pkg/monod/monod_init_fixed.F

C $Header: /u/gcmpack/MITgcm_contrib/darwin2/pkg/monod/monod_init_fixed.F,v 1.9 2012/07/26 21:40:10 stephd Exp $
C $Name:  $

#include "CPP_OPTIONS.h"
#include "PTRACERS_OPTIONS.h"
#include "DARWIN_OPTIONS.h"

#ifdef ALLOW_PTRACERS
#ifdef ALLOW_MONOD

c===============================================================================
C===============================================================================
CStartofinterface
      SUBROUTINE MONOD_INIT_FIXED(myThid)
C     =============== Global data ==========================================
C     === Global variables ===
         implicit none
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "GRID.h"
#include "DYNVARS.h"
#include "GCHEM.h"
#include "DARWIN_PARAMS.h"
#include "MONOD_SIZE.h"
#include "MONOD.h"
#include "DARWIN_FLUX.h"

        INTEGER myThid
C============== Local variables ============================================
C     msgBuf    - Informational/error meesage buffer
      CHARACTER*(MAX_LEN_MBUF) msgBuf
      _RL pday
      INTEGER i,j,k,bi,bj,nz
      INTEGER tmp
      INTEGER prec
      CHARACTER*(MAX_LEN_MBUF) fn
C     /--------------------------------------------------------------\
C     |  initialise common block biochemical parameters               |
C     \--------------------------------------------------------------/

      _BEGIN_MASTER(myThid)

      WRITE(msgBuf,'(A)')
     &'// ======================================================='
      CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
     &                    SQUEEZE_RIGHT, myThid )
      WRITE(msgBuf,'(A)') '// Darwin loading parameters'
      CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
     &                    SQUEEZE_RIGHT, myThid )
      WRITE(msgBuf,'(A)')
     &'// ======================================================='
      CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
     &                    SQUEEZE_RIGHT, myThid )


c ANNA set fixed params for WAVEBANDS
#ifdef WAVEBANDS
        call wavebands_init_fixed(myThid)
#endif 

c c define 1 day in seconds
         pday = 86400.0 _d 0


c attenuation coefficients
c ANNA only if not wavebands
#ifndef WAVEBANDS
      k0=        4. _d -2                   !atten coefficient water(m^-1)
#ifdef GEIDER
      kc=        4. _d -2                   !atten coefficient chl ((mmol chl/m3)-1)
#else
      kc=        4. _d -2*16. _d 0*1. _d 0        !atten coefficient phy((uM m)-1)
#endif
#endif
c ANNA endif


c par parameters
      parfrac=  0.4 _d 0                    !fraction Qsw that is PAR
      parconv= 1. _d 0/0.2174 _d 0             !conversion from W/m2 to uEin/m2/s
c for chl
      chlpmax=40. _d 0                      ! mg Chl/mmolP
      chlpmin=16. _d 0                      ! mg Chl/mmolP
      istar=90. _d 0                        ! w/m2
c iron related
      alpfe=     0.04 _d 0                  !solubility of Fe dust
      scav=      0.4 _d 0/(360. _d 0*86400. _d 0) !iron chem scavenging rate (s-1)
      ligand_tot=1. _d -3                   !total ligand (uM)
      ligand_stab=2. _d 5                   !ligand stability rate ratio
      freefemax = .4 _d -3                  ! max free fe

#ifdef IRON_SED_SOURCE
c iron sediment source
      depthfesed=1000.0 _d 0       !depth above which to add sediment source
      fesedflux =1.0 _d 0 * 1.0 _d -3 / (86400.0 _d 0) !iron flux (mmol/m2/s)
      fesedflux_pcm =0.68 _d 0 * 1.0 _d -3 !iron flux (mmol/m3/s) per
c                                            mmol POC/m3/s
#endif
#ifdef PART_SCAV
      scav_rat=0.005 _d 0 /(86400.0 _d 0)
      scav_inter=0.079 _d 0
      scav_exp=0.58 _d 0
#endif

