Trade-off: Need to more food intake

14 Every Choice Has Its Consequences Ectothermy: Advantage: Decreased metabolic load Trade-off: At the whim of the environment

15 The relationship between body temperature and environmental temperature in an aquatic endotherm and ectotherm River otter (endotherm) Largemouth bass (ectotherm) Ambient (environmental) temperature (°C) Body temperature (°C) 40 30 20 10 20 30 40 0

16 Maximum metabolic rates over different time spans Maximum metabolic rate (kcal/min; log scale) 500 100 50 10 5 1 0.5 0.1 AH A H A A A H H H A = 60-kg alligator H = 60-kg human 1 second 1 minute 1 hour Time interval 1 day 1 week Key Existing intracellular ATP ATP from glycolysis ATP from aerobic respiration

17 What about Reproduction? Reproduction (and rearing of offspring) require even more energy than what is needed for normal maintenance and growth. Different reproductive strategies for different circumstances. All of them take advantage of seasonal energy availability. Babies are had in spring (roughly speaking).

18 Reproducing Whales Whales feed at one end of their migration range, and mate/calve at the other end (a year apart from each other). In winter (warm water): The young nurse from their mothers. The mothers live on stored energy (blubber)

19 Size does matter A general, inverse relationship exists between the size of an organism and its metabolic rate

20 Energy budgets for four animals Endotherms Ectotherm Annual energy expenditure (kcal/yr) 800,000 Basal metabolic rate Reproduction Temperature regulation costs Growth Activity costs 60-kg female human from temperate climate Total annual energy expenditures (a) 340,000 4-kg male Adélie penguin from Antarctica (brooding) 4,000 0.025-kg female deer mouse from temperate North America 8,000 4-kg female python from Australia Energy expenditure per unit mass (kcal/kgday) 438 Deer mouse 233 Adélie penguin 36.5 Human 5.5 Python Energy expenditures per unit mass (kcal/kgday) (b)

21 How does free energy affect Populations and Ecosystems? What aspects of an ecosystem are most affected by changes in the free energy present in the ecosystem? What are some examples of changes to ecosystems that could affect the free energy present in the ecosystem? How can these changes affect the ecosystem?

22 Deforestation on the Island of Borneo (extrapolated to 2020)

23 We’re cute because We HAVE to be! Any questions?

24 Review Questions

25 1.Here you see Franklin and Zwiebel, as younger cats: Even now, Franklin is 17 pounds, and Zwiebel is 7. Propose an explanation based on energetics.

26 2. White nose disease is a fungal infection in bats. During the last few years, bat populations have decreased significantly in the North east due to white nose disease. Researchers believe that the major affect of the fungus is that it interrupts the bats normal hibernatory cycle. Why would a disease that wakes bats from hibernation lead to the regional decline of bat populations?

27 3. Proposed: All factors that we have discussed that affect population size ALSO affect the free energy content of the population. Agree or disagree? Explain: Food availability & natural disasters, in term of free energy effects.

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