Citation:

ngeo2994

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Abstract:

Ongoing and future space missions aim to identify potentially habitable planets in our Solar System and beyond. Planetary habitability is determined not only by a planet's current stellar insolation and atmospheric properties, but also by the evolutionary history of its climate. It has been suggested that icy planets and moons become habitable after their initial ice shield melts as their host stars brighten. Here we show from global climate model simulations that a habitable state is not achieved in the climatic evolution of those icy planets and moons that possess an inactive carbonate-silicate cycle and low concentrations of greenhouse gases. Examples for such planetary bodies are the icy moons Europa and Enceladus, and certain icy exoplanets orbiting G and F stars. We find that the stellar fluxes that are required to overcome a planet's initial snowball state are so large that they lead to significant water loss and preclude a habitable planet. Specifically, they exceed the moist greenhouse limit, at which water vapour accumulates at high altitudes where it can readily escape, or the runaway greenhouse limit, at which the strength of the greenhouse increases until the oceans boil away. We suggest that some icy planetary bodies may transit directly to a moist or runaway greenhouse without passing through a habitable Earth-like state.

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Parameter(s):

#	Name	Short Name	Unit	Principal Investigator
1	File content	Content		Yang, Jun
2	File name	File name		Yang, Jun
3	File format	File format		Yang, Jun
4	File size	File size	kByte	Yang, Jun
5	Uniform resource locator/link to file	URL file		Yang, Jun

License:

Creative Commons Attribution 3.0 Unported (CC-BY-3.0)

Size:

