pkg/quota/quota_init_fixed.F

C $Header: /u/gcmpack/MITgcm_contrib/darwin2/pkg/quota/quota_init_fixed.F,v 1.4 2015/05/19 14:32:43 benw Exp $
C $Name:  $

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

#ifdef ALLOW_PTRACERS
#ifdef ALLOW_DARWIN
#ifdef ALLOW_QUOTA

c===============================================================================
C===============================================================================
CStartofinterface
      SUBROUTINE QUOTA_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 "QUOTA_SIZE.h"
#include "QUOTA.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,ii,jp,ko
      INTEGER tmp
      INTEGER prec
      CHARACTER*(MAX_LEN_MBUF) fn
C     /--------------------------------------------------------------\
C     |  initialise common block biochemical parameters               |
C     \--------------------------------------------------------------/

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


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

      istar=90. _d 0                        ! w/m2
c
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 = 20. _d 0      ! 32. _d 0
       temprange = 22. _d 0    ! 30. _d 0
       tempnorm = 0.3 _d 0  ! 1. _d 0
       tempdecay = 4. _d 0

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

COJ set up diagnostics
#ifdef ALLOW_DIAGNOSTICS
      IF ( useDIAGNOSTICS ) THEN
        CALL QUOTA_DIAGNOSTICS_INIT( myThid )
      ENDIF
#endif /* ALLOW_DIAGNOSTICS */
COJ
c-----------------------------------------------------
c "Standard" parameters
      ! maximum assimilation efficiency
      ass_eff          =  0.70 _d 0
!     prey switching exponent
      ns               =  2
!     hill number for grazing
      hill             =  0.10 _d 0
!     grazing refuge
      Lambda           = -1.00 _d 0
      ! organic matter sinking rate
      orgsink(1)       =  0.00 _d 0  /pday
      orgsink(2)       = 10.00 _d 0  /pday
      ! cost of biosynthesis
      biosynth         =  2.33 _d 0
      ! nitrogen uptake
      amminhib         =  4.60 _d 0
      ! nitrification
      amm2nrite        =  2.00 _d 0  /pday
      nrite2nrate      =  0.10 _d 0  /pday
      PAR0             =  10.0 _d 0
      ! iron
!      alpfe            =  1.00 _d 0 ! 3D model
      alpfe            =  0.05 _d 0 ! 1D model
!      scav             =  1.10 _d -3 /pday
      scav             =  4.40 _d -3 /pday

      ligand_stab      =  2.00 _d +5
      ligand_tot       =  1.00 _d -3
      freefemax        =  0.10 _d -3
#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
      ! basic light
      k_w              =  0.04 _d 0 ! m^-1
      k_chl            =  0.03 _d 0 ! m^-1 (mg chl)^-1
      chl2nmax         =  3.00 _d 0 ! Moore 2002 (labelled as GD98)
!      chl2nmax         =  5.6 _d 0  ! Geider 1998
c-----------------------------------------------------
c ALLOMETRIC PARAMETERS
c parameter = aV^b
c if errors are relative (*/) then state as "log(error)"
c if errors are absolute (+-) then state as "error"
cccccccccccccccccccccccccccccccccccccccccccccccccccccc
!     Initial slope of PI curve
      a_alphachl       =  3.83 _d -7        ! mmol C (mg chl a)^-1 (mu Ein m^-2)^-1
      ae_alphachl      =  1.00 _d 0
      b_alphachl       =  0.00 _d 0
      be_alphachl      =  0.00 _d 0
cccccccccccccccccccccccccccccccccccccccccccccccccccccc
! maximum specific grazing rate
      a_graz           =  21.9 _d 0 / pday  ! d^-1
      ae_graz          =  1.00 _d 0
      b_graz           = -0.16 _d 0
      be_graz          =  0.02 _d 0
! half saturation grazing prey carbon concentration
