Declarations of global variables for SICOPOLIS. More...
Public Attributes | |
integer(i2b), dimension(0:jmax, 0:imax) | maske |
maske(j,i): Ice-land-ocean mask. 0: grounded ice, 1: ice-free land, 2: ocean, 3: floating ice | |
integer(i2b), dimension(0:jmax, 0:imax) | maske_help |
maske_help(j,i): Present-day ice-land-ocean mask | |
integer(i2b), dimension(0:jmax, 0:imax) | maske_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
integer(i2b), dimension(0:jmax, 0:imax) | n_cts |
n_cts(j,i): Mask for thermal conditions. -1: cold ice base, 0: temperate ice base with cold ice above, 1: temperate ice base with temperate ice layer above (only in polythermal mode) | |
integer(i2b), dimension(0:jmax, 0:imax) | n_cts_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
integer(i4b), dimension(0:jmax, 0:imax) | kc_cts |
kc_cts(j,i): Position kc of the CTS (only in cold-ice mode) | |
logical, dimension(0:jmax, 0:imax) | flag_grounding_line |
flag_grounding_line(j,i): Grounding line flag. .true.: grounding line point (grounded ice point with at least one floating ice neighbour), .false.: otherwise | |
logical, dimension(0:jmax, 0:imax) | flag_calving_front |
flag_calving_front(j,i): Calving front flag. .true.: calving front point (floating ice point with at least one ocean neighbour), .false.: otherwise | |
logical, dimension(0:jmax, 0:imax) | flag_sf |
flag_sf(j,i): Shelfy stream flag. .true.: shelfy stream is applied .false.: shelfy stream is not applied | |
real(dp), dimension(0:imax) | xi |
xi(i): Coordinate xi (= x) of grid point i | |
real(dp), dimension(0:jmax) | eta |
eta(j): Coordinate eta (= y) of grid point j | |
real(dp), dimension(0:kcmax) | zeta_c |
zeta_c(kc): Sigma coordinate zeta_c of grid point kc | |
real(dp), dimension(0:kcmax) | eaz_c |
eaz_c(kc): Abbreviation for exp(DEFORM*zeta(kc)) | |
real(dp), dimension(0:kcmax) | eaz_c_quotient |
eaz_c_quotient(kc): Abbreviation for (eaz_c(kc)-1.0)/(ea-1.0) | |
real(dp), dimension(0:ktmax) | zeta_t |
zeta_t(kt): Sigma coordinate zeta_t of grid point kt | |
real(dp) | ea |
ea: Abbreviation for exp(DEFORM) | |
real(dp), dimension(0:jmax, 0:imax) | lambda |
lambda(j,i): Geographic longitude of grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | phi |
phi(j,i): Geographic latitude of grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | area |
area(j,i): Area of grid cell associated with grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | sq_g11_g |
sq_g11_g(j,i): Square root of the coefficient g11 of the metric tensor on grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | sq_g22_g |
sq_g22_g(j,i): Square root of the coefficient g22 of the metric tensor on grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | insq_g11_g |
insq_g11_g(j,i): Inverse square root of g11 on grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | insq_g22_g |
insq_g22_g(j,i): Inverse square root of g22 on grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | sq_g11_sgx |
sq_g11_sgx(j,i): Square root of g11, at (i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | sq_g11_sgy |
sq_g11_sgy(j,i): Square root of g11, at (i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | sq_g22_sgx |
sq_g22_sgx(j,i): Square root of g22, at (i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | sq_g22_sgy |
sq_g22_sgy(j,i): Square root of g22, at (i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | insq_g11_sgx |
insq_g11_sgx(j,i): Inverse square root of g11, at (i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | insq_g22_sgy |
insq_g22_sgy(j,i): Inverse square root of g22, at (i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | zs |
zs(j,i): Coordinate z of the surface topography | |
real(dp), dimension(0:jmax, 0:imax) | zm |
zm(j,i): Coordinate z of the CTS | |
real(dp), dimension(0:jmax, 0:imax) | zb |
zb(j,i): Coordinate z of the ice base | |
real(dp), dimension(0:jmax, 0:imax) | zl |
zl(j,i): Coordinate z of the lithosphere surface | |
real(dp), dimension(0:jmax, 0:imax) | zl0 |
zl0(j,i): zl for isostatically relaxed ice-free conditions | |
real(dp), dimension(0:jmax, 0:imax) | wss |
wss(j,i): Isostatic steady-state displacement of the lithosphere | |
real(dp), dimension(0:jmax, 0:imax) | h_c |
H_c(j,i): Thickness of cold ice. | |
real(dp), dimension(0:jmax, 0:imax) | h_t |
H_t(j,i): Thickness of temperate ice. | |
real(dp), dimension(0:jmax, 0:imax) | dzs_dxi |
dzs_dxi(j,i): Derivative of zs by xi (at i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzm_dxi |
dzm_dxi(j,i): Derivative of zm by xi (at i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzb_dxi |
dzb_dxi(j,i): Derivative of zb by xi (at i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | dh_c_dxi |
dH_c_dxi(j,i): Derivative of H_c by xi (at i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | dh_t_dxi |
dH_t_dxi(j,i): Derivative of H_t by xi (at i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzs_deta |
dzs_deta(j,i): Derivative of zs by eta (at i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | dzm_deta |
dzm_deta(j,i): Derivative of zm by eta (at i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | dzb_deta |
dzb_deta(j,i): Derivative of zb by eta (at i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | dh_c_deta |
dH_c_deta(j,i): Derivative of H_c by eta (at i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | dh_t_deta |
dH_t_deta(j,i): Derivative of H_t by eta (at i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | dzs_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzm_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzb_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dh_c_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dh_t_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzs_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzm_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzb_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dh_c_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dh_t_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | dzs_dtau |
dzs_dtau(j,i): Derivative of zs by tau (time) | |
real(dp), dimension(0:jmax, 0:imax) | dzm_dtau |
dzm_dtau(j,i): Derivative of zm by tau (time) | |
real(dp), dimension(0:jmax, 0:imax) | dzb_dtau |
dzb_dtau(j,i): Derivative of zb by tau (time) | |
real(dp), dimension(0:jmax, 0:imax) | dzl_dtau |
dH_c_dtau(j,i): Derivative of zl by tau (time) | |
real(dp), dimension(0:jmax, 0:imax) | dh_c_dtau |
dH_c_dtau(j,i): Derivative of H_c by tau (time) | |
real(dp), dimension(0:jmax, 0:imax) | dh_t_dtau |
dH_t_dtau(j,i): Derivative of H_t by tau (time) | |
real(dp), dimension(0:jmax, 0:imax) | d_help_b |
d_help_b(j,i): Auxiliary quantity for the computation of vx_b and vy_b | |
real(dp), dimension(0:jmax, 0:imax) | p_b_w |