420 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

1 Content	2 File name	3 File format	4 File size [kByte]	5 URL file
Sourecode files	cam31p2_gpc	F90	3219	cam31p2_gpc.zip
Sourecode files	glacierball2	F90	7812	glacierball2.zip
Sourecode files	glacierball3	F90	1212	glacierball3.zip
model result	T1_Gstar_Obli00_S1700_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean	NetCDF	126	T1_Gstar_Obli00_S1700_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean.nc
model result	T2_Fstar_Obli00_S2100_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean	NetCDF	60	T2_Fstar_Obli00_S2100_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean.nc
model result	T3_Kstar_Obli00_S1300_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean	NetCDF	308	T3_Kstar_Obli00_S1300_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean.nc
model result	T4_Gstar_Obli00_S1360_C01_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean	NetCDF	316	T4_Gstar_Obli00_S1360_C01_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean.nc
model result	T5_Gstar_Obli00_S1600_snowball_to_icefree.cam2.h0.0100-0109.avg	NetCDF	32367	T5_Gstar_Obli00_S1600_snowball_to_icefree.cam2.h0.0100-0109.avg.nc
model result	T5_Gstar_Obli00_S1600_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean	NetCDF	336	T5_Gstar_Obli00_S1600_snowball_to_icefree.cam2.h0.64x128.time_lev.global_mean.nc
model result	Ta_fT5_Gs_Obli00_S1600_Ciceliqx2.cam2.h0.64x128.time_lev.global_mean	NetCDF	50	Ta_fT5_Gs_Obli00_S1600_Ciceliqx2.cam2.h0.64x128.time_lev.global_mean.nc
model result	Tb_fT5_Gs_Obli00_S1600_Ciceliqx05.cam2.h0.64x128.time_lev.global_mean	NetCDF	140	Tb_fT5_Gs_Obli00_S1600_Ciceliqx05.cam2.h0.64x128.time_lev.global_mean.nc
model result	Tf_startup_Gs_Obli00_S1600_Grav1p3.cam2.h0.64x128.time_lev.global_mean	NetCDF	62	Tf_startup_Gs_Obli00_S1600_Grav1p3.cam2.h0.64x128.time_lev.global_mean.nc
model result	Tg_startup_Gs_Obli00_S1600_Grav1p3_Radix0p245.cam2.h0.64x128.time_lev.global_mean	NetCDF	132	Tg_startup_Gs_Obli00_S1600_Grav1p3_Radix0p245.cam2.h0.64x128.time_lev.global_mean.nc
model result	Th_startup_Gs_Obli00_S1600_Grav4p9_Radix0p5.cam2.h0.64x128.time_lev.global_mean	NetCDF	152	Th_startup_Gs_Obli00_S1600_Grav4p9_Radix0p5.cam2.h0.64x128.time_lev.global_mean.nc
model result	Tm_fT5_Gs_Obli00_S1600_Radix0p245.cam2.h0.0100-0109.avg	NetCDF	32365	Tm_fT5_Gs_Obli00_S1600_Radix0p245.cam2.h0.0100-0109.avg.nc
model result	Tm_fT5_Gs_Obli00_S1600_Radix0p245.cam2.h0.64x128.time_lev.global_mean	NetCDF	140	Tm_fT5_Gs_Obli00_S1600_Radix0p245.cam2.h0.64x128.time_lev.global_mean.nc
model result	Tn_fT5_Gs_Obli00_S1600_Radix0p5.cam2.h0.64x128.time_lev.global_mean	NetCDF	104	Tn_fT5_Gs_Obli00_S1600_Radix0p5.cam2.h0.64x128.time_lev.global_mean.nc
model result	To_startup_Gs_Obli00_S1600_Grav4p9.cam2.h0.64x128.time_lev.global_mean	NetCDF	100	To_startup_Gs_Obli00_S1600_Grav4p9.cam2.h0.64x128.time_lev.global_mean.nc
model result	a1gpc_997glacier_S800_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	a1gpc_997glacier_S800_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	b1_fa1gpc_997glacier_S1000_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	b1_fa1gpc_997glacier_S1000_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	b3_fa1gpc_997glacier_S1200_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	b3_fa1gpc_997glacier_S1200_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	b5_fa1gpc_997glacier_S1400_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	b5_fa1gpc_997glacier_S1400_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	b7_fa1gpc_997glacier_S1600_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	b7_fa1gpc_997glacier_S1600_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	f2ff1_gla3_Ic55Sn85_Zlnd0005_Fs1400.cam2.h0.1x64x128.ann-mean	NetCDF	31453	f2ff1_gla3_Ic55Sn85_Zlnd0005_Fs1400.cam2.h0.1x64x128.ann-mean.nc
