Il ghiaccio e i cambiamenti climatici

Associazione Galileo 2001 Convegno Clima, Energia, Società Roma, 13 e 14, ottobre 2009 Il ghiaccio e i cambiamenti climatici Massimo Frezzotti massimo.frezzotti@enea.it ENEA, Roma, Italy Programma Nazionale di Ricerche in Antartide www.taldice.org

Sommario 1. I ghiacci polari come archivio naturale della storia del clima nell ultimo milione di anni. 2. I ghiacci continentali ed il livello dei mari 3. Il ghiaccio marino componente fondamentale nell'equilibrio climatico/ambientale

Paleoclimatology: Natural Archives PCM PEG Moberg et al. (2005) 0 200 400 600 800 1000 1200 1400 1600 1800 2000

PALEO-GLACIOLOGY: ICE, CO 2 & TEMPERATURE >35 Myr CO 2 1250±250 ppm Sea level +73 m Pre-industraila Era CO 2 280 ppm Sea level 0 m around 32 Myr CO 2 500±150 ppm Sea level +45±5 m LGM 21 kyr CO 2 185 ppm Sea level -130±10 m t Alley et al., 2005 Relation between estimated atmospheric CO 2 and the ice contribution to eustatic sea level indicated by geological archives and referenced to modern (pre-industrial Era) conditions.

Greenhouse gases the long-term perspective Jouzel et al., 2007, Petit et al., 1999, Lüthi et al., 2008, Loulergue et al., 2008, Schilt et al., 2009 Dome C, Vostok Higher greenhouse gas concentrations during warm climate periods. Seasonal and latitudinal variations in insolation due to changes in Earth's orbit. Strength of major warming implies amplification through albedo and greenhouse gas changes t

CO 2, CH 4 & TEMPERATURE!D CO 2 CH 4 CO 2 concentrations lagged Antarctic warming from 800±200 to 600±400 years No doubt on the strong coupling of CO 2 and temperature CO 2 and albedo key amplification factor of the large temperature variations of glacial-interglacial cycles Monin et al., 2001; Fisher et al., 2005; Siegenthaler et al., 2005 t

CO 2, CH 4 & TEMPERATURE MBE!"#$%&'()*&$ +(,-(. 300!"#$%&'()*&$ 170 750!"#$%&'()*&$ 350 No analog of present-day values during the last 800 kyr CO 2 (and CH 4, except MIS 19) show lower interglacial concentrations before 400 kyr BP CO 2 dominated by Southern Ocean (mixing, iron fertilization) t Siegenthaler et al, 2005 ; Spahni et al., 2005 ; Lüthi et al., 2008 ; Loulergue et al., 2008

CH 4 1750 ppbv +135%!CO 2 105 ppmv (280-385) +37% +(,-(. CO 2, CH 4 & TEMPERATURE 300 MBE!"#$%&'()*&$!"#$%&'()*&$!T T ~ 12 C!CO 2 130 ppmv 170 750!"#$%&'()*&$!CH 4 400 ppbv 350 No analog of present-day values during the last 800 kyr CO 2 (and CH 4, except MIS 19) show lower interglacial concentrations before 400 kyr BP CO 2 dominated by Southern Ocean (mixing, iron fertilization) t Siegenthaler et al, 2005 ; Spahni et al., 2005 ; Lüthi et al., 2008 ; Loulergue et al., 2008

CO 2 Amplitude and period variability in natural and anthropogenic condition Greatest CO 2 preindustrial rate is 3.6 ppm/century from 14.6 kyr BP to 14.3 kyr BP 20 times smaller than the average rate of 71 ppm/century during 20th century. Joos & Spahni, 2008

RAPID EVENT IN GREENLAND t HO YD YD B/A B/A t HE1 Sequence of rapid events during last deglaciation (Greenland ice core) Low latitude trigger, (dust changes first) ; deuterium excess transition in 1-3 years Steffensen et al, 2008