      a_kg             =  5.00 _d 0       ! mmol C m^-3
      ae_kg            =  3.80 _d 0
      b_kg             =  0.00 _d 0
      be_kg            =  0.03 _d 0
cccccccccccccccccccccccccccccccccccccccccccccccccccccc
! sinking (enter as positive downwards)
      a_biosink        =  0.0 _d 0 ! assume sinking either negligable or balanced by motility 
!      a_biosink        =  0.28 _d -1 / pday ! m d^-1
      ae_biosink       =  1.00 _d 0
      b_biosink        =  0.39 _d 0 ! from Laws (1975) by "inspection" of Smada (1967)
      be_biosink       =  0.00 _d 0 
cccccccccccccccccccccccccccccccccccccccccccccccccccccc
! mortality
      a_mort           =  0.25 _d -1 / pday  ! d^-1
      ae_mort          =  1.00 _d 0
      b_mort           =  0.00 _d 0
      be_mort          =  0.00 _d 0
! predator prey preference distribution parameters
      a_prdpry         =  1024. _d 0  ! dimensionless
      ae_prdpry        =  1.00 _d 0
      b_prdpry         =  0.00 _d 0
      be_prdpry        =  0.00 _d 0
cccccccccccccccccccccccccccccccccccccccccccccccccccccc
! carbon
      ! max photosynthetic rate (modified in quota_generate_plankton.F)
      a_vmaxi(iDIC)    =  1.00 _d 0 / pday   ! d^-1
      ae_vmaxi(iDIC)   =  1.00 _d 0
      b_vmaxi(iDIC)    = -0.15 _d 0
      be_vmaxi(iDIC)   =  0.05 _d 0
      ! cellular carbon content
      a_qcarbon        =  1.45 _d -11        ! mmol C cell^-1
      ae_qcarbon       =  1.36 _d 0
      b_qcarbon        =  0.88 _d 0
      be_qcarbon       =  0.04 _d 0
      ! respiration
      a_respir         =  0.00 _d 0 / pday   ! d^-1
      ae_respir        =  1.00 _d 0
      b_respir         =  0.00 _d 0
      be_respir        =  0.00 _d 0
      ! carbon excretion
!      a_kexc(iCarb)    =  0.32 _d -1 / pday  ! d^-1
      a_kexc(iCarb)    =  0.00 _d 0
      ae_kexc(iCarb)   =  1.36 _d 0
      b_kexc(iCarb)    = -0.33 _d 0
      be_kexc(iCarb)   =  0.09 _d 0
      ! fraction grazing to DOC
      a_beta_graz(iCarb)  =  1.00 _d 0
      ae_beta_graz(iCarb) =  1.00 _d 0
      b_beta_graz(iCarb)  = -0.40 _d 0
      be_beta_graz(iCarb) =  0.00 _d 0
      ! fraction mortality to DOC
      a_beta_mort(iCarb)  =  1.00 _d 0
      ae_beta_mort(iCarb) =  1.00 _d 0
      b_beta_mort(iCarb)  = -0.40 _d 0
      be_beta_mort(iCarb) =  0.00 _d 0
      ! carbon remineralisation rate
      remin(iCarb,1)   =  0.02 _d 0 /pday
      remin(iCarb,2)   =  0.04 _d 0 /pday
! nitrogen & nitrate
      ! maximum NO3 uptake rate
      a_vmaxi(iNO3)    =  0.44 _d 0 / pday !0.51 _d 0 / pday   ! mmol N (mmol C)^-1 d^-1
      ae_vmaxi(iNO3)   =  1.00 _d 0
      b_vmaxi(iNO3)    = -0.12 _d 0!-0.27 _d 0
      be_vmaxi(iNO3)   =  0.00 _d 0
      ! NO3 half-saturation
      a_kn(iNO3)       =  0.14 _d 0         ! (mmol N m^-3)
      ae_kn(iNO3)      =  1.36 _d 0
      b_kn(iNO3)       =  0.33 _d 0
      be_kn(iNO3)      =  0.07 _d 0
      ! N minimum quota
      a_qmin(iNitr)    =  0.05 _d 0         ! mmol N (mmol C)^-1
      ae_qmin(iNitr)   =  1.00 _d 0
      b_qmin(iNitr)    =  0.00 _d 0
      be_qmin(iNitr)   =  0.00 _d 0
      ! N maximum quota
      a_qmax(iNitr)    =  0.17 _d 0         ! mmol N (mmol C)^-1
      ae_qmax(iNitr)   =  1.00 _d 0
      b_qmax(iNitr)    =  0.00 _d 0
      be_qmax(iNitr)   =  0.00 _d 0
      ! nitrogen excretion
      a_kexc(iNitr)    =  0.00 _d 0
      ae_kexc(iNitr)   =  1.36 _d 0
      b_kexc(iNitr)    = -0.33 _d 0
      be_kexc(iNitr)   =  0.09 _d 0
      ! fraction grazing to DON
      a_beta_graz(iNitr)  =  0.75 _d 0
      ae_beta_graz(iNitr) =  1.00 _d 0
      b_beta_graz(iNitr)  = -0.25 _d 0
      be_beta_graz(iNitr) =  0.00 _d 0