model result	f3_fe3gpc_e03_997glacier_S1500_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	f3_fe3gpc_e03_997glacier_S1500_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	f3ff1_gla3_Ic55Sn85_Zlnd0005_Fs1800.cam2.h0.1x64x128.ann-mean	NetCDF	31453	f3ff1_gla3_Ic55Sn85_Zlnd0005_Fs1800.cam2.h0.1x64x128.ann-mean.nc
model result	f4_fe3gpc_e03_997glacier_S1600_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	f4_fe3gpc_e03_997glacier_S1600_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	f4ff1_gla3_Ic55Sn85_Zlnd0005_Fs2200.cam2.h0.1x64x128.ann-mean	NetCDF	31453	f4ff1_gla3_Ic55Sn85_Zlnd0005_Fs2200.cam2.h0.1x64x128.ann-mean.nc
model result	f5_fe3gpc_e03_997glacier_S1700_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	f5_fe3gpc_e03_997glacier_S1700_Obli00_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	f8ff1_gla3_Ic55Sn85_Zlnd0005_Fs1200.cam2.h0.1x64x128.ann-mean	NetCDF	31453	f8ff1_gla3_Ic55Sn85_Zlnd0005_Fs1200.cam2.h0.1x64x128.ann-mean.nc
model result	f9ff1_gla3_Ic55Sn85_Zlnd0005_Fs1600.cam2.h0.1x64x128.ann-mean	NetCDF	31453	f9ff1_gla3_Ic55Sn85_Zlnd0005_Fs1600.cam2.h0.1x64x128.ann-mean.nc
model result	faff1_gla3_Ic55Sn85_Zlnd0005_Fs2000.cam2.h0.1x64x128.ann-mean	NetCDF	31453	faff1_gla3_Ic55Sn85_Zlnd0005_Fs2000.cam2.h0.1x64x128.ann-mean.nc
model result	g6_ff1gpc_997glacier_S2000_Obli00_Gla70_Ice70_noSZA_Fstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	g6_ff1gpc_997glacier_S2000_Obli00_Gla70_Ice70_noSZA_Fstar.cam2.h0.1x64x128.ann-mean.nc
model result	g7_ff1gpc_997glacier_S2200_Obli00_Gla70_Ice70_noSZA_Fstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	g7_ff1gpc_997glacier_S2200_Obli00_Gla70_Ice70_noSZA_Fstar.cam2.h0.1x64x128.ann-mean.nc
model result	g8_ff1gpc_997glacier_S2400_Obli00_Gla70_Ice70_noSZA_Fstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	g8_ff1gpc_997glacier_S2400_Obli00_Gla70_Ice70_noSZA_Fstar.cam2.h0.1x64x128.ann-mean.nc
model result	h1_gla3_fgla2_Ic50Sn80_Zlnd0005_Gs1000.cam2.h0.1x64x128.ann-mean	NetCDF	31453	h1_gla3_fgla2_Ic50Sn80_Zlnd0005_Gs1000.cam2.h0.1x64x128.ann-mean.nc
model result	h3fh1_gla3_Ic50Sn80_Zlnd0005_Gs1600.cam2.h0.1x64x128.ann-mean	NetCDF	31453	h3fh1_gla3_Ic50Sn80_Zlnd0005_Gs1600.cam2.h0.1x64x128.ann-mean.nc
model result	h8fh1_gla3_Ic50Sn80_Zlnd0005_Gs1200.cam2.h0.1x64x128.ann-mean	NetCDF	31453	h8fh1_gla3_Ic50Sn80_Zlnd0005_Gs1200.cam2.h0.1x64x128.ann-mean.nc
model result	h9fh1_gla3_Ic50Sn80_Zlnd0005_Gs1400.cam2.h0.1x64x128.ann-mean	NetCDF	31453	h9fh1_gla3_Ic50Sn80_Zlnd0005_Gs1400.cam2.h0.1x64x128.ann-mean.nc
model result	hcfh1_gla3_Ic50Sn80_Zlnd0005_Gs1800.cam2.h0.1x64x128.ann-mean	NetCDF	31453	hcfh1_gla3_Ic50Sn80_Zlnd0005_Gs1800.cam2.h0.1x64x128.ann-mean.nc
model result	i1_S1600_997glacier_Obli00_Gla60_Ice60_noSZA_Fstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	i1_S1600_997glacier_Obli00_Gla60_Ice60_noSZA_Fstar.cam2.h0.1x64x128.ann-mean.nc
model result	i2_S1700_997glacier_Obli00_Gla60_Ice60_noSZA_Fstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	i2_S1700_997glacier_Obli00_Gla60_Ice60_noSZA_Fstar.cam2.h0.1x64x128.ann-mean.nc
model result	i2_gla3_fgla2_Ic40Sn70_Zlnd0005_Gs1400.cam2.h0.1x64x128.ann-mean	NetCDF	31453	i2_gla3_fgla2_Ic40Sn70_Zlnd0005_Gs1400.cam2.h0.1x64x128.ann-mean.nc
model result	i3fi2_gla3_fgla2_Ic40Sn70_Zlnd0005_Gs1500.cam2.h0.1x64x128.ann-mean	NetCDF	31453	i3fi2_gla3_fgla2_Ic40Sn70_Zlnd0005_Gs1500.cam2.h0.1x64x128.ann-mean.nc
model result	i4fi2_gla3_fgla2_Ic40Sn70_Zlnd0005_Gs1600.cam2.h0.1x64x128.ann-mean	NetCDF	31453	i4fi2_gla3_fgla2_Ic40Sn70_Zlnd0005_Gs1600.cam2.h0.1x64x128.ann-mean.nc
