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Lessons from the Miocene Climatic Optimum 100 years from now… Nature’s Fury November 5 th, 2007, Australian National University Nicholas Herold The University.

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Presentation on theme: "Lessons from the Miocene Climatic Optimum 100 years from now… Nature’s Fury November 5 th, 2007, Australian National University Nicholas Herold The University."— Presentation transcript:

1 Lessons from the Miocene Climatic Optimum 100 years from now… Nature’s Fury November 5 th, 2007, Australian National University Nicholas Herold The University of Sydney

2 Agenda 1.The Miocene Climatic Optimum (MCO) 1.1Low equator-to-pole temperature gradient. 1.2Mechanisms of warming. 2.What mechanisms which existed during the MCO can we realistically expect in a future “greenhouse” scenario?

3 Centennial scale surface temperature change Robock et al. (2007)‏ Year

4 Glacial scale surface temperature change Wuebbles and Hayhoe (2002)‏

5 5 Miocene Climatic Optimum (MCO) Zachos et al. (2001) Warmth in a cooling Cenozoic TIME (Ma)

6 Miocene and modern zonal temperature profiles 6

7 Causes of warming... CO 2, CH 4, vegetation, topography, orbital parameters, solar emissivity, ocean heat transport, ice-sheet volume, sea-level rise, aerosols... 7

8 Mechanisms of high-latitude warming Ocean Heat Transport Greenhouse Gases

9 Ocean Heat Transport in a Greenhouse World Originally thought responsible for high latitude warming however has minimal effect on high latitude continental interiors. Recent estimates show that 5% of modern poleward heat transport past 60° south and north is attributable to the oceans. Vertical mixing sensitivity to the vertical density gradient may have increased thermohaline circulation.

10 Greenhouse warming High warming with a low CO 2 : the Miocene Climatic Optimum paradox. Methane a possible puppet master Polar stratospheric clouds

11 The NCAR General Circulation Model The Community Atmosphere Model (CAM) and Community Land Model (CLM). Run at a ~3.75x3.75° resolution with 26 atmospheric layers. Coupled to a mixed-layer ocean model. We can prescribe Miocene orbital parameters, greenhouse gases, topography, vegetation, SST, solar constant. 11 McGuffie and Henderson-Sellers (2005)

12 Miocene vegetation 12

13 Topography 90°N 45°N 0° 45°S 90°S 90°N 45°N 0° 45°S 180°90°E0°90°W180° 90°S MODERN MIOCENE ELEVATION (m)

14 Results

15 Zero degree isotherm 15 June-July-August December- January-February 90°N 45°N 0° 45°S 90°S 90°N 45°N 0° 45°S 90°S 180° 90°E0°90°W180° MODERN MIOCENE

16 DJF – JJA surface temperature 90°N 45°N 0° 45°S 90°S 180°90°E0° 90°W180° 90°N 45°N 0° 45°S 90°S MIOCENE MODERN

17 June-July-August atmospheric temperature MODERN TEMPERATURE (°C) LATITUDE MIOCENE

18 Annual surface temperature 90°N 45°N 0° 45°S 90°S 180°90°E0° 90°W180° 90°N 45°N 0° 45°S 90°S MIOCENE (NEW SST) MODERN

19 December-January-February wind speed 19 WIND SPEED (m/s) LATITUDE MIOCENEMODERN

20 Current plans Implement relevant boundary conditions into our model to account for the MCO equator-to-pole temperature gradient. Apply methodology to another Cenozoic greenhouse period. Build a series of snap shots of warm climates throughout the Cenozoic and into the future.

21 Concluding Remarks Many features of pre-Quaternary greenhouse climates may be reproduced during future global warming. Palaeoclimate study is crucial for identifying and understanding mechanisms of warming not present in the current climate system and in the current generation of climate models.

22 References Lyle, M., 1997, Could early Cenozoic thermohaline circulation have warmed the poles?: Paleoceanography, v. 12, p. 161-167. Robock, Alan, Luke Oman, Georgiy L. Stenchikov, Owen B. Toon, Charles Bardeen, and Richard P. Turco, 2007: Climatic consequences of regional nuclear conflicts. Atm. Chem. Phys., 7, 2003-2012. Rind, D., Chandler, M., Lonergan, P., and Lerner, J., 2001, Climate change and the middle atmosphere 5. Paleostratosphere in cold and warm climates: Journal of Geophysical Research D: Atmospheres, v. 106, p. 20195-20212. Schnitker, D., 1980, North Atlantic oceanography as possible cause of Antarctic glaciation and eutrophication: Nature, v. 284, p. 615-616. Sloan, L.C., Walker, J.C.G., Moore, T.C., Rea, D.K., and Zachos, J.C., 1992, Possible methane-induced polar warming in the early Eocene: Nature, v. 357, p. 320-322. Sloan, L.C., and Pollard, D., 1998, Polar stratospheric clouds: A high latitude warming mechanism in an ancient greenhouse world: Geophysical Research Letters, v. 25, p. 3517-3520. Schiermeier, Q., 2006, The methane mystery: Nature, v. 442, p. 730-731. Woodruff, F., and Savin, S.M., 1989, Miocene deepwater oceanography: Paleoceanography, v. 4, p. 87-140. Woodruff, F., and Savin, S.M., 1991, Mid-Miocene isotope stratigraphy in the deep sea: high-resolution correlations, paleoclimatic cycles, and sediment preservation: Paleoceanography, v. 6, p. 755-806. Wuebbles and Hayhoe, 2002. Atmospheric methane and global change. Zachos, J., Pagani, M., Sloan, L., Thomas, E., and Billups, K., 2001, Trends, rhythms, and aberrations in global climate 65 Ma to present: Science, v. 292, p. 686-693.

23 23

24 Modern day dominant vegetation

25 Deep sea temperature record Lear et al. (2000)

26

27 Annual sea ice extent 27

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