c depth for denitrification to start
      depthdenit=185.0 _d 0

c critical oxygen for O2/NO3 remineralization
      O2crit = 6.0 _d 0    !(Lipschultz et al 1990, DSR 37, 1513-1541)
c ratio of n to p in denitrification process
      denit_np = 120.0 _d 0
c ratio no3 used relative to all n in denitrification process
      denit_no3 = 104.0 _d 0
c critical nitrate below which no denit (or remin) happens
      no3crit = 1. _d -2
c
c oxidation rates for ammonium and nitrite
c i.e. Knita ...    NH4 -> NO2
c i.e. Knitb ...    NO2 -> NO3
       Knita = 1.0 _d 0/(.50 _d 0*pday)
       Knitb = 1.0 _d 0/(10.0 _d 0*pday)
c critical light level (muEin/m2/s) after which oxidation starts
       PAR0 = 10. _d 0
c
#ifndef GEIDER
c set growth days ...small or big organism?
       Smallgrow = .7 _d 0
       Biggrow   = .4 _d 0
       Smallgrowrange = 0. _d 0
       Biggrowrange = 0. _d 0
       diaz_growfac = 2. _d 0
#endif
c set mort days ...small or big organism?
       Smallmort = 10. _d 0
       Bigmort   = 10. _d 0
       Smallmortrange = 0. _d 0
       Bigmortrange = 0. _d 0
c set export fraction ...small or big organism?
       Smallexport = 0.2 _d 0
       Bigexport   = 0.5 _d 0
c set sinking rates (m/s)... small or big organism?
       SmallSink = 0.0 _d 0/pday
       BigSink =  0.5 _d 0/pday   !0.5 _d 0/pday
c set parameters for light function for phyto growth
#ifndef GEIDER
       smallksatpar =    0.12 _d 0 ! 0.8 _d 0
       smallksatparstd = 0.20 _d 0  ! 0.3 _d 0
       smallkinhib =     6.0 _d 0   ! 2.0 _d 0
       smallkinhibstd =  0.10 _d 0  ! 0.5 _d 0
       Bigksatpar =      0.12 _d 0  ! 0.35 _d 0
       Bigksatparstd =   0.06 _d 0  ! 0.1 _d 0
       Bigkinhib =       1.0 _d 0   ! 0.5 _d 0
       Bigkinhibstd =    0.05 _d 0   ! 0.1 _d 0
#endif
#ifdef  GEIDER
c for Pcm -- should be growth rates, but using old variables
c note these are in terms of days - converted to 1/s later
       Smallgrow = .7 _d 0
       Biggrow   = .4 _d 0
       Smallgrowrange = 0. _d 0
       Biggrowrange = 0. _d 0
       diaz_growfac = 2. _d 0
c
       smallchl2cmax = 0.2 _d 0      !mg Chl (mmol C)
       smallchl2cmaxrange = 0.3 _d 0  !mg Chl (mmol C)
       Bigchl2cmax = 0.5 _d 0         !mg Chl (mmol C)
       Bigchl2cmaxrange = 0.3 _d 0    !mg Chl (mmol C)

c ANNA_Q units for alpha are same as expected: mmol C (mg chla)-1 (uEin)-1 (m)2
c       smallalphachl =  1. _d -6     !mmol C (uEin/m-2)-1 (mg Chl)-1 
c       smallalphachlrange = 1. _d -6 !mmol C (uEin/m-2)-1 (mg Chl)-1
c       Bigalphachl = 6. _d -7        !mmol C (uEin/m-2)-1 (mg Chl)-1
c       Bigalphachlrange = 4. _d -7   !mmol C (uEin/m-2)-1 (mg Chl)-1
c ANNA mQyield vals are from alphachl / aphy_chl which for now is 0.02
c ANNA ranges for mQyield are same as alphachl but reduced by factor 100
       smallmQyield = 5. _d -5        !mmol C (uEin)-1
       smallmQyieldrange = 1. _d -4   !mmol C (uEin)-1
       BigmQyield = 3. _d -5          !mmol C (uEin)-1
       BigmQyieldrange = 4. _d -5     !mmol C (uEin)-1

c ANNA value of aphy_chl_ave = 0.02 - its the mean of all spectras used as input data
       aphy_chl_ave = 0.02 _d 0      !m2 (mg chla)-1 (ie. x chla gives absorption m-1)

c inhib for Prochl?
C       inhibcoef_geid_val = 1.2 _d 0 !DUMMY VAL
       inhibcoef_geid_val = 0 _d 0 !DUMMY VAL
#ifdef DYNAMIC_CHL
       acclimtimescl = 1./(60. _d 0 *60. _d 0 *24. _d 0 * 20. _d 0)
#endif
#endif
c