      ! fraction mortality to DON
      a_beta_mort(iNitr)  =  0.75 _d 0
      ae_beta_mort(iNitr) =  1.00 _d 0
      b_beta_mort(iNitr)  = -0.25 _d 0
      be_beta_mort(iNitr) =  0.00 _d 0
      ! N remineralisation rate
      remin(iNitr,1)   =  0.02 _d 0  /pday
      remin(iNitr,2)   =  0.04 _d 0  /pday
#ifdef NITRITE
! nitrite
      ! maximum NO2 uptake rate
      a_vmaxi(iNO2)    =  a_vmaxi(iNO3)  ! mmol N (mmol C)^-1 d^-1
      ae_vmaxi(iNO2)   =  1.36 _d 0
      b_vmaxi(iNO2)    =  b_vmaxi(iNO3)
      be_vmaxi(iNO2)   =  0.07 _d 0
      ! NO2 half-saturation
      a_kn(iNO2)       =  a_kn(iNO3)     ! (mmol N m^-3)
      ae_kn(iNO2)      =  1.36 _d 0
      b_kn(iNO2)       =  b_kn(iNO3)
      be_kn(iNO2)      =  0.08 _d 0
#endif
#ifdef AMMON
! ammonium
      ! maximum NH4 uptake rate
      a_vmaxi(iNH4)    =  a_vmaxi(iNO3)/2.0 _d 0  ! mmol N (mmol C)^-1 d^-1
      ae_vmaxi(iNH4)   =  1.36 _d 0
      b_vmaxi(iNH4)    =  b_vmaxi(iNO3)
      be_vmaxi(iNH4)   =  0.07 _d 0
      ! NH4 half-saturation
      a_kn(iNH4)       =  a_kn(iNO3)/2.0 _d 0     ! (mmol N m^-3)
      ae_kn(iNH4)      =  1.36 _d 0
      b_kn(iNH4)       =  b_kn(iNO3)
      be_kn(iNH4)      =  0.08 _d 0
#endif
#ifdef PQUOTA
! phosphate
      ! maximum PO4 uptake rate
      a_vmaxi(iPO4)    =  0.44 _d -1 / pday ! mmol P (mmol C)^-1 d^-1
      ae_vmaxi(iPO4)   =  1.36 _d 0
      b_vmaxi(iPO4)    =  0.06 _d 0
      be_vmaxi(iPO4)   =  0.07 _d 0
      ! PO4 half-saturation
      a_kn(iPO4)       =  0.04 _d 0        ! (mmol N m^-3)
      ae_kn(iPO4)      =  1.36 _d 0
      b_kn(iPO4)       =  0.41 _d 0
      be_kn(iPO4)      =  0.08 _d 0
      ! minimum P quota
      a_qmin(iPhos)    =  2.13 _d -3       ! mmol N (mmol C)^-1
      ae_qmin(iPhos)   =  1.00 _d 0
      b_qmin(iPhos)    =  0.00 _d 0
      be_qmin(iPhos)   =  0.00 _d 0
      ! maximum P quota
      a_qmax(iPhos)    =  1.06 _d -2        ! mmol N (mmol C)^-1
      ae_qmax(iPhos)   =  1.20 _d 0
      b_qmax(iPhos)    =  0.05 _d 0
      be_qmax(iPhos)   =  0.00 _d 0
      ! P excretion
      a_kexc(iPhos)    =  0.00 _d -1 / pday ! d^-1
      ae_kexc(iPhos)   =  1.36 _d 0
      b_kexc(iPhos)    = -0.33 _d 0
      be_kexc(iPhos)   =  0.09 _d 0
      ! fraction grazing to DOP
      a_beta_graz(iPhos)  =  0.75 _d 0
      ae_beta_graz(iPhos) =  1.00 _d 0
      b_beta_graz(iPhos)  = -0.25 _d 0
      be_beta_graz(iPhos) =  0.00 _d 0
      ! fraction mortality to DOP
      a_beta_mort(iPhos)  =  0.75 _d 0
      ae_beta_mort(iPhos) =  1.00 _d 0
      b_beta_mort(iPhos)  = -0.25 _d 0
      be_beta_mort(iPhos) =  0.00 _d 0
      ! P remineralisation rate
      remin(iPhos,1)   =  0.02 _d 0  /pday
      remin(iPhos,2)   =  0.04 _d 0  /pday
#endif
#ifdef SQUOTA
! silicate
      ! maximum Si uptake rate
      a_vmaxi(iSi)     =  0.77 _d -1 / pday ! mmol Si (mmol C)^-1 d^-1
      ae_vmaxi(iSi)    =  1.36 _d 0
      b_vmaxi(iSi)     = -0.27 _d 0
      be_vmaxi(iSi)    =  0.07 _d 0
      ! Si half-saturation
      a_kn(iSi)        =  0.24 _d -1        ! (mmol Si m^-3)
      ae_kn(iSi)       =  1.36 _d 0
      b_kn(iSi)        =  0.27 _d 0
      be_kn(iSi)       =  0.08 _d 0
      ! minimum Si quota
!      a_qmin(iSili)    =  0.84 _d -1        ! mmol Si (mmol C)^-1
!      ae_qmin(iSili)   =  1.00 _d 0
!      b_qmin(iSili)    = -0.17 _d 0
!      be_qmin(iSili)   =  0.00 _d 0
      a_qmin(iSili)    =  2.00 _d -3       ! mmol Si (mmol C)^-1
      ae_qmin(iSili)   =  1.00 _d 0
      b_qmin(iSili)    =  0.00 _d 0
      be_qmin(iSili)   =  0.00 _d 0
      ! maximum Si quota
!      a_qmax(iSili)    =  0.30 _d 0         ! mmol Si (mmol C)^-1