p_b_w(j,i): Basal water pressure | |
real(dp), dimension(0:jmax, 0:imax) | vx_b |
vx_b(j,i): Velocity in x-direction at the ice base, at (i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | vy_b |
vy_b(j,i): Velocity in y-direction at the ice base, at (i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | vx_m |
vx_m(j,i): Mean (depth-averaged) velocity in x-direction, at (i+1/2,j) | |
real(dp), dimension(0:jmax, 0:imax) | vy_m |
vy_m(j,i): Mean (depth-averaged) velocity in y-direction, at (i,j+1/2) | |
real(dp), dimension(0:jmax, 0:imax) | vx_b_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | vy_b_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | vz_b |
vz_b(j,i): Velocity in z-direction at the ice base, at (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | vx_s_g |
vx_s_g(j,i): Velocity in x-direction at the ice surface, at (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | vy_s_g |
vy_s_g(j,i): Velocity in x-direction at the ice surface, at (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | vz_s |
vz_s(j,i): Velocity in z-direction at the ice surface, at (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | flui_ave_sia |
flui_ave_sia(j,i): Depth-averaged fluidity of the SIA | |
real(dp), dimension(0:jmax, 0:imax) | h_diff |
h_diff(j,i): Diffusivity of the SIA evolution equation of the ice surface | |
real(dp), dimension(0:jmax, 0:imax) | qx |
qx(j,i): Volume flux in x-direction (depth-integrated vx, at (i+1/2,j)) | |
real(dp), dimension(0:jmax, 0:imax) | qy |
qy(j,i): Volume flux in y-direction (depth-integrated vy, at (i,j+1/2)) | |
real(dp), dimension(0:jmax, 0:imax) | q_gl_g |
q_gl_g(j,i): Volume flux across the grounding line, at (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | q_geo |
q_geo(j,i): Geothermal heat flux | |
real(dp), dimension(0:jmax, 0:imax) | temp_b |
temp_b(j,i): Basal temperature | |
real(dp), dimension(0:jmax, 0:imax) | temph_b |
temph_b(j,i): Basal temperature relative to the pressure melting point | |
real(dp), dimension(0:jmax, 0:imax) | q_bm |
Q_bm(j,i): Basal melting rate. | |
real(dp), dimension(0:jmax, 0:imax) | q_tld |
Q_tld(j,i): Water drainage rate from the temperate layer. | |
real(dp), dimension(0:jmax, 0:imax) | q_b_tot |
Q_b_tot(j,i): Sum of Q_bm and Q_tld. | |
real(dp), dimension(0:jmax, 0:imax) | h_w |
H_w(j,i): Effective thickness of subglacial water. | |
real(dp), dimension(0:jmax, 0:imax) | accum |
accum(j,i): Accumulation rate at the ice surface (includes liquid precipitation = rainfall!) | |
real(dp), dimension(0:jmax, 0:imax) | evap |
evap(j,i): Evaporation rate at the ice surface | |
real(dp), dimension(0:jmax, 0:imax) | runoff |
runoff(j,i): Runoff rate at the ice surface | |
real(dp), dimension(0:jmax, 0:imax) | as_perp |
as_perp(j,i): Accumulation-ablation function at the ice surface | |
real(dp), dimension(0:jmax, 0:imax) | temp_s |
temp_s(j,i): Ice surface temperature | |
real(dp), dimension(0:jmax, 0:imax) | am_perp |
am_perp(j,i): Ice volume flux across the CTS | |
real(dp), dimension(0:jmax, 0:imax) | am_perp_st |
am_perp_st(j,i): Steady-state part of am_perp (without contribution of dzm_dtau) | |
real(dp), dimension(0:jmax, 0:imax) | zs_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:jmax, 0:imax) | zm_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:jmax, 0:imax) | zb_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:jmax, 0:imax) | zl_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:jmax, 0:imax) | h_c_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:jmax, 0:imax) | h_t_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:jmax, 0:imax) | zs_ref |
zs_ref(j,i): Reference elevation for precip_present, temp_ma_present and temp_mj_present | |
real(dp), dimension(0:jmax, 0:imax) | accum_present |
accum_present(j,i): Present-day accumulation rate at the ice surface (for EISMINT, ISMIP HEINO and the north and south polar caps of Mars) | |
real(dp), dimension(0:jmax, 0:imax) | precip_ma_present |
precip_ma_present(j,i): Present-day mean annual precipitation rate at the ice surface | |
real(dp), dimension(0:jmax, 0:imax) | precip_ma_lgm_anom |
precip_ma_lgm_anom(j,i): LGM anomaly (ratio LGM/present) of the mean annual precipitation rate at the ice surface | |
real(dp), dimension(0:jmax, 0:imax) | temp_ma_present |
temp_ma_present(j,i): Present-day mean annual surface temperature | |
real(dp), dimension(0:jmax, 0:imax) | temp_mj_present |
temp_mj_present(j,i): Present-day mean summer (northern hemisphere: July, southern hemisphere: January) surface temperature | |
real(dp), dimension(0:jmax, 0:imax) | temp_ma_lgm_anom |
temp_ma_lgm_anom(j,i): LGM anomaly (difference LGM - present) of the mean annual surface temperature | |
real(dp), dimension(0:jmax, 0:imax) | temp_mj_lgm_anom |
temp_mj_lgm_anom(j,i): LGM anomaly (difference LGM - present) of the mean summer (northern hemisphere: July, southern hemisphere: January) surface temperature | |
real(dp), dimension(-jmax:jmax,-imax:imax) | dist_dxdy |
dist_dxdy(jr,ir): Distance between grid points with delta_i=ir, delta_j=jr | |
real(dp), dimension(0:jmax, 0:imax, 12) | precip_present |
precip_present(j,i,n): Present-day mean monthly precipitation rate at the ice surface | |
real(dp), dimension(0:jmax, 0:imax, 12) | precip_lgm_anom |
precip_lgm_anom(j,i,n): LGM anomaly (ratio LGM/present) of the mean monthly precipitation rate at the ice surface | |
real(dp), dimension(0:jmax, 0:imax, 12) | gamma_precip_lgm_anom |
gamma_precip_lgm_anom(j,i,n): negative natural logarithm of precip_lgm_anom(j,i,n) | |
real(dp), dimension(0:jmax, 0:imax, 12) | temp_mm_present |
temp_mm_present(j,i,n): Present-day mean monthly surface temperature | |
real(dp), dimension(0:jmax, 0:imax, 12) | temp_mm_lgm_anom |
temp_mm_lgm_anom(j,i,n): LGM anomaly (difference LGM - present) of the mean monthly surface temperature | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | d_help_c |
d_help_c(kc,j,i): Auxiliary quantity for the computation of vx, vy und zs | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | vx_c |
vx_c(kc,j,i): Velocity in x-direction in cold ice (at (i+1/2,j,kc)) | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | vy_c |
vy_c(kc,j,i): Velocity in y-direction in cold ice (at (i,j+1/2,kc)) | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | vz_c |
vz_c(kc,j,i): Velocity in z-direction in cold ice (at (i,j,kc+1/2)) | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | temp_c |
temp_c(kc,j,i): Temperature in cold ice | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | temp_c_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | temp_c_m |
temp_c_m(kc,j,i): Melting temperature in cold ice | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | age_c |