c set temperature function
       tempcoeff1 = 1. _d 0/3. _d 0
       tempcoeff2_small = 0.001 _d 0
       tempcoeff2_big   = 0.0003 _d 0
       tempcoeff3 = 1.04 _d 0
       tempmax = 30. _d 0      ! 32. _d 0
       temprange = 32. _d 0    ! 30. _d 0
       tempnorm = 0.3 _d 0  ! 1. _d 0
       tempdecay = 4. _d 0
c set phosphate half stauration constants .. small or big organism
       SmallPsat=0.015 _d 0
       BigPsat=0.035 _d 0
       ProcPsat=0.01 _d 0
       UniDzPsat=0.012 _d 0
       SmallPsatrange=0.02 _d 0
       BigPsatrange=0.02 _d 0
       ProcPsatrange=0.005 _d 0
       UniDzPsatrange=0.02 _d 0
c set NH4/NO2 frac, so that NH4/NO2 can be preferred nitrogen source
       ksatNH4fac=.50 _d 0
       ksatNO2fac=1.0 _d 0
c set prochl lower half-sat (used only for mutants)
       prochlPsat=.85 _d 0
c ammonia and nitrite inhibition
       sig1 = 4.6 _d 0
       sig2 = 4.6 _d 0
       sig3 = 4.6 _d 0
       ngrowfac = 1. _d 0
       ilight = 2. _d 0
c set si half sat
       val_ksatsi=1. _d 0
c set nutrient ratios for phyto
#ifdef ONLY_P_CYCLE
       val_R_SiP_diatom=0.0 _d 0
       val_R_NP=0.0 _d 0
       val_RFeP=0.0 _d -3
       val_R_NP_diaz=0.0 _d  0
       val_RFeP_diaz=0.0 _d 0 * val_RFeP
       val_R_PC=0.0 _d 0
       val_R_PICPOC=0.0 _d 0
#else
       val_R_SiP_diatom=16.0 _d 0  ! 32 for Fanny's runs
       val_R_NP=16.0 _d 0
       val_RFeP=1.0 _d -3
       val_R_NP_diaz=40.0 _d  0
       val_RFeP_diaz=30.0 _d 0 * val_RFeP
       val_R_PC=120.0 _d 0
       val_R_PICPOC=0.8 _d 0
#endif
c
#ifdef OLD_GRAZE
c grazing hlaf saturation
       kgrazesat = 0.1 _d 0
c set grazing rates .. small or big organism?
       GrazeFast = 1.0 _d 0/(5.0 _d 0*pday)
       GrazeSlow = 1.0 _d 0/(30.0 _d 0*pday)
c set grazing effeciency
       GrazeEffsmall=0.6 _d 0
       GrazeEffbig  =0.2 _d 0
c set grazing of diatom factor
       diatomgraz = 0.8 _d 0
       coccograz = 0.7 _d 0
       olargegraz = 0.9 _d 0
#else
c grazing hlaf saturation
c      kgrazesat = 0.1 _d 0
       kgrazesat = 0.1 _d 0
c      phygrazmin = 1 _d -5
       phygrazmin = 1 _d -10
c set grazing rates .. small or big organism?
c      GrazeFast = 1.0 _d 0/(5.0 _d 0*pday)
       GrazeFast = 1.0 _d 0/(2.0 _d 0*pday)
c      GrazeSlow = 1.0 _d 0/(30.0 _d 0*pday)
       GrazeSlow = 1.0 _d 0/(7.0 _d 0*pday)
c set grazing effeciency
       GrazeEfflow= 0.2 _d 0
       GrazeEffmod= 0.5 _d 0
       GrazeEffhi = 0.7 _d 0
c set palatibility
       palathi = 1.0 _d 0
       palatlo = 0.2 _d 0
c set palatibilty diatom factor
       diatomgraz = 0.7 _d 0
       coccograz = 0.6 _d 0
       olargegraz = 1.0 _d 0
c set faction graz to POM
       ExGrazfracbig = 0.8 _d 0
       ExGrazfracsmall = 0.8 _d 0
c grazing exponential 1= holling 2, 2=holling 3
       hollexp=1.0 _d 0
#endif
c set zoo mortality
       ZoomortSmall = 1.0 _d 0/(30.0 _d 0*pday)
       ZoomortBig = 1.0 _d 0/(30.0 _d 0*pday)
       ZoomortSmall2 = 0. _d 0
       ZoomortBig2 = 0. _d 0
c set zoo exportfrac
       ZooexfacSmall = 0.2 _d 0
       ZooexfacBig = 0.7 _d 0
c minimum phyto (below which grazing and mortality doesn't happen)
c      phymin = 1 _d -10
c      phymin = 1 _d -50
       phymin = 1 _d -20
c DOM remin rates
         Kdop = 1.0 _d 0/(100.0 _d 0*pday)
         Kdon = 1.0 _d 0/(100.0 _d 0*pday)
         KdoFe = 1.0 _d 0/(100.0 _d 0*pday)
c Particulate detritus remin rates
c z* = wx_sink/Kremin_X
c for e-folding length scale, z* = 300 m
c choose Kremin_X = 1/30 day-1, wx_sink = 10 m day-1
         Kpremin_P = 1.0 _d 0/(50.0 _d 0*pday)
         Kpremin_N = Kpremin_P
         Kpremin_Fe = Kpremin_P
         Kpremin_Si = 1.0 _d 0/(300.0 _d 0*pday)
c sinking rate for particulate matter (m/s)
         wp_sink = 10.0 _d 0/pday
         wn_sink = wp_sink
         wfe_sink = wp_sink
         wsi_sink = wp_sink

