!======================== include file "ice.h" ========================= ! arrays for the ice model ! hice = ice thickness (tau-1, tau, tau+1) ! aice = ice area (tau-1, tau, tau+1) ! tice = ice surface temperature ! hsno = effective thickness of snow ! psno = precipitation as snow (+ accumulation, - melt) ! frzpt = freezing temperature of sea water ! cpts ice model ("ice_cpts") ! A = area ! heff = effective thickness of ice ! Ts = ice surface temperature ! groice = thermo ice thickness change from diagnostic ! E = enthalpy of each ice layer ! strength = pressure (from Rothrock), must have ncat > 3 ! hseff = effective thickness of snow ! ice dynamics ("ice_evp") ! uice = u ice velocity ! vice = v ice velocity ! pice = pressure due to internal stress ! xint = x component of ice interaction ! yint = y component of ice interaction ! del = delta for ice dynamics models ! eI = divergence of ice velocity ! nseg = number of domains needed for ice calculations ! jsi = start of limited domain for ice calculations ! jei = end of limited domain for ice calculations ! brine convection ("convect_brine") ! cbf = flux from rejected brine over ice categories ! cba = area of brine rejection for each categories ! cba0 = area of the cell without brine rejection ! land ice ("landice_data") ! hicel = land ice thickness ! aicel = land ice area integer nseg, jsi, jei real hice, aice, tice, hsno, psno, frzpt real A, heff, Ts, groice, E, hseff, strength real uice, vice, pice, xint, yint, del, eI real cbf, cba, cba0, hicel, aicel common /ice_r/ hice(imt,jmt,2), aice(imt,jmt,2), tice(imt,jmt) common /ice_r/ hsno(imt,jmt,2), psno(imt,jmt), frzpt(imt,jmt) #if defined O_ice_cpts && defined O_ice common /ice_r/ A(imt,jmt,itme,ncat), heff(imt,jmt,itme,ncat) common /ice_r/ Ts(imt,jmt,itme,ncat), groice(imt,jmt,ncat) common /ice_r/ E(imt,jmt,itme,ntilay), hseff(imt,jmt,itme,ncat) #else integer ncat parameter (ncat=1) #endif #if defined O_ice_cpts && defined O_ice_cpts_roth_press && defined O_ice common /ice_r/ strength(imt,jmt,itme) #endif #if defined O_ice_evp && defined O_ice common /ice_r/ uice(imt,jmt), vice(imt,jmt), pice(imt,jmt) common /ice_r/ xint(imt,jmt), yint(imt,jmt) common /ice_r/ del(imt,jmt), eI(imt,jmt) common /ice_i/ nseg, jsi(jmt), jei(jmt) #endif #if defined O_convect_brine common /ice_r/ cbf(imt,jmt,0:ncat), cba(imt,jmt,0:ncat) common /ice_r/ cba0(imt,jmt) # endif #if defined O_landice_data common /ice_r/ hicel(imt,jmt,3), aicel(imt,jmt,3) #endif #if defined O_time_averages ! time averaged arrays ! ta_hsno = time average snow thickness ! ta_hice = time average ice thickness ! ta_aice = time average ice area ! ta_tice = time average ice surface temperature ! ice dynamics ("ice_evp") ! ta_uice = time average u ice velocity ! ta_vice = time average v ice velocity ! ta_pice = time average pressure ! ta_xint = time average x component of ice interaction ! ta_yint = time average y component of ice interaction ! land ice ("landice_data") ! ta_hicel = time average land ice thickness ! ta_aicel = time average land ice area real ta_hice, ta_aice, ta_tice, ta_hsno, ta_heff, ta_A, ta_Ts real ta_hseff, ta_uice, ta_vice, ta_pice, ta_xint, ta_yint real ta_aicel, ta_hicel # if defined O_ice common /ice_r/ ta_hice(imt,jmt), ta_aice(imt,jmt) common /ice_r/ ta_tice(imt,jmt), ta_hsno(imt,jmt) # endif # if defined O_ice_cpts && defined O_ice common /ice_r/ ta_heff(imt,jmt,ncat), ta_A(imt,jmt,ncat) common /ice_r/ ta_Ts(imt,jmt,ncat), ta_hseff(imt,jmt,ncat) # endif # if defined O_ice_evp && defined O_ice common /ice_r/ ta_uice(imt,jmt), ta_vice(imt,jmt) common /ice_r/ ta_pice(imt,jmt), ta_xint(imt,jmt) common /ice_r/ ta_yint(imt,jmt) # endif # if defined O_landice_data common /ice_r/ ta_hicel(imt,jmt), ta_aicel(imt,jmt) # endif #endif