age_c(kc,j,i): Age in cold ice | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | age_c_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | txz_c |
txz_c(kc,j,i): Shear stress txz in cold ice (at (i+1/2,j,kc)) | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | tyz_c |
tyz_c(kc,j,i): Shear stress tyz in cold ice (at (i,j+1/2,kc)) | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | sigma_c |
sigma_c(kc,j,i): Effective stress in cold ice | |
real(dp), dimension(0:kcmax, 0:jmax, 0:imax) | enh_c |
enh_c(kc,j,i): Flow enhancement factor in cold ice | |
real(dp), dimension(0:jmax, 0:imax) | de_ssa |
de_ssa(j,i): Effective strain rate of the SSA, at (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | vis_int_g |
vis_int_g(j,i): Depth-integrated viscosity of the SSA, at (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | vx_g |
vx_g(j,i): Velocity in x-direction of the SSA, at (i,j) | |
real(dp), dimension(0:jmax, 0:imax) | vy_g |
vy_g(j,i): Velocity in y-direction of the SSA, at (i,j) | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | d_help_t |
d_help_t(kt,j,i): Auxiliary quantity for the computation of vx, vy und zs | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | vx_t |
vx_t(kt,j,i): Velocity in x-direction in temperate ice (at (i+1/2,j,kt)) | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | vy_t |
vy_t(kt,j,i): Velocity in y-direction in temperate ice (at (i,j+1/2,kt)) | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | vz_t |
vz_t(kt,j,i): Velocity in z-direction in temperate ice (at (i,j,kt+1/2)) | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | omega_t |
omega_t(kt,j,i): Water content in temperate ice | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | omega_t_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | temp_t_m |
temp_t_m(kt,j,i): Melting temperature in temperate ice (= actual temperature) | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | age_t |
age_t(kt,j,i): Age in temperate ice | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | age_t_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | txz_t |
txz_t(kt,j,i): Shear stress txz in temperate ice (at (i+1/2,j,kt)) | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | tyz_t |
tyz_t(kt,j,i): Shear stress tyz in temperate ice (at (i,j+1/2,kt)) | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | sigma_t |
sigma_t(kt,j,i): Effective stress in temperate ice | |
real(dp), dimension(0:ktmax, 0:jmax, 0:imax) | enh_t |
enh_t(kt,j,i): Flow enhancement factor in temperate ice | |
real(dp), dimension(0:krmax, 0:jmax, 0:imax) | temp_r |
temp_r(kr,j,i): Temperature in the bedrock | |
real(dp), dimension(0:krmax, 0:jmax, 0:imax) | temp_r_neu |
(.)_neu: New value of quantity (.) computed during an integration step | |
real(dp) | rho |
RHO: Density of ice. | |
real(dp) | rho_w |
RHO_W: Density of pure water. | |
real(dp) | rho_sw |
RHO_SW: Density of sea water. | |
real(dp) | l |
L: Latent heat of ice. | |
real(dp) | g |
G: Acceleration due to gravity. | |
real(dp) | nue |
NUE: Water diffusivity in ice. | |
real(dp) | beta |
BETA: Clausius-Clapeyron gradient of ice. | |
real(dp) | delta_tm_sw |
DELTA_TM_SW: Melting point depression of sea water due to its average salinity. | |
real(dp) | omega_max |
OMEGA_MAX: Threshold value for the water content of temperate ice. | |
real(dp) | h_r |
H_R: Thickness of the modelled lithosphere layer. | |
real(dp) | rho_c_r |
RHO_C_R: Density times specific heat of the lithosphere. | |
real(dp) | kappa_r |
KAPPA_R: Heat conductivity of the lithosphere. | |
real(dp) | flex_rig_l |
FLEX_RIG_L: Flexural rigidity of the lithosphere. | |
real(dp) | rho_a |
RHO_A: Density of the asthenosphere. | |
real(dp) | time_lag |
TIME_LAG: Time lag of the relaxing asthenosphere. | |
real(dp) | r_t |
R_T: Coefficient of the water-content dependence in the rate factor for temperate ice. | |
real(dp) | r |
R: Radius of the planet. | |
real(dp) | a |
A: Semi-major axis of the planet. | |
real(dp) | b |
B: Semi-minor axis of the planet. | |
real(dp) | lambda0 |
LAMBDA0: Reference longitude (central meridian) of the stereographic projection. | |
real(dp) | phi0 |
PHI0: Standard parallel of the stereographic projection. | |
real(dp) | s_stat_0 |
S_STAT_0: Standard deviation of the air termperature for the degree-day model. | |
real(dp) | beta1_0 |
BETA1_0: Degree-day factor for snow. | |
real(dp) | beta1_lt_0 |
BETA1_LT_0: Degree-day factor for snow at low summer temperatures. | |
real(dp) | beta1_ht_0 |
BETA1_HT_0: Degree-day factor for snow at high summer temperatures. | |
real(dp) | beta2_0 |
BETA2_0: Degree-day factor for ice. | |
real(dp) | beta2_lt_0 |
BETA2_LT_0: Degree-day factor for ice at low summer temperatures. | |
real(dp) | beta2_ht_0 |
BETA2_HT_0: Degree-day factor for ice at high summer temperatures. | |
real(dp) | phi_sep_0 |
PHI_SEP_0: Separation latitude for the computation of the degree-day factors beta1 and beta2: Equatorward of phi_sep, only the high-temperature values are used, whereas poleward of phi_sep, beta1 and beta2 are temperature-dependent. | |
real(dp) | pmax_0 |
PMAX_0: Saturation factor for the formation of superimposed ice. | |
real(dp) | mu_0 |
MU_0: Firn-warming correction. | |
real(dp), dimension(-190:10) | rf |
RF(n): Tabulated values for the rate factor of cold ice. | |
real(dp), dimension(-190:10) | kappa |
KAPPA(n): Tabulated values for the heat conductivity of ice. | |
real(dp), dimension(-190:10) | c |
C(n): Tabulated values for the specific heat of ice. | |
real(dp) | year_zero |
year_zero: SICOPOLIS year zero in astronomical year numbering [ = signed year CE (AD) ] | |
integer(i2b) | forcing_flag |
forcing_flag: Flag for the forcing type. 1: forcing by a spatially constant surface temperature anomaly (delta_ts), 2: forcing by a glacial index (glac_index), 3: forcing by time-dependent surface temperature and precipitation data. | |
integer(i4b) | n_core |
n_core: Number of positions to be considered in the time-series file for deep boreholes | |
real(dp), dimension(:), allocatable, save | lambda_core |
lambda_core(n): Geographical longitude of the prescribed borehole positions | |
real(dp), dimension(:), allocatable, save | phi_core |
phi_core(n): Geographical latitude of the prescribed borehole positions | |
real(dp), dimension(:), allocatable, save | x_core |
x_core(n): Coordinate xi (= x) of the prescribed borehole positions | |
real(dp), dimension(:), allocatable, save | y_core |
y_core(n): Coordinate eta (= y) of the prescribed borehole positions | |
integer(i4b) | grip_time_min |
grip_time_min: Minimum time of the data values for the surface temperature anomaly | |
integer(i4b) | grip_time_stp |
grip_time_stp: Time step of the data values for the surface temperature anomaly | |