#ifdef ALLOW_CARBON
         R_OP = 170 _d 0
         Kdoc = 1.0 _d 0/(100.0 _d 0*pday)
         Kpremin_C = 1.0 _d 0/(50.0 _d 0*pday)
         Kdissc =  1.0 _d 0/(300.0 _d 0*pday)
         wc_sink = wp_sink
         wpic_sink = 15.0 _d 0/pday
         permil      = 1. _d 0 / 1024.5 _d 0
         Pa2Atm      = 1.01325 _d 5
#endif

#ifdef ALLOW_CDOM
         fraccdom=2. _d 0 / 100. _d 0
         cdomdegrd= 1. _d 0 / (200 _d 0 *pday)
         cdombleach = 1. _d 0 / (15 _d 0 *pday)
         PARcdom  = 20. _d 0
         rnp_cdom = 16. _d 0
         rfep_cdom = 1. _d -3
         rcp_cdom  = 120. _d 0
         cdomcoeff = .1 _d -1  / 1.d -4
#endif

C make sure we have reserved enough space in Ptracers
      IF ( nCompZooMax .LT. 4 ) THEN
#ifndef ONLY_P_CYCLE
        WRITE(msgBuf,'(A,A,I3)')
     &    'MONOD_INIT_FIXED: ERROR: 4 zooplankton components, but ',
     &    'nCompZooMax = ', nCompZooMax
        CALL PRINT_ERROR( msgBuf , 1)
        STOP 'ABNORMAL END: S/R MONOD_INIT_FIXED'
#endif
      ENDIF
      DO nz = 1,nzmax
        iZooP (nz)  = iZoo +                   (nz-1)*strideTypeZoo
#ifdef ONLY_P_CYCLE
        iZooN (nz)  = nptot
        iZooFe(nz)  = nptot
        iZooSi(nz)  = nptot
#else
        iZooN (nz)  = iZoo + 1*strideCompZoo + (nz-1)*strideTypeZoo
        iZooFe(nz)  = iZoo + 2*strideCompZoo + (nz-1)*strideTypeZoo
        iZooSi(nz)  = iZoo + 3*strideCompZoo + (nz-1)*strideTypeZoo
#endif
      ENDDO
#ifdef ALLOW_CARBON
       DO nz = 1,nzmax
        iZooC (nz)  = iZoC +                   (nz-1)
      ENDDO
#endif

#ifdef DAR_DIAG_DIVER
c only look at grid point with a minimum biomass
        diver_thresh0=1 _d -12
c diver1 - if any type greater than
        diver_thresh1=1 _d -8
c diver2 - if more than this proportion of total biomass
        diver_thresh2=1 _d -3
c diver3 - fraction of biomass to count
        diver_thresh3=.999 _d 0
c diver4 - fraction of maximum species
        diver_thresh4=1 _d -5
c threshold on total biomass for contributing to Shannon and Simpson ind
c (these become large at very small biomass)
        shannon_thresh = 1 _d -8   ! mmol P m-3
#endif

c set up diagnostics
#ifdef ALLOW_MNC
      IF ( useMNC ) THEN
        CALL DARWIN_MNC_INIT( myThid )
#ifdef ALLOW_CARBON
        CALL DIC_MNC_INIT( myThid )
#endif
      ENDIF
#endif /* ALLOW_MNC */

COJ set up diagnostics
#ifdef ALLOW_DIAGNOSTICS
      IF ( useDIAGNOSTICS ) THEN
        CALL MONOD_DIAGNOSTICS_INIT( myThid )
#ifdef ALLOW_CARBON
        CALL DIC_DIAGNOSTICS_INIT( myThid )
#endif
      ENDIF
#endif /* ALLOW_DIAGNOSTICS */
COJ

      _END_MASTER(myThid)

      RETURN
      END
C============================================================================
#endif
#endif