!      ae_qmax(iSili)   =  1.00 _d 0
!      b_qmax(iSili)    = -0.13 _d 0
!      be_qmax(iSili)   =  0.00 _d 0
      a_qmax(iSili)    =  4.00 _d -3       ! mmol Si (mmol C)^-1
      ae_qmax(iSili)   =  1.20 _d 0
      b_qmax(iSili)    =  0.00 _d 0
      be_qmax(iSili)   =  0.00 _d 0
      ! Si excretion
      a_kexc(iSili)    =  0.00 _d 0  / pday ! d^-1
      ae_kexc(iSili)   =  1.00 _d 0
      b_kexc(iSili)    =  0.00 _d 0
      be_kexc(iSili)   =  0.00 _d 0
      ! fraction grazing to DOSi
      a_beta_graz(iSili)  =  0.00 _d 0
      ae_beta_graz(iSili) =  1.00 _d 0
      b_beta_graz(iSili)  =  0.00 _d 0
      be_beta_graz(iSili) =  0.00 _d 0
      ! fraction mortality to DOSi
      a_beta_mort(iSili)  =  0.00 _d 0
      ae_beta_mort(iSili) =  1.00 _d 0
      b_beta_mort(iSili)  =  0.00 _d 0
      be_beta_mort(iSili) =  0.00 _d 0
      ! POSi remineralisation rate
      remin(iSili,1)   =  0.00 _d 0 /pday
      remin(iSili,2)   =  0.33 _d -2 /pday
#endif
#ifdef FQUOTA
! iron
      ! maximum Fe uptake rate
!      a_vmaxi(iFeT)    =  96.2 _d -6 / pday ! mmol Fe (mmol C)^-1 d^-1
!      a_vmaxi(iFeT)    =  14.0 _d -6 / pday
      a_vmaxi(iFeT)    =  14.0 _d -5 / pday
      ae_vmaxi(iFeT)   =  1.36 _d 0
!      b_vmaxi(iFeT)    = -0.27 _d 0
      b_vmaxi(iFeT)    = -0.09 _d 0
      be_vmaxi(iFeT)   =  0.07 _d 0
      ! Fe half-saturation
!      a_kn(ifeT)       =  32.1 _d -6        ! (mmol N m^-3)
!      a_kn(ifeT)       =  80.0 _d -6
      a_kn(ifeT)       =  80.0 _d -5
      ae_kn(iFeT)      =  1.36 _d 0
      b_kn(iFeT)       =  0.27 _d 0
      be_kn(iFeT)      =  0.08 _d 0
      ! minimum Fe quota
      a_qmin(iIron)    =  5.00 _d -6       ! mmol N (mmol C)^-1
      ae_qmin(iIron)   =  1.00 _d 0
      b_qmin(iIron)    =  0.00 _d 0
      be_qmin(iIron)   =  0.00 _d 0
      ! maximum Fe quota
      a_qmax(iIron)    =  20.0 _d -6       ! mmol N (mmol C)^-1
      ae_qmax(iIron)   =  1.20 _d 0
      b_qmax(iIron)    =  0.00 _d 0
      be_qmax(iIron)   =  0.00 _d 0
      ! Fe excretion
      a_kexc(iIron)    =  0.00 _d 0  / pday ! d^-1
      ae_kexc(iIron)   =  1.00 _d 0
      b_kexc(iIron)    =  0.00 _d 0
      be_kexc(iIron)   =  0.00 _d 0
      ! fraction grazing to DOFe
      a_beta_graz(iIron)  =  0.75 _d 0
      ae_beta_graz(iIron) =  1.00 _d 0
      b_beta_graz(iIron)  = -0.25 _d 0
      be_beta_graz(iIron) =  0.00 _d 0
      ! fraction mortality to DOFe
      a_beta_mort(iIron)  =  0.75 _d 0
      ae_beta_mort(iIron) =  1.00 _d 0
      b_beta_mort(iIron)  = -0.25 _d 0
      be_beta_mort(iIron) =  0.00 _d 0
      ! Fe remineralisation rate
      remin(iIron,1)   =  0.02 _d 0  /pday
      remin(iIron,2)   =  0.04 _d 0  /pday
#endif
cccccccccccccccccccccccccccccccccccccccccccccccccccccc
c end allometric scaling
cccccccccccccccccccccccccccccccccccccccccccccccccccccc

        RETURN
        END
C============================================================================
#endif /*ALLOW_QUOTA*/
#endif /*ALLOW_DARWIN*/
#endif /*ALLOW_PTRACERS*/
1	benw	1.5	C $Header: /u/gcmpack/MITgcm_contrib/darwin2/pkg/quota/quota_init_fixed.F,v 1.4 2015/05/19 14:32:43 benw Exp $
2	jahn	1.1	C $Name: $
3
4			#include "CPP_OPTIONS.h"
5			#include "PTRACERS_OPTIONS.h"
6			#include "DARWIN_OPTIONS.h"
7
8			#ifdef ALLOW_PTRACERS
9			#ifdef ALLOW_DARWIN
10			#ifdef ALLOW_QUOTA
11
12			c===============================================================================
13			C===============================================================================
14			CStartofinterface
15			SUBROUTINE QUOTA_INIT_FIXED(myThid)