! Dcorr [ / ] -410-430 -450! 18 Ocorr [ / ] CH4 [ppbv] -43-46 -49-52 Greenland 800 650 500 350 ACR AIM 1 DO1 H1 AIM 2 AIM 4 5 4.1 6 3 AIM 8 3 4 5 6 7 DO8 DO12 10 11 2 9 H2 H3 H4 H5 4.1 EDML 10000 20000 30000 40000 50000 60000 NGRIP age [yr BP] 7 9 10 11 AIM 12 EDC NorthGRIP Greenland CH 4 composite EDML -44-48 -52-33 -37-41 -45 Tsurf [ C]! 18 O [ / ] 3.0 2.0 1.0 0.0 9 3 7 10 6 4.1 5 11 12 500 1000 1500 2000 NGRIP stadial duration [yr] Every rapid warming in Greenland (D/O) has a counterpart in Antarctica (AIM) Antarctica warms up when Greenland is cold and vice versa Antarctica (AIM) temperature amplitude linearly related to duration of subsequent D/O event EPICA Community Members, 2006 Antarctica t EDML! Tsurf [ C] BIPOLAR SEESAW 4 8

outgoing longwave radiation BIPOLAR SEESAW net radiation Sud Nord outgoing longwave radiation!"##$%&$' ($)&"*)+*& Stocker, 2003 t

McCarty Glacier, Alaska

Gurglerferner (Austria, Oetztal) 1932 2003 Similaun Glacier, Ozti mummy, 5350 yr BP

Kilimangiaro, Africa 1993 2000

Upsala Glacier, Argentina, Patagonia

CLIMATE SIGNAL FROM 169 GLACIER RECORDS t Oerlemans, 2005

ca 4000 km

ICE DISCHARGE 110±70 Gt/yr in 1960s near balance in 1970s 1980s 97±47 Gt/yr in 1996 267±38 Gt/yr in 2007 3.00E+07 2.50E+07 2.00E+07 GREENLAND 1987 Total Melt Area April - October 1991 1995 1998 2002 2005 2007 1.50E+07 1983 1.00E+07 1992 1996 t 5.00E+06 1978 1983 1988 1993 1998 2003 2008 Year Area of summer melting is increasing Melt water rapidly migrates to the ice sheet base and enhances basal sliding and accelerating ice discharge Increasing summer temperatures, more melt water, and greater ice acceleration. Zwally et al., 2002; Rignot et al., 2008

Temperature over the Antarctic Peninsula has risen 2.5 C in the past 50 yr (Turner et al., 2005). Many glaciers of Peninsula and Amundsen Sea are accelerating (doubling) and thinning (up to 9 m yr- 1 ) ANTARCTICA Rapid disintegration or collapse of Antarctic Peninsula and Amundsen Sea ice shelves due to atmospheric and ocean warming. Larsen B ice shelf collapsed in 3 weeks after 10,000 years of existence. Larsen B Feb 2002 (de Angelis & Skvarca, 2003; Domack et al., 2005; Prichard et al., 2009)

ICE SHEET MASS BALANCE AND SEA LEVEL RISE GREENLAND ANTARCTICA Allison et al., 2009

19th AND 20th CENTURY SEA LEVEL RISE Satellite altimetry Bindoff et al., 2007 3.2 ± 0.3 mm yr -1 Holgate and Woodworth, 2004 1.8 ± 0.3 mm yr -1 Church et al., 2004, 2006 Current sea level rise has occurred at a mean rate of 1.8 ± 0.3 mm per year for the past century, and more recently at rates estimated to 3.2 ± 0.3 mm per year. Sea level acceleration up to the present appears to have started at the end of the 18th century (Jevrejeva et al., 2008).

SEA LEVEL RISE SINCE LAST GLACIAL MAXIMUM from roman time to pre-industrial SLR >0.1 mm yr -1 last century SLR 1.8 mm yr -1 Today SLR 3.2 mm yr -1 10 times current rate MWP1A SLR 0 mm yr -1 t Last Glacial Maximum eustatic sea level -125±5 m, twice the present volume of Greenland and Antarctic Ice Sheets. Sea level rise about 20 m in 500 yr (40 mm yr -1 ) during MWP1A caused by ice-sheet instability Sea level rise slowly (0.13±0.09 m or 0.06 mm yr -1 ) from 2000 years ago until 19th century (Lambeck et al., 2004; Clarke et al., 2009).

max min North Pole Sea ice extent: max 12 M km 2 min 4 M km 2 Ice sheet: Greenland min max South Pole Sea ice extent: max 20 M km 2 min 4 M km 2 Ice sheet: Antarctica

Arctic Antarctica

ARCTIC SEA ICE EXTENSION: IPCC simulation vs observations 2009 2007 2008 (modified from Stroeve et al., 2007)

Grazie per la vostra attenzione massimo.frezzotti@enea.it