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Topics to be covered today Regarding Global Effects HNRT 228 Spring 2016

Explore the global effects of CO2 forcing, climate sensitivity, feedbacks, and natural and long-term forcings. Understand the impacts of global warming and the relationship between severe weather conditions and global warming.

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Topics to be covered today Regarding Global Effects HNRT 228 Spring 2016

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  1. Topics to be covered today Regarding Global EffectsHNRT 228 Spring 2016 Future CO2 Forcing Climate Sensitivity – Feedbacks Natural Short and Long-term Forcings Global Warming Impacts

  2. iClicker Question • There has been much talk on television news about the severe weather conditions recently across the country. Is this an indication of global warming? • A Yes • B No

  3. Kaya Identity Model kaya identity model

  4. Future Atmospheric CO2 One emission scenario Range of predictions suggest double pre-industrial by mid-century

  5. Stabilization Scenarios 2100 2200 2300 2000 What our emissions can be for different constant CO2 levels. What do these tell us about future biosphere and ocean sinks?

  6. Committed to Warming: Time Response

  7. A Long View of Fossil Fuel Perturbation

  8. Climate Sensitivity-All about Feedbacks T = F • is climate sensitivity parameter  units: K “per” W/m2  determined by feedbacks!

  9. Estimates of Climate Sensitivity T change for a 4 W/m2 forcing (i.e. “double CO2”) Most probable  ~ 0.75 K/(W/m2)

  10. Feedbacks “feedback loop” +/- +/- State Variable Process or coupling Initial Forcing + increases state variable - decreases state variable

  11. Ice-Albedo Feedback Albedo - Example of a positive feedback More solar radiation absorbed + Temperature + Initial Forcing (e.g. GHG) Ice melts, dark soils exposed

  12. Water Vapor-Temperature Feedback Water Vapor + Increased Greenhouse effect + Temperature + Initial Forcing (e.g. GHG, solar radiation) More evaporation, saturation vapor pressure increase

  13. Atmosphere—Protector of the Oceans? water trap If H2O reaches top of atmosphere it is blown apart by UV radiation H atoms escape to space, never to return Probable cause for no H2O on Venus

  14. IR Flux-Temperature Feedback Outgoing IR flux increases + Example of a negative feedback - Temperature + Initial Forcing (e.g. GHG)

  15. Phytoplankton-DMS-Marine Cloud Feedback Charlson, Lovelock, Andreae, Warren “C.L.A.W.” Hypothesis aerosols and cloudiness + - Solar Radiation (Temperature) Biogenic Sulfur Emissions + Initial Forcing (decreased clouds) + + Photosynthesis DMS - Dimethylsulfide

  16. Cloud Forcings and Feedbacks Low altitude thick clouds  Stratus High altitude thin ice clouds  Cirrus

  17. Aircraft emit particles (and particle precursors) which can nucleate clouds. This activity gives rise to a A Positive radiative forcing B Negative radiative forcing

  18. Aviation Contrails—Positive Forcing October 2004

  19. Clouds and Climate—a complex problem Cirrus: Not so reflective, but absorb and emit at cold T Low Clouds: Absorb IR but emit like warm surface. Reflective

  20. Clouds and Cloud Feedbacks Albedo + - Low Clouds + + Atmosphere holds more water Increased greenhouse effect + + High Clouds + Atmosphere holds more water Uncertain! Temperature Initial Forcing (e.g. GHG, solar radiation) Temperature

  21. Predicted Changes in Cloud Forcings IPCC 2007

  22. Sunspots – Cyclic Changes in Solar Output

  23. ~11 year Sunspot Cycle

  24. Radiative Forcing by Solar Cycle

  25. The solar cycle forcing has increased from -0.1 to 0.2 W/m2 since 1900. This forcing can explain ____ of 1oC increase in global Avg. T since 1900 A 60 - 70% B 40 - 50% C < 30%

  26. False Assertions: Sun – Global Warming WRONG Solar Cycle WRONG T record Originally from WSJ Article written by two chemists named Robinson

  27. False Assertions: Sun – Global Warming Correct cycle Laut 2003

  28. T Response After Major Eruptions

  29. Natural and Anthropogenic Forcings

  30. El Nino Southern Oscillation-ENSO

  31. Neutral Walker Circulation Neutral

  32. El Nino/La Nina State Flip-Flop

  33. El Nino/La Nina Circulation Patterns Very Strong El Nino Strong La Nina

  34. ENSO “Periodicity” El Niño years La Niña years

  35. El Nino Global Impacts

  36. El Nino Impact on Fish Normal El Nino

  37. Climate History

  38. 18O Ratios in Sediment and Ice Core

  39. Pleistocene Glacial and Interglacials Reconstruction of land and sea ice 21,000 years ago (last glacial maximum) February July

  40. Records of NH Glaciations Geological Records: glacial deposits, scarring, larger scale Cordilleran Ice Sheet Lake Missoula Spokane Floods (from Lake Missoula)

  41. Milankovitch—Before sediment cores Predicts glacial and interglacial transitions based on variations in Earth’s orbit His results suggested many such transitions in ~ 1 million yrs (he was right) —at the time, no observable records show that many, so his work widely criticized Milutin Milankovitch

  42. Milankovitch Continued While lacking patience for critics, he did not lack confidence Milutin Milankovitch “I do not consider it my duty to give an elementary education to the ignorant, and I have also never tried to force others to use my theory, with which no one could find fault.”

  43. Orbital Forcing Summary Precession Tilt Eccentricity IPCC 2007

  44. Currently NH summer takes place at aphelion, in about 12,000 years, NH summer will occur at perihelion. At this time, SH seasonality will be A stronger B weaker

  45. Solar Insolation at 65N and Glaciation

  46. Recent UW Research Time rate of change of ice volume and solar insolation

  47. The Key For Glaciation + Ice Coverage Solar insolation in NH summer appears to be key maintaining glaciation. Ice sensitive to melting! Positive Feedback—Destabilizing Climate - T Albedo - Initial Forcing Weaker NH summer insolation + Same old ice-albedo feedback, just different initial forcing

  48. Eccentricity: More to Less Circular

  49. Obliquity: More or Less Seasonality

  50. Precessional Cycle: Tilt and Eccentricity Current situation

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