16			C =============== Global data ==========================================
17			C === Global variables ===
18			implicit none
19			#include "SIZE.h"
20			#include "EEPARAMS.h"
21			#include "PARAMS.h"
22			#include "GRID.h"
23			#include "DYNVARS.h"
24			#include "GCHEM.h"
25			#include "DARWIN_PARAMS.h"
26			#include "QUOTA_SIZE.h"
27			#include "QUOTA.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,ii,jp,ko
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			WRITE(msgBuf,'(A)')
43			&'// ======================================================='
44			CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
45			& SQUEEZE_RIGHT, myThid )
46			WRITE(msgBuf,'(A)') '// Quota loading parameters'
47			CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
48			& SQUEEZE_RIGHT, myThid )
49			WRITE(msgBuf,'(A)')
50			&'// ======================================================='
51			CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
52			& SQUEEZE_RIGHT, myThid )
53
54
55			c c define 1 day in seconds
56			pday = 86400.0 _d 0
57			c par parameters
58			parfrac= 0.4 _d 0 !fraction Qsw that is PAR
59			parconv= 1. _d 0/0.2174 _d 0 !conversion from W/m2 to uEin/m2/s
60
61			istar=90. _d 0 ! w/m2
62			c
63			c
64			c set temperature function
65			tempcoeff1 = 1. _d 0/3. _d 0
66			tempcoeff2_small = 0.001 _d 0
67			tempcoeff2_big = 0.0003 _d 0
68			tempcoeff3 = 1.04 _d 0
69			tempmax = 20. _d 0 ! 32. _d 0
70			temprange = 22. _d 0 ! 30. _d 0
71			tempnorm = 0.3 _d 0 ! 1. _d 0
72			tempdecay = 4. _d 0
73
74			c set up diagnostics
75			#ifdef ALLOW_MNC
76			IF ( useMNC ) THEN
77			CALL DARWIN_MNC_INIT( myThid )
78			ENDIF
79			#endif /* ALLOW_MNC */
80
81			COJ set up diagnostics
82			#ifdef ALLOW_DIAGNOSTICS
83			IF ( useDIAGNOSTICS ) THEN
84	jahn	1.3	CALL QUOTA_DIAGNOSTICS_INIT( myThid )
85	jahn	1.1	ENDIF
86			#endif /* ALLOW_DIAGNOSTICS */
87			COJ
88			c-----------------------------------------------------
89			c "Standard" parameters
90			! maximum assimilation efficiency
91			ass_eff = 0.70 _d 0
92	benw	1.4	! prey switching exponent
93			ns = 2
94			! hill number for grazing
95			hill = 0.10 _d 0
96			! grazing refuge
97			Lambda = -1.00 _d 0
98	jahn	1.1	! organic matter sinking rate
99			orgsink(1) = 0.00 _d 0 /pday
100	benw	1.4	orgsink(2) = 10.00 _d 0 /pday
101	jahn	1.1	! cost of biosynthesis
102			biosynth = 2.33 _d 0
103			! nitrogen uptake
104			amminhib = 4.60 _d 0
105			! nitrification
106			amm2nrite = 2.00 _d 0 /pday
107			nrite2nrate = 0.10 _d 0 /pday
108			PAR0 = 10.0 _d 0
109			! iron
110			! alpfe = 1.00 _d 0 ! 3D model
111			alpfe = 0.05 _d 0 ! 1D model
112	benw	1.2	! scav = 1.10 _d -3 /pday
113			scav = 4.40 _d -3 /pday
114
115	jahn	1.1	ligand_stab = 2.00 _d +5
116			ligand_tot = 1.00 _d -3
117			freefemax = 0.10 _d -3
118			#ifdef IRON_SED_SOURCE
119			c iron sediment source
120			depthfesed=1000.0 _d 0 !depth above which to add sediment source
121			fesedflux =1.0 _d 0 * 1.0 _d -3 / (86400.0 _d 0) !iron flux (mmol/m2/s)
122			fesedflux_pcm =0.68 _d 0 * 1.0 _d -3 !iron flux (mmol/m3/s) per
123			c mmol POC/m3/s
124			#endif
125			! basic light
126	benw	1.4	k_w = 0.04 _d 0 ! m^-1
127			k_chl = 0.03 _d 0 ! m^-1 (mg chl)^-1
128	benw	1.2	chl2nmax = 3.00 _d 0 ! Moore 2002 (labelled as GD98)
129			! chl2nmax = 5.6 _d 0 ! Geider 1998
130	jahn	1.1	c-----------------------------------------------------
131			c ALLOMETRIC PARAMETERS
132			c parameter = aV^b
133			c if errors are relative (*/) then state as "log(error)"
134			c if errors are absolute (+-) then state as "error"
135			cccccccccccccccccccccccccccccccccccccccccccccccccccccc