1	jahn	1.10	C $Header: /u/gcmpack/MITgcm_contrib/darwin2/pkg/monod/monod_init_fixed.F,v 1.9 2012/07/26 21:40:10 stephd Exp $
2	stephd	1.2	C $Name: $
3	jahn	1.1
4			#include "CPP_OPTIONS.h"
5			#include "PTRACERS_OPTIONS.h"
6			#include "DARWIN_OPTIONS.h"
7
8			#ifdef ALLOW_PTRACERS
9			#ifdef ALLOW_MONOD
10
11			c===============================================================================
12			C===============================================================================
13			CStartofinterface
14			SUBROUTINE MONOD_INIT_FIXED(myThid)
15			C =============== Global data ==========================================
16			C === Global variables ===
17			implicit none
18			#include "SIZE.h"
19			#include "EEPARAMS.h"
20			#include "PARAMS.h"
21			#include "GRID.h"
22			#include "DYNVARS.h"
23			#include "GCHEM.h"
24			#include "DARWIN_PARAMS.h"
25			#include "MONOD_SIZE.h"
26			#include "MONOD.h"
27			#include "DARWIN_FLUX.h"
28
29			INTEGER myThid
30			C============== Local variables ============================================
31			C msgBuf - Informational/error meesage buffer
32			CHARACTER*(MAX_LEN_MBUF) msgBuf
33			_RL pday
34			INTEGER i,j,k,bi,bj,nz
35			INTEGER tmp
36			INTEGER prec
37			CHARACTER*(MAX_LEN_MBUF) fn
38			C /--------------------------------------------------------------\
39			C \| initialise common block biochemical parameters \|
40			C \--------------------------------------------------------------/
41
42	jahn	1.10	_BEGIN_MASTER(myThid)
43
44	jahn	1.1	WRITE(msgBuf,'(A)')
45			&'// ======================================================='
46			CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
47			& SQUEEZE_RIGHT, myThid )
48			WRITE(msgBuf,'(A)') '// Darwin loading parameters'
49			CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
50			& SQUEEZE_RIGHT, myThid )
51			WRITE(msgBuf,'(A)')
52			&'// ======================================================='
53			CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
54			& SQUEEZE_RIGHT, myThid )
55
56
57			c ANNA set fixed params for WAVEBANDS
58			#ifdef WAVEBANDS
59			call wavebands_init_fixed(myThid)
60			#endif
61
62			c c define 1 day in seconds
63			pday = 86400.0 _d 0
64
65
66			c attenuation coefficients
67			c ANNA only if not wavebands
68			#ifndef WAVEBANDS
69			k0= 4. _d -2 !atten coefficient water(m^-1)
70			#ifdef GEIDER
71			kc= 4. _d -2 !atten coefficient chl ((mmol chl/m3)-1)
72			#else
73			kc= 4. _d -216. _d 01. _d 0 !atten coefficient phy((uM m)-1)
74			#endif
75			#endif
76			c ANNA endif
77
78
79			c par parameters
80			parfrac= 0.4 _d 0 !fraction Qsw that is PAR
81			parconv= 1. _d 0/0.2174 _d 0 !conversion from W/m2 to uEin/m2/s
82			c for chl
83			chlpmax=40. _d 0 ! mg Chl/mmolP
84			chlpmin=16. _d 0 ! mg Chl/mmolP
85			istar=90. _d 0 ! w/m2
86			c iron related
87			alpfe= 0.04 _d 0 !solubility of Fe dust
88			scav= 0.4 _d 0/(360. _d 0*86400. _d 0) !iron chem scavenging rate (s-1)
89			ligand_tot=1. _d -3 !total ligand (uM)
90			ligand_stab=2. _d 5 !ligand stability rate ratio
91			freefemax = .4 _d -3 ! max free fe
92
93			#ifdef IRON_SED_SOURCE
94			c iron sediment source
95			depthfesed=1000.0 _d 0 !depth above which to add sediment source
96			fesedflux =1.0 _d 0 * 1.0 _d -3 / (86400.0 _d 0) !iron flux (mmol/m2/s)
97			fesedflux_pcm =0.68 _d 0 * 1.0 _d -3 !iron flux (mmol/m3/s) per
98			c mmol POC/m3/s
99			#endif
100			#ifdef PART_SCAV
101			scav_rat=0.005 _d 0 /(86400.0 _d 0)
102			scav_inter=0.079 _d 0