model result	j1_gla3_Ic50Sn80_Zlnd0005_Gs1600_EarthPHIS.cam2.h0.1x64x128.ann-mean	NetCDF	31453	j1_gla3_Ic50Sn80_Zlnd0005_Gs1600_EarthPHIS.cam2.h0.1x64x128.ann-mean.nc
model result	j2fj1_gla3_Ic50Sn80_Zlnd0005_Gs1700_EarthPHIS.cam2.h0.1x64x128.ann-mean	NetCDF	31453	j2fj1_gla3_Ic50Sn80_Zlnd0005_Gs1700_EarthPHIS.cam2.h0.1x64x128.ann-mean.nc
model result	j3fj1_gla3_Ic50Sn80_Zlnd0005_Gs1800_EarthPHIS.cam2.h0.1x64x128.ann-mean	NetCDF	31453	j3fj1_gla3_Ic50Sn80_Zlnd0005_Gs1800_EarthPHIS.cam2.h0.1x64x128.ann-mean.nc
model result	k2_997glacier_S1100_Obli00_Gla40_Ice40_noSZA_Kstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	k2_997glacier_S1100_Obli00_Gla40_Ice40_noSZA_Kstar.cam2.h0.1x64x128.ann-mean.nc
model result	k3_997glacier_S1000_Obli00_Gla40_Ice40_noSZA_Kstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	k3_997glacier_S1000_Obli00_Gla40_Ice40_noSZA_Kstar.cam2.h0.1x64x128.ann-mean.nc
model result	l3_fk1gpc_997glacier_S1100_Obli00_Gla50_Ice50_noSZA_Kstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	l3_fk1gpc_997glacier_S1100_Obli00_Gla50_Ice50_noSZA_Kstar.cam2.h0.1x64x128.ann-mean.nc
model result	l4_fk1gpc_997glacier_S1200_Obli00_Gla50_Ice50_noSZA_Kstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	l4_fk1gpc_997glacier_S1200_Obli00_Gla50_Ice50_noSZA_Kstar.cam2.h0.1x64x128.ann-mean.nc
model result	l5_fk1gpc_997glacier_S1300_Obli00_Gla50_Ice50_noSZA_Kstar.cam2.h0.1x64x128.ann-mean	NetCDF	31453	l5_fk1gpc_997glacier_S1300_Obli00_Gla50_Ice50_noSZA_Kstar.cam2.h0.1x64x128.ann-mean.nc
model result	mean_camdomcntl.cam2.h0.0029-avg	NetCDF	29272	mean_camdomcntl.cam2.h0.0029-avg.nc
model result	o1_gla3_fgla2_Ic50Sn80_Zlnd0005_Gs1500_Obli30.cam2.h0.1x64x128.ann-mean	NetCDF	31453	o1_gla3_fgla2_Ic50Sn80_Zlnd0005_Gs1500_Obli30.cam2.h0.1x64x128.ann-mean.nc
model result	o1gpc_997glacier_S1600_Obli30_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	o1gpc_997glacier_S1600_Obli30_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	p09fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_Ricex2_1650.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p09fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_Ricex2_1650.cam2.h0.1x64x128.ann-mean.nc
model result	p10fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_Ricex2_1800.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p10fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_Ricex2_1800.cam2.h0.1x64x128.ann-mean.nc
model result	p11fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_Ricex05_1750.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p11fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_Ricex05_1750.cam2.h0.1x64x128.ann-mean.nc
model result	p12fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_Ricex05_1850.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p12fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_Ricex05_1850.cam2.h0.1x64x128.ann-mean.nc
model result	p15fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_eccen03_1750.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p15fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_eccen03_1750.cam2.h0.1x64x128.ann-mean.nc
model result	p16fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_eccen03_1650.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p16fh1_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_eccen03_1650.cam2.h0.1x64x128.ann-mean.nc
model result	p17_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_R3186km_1800.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p17_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_R3186km_1800.cam2.h0.1x64x128.ann-mean.nc
model result	p19_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_R1561km_1850.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p19_gla3_Gs1000_Ic50Sn80_Zlnd0005_h2osno100_R1561km_1850.cam2.h0.1x64x128.ann-mean.nc
