Lecture 10: Orbital Control of Ice Sheets

1. Lecture 10: Orbital Control of Ice Sheets (Chapter 9)

2. Ice sheet cover at 20,000 years ago The Last Glacial Maximum (LGM)

3. Ice-sheet balance Slow Accumulation vs. fast Ablation Annual mean temperature Implication: which season is most important for ice sheet? Winter vs. summer

4. Milankovitch theory Small tilt +Aphelion =>low summer insolation favor glaciation Large tilt + Perihelion => High summer insolation favor deglaciation

5. Milankovitch theory High summer insolation => net melting => deglaciation Low summer insolation => net accumulation => glaciation

6. The Last Glacial Maximum (LGM): 21,000 yrs ago Why the greatest ice sheet not over Siberia?

7. How does Insolation Control Ice Sheet Equilibrium line, Climate point and ice-sheet formation Cold Warm

8. High insolation • northern/high equilibrium line • northern climate point • less ice-sheet formation • Low insolation • southern/low equilibrium line • southern climate point • more ice-sheet formation

9. Two positive feedbacks Ice-albedo feedback Ice-elevation feedback

10. Thermal inertial and Phase lag Ice volume lags insolation mdT/dt = SeiΩt-bT

11. Phase lag Ice volume lags Insolation by about ¼ cycle (ocean effect on seasonal cycle!)

12. Bedrock sinking Bedrock sinking and Bedrock rebound

13. Bedrock feedbacks Bedrock feedbacks: Initial elastic response is negative feedback; Later viscous response is positive feedback relative to the elastic sinking response by producing a delayed sinking response

14. The cycle of ice-sheet growth and decay

15. Conceptual model for ice-sheet cycle: • Repeat constant insolation • Threshold temperature: 0oC summer, -10oC annual mean

16. Deep sea 18O and ice volume history 18O ~ O18/O16 O16 light, easy to evaporate Deep sea higher 18O  more ice volume over land (evaporated to be accumulated)

17. Quantify δ18O changes Δ (18Oland*land ice volume)+ Δ( 18Oocean*ocean volume)=0 18Oland* Δ land ice volume + Δ 18Oocean*ocean volume=0 1/(-40) = 18Oocean/ 18Oland =-Δ land ice volume / ocean volume = -100m sl/4000m sl = -1/40

18. Deep sea 18O and ice volume history ~1o/oo Large glaciation phase Small glaciation phase

19. Revival of Milankovith Theory 1976 but, relative magnitude ?

20. Insolation Forcing and Ice Volume Response Small glaciation phase Large glaciation phase The remaining question: 100 kyr cycle?

21. Ice sheet 18O in the last 150,000 years Dominant 100 kyr cycle, why? 0 ka: Interglacial 21 ka: Last Glacial Maximum 125 ka: Last interglacial

22. Ice Core 18O in the last 100,000 years is it ice volume effect?

23. Confirming sea level change Coral reefs lives in coastal water – a proxy of sea level

24. Uplifted coral reef terraces: New Guinea (western Pacific)

25. Uplift of coral reefs: Quantifying the ice volume from the sea level change -110m (115ka) to +6m (125ka)

26. Sea Level Reconstruction of the last 30 kyr LGM IPCC/AR4 2007

27. References for Further reading and analysis • Hays et al., 1976, Variations in the Earth’s Orbit: pacemaker of the ice ages.” Science, 194, 1121- • P. Huybers, C. Wunsch, Nature 434, 491 (2005). • P. Huybers, 2006, Early Pleistocene Glacial Cycles • and the Integrated Summer Insolation Forcing. Science, 313,508-511

28. End of Lecture 10