1. 1 MET 112 Global Climate Change MET 112 Global Climate Change - Lecture 7 Climate Feedbacks Dr. Eugene Cordero San Jose State University Outline  Stability/instability  Feedbacks  Examples  Activity

2. 2 MET 112 Global Climate Change Temperature Graph Source: http://www.ruf.rice.edu/ ~leeman/aNR.html

4. 4 MET 112 Global Climate Change   This can be visualized using in the following system diagram.  The idea is that even though the system may change away from it’s initial point, it will have the tendency to go back to ‘normal’ eventually. Earth’s Climate Stable

5. 5 MET 112 Global Climate Change  The Earth’s climate is fairly stable in terms of temperature  This can be visualized using in the following system diagram.  The idea is that even though the system may change away from it’s initial point, it will have the tendency to go back to ‘normal’ eventually. Earth’s Climate Stable 1 2 3

6. 6 MET 112 Global Climate Change Stability versus instability Stable equilibriumUnstable equilibrium  Stable:  Instability:

7. 7 MET 112 Global Climate Change Stability versus instability Stable equilibriumUnstable equilibrium  Stable: –Given a perturbation, the system tends to return to original state  Instability: –Given a perturbation, the system moves to another state.

8. 8 MET 112 Global Climate Change –The system may have multiple states of equilibrium Multiple equilibrium Stable to small perturbations 1

9. 9 MET 112 Global Climate Change –The system may have multiple states of equilibrium States of equilibrium Stable to small perturbations, until a big force perturbs the system into a new equilibrium 2 1 3

10. 10 MET 112 Global Climate Change Climate Stability  The Earth’s climate changes as a result of internal/external forcing: – – – – –  These forcings can be thought of as a perturbation (or push) to climate stability.  These changes can be enhanced or diminished by positive or negative feedbacks

11. 11 MET 112 Global Climate Change Climate Stability  The Earth’s climate changes as a result of internal/external forcing: –Changes in solar radiation –Changes in the earth’s orbit –Plate tectonics –Volcanoes –Human pollution etc.  These forcings can be thought of as a perturbation (or push) to climate stability.  These changes can be enhanced or diminished by positive or negative feedbacks

12. 12 MET 112 Global Climate Change Feedbacks  Positive feedback: –  Negative feedback: –

13. 13 MET 112 Global Climate Change Climate Feedbacks  Positive feedback: –initial change reinforced by another process.  Negative feedback: –initial change counteracted by another process.

14. 14 MET 112 Global Climate Change Positive Feedbacks  Processes that accelerate a change –Note: Feedbacks cannot initiate change; they can only alter the pace of change  Important climate examples: – – –

15. 15 MET 112 Global Climate Change Positive Feedbacks  Processes that accelerate a change –Note: Feedbacks cannot initiate change; they can only alter the pace of change  Important climate examples: –Ice-albedo feedback –Water-vapor feedback –Cloud feedback

16. 16 MET 112 Global Climate Change Ice-Albedo Feedback (Cooling) Earth Cools Ice Coverage Increases Albedo Increases Absorption of Sunlight Decreases Initiating Mechanism

17. 17 MET 112 Global Climate Change Ice-Albedo Feedback (Cooling) Earth Cools Ice Coverage Increases Albedo Increases Absorption of Sunlight Decreases Initiating Mechanism Somehow this happens Positive Feedback

18. 18 MET 112 Global Climate Change Fill in the blanks Earth Warms Ice Coverage ___________ Albedo _____________ Absorption of Sunlight _______ Initiating Mechanism 1.increases, decreases, decreases 2.Decreases, decreases, increases 3.Increases, increases, increases 4.Decreases, decreases, decreases

19. 19 MET 112 Global Climate Change Ice-Albedo Feedback (Warming) Earth Warms Ice Coverage Albedo Absorption of Sunlight Initiating Mechanism

20. 20 MET 112 Global Climate Change Ice-Albedo Feedback (Warming) Earth Warms Ice Coverage Decreases Albedo Decreases Absorption of Sunlight Increases Initiating Mechanism Positive Feedback

21. 21 MET 112 Global Climate Change Water Vapor Feedback (Warming) Earth Warms Evaporation Atmospheric Water Vapor Content Greenhouse Effect Initiating Mechanism

22. 22 MET 112 Global Climate Change Fill in the blanks 1.Increases, increases, increases 2.Increases, decreases, decreases 3.Decreases, increases, increases 4.Decreases, decreases, decreases

23. 23 MET 112 Global Climate Change Water Vapor Feedback (Warming) Earth Warms Evaporation Increases Atmospheric Water Vapor Content Increases Greenhouse Effect Strengthens Initiating Mechanism Positive Feedback

24. 24 MET 112 Global Climate Change Water Vapor Feedback (Cooling) Earth Cools Evaporation Atmospheric Water Vapor Content Greenhouse Effect Initiating Mechanism

25. 25 MET 112 Global Climate Change Water Vapor Feedback (Cooling) Earth Cools Evaporation Decreases Atmospheric Water Vapor Content Decreases Greenhouse Effect Weakens Initiating Mechanism Positive Feedback

26. 26 MET 112 Global Climate Change Positive Feedback Exerted by Water Vapor in the Atmosphere

27. 27 MET 112 Global Climate Change Positive Feedback Exerted by Snow and Ice

28. 28 MET 112 Global Climate Change Negative Feedbacks  Processes that reduces an imposed change  Important examples: – –  Note: Positive/negative feedbacks have no relation to ‘good versus bad’, but are about how a system responds to a change.

29. 29 MET 112 Global Climate Change Negative Feedbacks  Processes that reduces an imposed change  Important examples: –Cloud feedback –Chemical weathering  Note: Positive/negative feedbacks have no relation to ‘good versus bad’, but are about how a system responds to a change.

30. 30 MET 112 Global Climate Change Possible Role of Cloud in Warming or Cooling the Atmosphere

31. 31 MET 112 Global Climate Change Which feedback is positive? 1.Left 2.Right

32. 32 MET 112 Global Climate Change Cloud Feedbacks (positive and negative) Positive Feedback Negative Feedback

33. 33 MET 112 Global Climate Change Bedroom Feedbacks

34. 34 MET 112 Global Climate Change Which situation is a positive feedback 1.Left 2.Right

35. 35 MET 112 Global Climate Change Bedroom Feedbacks Positive FeedbackNegative Feedback

36. 36 MET 112 Global Climate Change Activity Imagine the Earth was to warm for some reason (initiating mechanism or perturbation) A)Identify two positive feedbacks that would influence the earth’s climate and explain how each one works. B)Identify two negative feedbacks that would influence the earth’s climate and explain how each one works. C) Rank each feedback by its strength (which one is the strongest) and explain your reasoning. D) Which feedback do you think is more uncertain. Explain your reasoning.

37. As a result of the earth’s warming over the last 100 years, plants have been growing at a faster rate. Because plants absorb CO2, the increase in plant growth means that more CO2 is being absorbed from the atmosphere by plants. 1.This is a positive feedback. 2.This is a negative feedback. 3.This has nothing to do with feedbacks.