model result	p30_gla3_Ic50Sn80_Zlnd0005_h2osno100_10barN2_S1500_AdCO2.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p30_gla3_Ic50Sn80_Zlnd0005_h2osno100_10barN2_S1500_AdCO2.cam2.h0.1x64x128.ann-mean.nc
model result	p31_gla3_Ic50Sn80_Zlnd0005_h2osno100_10barN2_S1600_AdCO2.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p31_gla3_Ic50Sn80_Zlnd0005_h2osno100_10barN2_S1600_AdCO2.cam2.h0.1x64x128.ann-mean.nc
model result	p32_gla3_Ic50Sn80_Zlnd0005_h2osno100_10barN2_S1700_AdCO2.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p32_gla3_Ic50Sn80_Zlnd0005_h2osno100_10barN2_S1700_AdCO2.cam2.h0.1x64x128.ann-mean.nc
model result	p33_gla3_Ic50Sn80_Zlnd0005_h2osno100_10barN2_S1800_AdCO2.cam2.h0.1x64x128.ann-mean	NetCDF	31453	p33_gla3_Ic50Sn80_Zlnd0005_h2osno100_10barN2_S1800_AdCO2.cam2.h0.1x64x128.ann-mean.nc
model result	q1fo1_gla3_fgla2_Ic50Sn80_Zlnd0005_Obli30_Gs1900.cam2.h0.1x64x128.ann-mean	NetCDF	31453	q1fo1_gla3_fgla2_Ic50Sn80_Zlnd0005_Obli30_Gs1900.cam2.h0.1x64x128.ann-mean.nc
model result	q2fo1_gla3_fgla2_Ic50Sn80_Zlnd0005_Obli30_Gs1800.cam2.h0.1x64x128.ann-mean	NetCDF	31453	q2fo1_gla3_fgla2_Ic50Sn80_Zlnd0005_Obli30_Gs1800.cam2.h0.1x64x128.ann-mean.nc
model result	s1_fo1gpc_997glacier_S1800_Obli30_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	s1_fo1gpc_997glacier_S1800_Obli30_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	s2_fo1gpc_997glacier_S1900_Obli30_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean	NetCDF	31453	s2_fo1gpc_997glacier_S1900_Obli30_Gla60_Ice60_noSZA.cam2.h0.1x64x128.ann-mean.nc
model result	t2_PS10bar_997gla_Gla60_Ice60_S1600_AdCO2.cam2.h0.1x64x128.ann-mean	NetCDF	31453	t2_PS10bar_997gla_Gla60_Ice60_S1600_AdCO2.cam2.h0.1x64x128.ann-mean.nc
model result	x8_997glacier_S1800_Obli00_Gla60_Ice60_noSZA_C3.cam2.h0.1x64x128.ann-mean	NetCDF	31458	x8_997glacier_S1800_Obli00_Gla60_Ice60_noSZA_C3.cam2.h0.1x64x128.ann-mean.nc
model result	xb_997glacier_S1500_Obli00_Gla60_Ice60_noSZA_C3000.cam2.h0.1x64x128.ann-mean	NetCDF	31458	xb_997glacier_S1500_Obli00_Gla60_Ice60_noSZA_C3000.cam2.h0.1x64x128.ann-mean.nc
model result	xe_997glacier_S1600_Obli00_Gla60_Ice60_noSZA_C300.cam2.h0.1x64x128.ann-mean	NetCDF	31458	xe_997glacier_S1600_Obli00_Gla60_Ice60_noSZA_C300.cam2.h0.1x64x128.ann-mean.nc
model result	xm_997glacier_S1400_Obli00_Gla60_Ice60_noSZA_C30000.cam2.h0.1x64x128.ann-mean	NetCDF	31458	xm_997glacier_S1400_Obli00_Gla60_Ice60_noSZA_C30000.cam2.h0.1x64x128.ann-mean.nc
model result	xx_997glacier_S1300_Obli00_Gla60_Ice60_noSZA_C100000.cam2.h0.1x64x128.ann-mean	NetCDF	31458	xx_997glacier_S1300_Obli00_Gla60_Ice60_noSZA_C100000.cam2.h0.1x64x128.ann-mean.nc
model result	y2_997glacier_S2000_Obli00_Gla80_Ice50_noSZA_C3.cam2.h0.1x64x128.ann-mean	NetCDF	31458	y2_997glacier_S2000_Obli00_Gla80_Ice50_noSZA_C3.cam2.h0.1x64x128.ann-mean.nc
model result	y6_997glacier_S1800_Obli00_Gla80_Ice50_noSZA_C30.cam2.h0.1x64x128.ann-mean	NetCDF	31458	y6_997glacier_S1800_Obli00_Gla80_Ice50_noSZA_C30.cam2.h0.1x64x128.ann-mean.nc
model result	ya_997glacier_S1700_Obli00_Gla80_Ice50_noSZA_C3000.cam2.h0.1x64x128.ann-mean	NetCDF	31458	ya_997glacier_S1700_Obli00_Gla80_Ice50_noSZA_C3000.cam2.h0.1x64x128.ann-mean.nc
model result	yg_997glacier_S1600_Obli00_Gla80_Ice50_noSZA_C30000.cam2.h0.1x64x128.ann-mean	NetCDF	31458	yg_997glacier_S1600_Obli00_Gla80_Ice50_noSZA_C30000.cam2.h0.1x64x128.ann-mean.nc
model result	ym_997glacier_S1500_Obli00_Gla80_Ice50_noSZA_C100000.cam2.h0.1x64x128.ann-mean	NetCDF	31458	ym_997glacier_S1500_Obli00_Gla80_Ice50_noSZA_C100000.cam2.h0.1x64x128.ann-mean.nc
model result	yv_997glacier_S1800_Obli00_Gla80_Ice50_noSZA_C300.cam2.h0.1x64x128.ann-mean	NetCDF	31458	yv_997glacier_S1800_Obli00_Gla80_Ice50_noSZA_C300.cam2.h0.1x64x128.ann-mean.nc