Glacier change modelling in the tropics · 14/41 Observes sea level rise 1993‐2010: 3.2 mm/year...
Transcript of Glacier change modelling in the tropics · 14/41 Observes sea level rise 1993‐2010: 3.2 mm/year...
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Glacier change modelling in the tropics
Georg Kaser
INARCH Kananaskis ‐ 24. Oktober 2015
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http://www.imaggeo.net/view/142
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ClimateMass & Energy
Masschange
Equilibrium Line Altitude ELA
Climate→ glacier
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… machines that turn weather into climate signals
… low pass filters, „but these filters come without a manual“B. Marzeion (Marzeion et al, TC 2012)
Glaciers are …
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SWSW LW
LW QS, QL
+-
GLACIER QG(20-30 levels)
+ / -
+-
+ / -
energy balance
SNOW
energy fluxes
sublimation, melt
mass fluxes
snowfall
©Mölg
Climate│Glacier: processes
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large scale drivers
micro scale processes
meso scale conditions
Kibo, SIF, AWS3 (5850 m asl), 2007
Glacier ‐ atmosphere
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Kibo
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Kibo, NIF AWS1, 2005
Glacier ‐ atmosphere
Modelled turbulent fluxes (bulk method) compared well to eddy covariance data. Modelled sublimation accounted for about 90% of observed ablation
26–29 July 2005
Cullen et al, AnnGlac (2007)
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GCM
downscaling
downscaling
ATMOSPHERE
Glacier ‐ Atmosphere
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Cloud mixing ratio with (left) WET and (right) DRY forcing
Mölg et al., QJRMS (2009)
Regional circulation
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Dynamical „downscaling“
Mölg und Kaser JGR (2011)
AWS forcingLAM forcing
0 100 200 300 400 500 600 700hour of month
-40
-20
0
20
40
mas
s bu
dget
(kg
m2
) wet (April 2006)
dry (August 2005)
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Möl
g et
al.,
TC
(201
2)
Monsoon onset
Zhadang Glacier (central Tibet, 30° N)
Partitioning the contributors to MB
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+ Cordillera BlancaRwenzori +
+ Kilimanjaro
Mt. Kenya+
Irian Jaya +
hygric seasonality – circulation patterns (modes)
Glaciers as climate‐meters
ENSOIOZMENSO
ENSO
Asian Monsoon+ Alps
NAO
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Observes sea level rise 1993‐2010: 3.2 mm/year
Data from Table 13.1
IPCC AR5 WG1 Ch.13 (2013)
Thermal expansion: 38%
Glaciers: 28%
Greenl. Ice Sheet: 10%
Antarct. Ice Sheet: 10%
Land water stor.: 14%
Total : 100%
Obs. GMSLR: 110%
Distributed MB modeling
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Gurgiser et al. TC (2013)
SH11SH22
Glaciar Shallap, Cordillera Blanca
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Gur
gise
r et a
l.TC
2013
Glaciar ShallapDistributed MB modeling
Daily snow fall and disaperance
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Gurgiser et al. JoG (2013)
Glaciar ShallapPoint comparison
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Finsterwalder (1897)
Stream lineslayersacc. abl.
Back to the „Lab “: Hintereisferner
Blümcke, A. and H. Hess (1899)
1880s
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Mau
ssio
net
al.
TCD
(201
5)
Seasonal mass balance and ENSO
regression‐based downscaling model that links the local SEB/SMB fluxes to atmospheric reanalysis variables on a monthly basis