136			! Initial slope of PI curve
137			a_alphachl = 3.83 _d -7 ! mmol C (mg chl a)^-1 (mu Ein m^-2)^-1
138			ae_alphachl = 1.00 _d 0
139			b_alphachl = 0.00 _d 0
140			be_alphachl = 0.00 _d 0
141			cccccccccccccccccccccccccccccccccccccccccccccccccccccc
142			! maximum specific grazing rate
143			a_graz = 21.9 _d 0 / pday ! d^-1
144			ae_graz = 1.00 _d 0
145			b_graz = -0.16 _d 0
146			be_graz = 0.02 _d 0
147			! half saturation grazing prey carbon concentration
148	benw	1.5	a_kg = 5.00 _d 0 ! mmol C m^-3
149	jahn	1.1	ae_kg = 3.80 _d 0
150			b_kg = 0.00 _d 0
151			be_kg = 0.03 _d 0
152			cccccccccccccccccccccccccccccccccccccccccccccccccccccc
153			! sinking (enter as positive downwards)
154	benw	1.5	a_biosink = 0.0 _d 0 ! assume sinking either negligable or balanced by motility
155			! a_biosink = 0.28 _d -1 / pday ! m d^-1
156	jahn	1.1	ae_biosink = 1.00 _d 0
157	benw	1.4	b_biosink = 0.39 _d 0 ! from Laws (1975) by "inspection" of Smada (1967)
158			be_biosink = 0.00 _d 0
159	jahn	1.1	cccccccccccccccccccccccccccccccccccccccccccccccccccccc
160			! mortality
161	benw	1.5	a_mort = 0.25 _d -1 / pday ! d^-1
162	jahn	1.1	ae_mort = 1.00 _d 0
163			b_mort = 0.00 _d 0
164			be_mort = 0.00 _d 0
165			! predator prey preference distribution parameters
166			a_prdpry = 1024. _d 0 ! dimensionless
167			ae_prdpry = 1.00 _d 0
168			b_prdpry = 0.00 _d 0
169			be_prdpry = 0.00 _d 0
170			cccccccccccccccccccccccccccccccccccccccccccccccccccccc
171			! carbon
172			! max photosynthetic rate (modified in quota_generate_plankton.F)
173			a_vmaxi(iDIC) = 1.00 _d 0 / pday ! d^-1
174			ae_vmaxi(iDIC) = 1.00 _d 0
175			b_vmaxi(iDIC) = -0.15 _d 0
176			be_vmaxi(iDIC) = 0.05 _d 0
177			! cellular carbon content
178	benw	1.5	a_qcarbon = 1.45 _d -11 ! mmol C cell^-1
179	jahn	1.1	ae_qcarbon = 1.36 _d 0
180	benw	1.5	b_qcarbon = 0.88 _d 0
181	jahn	1.1	be_qcarbon = 0.04 _d 0
182	benw	1.4	! respiration
183			a_respir = 0.00 _d 0 / pday ! d^-1
184	jahn	1.1	ae_respir = 1.00 _d 0
185	benw	1.4	b_respir = 0.00 _d 0
186	jahn	1.1	be_respir = 0.00 _d 0
187			! carbon excretion
188			! a_kexc(iCarb) = 0.32 _d -1 / pday ! d^-1
189			a_kexc(iCarb) = 0.00 _d 0
190			ae_kexc(iCarb) = 1.36 _d 0
191			b_kexc(iCarb) = -0.33 _d 0
192			be_kexc(iCarb) = 0.09 _d 0
193			! fraction grazing to DOC
194	benw	1.2	a_beta_graz(iCarb) = 1.00 _d 0
195	jahn	1.1	ae_beta_graz(iCarb) = 1.00 _d 0
196	benw	1.2	b_beta_graz(iCarb) = -0.40 _d 0
197	jahn	1.1	be_beta_graz(iCarb) = 0.00 _d 0
198			! fraction mortality to DOC
199	benw	1.2	a_beta_mort(iCarb) = 1.00 _d 0
200	jahn	1.1	ae_beta_mort(iCarb) = 1.00 _d 0
201	benw	1.2	b_beta_mort(iCarb) = -0.40 _d 0
202	jahn	1.1	be_beta_mort(iCarb) = 0.00 _d 0
203			! carbon remineralisation rate
204	benw	1.2	remin(iCarb,1) = 0.02 _d 0 /pday
205			remin(iCarb,2) = 0.04 _d 0 /pday
206	jahn	1.1	! nitrogen & nitrate
207			! maximum NO3 uptake rate
208	benw	1.5	a_vmaxi(iNO3) = 0.44 _d 0 / pday !0.51 _d 0 / pday ! mmol N (mmol C)^-1 d^-1
209	jahn	1.1	ae_vmaxi(iNO3) = 1.00 _d 0
210	benw	1.5	b_vmaxi(iNO3) = -0.12 _d 0!-0.27 _d 0
211	jahn	1.1	be_vmaxi(iNO3) = 0.00 _d 0
212			! NO3 half-saturation
213	benw	1.5	a_kn(iNO3) = 0.14 _d 0 ! (mmol N m^-3)
214	jahn	1.1	ae_kn(iNO3) = 1.36 _d 0
215	benw	1.5	b_kn(iNO3) = 0.33 _d 0
216	jahn	1.1	be_kn(iNO3) = 0.07 _d 0
217			! N minimum quota
218	benw	1.5	a_qmin(iNitr) = 0.05 _d 0 ! mmol N (mmol C)^-1
219	jahn	1.1	ae_qmin(iNitr) = 1.00 _d 0
220	benw	1.5	b_qmin(iNitr) = 0.00 _d 0
221	jahn	1.1	be_qmin(iNitr) = 0.00 _d 0
222			! N maximum quota
223	benw	1.5	a_qmax(iNitr) = 0.17 _d 0 ! mmol N (mmol C)^-1
224	jahn	1.1	ae_qmax(iNitr) = 1.00 _d 0
