High variability of Greenland temperature over the past
High variability of Greenland temperature over the past 4000 years estimated from trapped air in an ice core Santa Fe conference November 2, 2011 Takuro Kobashi National Institute of Polar Research (NIPR)
Acknowledgements Recent collaborators; �Kenji Kawamura; NIPR �Jeffrey P. Severinghaus; Scripps �Bo M. Vinther; CIC �Sigfús J. Johnsen; CIC �Jean-Marc Barnola; LGGE �Toshiyuki Nakaegawa; MRI �Jason E. Box; Byrd Polar Research Center �Drew T. Shindell; NASA GISS �Ayako Abe-Ouchi; University of Tokyo �Masakazu Yoshimori; University of Tokyo
Contents �Background �Reconstructed Greenland temperature over the past 1000 and 4000 years �Placing the preset Greenland temperature into a 4000 -year context �Possible mechanisms of Greenland temperature variation over 1000 years (unpublished slides are deleted. )
Background: Greenland temperature �Recent record high temperature in Greenland is accelerating melting of the ice sheet. � 4 -23% of global sea level rise for the period of 1993 -2005 is from Greenland. �Regional climate variability such as the North Atlantic Oscillation/Arctic Oscillation (NAO/AO) and the Atlantic Multi-decadal Oscillation (AMO) affect Greenland temperature change. �Causes of decadal Greenland temperature variation has not been well understood. Too short observational records to understand multidecadal to centennial variation!
Why is a new method necessary for Greenland temperature? �Oxygen isotope of ice (d 18 Oice) Affected by changes in temperature of moisture source regions, moisture transport, pathways and precipitation seasonality. �Temperature reconstruction from borehole thermometry Accurate but accurate but rapidly loses temporal resolution with increasing age into the past, owing to heat diffusion in iceasheets We need better way to reveal past temperature from
Gas fractionation in firn (snow layer) Gravitation Thermal diffusion T 1 Heavier gasses move downward Firn (snow: ~60 m thick) GISP 2 ice core T 2 Heavier gasses move upward when T 1 is colder than T 2. DT = T 1 -T 2 Ice Surface temperature can be calculated by DT using firn densification / heat diffusion model. Kobashi et al. Climatic Change
Isotopic fractionation of nitrogen (15/14) and argon (40/36) �d 15 Nobs = d 15 Ngrav + d 15 Ntherm �d 40 Arobs = d 40 Argrav + d 40 Artherm �d 15 Ngrav = d 40 Argrav/4 �d 15 Ntherm = 15 ×DT; d 40 Artherm = 40 ×DT Therefore, DT (°C) = (d 15 Nobs - d 40 Ar/4 obs)/0. 0047 DT can be used for reconstructing surface temperature change combined with firn densification and heat diffusion Kobashi et al. Climatic Change model.
Data The total number of samples is 1006 for 670 depths. Resolution = < 20 years. d 15 N d 40 Ar Kobashi et al. , GCA, 2008.
Greenland temperature
North Atlantic Oscillation Positive NAO Negative NAO Changes in solar activity in a multi-decadal time scale may induce NAO-like atmospheric pattern (Shindell et al. , 2001). From Raymond W. Schmitt
Greenland temperatures over the 1000 years Medieval Warm Period Little Ice Age Kobashi et al. , Climatic Change,
Placing the present into a 4000 year context Current decadal average temperature in Greenland is not outside of natural variability of the past 4000 years. Kobashi et al. GRL in
Comparison with oxygen isotopes of ice • Reconstructed temperature (GISP 2) • Borehole temperature reconstruction • Ice sheet elevation change GISP 2; r = 0. 41 with temp. NGRIP; r = 0. 57 with temp. GRIPS; r = 0. 51 with temp. Kobashi et al. GRL in
Conclusions �Multi-decadal to centennial temperature variations in Greenland is reconstructed for the past 4000 years from occluded air in ice core. �Present decadal temperature in Greenland is not beyond the envelope of natural variability of the 4000 years.
- Slides: 14