103			scav_exp=0.58 _d 0
104			#endif
105
106			c depth for denitrification to start
107			depthdenit=185.0 _d 0
108
109			c critical oxygen for O2/NO3 remineralization
110			O2crit = 6.0 _d 0 !(Lipschultz et al 1990, DSR 37, 1513-1541)
111	stephd	1.7	c ratio of n to p in denitrification process
112	jahn	1.1	denit_np = 120.0 _d 0
113	stephd	1.7	c ratio no3 used relative to all n in denitrification process
114			denit_no3 = 104.0 _d 0
115			c critical nitrate below which no denit (or remin) happens
116			no3crit = 1. _d -2
117	jahn	1.1	c
118			c oxidation rates for ammonium and nitrite
119			c i.e. Knita ... NH4 -> NO2
120			c i.e. Knitb ... NO2 -> NO3
121			Knita = 1.0 _d 0/(.50 _d 0*pday)
122			Knitb = 1.0 _d 0/(10.0 _d 0*pday)
123			c critical light level (muEin/m2/s) after which oxidation starts
124			PAR0 = 10. _d 0
125			c
126			#ifndef GEIDER
127			c set growth days ...small or big organism?
128			Smallgrow = .7 _d 0
129			Biggrow = .4 _d 0
130			Smallgrowrange = 0. _d 0
131			Biggrowrange = 0. _d 0
132			diaz_growfac = 2. _d 0
133			#endif
134			c set mort days ...small or big organism?
135			Smallmort = 10. _d 0
136			Bigmort = 10. _d 0
137			Smallmortrange = 0. _d 0
138			Bigmortrange = 0. _d 0
139			c set export fraction ...small or big organism?
140			Smallexport = 0.2 _d 0
141			Bigexport = 0.5 _d 0
142			c set sinking rates (m/s)... small or big organism?
143			SmallSink = 0.0 _d 0/pday
144			BigSink = 0.5 _d 0/pday !0.5 _d 0/pday
145			c set parameters for light function for phyto growth
146			#ifndef GEIDER
147			smallksatpar = 0.12 _d 0 ! 0.8 _d 0
148			smallksatparstd = 0.20 _d 0 ! 0.3 _d 0
149			smallkinhib = 6.0 _d 0 ! 2.0 _d 0
150			smallkinhibstd = 0.10 _d 0 ! 0.5 _d 0
151			Bigksatpar = 0.12 _d 0 ! 0.35 _d 0
152			Bigksatparstd = 0.06 _d 0 ! 0.1 _d 0
153			Bigkinhib = 1.0 _d 0 ! 0.5 _d 0
154			Bigkinhibstd = 0.05 _d 0 ! 0.1 _d 0
155			#endif
156			#ifdef GEIDER
157			c for Pcm -- should be growth rates, but using old variables
158			c note these are in terms of days - converted to 1/s later
159			Smallgrow = .7 _d 0
160			Biggrow = .4 _d 0
161			Smallgrowrange = 0. _d 0
162			Biggrowrange = 0. _d 0
163			diaz_growfac = 2. _d 0
164			c
165			smallchl2cmax = 0.2 _d 0 !mg Chl (mmol C)
166			smallchl2cmaxrange = 0.3 _d 0 !mg Chl (mmol C)
167			Bigchl2cmax = 0.5 _d 0 !mg Chl (mmol C)
168			Bigchl2cmaxrange = 0.3 _d 0 !mg Chl (mmol C)
169
170			c ANNA_Q units for alpha are same as expected: mmol C (mg chla)-1 (uEin)-1 (m)2
171			c smallalphachl = 1. _d -6 !mmol C (uEin/m-2)-1 (mg Chl)-1
172			c smallalphachlrange = 1. _d -6 !mmol C (uEin/m-2)-1 (mg Chl)-1
173			c Bigalphachl = 6. _d -7 !mmol C (uEin/m-2)-1 (mg Chl)-1
174			c Bigalphachlrange = 4. _d -7 !mmol C (uEin/m-2)-1 (mg Chl)-1
175			c ANNA mQyield vals are from alphachl / aphy_chl which for now is 0.02
176			c ANNA ranges for mQyield are same as alphachl but reduced by factor 100
177			smallmQyield = 5. _d -5 !mmol C (uEin)-1
178			smallmQyieldrange = 1. _d -4 !mmol C (uEin)-1
179			BigmQyield = 3. _d -5 !mmol C (uEin)-1
180			BigmQyieldrange = 4. _d -5 !mmol C (uEin)-1
181
182			c ANNA value of aphy_chl_ave = 0.02 - its the mean of all spectras used as input data
183			aphy_chl_ave = 0.02 _d 0 !m2 (mg chla)-1 (ie. x chla gives absorption m-1)
184
185			c inhib for Prochl?
186			C inhibcoef_geid_val = 1.2 _d 0 !DUMMY VAL
187			inhibcoef_geid_val = 0 _d 0 !DUMMY VAL
188			#ifdef DYNAMIC_CHL
189			acclimtimescl = 1./(60. _d 0 60. _d 0 24. _d 0 * 20. _d 0)