225	benw	1.5	b_qmax(iNitr) = 0.00 _d 0
226	jahn	1.1	be_qmax(iNitr) = 0.00 _d 0
227			! nitrogen excretion
228			a_kexc(iNitr) = 0.00 _d 0
229			ae_kexc(iNitr) = 1.36 _d 0
230			b_kexc(iNitr) = -0.33 _d 0
231			be_kexc(iNitr) = 0.09 _d 0
232			! fraction grazing to DON
233	benw	1.5	a_beta_graz(iNitr) = 0.75 _d 0
234	jahn	1.1	ae_beta_graz(iNitr) = 1.00 _d 0
235	benw	1.5	b_beta_graz(iNitr) = -0.25 _d 0
236	jahn	1.1	be_beta_graz(iNitr) = 0.00 _d 0
237			! fraction mortality to DON
238	benw	1.5	a_beta_mort(iNitr) = 0.75 _d 0
239	jahn	1.1	ae_beta_mort(iNitr) = 1.00 _d 0
240	benw	1.5	b_beta_mort(iNitr) = -0.25 _d 0
241	jahn	1.1	be_beta_mort(iNitr) = 0.00 _d 0
242			! N remineralisation rate
243	benw	1.2	remin(iNitr,1) = 0.02 _d 0 /pday
244			remin(iNitr,2) = 0.04 _d 0 /pday
245	jahn	1.1	#ifdef NITRITE
246			! nitrite
247			! maximum NO2 uptake rate
248	benw	1.5	a_vmaxi(iNO2) = a_vmaxi(iNO3) ! mmol N (mmol C)^-1 d^-1
249	jahn	1.1	ae_vmaxi(iNO2) = 1.36 _d 0
250	benw	1.5	b_vmaxi(iNO2) = b_vmaxi(iNO3)
251	jahn	1.1	be_vmaxi(iNO2) = 0.07 _d 0
252			! NO2 half-saturation
253	benw	1.5	a_kn(iNO2) = a_kn(iNO3) ! (mmol N m^-3)
254	jahn	1.1	ae_kn(iNO2) = 1.36 _d 0
255	benw	1.5	b_kn(iNO2) = b_kn(iNO3)
256	jahn	1.1	be_kn(iNO2) = 0.08 _d 0
257			#endif
258			#ifdef AMMON
259			! ammonium
260			! maximum NH4 uptake rate
261	benw	1.5	a_vmaxi(iNH4) = a_vmaxi(iNO3)/2.0 _d 0 ! mmol N (mmol C)^-1 d^-1
262	jahn	1.1	ae_vmaxi(iNH4) = 1.36 _d 0
263	benw	1.5	b_vmaxi(iNH4) = b_vmaxi(iNO3)
264	jahn	1.1	be_vmaxi(iNH4) = 0.07 _d 0
265			! NH4 half-saturation
266	benw	1.5	a_kn(iNH4) = a_kn(iNO3)/2.0 _d 0 ! (mmol N m^-3)
267	jahn	1.1	ae_kn(iNH4) = 1.36 _d 0
268	benw	1.5	b_kn(iNH4) = b_kn(iNO3)
269	jahn	1.1	be_kn(iNH4) = 0.08 _d 0
270			#endif
271			#ifdef PQUOTA
272			! phosphate
273			! maximum PO4 uptake rate
274	benw	1.4	a_vmaxi(iPO4) = 0.44 _d -1 / pday ! mmol P (mmol C)^-1 d^-1
275	jahn	1.1	ae_vmaxi(iPO4) = 1.36 _d 0
276	benw	1.4	b_vmaxi(iPO4) = 0.06 _d 0
277	jahn	1.1	be_vmaxi(iPO4) = 0.07 _d 0
278			! PO4 half-saturation
279	benw	1.4	a_kn(iPO4) = 0.04 _d 0 ! (mmol N m^-3)
280	jahn	1.1	ae_kn(iPO4) = 1.36 _d 0
281	benw	1.4	b_kn(iPO4) = 0.41 _d 0
282	jahn	1.1	be_kn(iPO4) = 0.08 _d 0
283			! minimum P quota
284	benw	1.4	a_qmin(iPhos) = 2.13 _d -3 ! mmol N (mmol C)^-1
285	jahn	1.1	ae_qmin(iPhos) = 1.00 _d 0
286			b_qmin(iPhos) = 0.00 _d 0
287			be_qmin(iPhos) = 0.00 _d 0
288			! maximum P quota
289	benw	1.4	a_qmax(iPhos) = 1.06 _d -2 ! mmol N (mmol C)^-1
290	jahn	1.1	ae_qmax(iPhos) = 1.20 _d 0
291	benw	1.4	b_qmax(iPhos) = 0.05 _d 0
292	jahn	1.1	be_qmax(iPhos) = 0.00 _d 0
293			! P excretion
294	benw	1.4	a_kexc(iPhos) = 0.00 _d -1 / pday ! d^-1
295	jahn	1.1	ae_kexc(iPhos) = 1.36 _d 0
296			b_kexc(iPhos) = -0.33 _d 0
297			be_kexc(iPhos) = 0.09 _d 0
298			! fraction grazing to DOP
299	benw	1.4	a_beta_graz(iPhos) = 0.75 _d 0
300	jahn	1.1	ae_beta_graz(iPhos) = 1.00 _d 0
301	benw	1.4	b_beta_graz(iPhos) = -0.25 _d 0
302	jahn	1.1	be_beta_graz(iPhos) = 0.00 _d 0
303			! fraction mortality to DOP
304	benw	1.4	a_beta_mort(iPhos) = 0.75 _d 0
305	jahn	1.1	ae_beta_mort(iPhos) = 1.00 _d 0
306	benw	1.4	b_beta_mort(iPhos) = -0.25 _d 0
307	jahn	1.1	be_beta_mort(iPhos) = 0.00 _d 0
308			! P remineralisation rate
309	benw	1.2	remin(iPhos,1) = 0.02 _d 0 /pday
310			remin(iPhos,2) = 0.04 _d 0 /pday
311	jahn	1.1	#endif
312			#ifdef SQUOTA
313			! silicate
314			! maximum Si uptake rate
315	benw	1.4	a_vmaxi(iSi) = 0.77 _d -1 / pday ! mmol Si (mmol C)^-1 d^-1
316	jahn	1.1	ae_vmaxi(iSi) = 1.36 _d 0
317			b_vmaxi(iSi) = -0.27 _d 0
318			be_vmaxi(iSi) = 0.07 _d 0
319			! Si half-saturation