integer(i4b) | grip_time_max |
grip_time_max: Maximum time of the data values for the surface temperature anomaly | |
integer(i4b) | ndata_grip |
ndata_grip: Number of data values for the surface temperature anomaly | |
real(dp), dimension(:), allocatable, save | griptemp |
griptemp(n): Data values for the surface temperature anomaly | |
integer(i4b) | gi_time_min |
gi_time_min: Minimum time of the data values for the glacial index | |
integer(i4b) | gi_time_stp |
gi_time_stp: Time step of the data values for the glacial index | |
integer(i4b) | gi_time_max |
gi_time_max: Maximum time of the data values for the glacial index | |
integer(i4b) | ndata_gi |
ndata_gi: Number of data values for the glacial index | |
real(dp), dimension(:), allocatable, save | glacial_index |
glacial_index(n): Data values for the glacial index | |
integer(i4b) | specmap_time_min |
specmap_time_min: Minimum time of the data values for the sea level | |
integer(i4b) | specmap_time_stp |
specmap_time_stp: Time step of the data values for the sea level | |
integer(i4b) | specmap_time_max |
specmap_time_max: Maximum time of the data values for the sea level | |
integer(i4b) | ndata_specmap |
ndata_specmap: Number of data values for the sea level | |
real(dp), dimension(:), allocatable, save | specmap_zsl |
specmap_zsl(n): Data values for the sea level | |
real(dp) | time_target_topo_init |
time_target_topo_init: Initial time for target-topography adjustment | |
real(dp) | time_target_topo_final |
time_target_topo_final: Final time for target-topography adjustment | |
integer(i2b), dimension(0:jmax, 0:imax) | maske_target |
maske_target(j,i): Target topography (ice-land-ocean mask) | |
real(dp), dimension(0:jmax, 0:imax) | zs_target |
zs_target(j,i): Target topography (ice surface) | |
real(dp), dimension(0:jmax, 0:imax) | zb_target |
zb_target(j,i): Target topography (ice base) | |
real(dp), dimension(0:jmax, 0:imax) | zl_target |
zl_target(j,i): Target topography (lithosphere surface) | |
real(dp), dimension(0:jmax, 0:imax) | h_target |
H_target(j,i): Target topography (ice thickness) | |
integer(i2b), dimension(0:jmax, 0:imax) | maske_maxextent |
maske_maxextent(j,i): Maximum ice extent mask. 0: not allowed to glaciate, 1: allowed to glaciate. | |
integer(i4b) | ncid_temp_precip |
ncid_temp_precip: ID of the NetCDF file containing the surface-temperature and precipitation data as functions of time | |
integer(i4b) | ndata_temp_precip |
ndata_temp_precip: Number of surface-temperature and precipitation data | |
real(dp) | temp_precip_time_min |
temp_precip_time_min: Minimum time of the surface-temperature and precipitation data | |
real(dp) | temp_precip_time_stp |
temp_precip_time_stp: Time step of the surface-temperature and precipitation data | |
real(dp) | temp_precip_time_max |
temp_precip_time_max: Maximum time of the surface-temperature and precipitation data | |
real(dp), dimension(:), allocatable, save | temp_precip_time |
temp_precip_time(n): Times of the surface-temperature and precipitation data | |
real(dp), dimension(-10000:10000) | kei |
kei(n): Tabulated values of the kei function (Kelvin function of zero order) | |
integer(i4b) | n_data_kei |
n_data_kei: Number of tabulated values of the kei function | |
real(dp) | kei_r_max |
kei_r_max: Maximum value of the argument r of the tabulated kei function | |
real(dp) | kei_r_incr |
kei_r_incr: Increment of the argument r of the tabulated kei function | |
real(dp), parameter | pi = 3.141592653589793_dp |
pi: Mathematical constant | |
real(dp), parameter | pi_inv = 1.0_dp/pi |
pi_inv: Inverse of pi | |
real(dp), parameter | pi_180 = pi/180.0_dp |
pi_180: pi divided by 180 (-> deg to rad) | |
real(dp), parameter | pi_180_inv = 180.0_dp/pi |
pi_180_inv: 180 divided by pi (-> rad to deg) | |
real(dp), parameter | eps = 1.0e-05_dp |
eps: Small number |
Declarations of global variables for SICOPOLIS.
Definition at line 35 of file sico_variables.F90.
real(dp) sico_variables::a |
A: Semi-major axis of the planet.
Definition at line 417 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::accum |
accum(j,i): Accumulation rate at the ice surface (includes liquid precipitation = rainfall!)
Definition at line 238 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::accum_present |
accum_present(j,i): Present-day accumulation rate at the ice surface (for EISMINT, ISMIP HEINO and the north and south polar caps of Mars)
Definition at line 272 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::age_c |
age_c(kc,j,i): Age in cold ice
Definition at line 325 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::age_c_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 327 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::age_t |
age_t(kt,j,i): Age in temperate ice
Definition at line 361 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::age_t_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 363 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::am_perp |
am_perp(j,i): Ice volume flux across the CTS
Definition at line 248 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::am_perp_st |
am_perp_st(j,i): Steady-state part of am_perp (without contribution of dzm_dtau)
Definition at line 251 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::area |
area(j,i): Area of grid cell associated with grid point (i,j)
Definition at line 97 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::as_perp |
as_perp(j,i): Accumulation-ablation function at the ice surface
Definition at line 244 of file sico_variables.F90.
real(dp) sico_variables::b |
B: Semi-minor axis of the planet.
Definition at line 419 of file sico_variables.F90.
real(dp) sico_variables::beta |
BETA: Clausius-Clapeyron gradient of ice.
Definition at line 393 of file sico_variables.F90.
real(dp) sico_variables::beta1_0 |
BETA1_0: Degree-day factor for snow.
Definition at line 429 of file sico_variables.F90.
real(dp) sico_variables::beta1_ht_0 |
BETA1_HT_0: Degree-day factor for snow at high summer temperatures.
Definition at line 433 of file sico_variables.F90.
real(dp) sico_variables::beta1_lt_0 |
BETA1_LT_0: Degree-day factor for snow at low summer temperatures.
Definition at line 431 of file sico_variables.F90.
real(dp) sico_variables::beta2_0 |
BETA2_0: Degree-day factor for ice.
Definition at line 435 of file sico_variables.F90.
real(dp) sico_variables::beta2_ht_0 |
BETA2_HT_0: Degree-day factor for ice at high summer temperatures.
Definition at line 439 of file sico_variables.F90.
real(dp) sico_variables::beta2_lt_0 |
BETA2_LT_0: Degree-day factor for ice at low summer temperatures.
Definition at line 437 of file sico_variables.F90.
real(dp), dimension(-190:10) sico_variables::c |
C(n): Tabulated values for the specific heat of ice.