190			#endif
191			#endif
192			c
193
194			c set temperature function
195			tempcoeff1 = 1. _d 0/3. _d 0
196			tempcoeff2_small = 0.001 _d 0
197			tempcoeff2_big = 0.0003 _d 0
198			tempcoeff3 = 1.04 _d 0
199			tempmax = 30. _d 0 ! 32. _d 0
200			temprange = 32. _d 0 ! 30. _d 0
201			tempnorm = 0.3 _d 0 ! 1. _d 0
202			tempdecay = 4. _d 0
203			c set phosphate half stauration constants .. small or big organism
204			SmallPsat=0.015 _d 0
205			BigPsat=0.035 _d 0
206			ProcPsat=0.01 _d 0
207			UniDzPsat=0.012 _d 0
208			SmallPsatrange=0.02 _d 0
209			BigPsatrange=0.02 _d 0
210			ProcPsatrange=0.005 _d 0
211			UniDzPsatrange=0.02 _d 0
212			c set NH4/NO2 frac, so that NH4/NO2 can be preferred nitrogen source
213			ksatNH4fac=.50 _d 0
214			ksatNO2fac=1.0 _d 0
215			c set prochl lower half-sat (used only for mutants)
216			prochlPsat=.85 _d 0
217			c ammonia and nitrite inhibition
218			sig1 = 4.6 _d 0
219			sig2 = 4.6 _d 0
220			sig3 = 4.6 _d 0
221			ngrowfac = 1. _d 0
222			ilight = 2. _d 0
223			c set si half sat
224			val_ksatsi=1. _d 0
225			c set nutrient ratios for phyto
226	stephd	1.8	#ifdef ONLY_P_CYCLE
227			val_R_SiP_diatom=0.0 _d 0
228			val_R_NP=0.0 _d 0
229			val_RFeP=0.0 _d -3
230			val_R_NP_diaz=0.0 _d 0
231			val_RFeP_diaz=0.0 _d 0 * val_RFeP
232			val_R_PC=0.0 _d 0
233			val_R_PICPOC=0.0 _d 0
234			#else
235	jahn	1.1	val_R_SiP_diatom=16.0 _d 0 ! 32 for Fanny's runs
236			val_R_NP=16.0 _d 0
237			val_RFeP=1.0 _d -3
238			val_R_NP_diaz=40.0 _d 0
239			val_RFeP_diaz=30.0 _d 0 * val_RFeP
240			val_R_PC=120.0 _d 0
241			val_R_PICPOC=0.8 _d 0
242	stephd	1.8	#endif
243			c
244	jahn	1.1	#ifdef OLD_GRAZE
245			c grazing hlaf saturation
246			kgrazesat = 0.1 _d 0
247			c set grazing rates .. small or big organism?
248			GrazeFast = 1.0 _d 0/(5.0 _d 0*pday)
249			GrazeSlow = 1.0 _d 0/(30.0 _d 0*pday)
250			c set grazing effeciency
251			GrazeEffsmall=0.6 _d 0
252			GrazeEffbig =0.2 _d 0
253			c set grazing of diatom factor
254			diatomgraz = 0.8 _d 0
255			coccograz = 0.7 _d 0
256			olargegraz = 0.9 _d 0
257			#else
258			c grazing hlaf saturation
259			c kgrazesat = 0.1 _d 0
260			kgrazesat = 0.1 _d 0
261			c phygrazmin = 1 _d -5
262			phygrazmin = 1 _d -10
263			c set grazing rates .. small or big organism?
264			c GrazeFast = 1.0 _d 0/(5.0 _d 0*pday)
265			GrazeFast = 1.0 _d 0/(2.0 _d 0*pday)
266			c GrazeSlow = 1.0 _d 0/(30.0 _d 0*pday)
267			GrazeSlow = 1.0 _d 0/(7.0 _d 0*pday)
268			c set grazing effeciency
269			GrazeEfflow= 0.2 _d 0
270			GrazeEffmod= 0.5 _d 0
271			GrazeEffhi = 0.7 _d 0
272			c set palatibility
273			palathi = 1.0 _d 0
274			palatlo = 0.2 _d 0
275			c set palatibilty diatom factor
276			diatomgraz = 0.7 _d 0
277			coccograz = 0.6 _d 0
278			olargegraz = 1.0 _d 0
279			c set faction graz to POM
280			ExGrazfracbig = 0.8 _d 0
281			ExGrazfracsmall = 0.8 _d 0
282	stephd	1.2	c grazing exponential 1= holling 2, 2=holling 3
283			hollexp=1.0 _d 0
284	jahn	1.1	#endif
285			c set zoo mortality
286			ZoomortSmall = 1.0 _d 0/(30.0 _d 0*pday)
287			ZoomortBig = 1.0 _d 0/(30.0 _d 0*pday)
288	stephd	1.3	ZoomortSmall2 = 0. _d 0
289			ZoomortBig2 = 0. _d 0
290	jahn	1.1	c set zoo exportfrac
291			ZooexfacSmall = 0.2 _d 0
292			ZooexfacBig = 0.7 _d 0
293			c minimum phyto (below which grazing and mortality doesn't happen)
294			c phymin = 1 _d -10
295			c phymin = 1 _d -50
296			phymin = 1 _d -20
297			c DOM remin rates
298			Kdop = 1.0 _d 0/(100.0 _d 0*pday)