320	benw	1.4	a_kn(iSi) = 0.24 _d -1 ! (mmol Si m^-3)
321	jahn	1.1	ae_kn(iSi) = 1.36 _d 0
322			b_kn(iSi) = 0.27 _d 0
323			be_kn(iSi) = 0.08 _d 0
324			! minimum Si quota
325	benw	1.4	! a_qmin(iSili) = 0.84 _d -1 ! mmol Si (mmol C)^-1
326	jahn	1.1	! ae_qmin(iSili) = 1.00 _d 0
327			! b_qmin(iSili) = -0.17 _d 0
328			! be_qmin(iSili) = 0.00 _d 0
329	benw	1.4	a_qmin(iSili) = 2.00 _d -3 ! mmol Si (mmol C)^-1
330	jahn	1.1	ae_qmin(iSili) = 1.00 _d 0
331			b_qmin(iSili) = 0.00 _d 0
332			be_qmin(iSili) = 0.00 _d 0
333			! maximum Si quota
334	benw	1.4	! a_qmax(iSili) = 0.30 _d 0 ! mmol Si (mmol C)^-1
335	jahn	1.1	! ae_qmax(iSili) = 1.00 _d 0
336			! b_qmax(iSili) = -0.13 _d 0
337			! be_qmax(iSili) = 0.00 _d 0
338	benw	1.4	a_qmax(iSili) = 4.00 _d -3 ! mmol Si (mmol C)^-1
339	jahn	1.1	ae_qmax(iSili) = 1.20 _d 0
340			b_qmax(iSili) = 0.00 _d 0
341			be_qmax(iSili) = 0.00 _d 0
342			! Si excretion
343			a_kexc(iSili) = 0.00 _d 0 / pday ! d^-1
344			ae_kexc(iSili) = 1.00 _d 0
345			b_kexc(iSili) = 0.00 _d 0
346			be_kexc(iSili) = 0.00 _d 0
347			! fraction grazing to DOSi
348			a_beta_graz(iSili) = 0.00 _d 0
349			ae_beta_graz(iSili) = 1.00 _d 0
350			b_beta_graz(iSili) = 0.00 _d 0
351			be_beta_graz(iSili) = 0.00 _d 0
352			! fraction mortality to DOSi
353			a_beta_mort(iSili) = 0.00 _d 0
354			ae_beta_mort(iSili) = 1.00 _d 0
355			b_beta_mort(iSili) = 0.00 _d 0
356			be_beta_mort(iSili) = 0.00 _d 0
357			! POSi remineralisation rate
358			remin(iSili,1) = 0.00 _d 0 /pday
359			remin(iSili,2) = 0.33 _d -2 /pday
360			#endif
361			#ifdef FQUOTA
362			! iron
363			! maximum Fe uptake rate
364			! a_vmaxi(iFeT) = 96.2 _d -6 / pday ! mmol Fe (mmol C)^-1 d^-1
365	benw	1.5	! a_vmaxi(iFeT) = 14.0 _d -6 / pday
366			a_vmaxi(iFeT) = 14.0 _d -5 / pday
367	jahn	1.1	ae_vmaxi(iFeT) = 1.36 _d 0
368	benw	1.5	! b_vmaxi(iFeT) = -0.27 _d 0
369			b_vmaxi(iFeT) = -0.09 _d 0
370	jahn	1.1	be_vmaxi(iFeT) = 0.07 _d 0
371			! Fe half-saturation
372			! a_kn(ifeT) = 32.1 _d -6 ! (mmol N m^-3)
373	benw	1.5	! a_kn(ifeT) = 80.0 _d -6
374			a_kn(ifeT) = 80.0 _d -5
375	jahn	1.1	ae_kn(iFeT) = 1.36 _d 0
376			b_kn(iFeT) = 0.27 _d 0
377			be_kn(iFeT) = 0.08 _d 0
378			! minimum Fe quota
379	benw	1.5	a_qmin(iIron) = 5.00 _d -6 ! mmol N (mmol C)^-1
380	jahn	1.1	ae_qmin(iIron) = 1.00 _d 0
381			b_qmin(iIron) = 0.00 _d 0
382			be_qmin(iIron) = 0.00 _d 0
383			! maximum Fe quota
384	benw	1.5	a_qmax(iIron) = 20.0 _d -6 ! mmol N (mmol C)^-1
385	jahn	1.1	ae_qmax(iIron) = 1.20 _d 0
386			b_qmax(iIron) = 0.00 _d 0
387			be_qmax(iIron) = 0.00 _d 0
388			! Fe excretion
389			a_kexc(iIron) = 0.00 _d 0 / pday ! d^-1
390			ae_kexc(iIron) = 1.00 _d 0
391			b_kexc(iIron) = 0.00 _d 0
392			be_kexc(iIron) = 0.00 _d 0
393			! fraction grazing to DOFe
394	benw	1.5	a_beta_graz(iIron) = 0.75 _d 0
395	jahn	1.1	ae_beta_graz(iIron) = 1.00 _d 0
396	benw	1.5	b_beta_graz(iIron) = -0.25 _d 0
397	jahn	1.1	be_beta_graz(iIron) = 0.00 _d 0
398			! fraction mortality to DOFe
399	benw	1.5	a_beta_mort(iIron) = 0.75 _d 0
400	jahn	1.1	ae_beta_mort(iIron) = 1.00 _d 0
401	benw	1.5	b_beta_mort(iIron) = -0.25 _d 0
402	jahn	1.1	be_beta_mort(iIron) = 0.00 _d 0
403			! Fe remineralisation rate
404	benw	1.2	remin(iIron,1) = 0.02 _d 0 /pday
405			remin(iIron,2) = 0.04 _d 0 /pday
406	jahn	1.1	#endif
407			cccccccccccccccccccccccccccccccccccccccccccccccccccccc
408			c end allometric scaling
409			cccccccccccccccccccccccccccccccccccccccccccccccccccccc
410
411			RETURN
412			END
413			C============================================================================
414			#endif /ALLOW_QUOTA/
415			#endif /ALLOW_DARWIN/
416			#endif /ALLOW_PTRACERS/