Definition at line 469 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::d_help_b |
d_help_b(j,i): Auxiliary quantity for the computation of vx_b and vy_b
Definition at line 189 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::d_help_c |
d_help_c(kc,j,i): Auxiliary quantity for the computation of vx, vy und zs
Definition at line 311 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::d_help_t |
d_help_t(kt,j,i): Auxiliary quantity for the computation of vx, vy und zs
Definition at line 347 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::de_ssa |
de_ssa(j,i): Effective strain rate of the SSA, at (i,j)
Definition at line 338 of file sico_variables.F90.
real(dp) sico_variables::delta_tm_sw |
DELTA_TM_SW: Melting point depression of sea water due to its average salinity.
Definition at line 396 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_c_deta |
dH_c_deta(j,i): Derivative of H_c by eta (at i,j+1/2)
Definition at line 153 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_c_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 173 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_c_dtau |
dH_c_dtau(j,i): Derivative of H_c by tau (time)
Definition at line 185 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_c_dxi |
dH_c_dxi(j,i): Derivative of H_c by xi (at i+1/2,j)
Definition at line 143 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_c_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 163 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_t_deta |
dH_t_deta(j,i): Derivative of H_t by eta (at i,j+1/2)
Definition at line 155 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_t_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 175 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_t_dtau |
dH_t_dtau(j,i): Derivative of H_t by tau (time)
Definition at line 187 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_t_dxi |
dH_t_dxi(j,i): Derivative of H_t by xi (at i+1/2,j)
Definition at line 145 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dh_t_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 165 of file sico_variables.F90.
real(dp), dimension(-jmax:jmax,-imax:imax) sico_variables::dist_dxdy |
dist_dxdy(jr,ir): Distance between grid points with delta_i=ir, delta_j=jr
Definition at line 293 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzb_deta |
dzb_deta(j,i): Derivative of zb by eta (at i,j+1/2)
Definition at line 151 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzb_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 171 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzb_dtau |
dzb_dtau(j,i): Derivative of zb by tau (time)
Definition at line 181 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzb_dxi |
dzb_dxi(j,i): Derivative of zb by xi (at i+1/2,j)
Definition at line 141 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzb_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 161 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzl_dtau |
dH_c_dtau(j,i): Derivative of zl by tau (time)
Definition at line 183 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzm_deta |
dzm_deta(j,i): Derivative of zm by eta (at i,j+1/2)
Definition at line 149 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzm_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 169 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzm_dtau |
dzm_dtau(j,i): Derivative of zm by tau (time)
Definition at line 179 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzm_dxi |
dzm_dxi(j,i): Derivative of zm by xi (at i+1/2,j)
Definition at line 139 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzm_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 159 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzs_deta |
dzs_deta(j,i): Derivative of zs by eta (at i,j+1/2)
Definition at line 147 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzs_deta_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 167 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzs_dtau |
dzs_dtau(j,i): Derivative of zs by tau (time)
Definition at line 177 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzs_dxi |
dzs_dxi(j,i): Derivative of zs by xi (at i+1/2,j)
Definition at line 137 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::dzs_dxi_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 157 of file sico_variables.F90.
real(dp) sico_variables::ea |
ea: Abbreviation for exp(DEFORM)
Definition at line 90 of file sico_variables.F90.
real(dp), dimension(0:kcmax) sico_variables::eaz_c |
eaz_c(kc): Abbreviation for exp(DEFORM*zeta(kc))
Definition at line 84 of file sico_variables.F90.
real(dp), dimension(0:kcmax) sico_variables::eaz_c_quotient |
eaz_c_quotient(kc): Abbreviation for (eaz_c(kc)-1.0)/(ea-1.0)
Definition at line 86 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::enh_c |
enh_c(kc,j,i): Flow enhancement factor in cold ice
Definition at line 335 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::enh_t |
enh_t(kt,j,i): Flow enhancement factor in temperate ice
Definition at line 371 of file sico_variables.F90.
real(dp), parameter sico_variables::eps = 1.0e-05_dp |
eps: Small number
Definition at line 703 of file sico_variables.F90.
real(dp), dimension(0:jmax) sico_variables::eta |
eta(j): Coordinate eta (= y) of grid point j
Definition at line 80 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::evap |
evap(j,i): Evaporation rate at the ice surface
Definition at line 240 of file sico_variables.F90.
logical, dimension(0:jmax,0:imax) sico_variables::flag_calving_front |
flag_calving_front(j,i): Calving front flag. .true.: calving front point (floating ice point with at least one ocean neighbour), .false.: otherwise
Definition at line 72 of file sico_variables.F90.
logical, dimension(0:jmax,0:imax) sico_variables::flag_grounding_line |
flag_grounding_line(j,i): Grounding line flag. .true.: grounding line point (grounded ice point with at least one floating ice neighbour), .false.: otherwise
Definition at line 66 of file sico_variables.F90.
logical, dimension(0:jmax,0:imax) sico_variables::flag_sf |
flag_sf(j,i): Shelfy stream flag. .true.: shelfy stream is applied .false.: shelfy stream is not applied
Definition at line 76 of file sico_variables.F90.
real(dp) sico_variables::flex_rig_l |
FLEX_RIG_L: Flexural rigidity of the lithosphere.
Definition at line 406 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::flui_ave_sia |
flui_ave_sia(j,i): Depth-averaged fluidity of the SIA
Definition at line 213 of file sico_variables.F90.
integer(i2b) sico_variables::forcing_flag |
forcing_flag: Flag for the forcing type. 1: forcing by a spatially constant surface temperature anomaly (delta_ts), 2: forcing by a glacial index (glac_index), 3: forcing by time-dependent surface temperature and precipitation data.
Definition at line 595 of file sico_variables.F90.
real(dp) sico_variables::g |
G: Acceleration due to gravity.
Definition at line 389 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax,12) sico_variables::gamma_precip_lgm_anom |
gamma_precip_lgm_anom(j,i,n): negative natural logarithm of precip_lgm_anom(j,i,n)
Definition at line 303 of file sico_variables.F90.
integer(i4b) sico_variables::gi_time_max |
gi_time_max: Maximum time of the data values for the glacial index
Definition at line 628 of file sico_variables.F90.
integer(i4b) sico_variables::gi_time_min |
gi_time_min: Minimum time of the data values for the glacial index
Definition at line 624 of file sico_variables.F90.
integer(i4b) sico_variables::gi_time_stp |
gi_time_stp: Time step of the data values for the glacial index
Definition at line 626 of file sico_variables.F90.
real(dp), dimension(:), allocatable, save sico_variables::glacial_index |
glacial_index(n): Data values for the glacial index
Definition at line 632 of file sico_variables.F90.
integer(i4b) sico_variables::grip_time_max |
grip_time_max: Maximum time of the data values for the surface temperature anomaly
Definition at line 617 of file sico_variables.F90.
integer(i4b) sico_variables::grip_time_min |
grip_time_min: Minimum time of the data values for the surface temperature anomaly
Definition at line 611 of file sico_variables.F90.
integer(i4b) sico_variables::grip_time_stp |
grip_time_stp: Time step of the data values for the surface temperature anomaly
Definition at line 614 of file sico_variables.F90.
real(dp), dimension(:), allocatable, save sico_variables::griptemp |
griptemp(n): Data values for the surface temperature anomaly
Definition at line 621 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::h_c |
H_c(j,i): Thickness of cold ice.
