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trcsms_c14.F90 in NEMO/trunk/src/TOP/C14 – NEMO

source: NEMO/trunk/src/TOP/C14/trcsms_c14.F90 @ 12377

Last change on this file since 12377 was 12377, checked in by acc, 4 years ago

The big one. Merging all 2019 developments from the option 1 branch back onto the trunk.

This changeset reproduces 2019/dev_r11943_MERGE_2019 on the trunk using a 2-URL merge
onto a working copy of the trunk. I.e.:

svn merge --ignore-ancestry \

svn+ssh://acc@forge.ipsl.jussieu.fr/ipsl/forge/projets/nemo/svn/NEMO/trunk \
svn+ssh://acc@forge.ipsl.jussieu.fr/ipsl/forge/projets/nemo/svn/NEMO/branches/2019/dev_r11943_MERGE_2019 ./

The --ignore-ancestry flag avoids problems that may otherwise arise from the fact that
the merge history been trunk and branch may have been applied in a different order but
care has been taken before this step to ensure that all applicable fixes and updates
are present in the merge branch.

The trunk state just before this step has been branched to releases/release-4.0-HEAD
and that branch has been immediately tagged as releases/release-4.0.2. Any fixes
or additions in response to tickets on 4.0, 4.0.1 or 4.0.2 should be done on
releases/release-4.0-HEAD. From now on future 'point' releases (e.g. 4.0.2) will
remain unchanged with periodic releases as needs demand. Note release-4.0-HEAD is a
transitional naming convention. Future full releases, say 4.2, will have a release-4.2
branch which fulfills this role and the first point release (e.g. 4.2.0) will be made
immediately following the release branch creation.

