References
1
IPCC (2007). Climate Change 2007: the Physical Science Basis, Sum-
11
DeWeaver, E. and Bitz, C.M. (2006). Atmospheric circulation and
mary for Policymakers. Intergovernmental Panel on Climate Change. its effect on Arctic sea ice in CCM3 simulations at medium and high
http://www.ipcc.ch/SPM2feb07.pdf [Accessed 6 April 2007] resolution. J. Climate, 19, 2415-2436
2
Fagan, B. (2000). The Little Ice Age. Basic Books, New York
12
Turner, J., Lachlan-Cope, T.A., Colwell, S., Marshall, G.J. and Con-
nolley, W.M. (2006). Significant warming of the Antarctic winter tropo-
3
National Research Council (2006). Surface Temperature Reconstructions sphere. Science, 311: 1914-1917
for the Last 2,000 Years. National Academies Press, Washington D.C.
13
Goosse, H., and Raenssen, H. (2005). A simulated reduction in
4
CRU (2007). CRUTEM3v dataset. Climate Research Unit, University Antarctic sea ice since 1750: implications of the long memory of the
of East Anglia. http://www.cru.uea.ac.uk/cru/data/temperature [Ac- ocean. Int. J. Climatol., 25, 569-579.
cessed 6 April 2007]
14
Limpasuvan, V. and Hartmann, D.L. (2000). Wave-maintained an-
5
Overland, J.E., Spillane, M. and Soreide, N.N. (2004). Integrated nular modes of climate variability. J. Climate, 13, 4414-4429
analysis of physical and biological pan-Arctic change. Clim. Change,
63(3), 291-322
15
Holland, M.M., Bitz, C.M. and Tremblay, B. (2006). Future abrupt re-
ductions in the summer Arctic sea ice. Geophys. Res. Lett., 33, L23503
6
Overland, J.E., and Wang, M. (2005). The third Arctic climate pat-
tern: 1930s and early 2000s. Geophys. Res. Lett., 32(23), L23808
16
Francis, J.A., and Hunter, E. (2006). New insight into the disappear-
ing Arctic Sea Ice. Eos Trans. AGU, 87, 509
7
Serreze, M.C. and Francis, J.A. (2005). The Arctic amplification de-
bate. Climatic Change, 76, 241-264
17
Chapin III, F.S., Sturm, M., Serreze, M.C., McFadden, J.P., Key, J.R.,
Lloyd, A.H., McGuire, A.D., Rupp, T.S., Lynch, A.H., Schimel, J.P.,
8
Hansen, J., Sato, M., Ruedy, R., Lo, K., Lea, D.W. and Medina-Elizade, Beringer, J., Chapman, W.L., Epstein, H.E., Euskirchen, E.S., Hinz-
M. (2006). Global temperature change. Proc. Natl. Acad. Sci., 103, man, L.D., Jia, G., Ping, C.L., Tape, K.D., Thompson, C.D.C., Walker,
14288-14293 D.A. and Welker, J.M. (2005). Role of land surface changes in Arctic
summer warming. Science, 310, 657-660
9
NOAA/ESRL (2007). Climate composites. NOAA/ESRL Physical Sci-
ences Division, Boulder, CO. http://www.cdc.noaa.gov/cgi-bin/Com-
posites/printpage.pl [Accessed 6 April 2007]
10
Wang, M., Overland, J.E., Kattsov, V., Walsh, J.E., Zhang, X. and
Pavlova, T. (2007). Intrinsic versus forced variation in coupled climate
model simulations over the Arctic during the 20th century. J. Climate,
20(6), 1093-1107
38 GLOBAL OUTLOOK FOR ICE AND SNOW
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