Definition at line 133 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::h_c_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 261 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::h_diff |
h_diff(j,i): Diffusivity of the SIA evolution equation of the ice surface
Definition at line 215 of file sico_variables.F90.
real(dp) sico_variables::h_r |
H_R: Thickness of the modelled lithosphere layer.
Definition at line 400 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::h_t |
H_t(j,i): Thickness of temperate ice.
Definition at line 135 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::h_t_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 263 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::h_target |
H_target(j,i): Target topography (ice thickness)
Definition at line 658 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::h_w |
H_w(j,i): Effective thickness of subglacial water.
Definition at line 235 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::insq_g11_g |
insq_g11_g(j,i): Inverse square root of g11 on grid point (i,j)
Definition at line 105 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::insq_g11_sgx |
insq_g11_sgx(j,i): Inverse square root of g11, at (i+1/2,j)
Definition at line 117 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::insq_g22_g |
insq_g22_g(j,i): Inverse square root of g22 on grid point (i,j)
Definition at line 107 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::insq_g22_sgy |
insq_g22_sgy(j,i): Inverse square root of g22, at (i,j+1/2)
Definition at line 119 of file sico_variables.F90.
real(dp), dimension(-190:10) sico_variables::kappa |
KAPPA(n): Tabulated values for the heat conductivity of ice.
Definition at line 467 of file sico_variables.F90.
real(dp) sico_variables::kappa_r |
KAPPA_R: Heat conductivity of the lithosphere.
Definition at line 404 of file sico_variables.F90.
integer(i4b), dimension(0:jmax,0:imax) sico_variables::kc_cts |
kc_cts(j,i): Position kc of the CTS (only in cold-ice mode)
Definition at line 60 of file sico_variables.F90.
real(dp), dimension(-10000:10000) sico_variables::kei |
kei(n): Tabulated values of the kei function (Kelvin function of zero order)
Definition at line 686 of file sico_variables.F90.
real(dp) sico_variables::kei_r_incr |
kei_r_incr: Increment of the argument r of the tabulated kei function
Definition at line 692 of file sico_variables.F90.
real(dp) sico_variables::kei_r_max |
kei_r_max: Maximum value of the argument r of the tabulated kei function
Definition at line 690 of file sico_variables.F90.
real(dp) sico_variables::l |
L: Latent heat of ice.
Definition at line 387 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::lambda |
lambda(j,i): Geographic longitude of grid point (i,j)
Definition at line 93 of file sico_variables.F90.
real(dp) sico_variables::lambda0 |
LAMBDA0: Reference longitude (central meridian) of the stereographic projection.
Definition at line 422 of file sico_variables.F90.
real(dp), dimension(:), allocatable, save sico_variables::lambda_core |
lambda_core(n): Geographical longitude of the prescribed borehole positions
Definition at line 601 of file sico_variables.F90.
integer(i2b), dimension(0:jmax,0:imax) sico_variables::maske |
maske(j,i): Ice-land-ocean mask. 0: grounded ice, 1: ice-free land, 2: ocean, 3: floating ice
Definition at line 46 of file sico_variables.F90.
integer(i2b), dimension(0:jmax,0:imax) sico_variables::maske_help |
maske_help(j,i): Present-day ice-land-ocean mask
Definition at line 48 of file sico_variables.F90.
integer(i2b), dimension(0:jmax,0:imax) sico_variables::maske_maxextent |
maske_maxextent(j,i): Maximum ice extent mask. 0: not allowed to glaciate, 1: allowed to glaciate.
Definition at line 663 of file sico_variables.F90.
integer(i2b), dimension(0:jmax,0:imax) sico_variables::maske_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 50 of file sico_variables.F90.
integer(i2b), dimension(0:jmax,0:imax) sico_variables::maske_target |
maske_target(j,i): Target topography (ice-land-ocean mask)
Definition at line 650 of file sico_variables.F90.
real(dp) sico_variables::mu_0 |
MU_0: Firn-warming correction.
Definition at line 448 of file sico_variables.F90.
integer(i4b) sico_variables::n_core |
n_core: Number of positions to be considered in the time-series file for deep boreholes
Definition at line 599 of file sico_variables.F90.
integer(i2b), dimension(0:jmax,0:imax) sico_variables::n_cts |
n_cts(j,i): Mask for thermal conditions. -1: cold ice base, 0: temperate ice base with cold ice above, 1: temperate ice base with temperate ice layer above (only in polythermal mode)
Definition at line 56 of file sico_variables.F90.
integer(i2b), dimension(0:jmax,0:imax) sico_variables::n_cts_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 58 of file sico_variables.F90.
integer(i4b) sico_variables::n_data_kei |
n_data_kei: Number of tabulated values of the kei function
Definition at line 688 of file sico_variables.F90.
integer(i4b) sico_variables::ncid_temp_precip |
ncid_temp_precip: ID of the NetCDF file containing the surface-temperature and precipitation data as functions of time
Definition at line 668 of file sico_variables.F90.
integer(i4b) sico_variables::ndata_gi |
ndata_gi: Number of data values for the glacial index
Definition at line 630 of file sico_variables.F90.
integer(i4b) sico_variables::ndata_grip |
ndata_grip: Number of data values for the surface temperature anomaly
Definition at line 619 of file sico_variables.F90.
integer(i4b) sico_variables::ndata_specmap |
ndata_specmap: Number of data values for the sea level
Definition at line 641 of file sico_variables.F90.
integer(i4b) sico_variables::ndata_temp_precip |
ndata_temp_precip: Number of surface-temperature and precipitation data
Definition at line 671 of file sico_variables.F90.
real(dp) sico_variables::nue |
NUE: Water diffusivity in ice.
Definition at line 391 of file sico_variables.F90.
real(dp) sico_variables::omega_max |
OMEGA_MAX: Threshold value for the water content of temperate ice.
Definition at line 398 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::omega_t |
omega_t(kt,j,i): Water content in temperate ice
Definition at line 355 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::omega_t_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 357 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::p_b_w |
p_b_w(j,i): Basal water pressure
Definition at line 191 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::phi |
phi(j,i): Geographic latitude of grid point (i,j)
Definition at line 95 of file sico_variables.F90.
real(dp) sico_variables::phi0 |
PHI0: Standard parallel of the stereographic projection.
Definition at line 424 of file sico_variables.F90.
real(dp), dimension(:), allocatable, save sico_variables::phi_core |
phi_core(n): Geographical latitude of the prescribed borehole positions
Definition at line 603 of file sico_variables.F90.
real(dp) sico_variables::phi_sep_0 |
PHI_SEP_0: Separation latitude for the computation of the degree-day factors beta1 and beta2: Equatorward of phi_sep, only the high-temperature values are used, whereas poleward of phi_sep, beta1 and beta2 are temperature-dependent.