2020 developments can be started from any trunk revision later than this one.
  • Property svn:keywords set to Id
File size: 7.1 KB
Line 
1MODULE trcsms_c14
2   !!======================================================================
3   !!                      ***  MODULE trcsms_c14  ***
4   !! TOP : Bomb C14 main module
5   !!======================================================================
6   !! History     -   ! 1994-05 ( J. Orr ) original code
7   !!            1.0  ! 2006-02 ( J.M. Molines )  Free form + modularity
8   !!            2.0  ! 2008-12 ( C. Ethe ) reorganisation
9   !!            4.0  ! 2011-02 ( A.R. Porter, STFC Daresbury ) Dynamic memory
10   !!                 ! 2015    (A. Mouchet) general C14 + update formulas
11   !!----------------------------------------------------------------------
12   !!   trc_sms_c14 :  compute and add C14 suface forcing to C14 trends
13   !!----------------------------------------------------------------------
14   USE oce_trc       ! Ocean variables
15   USE par_trc       ! TOP parameters
16   USE trc           ! TOP variables
17   USE trd_oce    ! trends
18   USE trdtrc    ! trends
19   USE sms_c14    ! atmospheric forcing
20   USE trcatm_c14    ! atmospheric forcing
21   USE iom
22
23   IMPLICIT NONE
24   PRIVATE
25
26   PUBLIC   trc_sms_c14       ! called in trcsms.F90
27
28   !! * Substitutions
29#  include "do_loop_substitute.h90"
30   !!----------------------------------------------------------------------
31   !! NEMO/TOP 4.0 , NEMO Consortium (2018)
32   !! $Id$
33   !! Software governed by the CeCILL license (see ./LICENSE)
34   !!----------------------------------------------------------------------
35CONTAINS
36
37   SUBROUTINE trc_sms_c14( kt, Kbb, Kmm, Krhs )
38      !!----------------------------------------------------------------------
39      !!                  ***  ROUTINE trc_sms_c14  ***
40      !!
41      !! ** Purpose :   Compute the surface boundary contition on C14
42      !!      passive tracer associated with air-sea fluxes and add it to
43      !!      the general trend of tracers equations.
44      !
45      !    Method:
46      !          - transport the ratio C14/C as in Toggweiler et al. (JGR,1989)
47      !          - if on-line a passive tracer (jpcref; NO sms) allows compensating for
48      !            freshwater fluxes which should not impact the C14/C ratio
49      !
50      !        =>   Delta-C14= ( tr(...jp_c14,Kmm) -1)*1000.
51      !!
52      !!----------------------------------------------------------------------
53      !
54      INTEGER, INTENT(in) ::   kt               ! ocean time-step index
55      INTEGER, INTENT(in) ::   Kbb, Kmm, Krhs   ! ocean time level
56      !
57      INTEGER  :: ji, jj, jk        ! dummy loop indices
58      REAL(wp) :: zt, ztp, zsk      ! dummy variables
59      REAL(wp) :: zsol              ! solubility
60      REAL(wp) :: zsch              ! schmidt number
61      REAL(wp) :: zv2               ! wind speed ( square)
62      REAL(wp) :: zpv               ! piston velocity
63      !!----------------------------------------------------------------------
64      !
65      IF( ln_timing )   CALL timing_start('trc_sms_c14')
66      !
67      IF( kt ==  nittrc000 ) THEN
68         IF(lwp) WRITE(numout,*)
69         IF(lwp) WRITE(numout,*) ' trc_sms_c14:  C14 model'
70         IF(lwp) WRITE(numout,*) ' ~~~~~~~~~~~~~~'
71      ENDIF
72      !
73      ! Get co2sbc & c14sbc(ji,jj): at 1st iter for all, at each time step for transient
74      IF( kc14typ >= 1 .OR.  kt ==  nittrc000 )   CALL trc_atm_c14( kt, co2sbc, c14sbc ) 
75
76      ! -------------------------------------------------------------------
77      !  Gas exchange coefficient (Wanninkhof, 1992, JGR, 97,7373-7382)
78      !  Schmidt number of CO2 in seawater (Wanninkhof, 1992 & 2014)
79      !  CO2 solubility (Weiss, 1974; Wanninkhof, 2014)
80      ! -------------------------------------------------------------------
81
82      DO_2D_11_11
83         IF( tmask(ji,jj,1) >  0. ) THEN
84            !
85            zt   = MIN( 40. , ts(ji,jj,1,jp_tem,Kmm) )
86            !
87            !  Computation of solubility zsol in [mol/(L * atm)]
88            !   after Wanninkhof (2014) referencing Weiss (1974)
89            ztp  = ( zt + 273.16 ) * 0.01
90            zsk  = 0.027766 + ztp * ( -0.025888 + 0.0050578 * ztp )   ! [mol/(L * atm)]
91            zsol = EXP( -58.0931 + 90.5069 / ztp  + 22.2940 * LOG( ztp ) + zsk * ts(ji,jj,1,jp_sal,Kmm) )
92            ! convert solubilities [mol/(L * atm)] -> [mol/(m^3 * ppm)]
93            zsol = zsol * 1.e-03
94
95            ! Computes the Schmidt number of CO2 in seawater
96            !               Wanninkhof-2014
97            zsch = 2116.8 + zt * ( -136.25 + zt * (4.7353 + zt * (-0.092307 + 0.0007555 * zt ) ) )
98
99            ! Wanninkhof Piston velocity: zpv in units [m/s]
100            zv2 = xkwind * (wndm(ji,jj) * wndm(ji,jj))              ! wind speed module at T points
101            ! chemical enhancement (Wanninkhof & Knox, 1996)
102            IF( ln_chemh ) zv2 = zv2 + 2.5 * ( 0.5246 + zt * (0.016256 + 0.00049946  * zt ) )
103            zv2 = zv2/360000._wp                                    ! conversion cm/h -> m/s
104            !
105            zpv  = ( zv2 * SQRT( 660./ zsch ) ) * ( 1. - fr_i(ji,jj) ) * tmask(ji,jj,1)
106
107            ! CO2 piston velocity (m/s)
108            exch_co2(ji,jj)= zpv
109            ! CO2 invasion rate (mol/ppm/m2/s) = 1st part of 14C/C exchange velocity
110            exch_c14(ji,jj)= zpv * zsol
111         ELSE
112            exch_co2(ji,jj) = 0._wp
113            exch_c14(ji,jj) = 0._wp
114         ENDIF
115      END_2D
116
117      ! Exchange velocity for 14C/C ratio (m/s)
118      zt = co2sbc / xdicsur
119      exch_c14(:,:) = zt * exch_c14(:,:)
120      !
121      ! Flux of C-14 from air-to-sea; units: (C14/C ratio) x m/s
122      !                               already masked
123      qtr_c14(:,:) = exch_c14(:,:) * ( c14sbc(:,:) - tr(:,:,1,jp_c14,Kbb) )
124           
125      ! cumulation of air-to-sea flux at each time step
126      qint_c14(:,:) = qint_c14(:,:) + qtr_c14(:,:) * rdttrc
127      !
128      ! Add the surface flux to the trend of jp_c14
129      DO_2D_11_11
130         tr(ji,jj,1,jp_c14,Krhs) = tr(ji,jj,1,jp_c14,Krhs) + qtr_c14(ji,jj) / e3t(ji,jj,1,Kmm) 
131      END_2D
132      !
133      ! Computation of decay effects on jp_c14
134      DO_3D_11_11( 1, jpk )
135         !
136         tr(ji,jj,jk,jp_c14,Krhs) = tr(ji,jj,jk,jp_c14,Krhs) - rlam14 * tr(ji,jj,jk,jp_c14,Kbb) * tmask(ji,jj,jk) 
137         !
138      END_3D
139      !
140      IF( lrst_trc ) THEN
141         IF(lwp) WRITE(numout,*)
142         IF(lwp) WRITE(numout,*) ' trc_rst_wri_c14 : Write specific variables from c14 model '
143         IF(lwp) WRITE(numout,*) ' ~~~~~~~~~~~~~~'
144         !
145         CALL iom_rstput( kt, nitrst, numrtw, 'co2sbc', co2sbc )       ! These five need      &
146         CALL iom_rstput( kt, nitrst, numrtw, 'c14sbc', c14sbc )     ! &    to be written   &
147         CALL iom_rstput( kt, nitrst, numrtw, 'exch_co2', exch_co2 ) ! &    for temporal    &
148         CALL iom_rstput( kt, nitrst, numrtw, 'exch_c14', exch_c14 ) ! &    averages        &
149         CALL iom_rstput( kt, nitrst, numrtw, 'qtr_c14', qtr_c14 )   ! &    to be coherent.
150         CALL iom_rstput( kt, nitrst, numrtw, 'qint_c14', qint_c14 ) ! Cumulative
151         !
152      ENDIF
153
154      IF( l_trdtrc )  CALL trd_trc( tr(:,:,:,jp_c14,Krhs), 1, jptra_sms, kt, Kmm )   ! save trends
155      !
156      IF( ln_timing )   CALL timing_stop('trc_sms_c14')
157      !
158   END SUBROUTINE trc_sms_c14
159
160  !!======================================================================
161END MODULE trcsms_c14
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