Paleoclimate, part 2: From 3 million years ago to the ......Medieval Climatic Anomaly (aka Medieval...
Transcript of Paleoclimate, part 2: From 3 million years ago to the ......Medieval Climatic Anomaly (aka Medieval...
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Paleoclimate, part 2: From 3 million years ago to the
instrumental period
12.340 Global Warming Science February 16, 2012
David McGee
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Data from Lisiecki and Raymo, Paleoceanography 2005
Climate change captured by seafloor foraminifera
Over the last 3 Myr: Increasing ice volume Decreasing temperature Increasing variability Cyclic changes (glacial-interglacial cycles)
Increasing ice volume/
Decreasing tem
perature
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After Jouzel et al., 2007
Climate change over the last 1 Myr in Antarctic ice
Note: dD is just the hydrogen isotope equivalent of d18O – a larger amplitude, but scales linearly with d18O.
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Oxygen (and hydrogen) isotope fractionation
Water vapor is depleted in 18O (and D) relative to liquid water due to the greater mass of H2
18O vs. H2
16O Air masses become more 18O-depleted with increasing rain-out and decreasing temperatures
Image courtesy of NASA. 4
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temperature Where Rv = 18O/16O ratio Rv
0 = initial 18O/16O ratio f = fraction of vapor remaining α = fractionation factor (~1.01)
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Decreasing temperature
Fraction of vapor remaining (f)
δ18o
of v
apor
or
liqui
d,%
0
-10
0
-20
-30
-40
-50
-60
0.8 0.6 0.4 0.2 0
Liquid
Vapor
Image by MIT OpenCourseWare.
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Spatial relationship in the modern world
Present climate (observed)
Mean ann. temp.(oC)
-60
-60
-80
0
-40
-40
-20
-20
20 400
δ18o(
% ) 0
Annual δ18o in precipitation in relation to mean annual temperature at the same site,based on data from the International Atomic Authority (Jouzel et al., 1994).
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Image by MIT OpenCourseWare.
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After Jouzel et al., 2007
Climate change over the last 1 Myr in Antarctic ice D
ecreasing temperature
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Climate change and GHGs
(kyr BP)
Climate Change 2007: The Physical Science Basis. Working Group I Contribution to the Fourth Assessment Reportof the Intergovernmental Panel on Climate Change, Figure 6.3. Cambridge University Press. Used with permission.
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Orbital changes thought to drive climate change on timescales of
10s of thousands of years
Eccentricity ~100 kyr
Obliquity (tilt) ~41 kyr
Precession ~22 kyr
Image courtesy of NASA. 10
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Image courtesy of Global Warming Art.
Precise links between orbital changes and glacial-interglacial
changes still debated
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Orbital changes amplified by GHG changes
The end of the last glacial period recorded in Antarctic ice. The warming starts before CO2 (and methane) rise, but CO2 rise is an important amplifier during the deglaciation. It is generally agreed that this CO2 is coming out of the deep ocean, but the mechanisms for this transfer are not agreed upon.
This image has been removed due to copyright restrictions. Please see: Figure 1, Monnin et al., Science 2001. on page, http://www.sciencemag.org/content/291/5501/112.full
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Climate change over the last 100,000 yrs in Greenland ice
This image has been removed due to copyright restrictions.
Please see Grootes, P. M. and M. Stuiver (1997), Oxygen 18/16 variability in Greenland snow and ice with 10−3- to 105-year time resolution.
J. Geophys. Res., 102(C12), 26,455–26,470, doi:10.1029/97JC00880.
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Greenland and Antarctica vary together from glacial to interglacial, but are out of phase during the abrupt climate changes of the last glacial period.
Relationship between temperature changes at the poles
Abrupt climate changes in Greenland are thought to accompany ocean circulation changes that redistribute heat to the southern hemisphere.
This image has been removed due to copyright restrictions. Please see Figure 2 on page http://www.ncdc.noaa.gov/paleo/pubs/jouzel2007/jouzel2007.html The image was published in Science, Vol. 317, No. 5839, pp.793-797, 10 August 2007. DOI: 10.1126/science.1141038.