Definition at line 444 of file sico_variables.F90.
real(dp), parameter sico_variables::pi = 3.141592653589793_dp |
pi: Mathematical constant
Definition at line 695 of file sico_variables.F90.
real(dp), parameter sico_variables::pi_180 = pi/180.0_dp |
pi_180: pi divided by 180 (-> deg to rad)
Definition at line 699 of file sico_variables.F90.
real(dp), parameter sico_variables::pi_180_inv = 180.0_dp/pi |
pi_180_inv: 180 divided by pi (-> rad to deg)
Definition at line 701 of file sico_variables.F90.
real(dp), parameter sico_variables::pi_inv = 1.0_dp/pi |
pi_inv: Inverse of pi
Definition at line 697 of file sico_variables.F90.
real(dp) sico_variables::pmax_0 |
PMAX_0: Saturation factor for the formation of superimposed ice.
Definition at line 446 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax,12) sico_variables::precip_lgm_anom |
precip_lgm_anom(j,i,n): LGM anomaly (ratio LGM/present) of the mean monthly precipitation rate at the ice surface
Definition at line 300 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::precip_ma_lgm_anom |
precip_ma_lgm_anom(j,i): LGM anomaly (ratio LGM/present) of the mean annual precipitation rate at the ice surface
Definition at line 278 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::precip_ma_present |
precip_ma_present(j,i): Present-day mean annual precipitation rate at the ice surface
Definition at line 275 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax,12) sico_variables::precip_present |
precip_present(j,i,n): Present-day mean monthly precipitation rate at the ice surface
Definition at line 297 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::q_b_tot |
Q_b_tot(j,i): Sum of Q_bm and Q_tld.
Definition at line 233 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::q_bm |
Q_bm(j,i): Basal melting rate.
Definition at line 229 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::q_geo |
q_geo(j,i): Geothermal heat flux
Definition at line 223 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::q_gl_g |
q_gl_g(j,i): Volume flux across the grounding line, at (i,j)
Definition at line 221 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::q_tld |
Q_tld(j,i): Water drainage rate from the temperate layer.
Definition at line 231 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::qx |
qx(j,i): Volume flux in x-direction (depth-integrated vx, at (i+1/2,j))
Definition at line 217 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::qy |
qy(j,i): Volume flux in y-direction (depth-integrated vy, at (i,j+1/2))
Definition at line 219 of file sico_variables.F90.
real(dp) sico_variables::r |
R: Radius of the planet.
Definition at line 415 of file sico_variables.F90.
real(dp) sico_variables::r_t |
R_T: Coefficient of the water-content dependence in the rate factor for temperate ice.
Definition at line 413 of file sico_variables.F90.
real(dp), dimension(-190:10) sico_variables::rf |
RF(n): Tabulated values for the rate factor of cold ice.
Definition at line 465 of file sico_variables.F90.
real(dp) sico_variables::rho |
RHO: Density of ice.
Definition at line 381 of file sico_variables.F90.
real(dp) sico_variables::rho_a |
RHO_A: Density of the asthenosphere.
Definition at line 408 of file sico_variables.F90.
real(dp) sico_variables::rho_c_r |
RHO_C_R: Density times specific heat of the lithosphere.
Definition at line 402 of file sico_variables.F90.
real(dp) sico_variables::rho_sw |
RHO_SW: Density of sea water.
Definition at line 385 of file sico_variables.F90.
real(dp) sico_variables::rho_w |
RHO_W: Density of pure water.
Definition at line 383 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::runoff |
runoff(j,i): Runoff rate at the ice surface
Definition at line 242 of file sico_variables.F90.
real(dp) sico_variables::s_stat_0 |
S_STAT_0: Standard deviation of the air termperature for the degree-day model.
Definition at line 427 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::sigma_c |
sigma_c(kc,j,i): Effective stress in cold ice
Definition at line 333 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::sigma_t |
sigma_t(kt,j,i): Effective stress in temperate ice
Definition at line 369 of file sico_variables.F90.
integer(i4b) sico_variables::specmap_time_max |
specmap_time_max: Maximum time of the data values for the sea level
Definition at line 639 of file sico_variables.F90.
integer(i4b) sico_variables::specmap_time_min |
specmap_time_min: Minimum time of the data values for the sea level
Definition at line 635 of file sico_variables.F90.
integer(i4b) sico_variables::specmap_time_stp |
specmap_time_stp: Time step of the data values for the sea level
Definition at line 637 of file sico_variables.F90.
real(dp), dimension(:), allocatable, save sico_variables::specmap_zsl |
specmap_zsl(n): Data values for the sea level
Definition at line 643 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::sq_g11_g |
sq_g11_g(j,i): Square root of the coefficient g11 of the metric tensor on grid point (i,j)
Definition at line 100 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::sq_g11_sgx |
sq_g11_sgx(j,i): Square root of g11, at (i+1/2,j)
Definition at line 109 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::sq_g11_sgy |
sq_g11_sgy(j,i): Square root of g11, at (i,j+1/2)
Definition at line 111 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::sq_g22_g |
sq_g22_g(j,i): Square root of the coefficient g22 of the metric tensor on grid point (i,j)
Definition at line 103 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::sq_g22_sgx |
sq_g22_sgx(j,i): Square root of g22, at (i+1/2,j)
Definition at line 113 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::sq_g22_sgy |
sq_g22_sgy(j,i): Square root of g22, at (i,j+1/2)
Definition at line 115 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::temp_b |
temp_b(j,i): Basal temperature
Definition at line 225 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::temp_c |
temp_c(kc,j,i): Temperature in cold ice
Definition at line 319 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::temp_c_m |
temp_c_m(kc,j,i): Melting temperature in cold ice
Definition at line 323 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::temp_c_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 321 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::temp_ma_lgm_anom |
temp_ma_lgm_anom(j,i): LGM anomaly (difference LGM - present) of the mean annual surface temperature
Definition at line 286 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::temp_ma_present |
temp_ma_present(j,i): Present-day mean annual surface temperature
Definition at line 280 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::temp_mj_lgm_anom |
temp_mj_lgm_anom(j,i): LGM anomaly (difference LGM - present) of the mean summer (northern hemisphere: July, southern hemisphere: January) surface temperature
Definition at line 290 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::temp_mj_present |
temp_mj_present(j,i): Present-day mean summer (northern hemisphere: July, southern hemisphere: January) surface temperature
Definition at line 283 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax,12) sico_variables::temp_mm_lgm_anom |
temp_mm_lgm_anom(j,i,n): LGM anomaly (difference LGM - present) of the mean monthly surface temperature
Definition at line 308 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax,12) sico_variables::temp_mm_present |
temp_mm_present(j,i,n): Present-day mean monthly surface temperature
Definition at line 305 of file sico_variables.F90.
real(dp), dimension(:), allocatable, save sico_variables::temp_precip_time |
temp_precip_time(n): Times of the surface-temperature and precipitation data
Definition at line 683 of file sico_variables.F90.
real(dp) sico_variables::temp_precip_time_max |
temp_precip_time_max: Maximum time of the surface-temperature and precipitation data
Definition at line 680 of file sico_variables.F90.
