SUBROUTINE RR_adv_tz_init(id) IMPLICIT NONE INCLUDE 'ferret_cmn/EF_Util.cmn' INTEGER id CALL ef_set_desc (id, .'-w(dT/dz) nonlinear term (oC/s);MOM2 T Grid') CALL ef_set_num_args (id, 3) CALL ef_set_axis_inheritance (id, IMPLIED_BY_ARGS, . IMPLIED_BY_ARGS, . IMPLIED_BY_ARGS, . IMPLIED_BY_ARGS) CALL ef_set_piecemeal_ok (id, NO, NO, NO, NO) CALL ef_set_arg_name (id, ARG1, 'U') CALL ef_set_arg_desc (id, ARG1, . 'Zonal velocity, on the MOM2 U Grid. ') CALL ef_set_arg_unit (id, ARG1, 'cm/sec') CALL ef_set_arg_type (id, ARG1, FLOAT_ARG) CALL ef_set_axis_influence (id, ARG1, YES, YES, YES, YES) CALL ef_set_axis_extend (id, ARG1, X_AXIS,-1,+1) CALL ef_set_axis_extend (id, ARG1, Y_AXIS,-1,+1) CALL ef_set_axis_extend (id, ARG1, Z_AXIS,0,+1) CALL ef_set_arg_name (id, ARG2, 'W') CALL ef_set_arg_desc (id, ARG2, . 'Vertical velocity, at T cell bottom on the MOM2 Grid. ') CALL ef_set_arg_unit (id, ARG2, 'cm/sec') CALL ef_set_arg_type (id, ARG2, FLOAT_ARG) CALL ef_set_axis_influence (id, ARG2, NO, NO, NO, YES) CALL ef_set_axis_extend (id, ARG2, X_AXIS,-1,+1) CALL ef_set_axis_extend (id, ARG2, Y_AXIS,-1,+1) CALL ef_set_axis_extend (id, ARG2, Z_AXIS,0,+1) CALL ef_set_arg_name (id, ARG3, 'TEMP') CALL ef_set_arg_desc (id, ARG3, . 'Potential temperature on the MOM2 T Grid. ') CALL ef_set_arg_unit (id, ARG3, 'deg-C') CALL ef_set_arg_type (id, ARG3, FLOAT_ARG) CALL ef_set_axis_influence (id, ARG3, NO, NO, YES, YES) CALL ef_set_axis_extend (id, ARG3, X_AXIS,-1,+1) CALL ef_set_axis_extend (id, ARG3, Y_AXIS,-1,+1) CALL ef_set_axis_extend (id, ARG3, Z_AXIS,0,+1) END SUBROUTINE RR_adv_tz_compute(id, arg_1, arg_2, arg_3, result) IMPLICIT NONE INCLUDE 'ferret_cmn/EF_Util.cmn' INCLUDE 'ferret_cmn/EF_mem_subsc.cmn' INTEGER id REAL arg_1 (mem1lox:mem1hix, mem1loy:mem1hiy, . mem1loz:mem1hiz, mem1lot:mem1hit) REAL arg_2 (mem2lox:mem2hix, mem2loy:mem2hiy, . mem2loz:mem2hiz, mem2lot:mem2hit) REAL arg_3 (mem3lox:mem3hix, mem3loy:mem3hiy, . mem3loz:mem3hiz, mem3lot:mem3hit) REAL result (memreslox:memreshix,memresloy:memreshiy, . memresloz:memreshiz,memreslot:memreshit) INTEGER res_lo_ss (4) INTEGER res_hi_ss (4) INTEGER res_incr (4) INTEGER arg_lo_ss (4,EF_MAX_ARGS) INTEGER arg_hi_ss (4,EF_MAX_ARGS) INTEGER arg_incr (4,EF_MAX_ARGS) INTEGER i, j, k, l INTEGER i2, j2, k2, l2 INTEGER i3, j3, k3, l3 REAL*8 zW(1024) INTEGER iZ REAL adv_fb INCLUDE 'rr_parameters.h' adv_fb(i2,j2,k2,l2,i3,j3,k3,l3) = arg_2(i2,j2,k2,l2) . * (arg_3(i3,j3,k3,l3) + arg_3(i3,j3,k3+1,l3)) CALL ef_get_res_subscripts (id, res_lo_ss, res_hi_ss, res_incr) CALL ef_get_arg_subscripts (id, arg_lo_ss, arg_hi_ss, arg_incr) CALL ef_get_coordinates (id, ARG2, Z_AXIS, . arg_lo_ss(Z_AXIS,ARG2), . arg_hi_ss(Z_AXIS,ARG2), zW) l2 = arg_lo_ss(T_AXIS,ARG2) l3 = arg_lo_ss(T_AXIS,ARG3) DO l = res_lo_ss(T_AXIS), res_hi_ss(T_AXIS) j2 = arg_lo_ss(Y_AXIS,ARG2) + 1 j3 = arg_lo_ss(Y_AXIS,ARG3) + 1 DO j = res_lo_ss(Y_AXIS), res_hi_ss(Y_AXIS) i2 = arg_lo_ss(X_AXIS,ARG2) + 1 i3 = arg_lo_ss(X_AXIS,ARG3) + 1 DO i = res_lo_ss(X_AXIS), res_hi_ss(X_AXIS) iZ = 1 k2 = arg_lo_ss(Z_AXIS,ARG2) k3 = arg_lo_ss(Z_AXIS,ARG3) DO k = res_lo_ss(Z_AXIS), res_hi_ss(Z_AXIS) IF (iZ .EQ. 1) THEN result(i,j,k,l) = . arg_2(i2,j2,k2,l2) . * (arg_3(i3,j3,k3,l3) - arg_3(i3,j3,k3+1,l3)) . /zW(iZ)/Meters_to_cm ELSE result(i,j,k,l) = - ( . adv_fb(i2,j2,k2-1,l2,i3,j3,k3-1,l3) . - adv_fb(i2,j2,k2, l2,i3,j3,k3, l3)) . /2./(zW(iZ-1)-zW(iZ))/Meters_to_cm . + arg_3(i3,j3,k3,l3) * ( . arg_2(i2,j2,k2-1,l2) - . arg_2(i2,j2,k2,l2)) . /(zW(iZ-1)-zW(iZ))/Meters_to_cm ENDIF iZ = iZ + 1 k2 = k2 + arg_incr(Z_AXIS,ARG2) k3 = k3 + arg_incr(Z_AXIS,ARG3) ENDDO i2 = i2 + arg_incr(X_AXIS,ARG2) i3 = i3 + arg_incr(X_AXIS,ARG3) ENDDO j2 = j2 + arg_incr(Y_AXIS,ARG2) j3 = j3 + arg_incr(Y_AXIS,ARG3) ENDDO l2 = l2 + arg_incr(T_AXIS,ARG2) l3 = l3 + arg_incr(T_AXIS,ARG3) ENDDO END