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May have some relevance for future climate, though the warm high latitude temperatures appear to have been caused by high obliquity and eccentricity, not GHGs.
The last interglacial: High-latitude temperatures 3-5˚C warmer than today
This image has been removed due to copyright restrictions. Please see Figure 2 on page http://www.ncdc.noaa.gov/paleo/pubs/jouzel2007/jouzel2007.html The image was published in Science, Vol. 317, No. 5839, pp.793-797, 10 August 2007. DOI: 10.1126/science.1141038.
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Global sea levels likely at least 6.6 m higher than present (95% confidence), and less than 9.0 m higher (33% confidence) (Kopp et al., 2009)
The last interglacial: High-latitude temperatures 3-5˚C warmer than today
6 m of sea level rise implies substantial melting of both the Greenland and West Antarctic ice sheets.
This image has been removed due to copyright restrictions.
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The last 2000 years: temperature
Data primarily comes from: -tree rings -boreholes -lake sediments
Climate Change 2007: The Physical Science Basis. Working Group I Contributionto the Fourth Assessment Report of the Intergovernmental Panel on ClimateChange, Figure 6.11. Cambridge University Press. Used with permission.
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The last 2000 years: temperature
MCA LIA
MCA = Medieval Climatic Anomaly (aka Medieval Warm Period) LIA= Little Ice Age
Climate Change 2007: The Physical Science Basis. Working Group I Contribution to the Fourth Assessment Report ofthe Intergovernmental Panel on Climate Change, Figure 6.10. Cambridge University Press. Used with permission.
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What caused the Little Ice Age?
Coincides with increased volcanic activity and decreased solar irradiance
Climate Change 2007: The Physical Science Basis. Working Group I Contribution to the Fourth Assessment Report ofthe Intergovernmental Panel on Climate Change, Figure 6.13. Cambridge University Press. Used with permission.
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The last 2000 years: hydrologic variability
• North American Drought Atlas
Data point to important regional-scale hydrologic changes, e.g. drier conditions in the western U.S. during the MCA
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The last 2000 years: sea level rise
Kemp et al., PNAS 2011
This image has been removed due to copyright restrictions.
Please see Figure 2, Kemp et al., PNAS 2011 on page
http://www.pnas.org/content/early/2011/06/13/1015619108.full.pdf
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A few questions for paleo-records
• Are modern conditions and rates of change exceptional?
• What are the links between GHGs and climate?
• What nonlinear responses exist within the climate system?
• What climatic conditions characterized past warm climates and warmings?
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References Alley, R.B.. 2004. GISP2 Ice Core Temperature and Accumulation Data. IGBP PAGES/World Data Center for Paleoclimatology Data Contribution Series #2004-013. NOAA/NGDC Paleoclimatology Program, Boulder CO, USA.
Jouzel, J., et al. 2007. EPICA Dome C Ice Core 800KYr Deuterium Data and Temperature Estimates. IGBP PAGES/World Data Center for Paleoclimatology Data Contribution Series # 2007-091. NOAA/NCDC Paleoclimatology Program, Boulder CO, USA.
Kemp, A. C., Horton, B. P., Donnelly, J. P., Mann, M. E., Vermeer, M., & Rahmstorf, S. (2011). Climate related sea-level variations over the past two millennia. Proceedings of the National Academy of Sciences, 108(27), 11017. National Acad Sciences.
Lisiecki, L. (2005). Pliocene-Pleistocene stack of globally distributed benthic stable oxygen isotope records. doi: 10.1594/PANGAEA. 704257, Supplement to: Lisiecki, Lorraine E; Raymo, Maureen E (2005): A Pliocene-Pleistocene stack of 57 globally distributed benthic d18O records. Paleoceanography, 20.
Monnin, E. (2001). Atmospheric CO2 Concentrations over the Last Glacial Termination. Science, 291(5501), 112–114. doi:10.1126/science.291.5501.112
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