real(dp) sico_variables::temp_precip_time_min |
temp_precip_time_min: Minimum time of the surface-temperature and precipitation data
Definition at line 674 of file sico_variables.F90.
real(dp) sico_variables::temp_precip_time_stp |
temp_precip_time_stp: Time step of the surface-temperature and precipitation data
Definition at line 677 of file sico_variables.F90.
real(dp), dimension(0:krmax,0:jmax,0:imax) sico_variables::temp_r |
temp_r(kr,j,i): Temperature in the bedrock
Definition at line 374 of file sico_variables.F90.
real(dp), dimension(0:krmax,0:jmax,0:imax) sico_variables::temp_r_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 376 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::temp_s |
temp_s(j,i): Ice surface temperature
Definition at line 246 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::temp_t_m |
temp_t_m(kt,j,i): Melting temperature in temperate ice (= actual temperature)
Definition at line 359 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::temph_b |
temph_b(j,i): Basal temperature relative to the pressure melting point
Definition at line 227 of file sico_variables.F90.
real(dp) sico_variables::time_lag |
TIME_LAG: Time lag of the relaxing asthenosphere.
Definition at line 410 of file sico_variables.F90.
real(dp) sico_variables::time_target_topo_final |
time_target_topo_final: Final time for target-topography adjustment
Definition at line 648 of file sico_variables.F90.
real(dp) sico_variables::time_target_topo_init |
time_target_topo_init: Initial time for target-topography adjustment
Definition at line 646 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::txz_c |
txz_c(kc,j,i): Shear stress txz in cold ice (at (i+1/2,j,kc))
Definition at line 329 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::txz_t |
txz_t(kt,j,i): Shear stress txz in temperate ice (at (i+1/2,j,kt))
Definition at line 365 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::tyz_c |
tyz_c(kc,j,i): Shear stress tyz in cold ice (at (i,j+1/2,kc))
Definition at line 331 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::tyz_t |
tyz_t(kt,j,i): Shear stress tyz in temperate ice (at (i,j+1/2,kt))
Definition at line 367 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vis_int_g |
vis_int_g(j,i): Depth-integrated viscosity of the SSA, at (i,j)
Definition at line 340 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vx_b |
vx_b(j,i): Velocity in x-direction at the ice base, at (i+1/2,j)
Definition at line 193 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vx_b_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 201 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::vx_c |
vx_c(kc,j,i): Velocity in x-direction in cold ice (at (i+1/2,j,kc))
Definition at line 313 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vx_g |
vx_g(j,i): Velocity in x-direction of the SSA, at (i,j)
Definition at line 342 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vx_m |
vx_m(j,i): Mean (depth-averaged) velocity in x-direction, at (i+1/2,j)
Definition at line 197 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vx_s_g |
vx_s_g(j,i): Velocity in x-direction at the ice surface, at (i,j)
Definition at line 207 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::vx_t |
vx_t(kt,j,i): Velocity in x-direction in temperate ice (at (i+1/2,j,kt))
Definition at line 349 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vy_b |
vy_b(j,i): Velocity in y-direction at the ice base, at (i,j+1/2)
Definition at line 195 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vy_b_g |
(.)_g(j,i): Staggered-grid quantity (.) interpolated to grid point (i,j)
Definition at line 203 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::vy_c |
vy_c(kc,j,i): Velocity in y-direction in cold ice (at (i,j+1/2,kc))
Definition at line 315 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vy_g |
vy_g(j,i): Velocity in y-direction of the SSA, at (i,j)
Definition at line 344 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vy_m |
vy_m(j,i): Mean (depth-averaged) velocity in y-direction, at (i,j+1/2)
Definition at line 199 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vy_s_g |
vy_s_g(j,i): Velocity in x-direction at the ice surface, at (i,j)
Definition at line 209 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::vy_t |
vy_t(kt,j,i): Velocity in y-direction in temperate ice (at (i,j+1/2,kt))
Definition at line 351 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vz_b |
vz_b(j,i): Velocity in z-direction at the ice base, at (i,j)
Definition at line 205 of file sico_variables.F90.
real(dp), dimension(0:kcmax,0:jmax,0:imax) sico_variables::vz_c |
vz_c(kc,j,i): Velocity in z-direction in cold ice (at (i,j,kc+1/2))
Definition at line 317 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::vz_s |
vz_s(j,i): Velocity in z-direction at the ice surface, at (i,j)
Definition at line 211 of file sico_variables.F90.
real(dp), dimension(0:ktmax,0:jmax,0:imax) sico_variables::vz_t |
vz_t(kt,j,i): Velocity in z-direction in temperate ice (at (i,j,kt+1/2))
Definition at line 353 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::wss |
wss(j,i): Isostatic steady-state displacement of the lithosphere
Definition at line 131 of file sico_variables.F90.
real(dp), dimension(:), allocatable, save sico_variables::x_core |
x_core(n): Coordinate xi (= x) of the prescribed borehole positions
Definition at line 605 of file sico_variables.F90.
real(dp), dimension(0:imax) sico_variables::xi |
xi(i): Coordinate xi (= x) of grid point i
Definition at line 78 of file sico_variables.F90.
real(dp), dimension(:), allocatable, save sico_variables::y_core |
y_core(n): Coordinate eta (= y) of the prescribed borehole positions
Definition at line 607 of file sico_variables.F90.
real(dp) sico_variables::year_zero |
year_zero: SICOPOLIS year zero in astronomical year numbering [ = signed year CE (AD) ]
Definition at line 475 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zb |
zb(j,i): Coordinate z of the ice base
Definition at line 125 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zb_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 257 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zb_target |
zb_target(j,i): Target topography (ice base)
Definition at line 654 of file sico_variables.F90.
real(dp), dimension(0:kcmax) sico_variables::zeta_c |
zeta_c(kc): Sigma coordinate zeta_c of grid point kc
Definition at line 82 of file sico_variables.F90.
real(dp), dimension(0:ktmax) sico_variables::zeta_t |
zeta_t(kt): Sigma coordinate zeta_t of grid point kt
Definition at line 88 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zl |
zl(j,i): Coordinate z of the lithosphere surface
Definition at line 127 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zl0 |
zl0(j,i): zl for isostatically relaxed ice-free conditions
Definition at line 129 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zl_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 259 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zl_target |
zl_target(j,i): Target topography (lithosphere surface)
Definition at line 656 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zm |
zm(j,i): Coordinate z of the CTS
Definition at line 123 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zm_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 255 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zs |
zs(j,i): Coordinate z of the surface topography
Definition at line 121 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zs_neu |
(.)_neu: New value of quantity (.) computed during an integration step
Definition at line 253 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zs_ref |
zs_ref(j,i): Reference elevation for precip_present, temp_ma_present and temp_mj_present
Definition at line 267 of file sico_variables.F90.
real(dp), dimension(0:jmax,0:imax) sico_variables::zs_target |
zs_target(j,i): Target topography (ice surface)
Definition at line 652 of file sico_variables.F90.