299			Kdon = 1.0 _d 0/(100.0 _d 0*pday)
300			KdoFe = 1.0 _d 0/(100.0 _d 0*pday)
301			c Particulate detritus remin rates
302			c z* = wx_sink/Kremin_X
303			c for e-folding length scale, z* = 300 m
304			c choose Kremin_X = 1/30 day-1, wx_sink = 10 m day-1
305			Kpremin_P = 1.0 _d 0/(50.0 _d 0*pday)
306			Kpremin_N = Kpremin_P
307			Kpremin_Fe = Kpremin_P
308			Kpremin_Si = 1.0 _d 0/(300.0 _d 0*pday)
309			c sinking rate for particulate matter (m/s)
310			wp_sink = 10.0 _d 0/pday
311			wn_sink = wp_sink
312			wfe_sink = wp_sink
313			wsi_sink = wp_sink
314
315			#ifdef ALLOW_CARBON
316			R_OP = 170 _d 0
317			Kdoc = 1.0 _d 0/(100.0 _d 0*pday)
318			Kpremin_C = 1.0 _d 0/(50.0 _d 0*pday)
319			Kdissc = 1.0 _d 0/(300.0 _d 0*pday)
320			wc_sink = wp_sink
321			wpic_sink = 15.0 _d 0/pday
322			permil = 1. _d 0 / 1024.5 _d 0
323			Pa2Atm = 1.01325 _d 5
324			#endif
325
326	stephd	1.5	#ifdef ALLOW_CDOM
327			fraccdom=2. _d 0 / 100. _d 0
328			cdomdegrd= 1. _d 0 / (200 _d 0 *pday)
329			cdombleach = 1. _d 0 / (15 _d 0 *pday)
330			PARcdom = 20. _d 0
331			rnp_cdom = 16. _d 0
332			rfep_cdom = 1. _d -3
333			rcp_cdom = 120. _d 0
334			cdomcoeff = .1 _d -1 / 1.d -4
335			#endif
336
337	jahn	1.1	C make sure we have reserved enough space in Ptracers
338			IF ( nCompZooMax .LT. 4 ) THEN
339	stephd	1.9	#ifndef ONLY_P_CYCLE
340	jahn	1.1	WRITE(msgBuf,'(A,A,I3)')
341			& 'MONOD_INIT_FIXED: ERROR: 4 zooplankton components, but ',
342			& 'nCompZooMax = ', nCompZooMax
343			CALL PRINT_ERROR( msgBuf , 1)
344			STOP 'ABNORMAL END: S/R MONOD_INIT_FIXED'
345	stephd	1.9	#endif
346	jahn	1.1	ENDIF
347			DO nz = 1,nzmax
348			iZooP (nz) = iZoo + (nz-1)*strideTypeZoo
349	stephd	1.6	#ifdef ONLY_P_CYCLE
350			iZooN (nz) = nptot
351			iZooFe(nz) = nptot
352			iZooSi(nz) = nptot
353			#else
354	jahn	1.1	iZooN (nz) = iZoo + 1strideCompZoo + (nz-1)strideTypeZoo
355			iZooFe(nz) = iZoo + 2strideCompZoo + (nz-1)strideTypeZoo
356			iZooSi(nz) = iZoo + 3strideCompZoo + (nz-1)strideTypeZoo
357	stephd	1.6	#endif
358	jahn	1.1	ENDDO
359			#ifdef ALLOW_CARBON
360			DO nz = 1,nzmax
361			iZooC (nz) = iZoC + (nz-1)
362			ENDDO
363			#endif
364
365			#ifdef DAR_DIAG_DIVER
366			c only look at grid point with a minimum biomass
367			diver_thresh0=1 _d -12
368			c diver1 - if any type greater than
369			diver_thresh1=1 _d -8
370			c diver2 - if more than this proportion of total biomass
371			diver_thresh2=1 _d -3
372			c diver3 - fraction of biomass to count
373			diver_thresh3=.999 _d 0
374			c diver4 - fraction of maximum species
375			diver_thresh4=1 _d -5
376	jahn	1.4	c threshold on total biomass for contributing to Shannon and Simpson ind
377			c (these become large at very small biomass)
378			shannon_thresh = 1 _d -8 ! mmol P m-3
379	jahn	1.1	#endif
380
381			c set up diagnostics
382			#ifdef ALLOW_MNC
383			IF ( useMNC ) THEN
384			CALL DARWIN_MNC_INIT( myThid )
385			#ifdef ALLOW_CARBON
386			CALL DIC_MNC_INIT( myThid )
387			#endif
388			ENDIF
389			#endif /* ALLOW_MNC */
390
391			COJ set up diagnostics
392			#ifdef ALLOW_DIAGNOSTICS
393			IF ( useDIAGNOSTICS ) THEN
394			CALL MONOD_DIAGNOSTICS_INIT( myThid )
395			#ifdef ALLOW_CARBON
396			CALL DIC_DIAGNOSTICS_INIT( myThid )
397			#endif
398			ENDIF
399			#endif /* ALLOW_DIAGNOSTICS */
400			COJ
401
402	jahn	1.10	_END_MASTER(myThid)
403	jahn	1.1
404	jahn	1.10	RETURN
405			END
406	jahn	1.1	C============================================================================
407			#endif
408			#endif
409