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!**********************************************************************
! Copyright 1998,1999,2000,2001,2002,2005,2007,2008,2009,2010         *
! Andreas Stohl, Petra Seibert, A. Frank, Gerhard Wotawa,             *
! Caroline Forster, Sabine Eckhardt, John Burkhart, Harald Sodemann   *
!                                                                     *
! This file is part of FLEXPART.                                      *
!                                                                     *
! FLEXPART is free software: you can redistribute it and/or modify    *
! it under the terms of the GNU General Public License as published by*
! the Free Software Foundation, either version 3 of the License, or   *
! (at your option) any later version.                                 *
!                                                                     *
! FLEXPART is distributed in the hope that it will be useful,         *
! but WITHOUT ANY WARRANTY; without even the implied warranty of      *
! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the       *
! GNU General Public License for more details.                        *
!                                                                     *
! You should have received a copy of the GNU General Public License   *
! along with FLEXPART.  If not, see <http://www.gnu.org/licenses/>.   *
!**********************************************************************

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subroutine timemanager(metdata_format)
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  !*****************************************************************************
  !                                                                            *
  ! Handles the computation of trajectories, i.e. determines which             *
  ! trajectories have to be computed at what time.                             *
  ! Manages dry+wet deposition routines, radioactive decay and the computation *
  ! of concentrations.                                                         *
  !                                                                            *
  !     Author: A. Stohl                                                       *
  !                                                                            *
  !     20 May 1996                                                            *
  !                                                                            *
  !*****************************************************************************
  !  Changes, Bernd C. Krueger, Feb. 2001:                                     *
  !        Call of convmix when new windfield is read                          *
  !------------------------------------                                        *
  !  Changes Petra Seibert, Sept 2002                                          *
  !     fix wet scavenging problem                                             *
  !     Code may not be correct for decay of deposition!                       *
  !  Changes Petra Seibert, Nov 2002                                           *
  !     call convection BEFORE new fields are read in BWD mode                 *
  !  Changes Caroline Forster, Feb 2005                                        *
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  !   new interface between flexpart and convection scheme                     *
  !   Emanuel's latest subroutine convect43c.f is used                         *
  !  Changes Stefan Henne, Harald Sodemann, 2013-2014                          *
  !   added netcdf output code                                                 *
  !  Changes Espen Sollum 2014                                                 *
  !   For compatibility with MPI version,                                      *
  !   variables uap,ucp,uzp,us,vs,ws,cbt now in module com_mod                 *
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  !  Unified ECMWF and GFS builds                                              *
  !   Marian Harustak, 12.5.2017                                               *
  !   - Added passing of metdata_format as it was needed by called routines    *
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  !*****************************************************************************
  !                                                                            *
  ! Variables:                                                                 *
  ! DEP                .true. if either wet or dry deposition is switched on   *
  ! decay(maxspec) [1/s] decay constant for radioactive decay                  *
  ! DRYDEP             .true. if dry deposition is switched on                 *
  ! ideltas [s]        modelling period                                        *
  ! itime [s]          actual temporal position of calculation                 *
  ! ldeltat [s]        time since computation of radioact. decay of depositions*
  ! loutaver [s]       averaging period for concentration calculations         *
  ! loutend [s]        end of averaging for concentration calculations         *
  ! loutnext [s]       next time at which output fields shall be centered      *
  ! loutsample [s]     sampling interval for averaging of concentrations       *
  ! loutstart [s]      start of averaging for concentration calculations       *
  ! loutstep [s]       time interval for which concentrations shall be         *
  !                    calculated                                              *
  ! npoint(maxpart)    index, which starting point the trajectory has          *
  !                    starting positions of trajectories                      *
  ! nstop              serves as indicator for fate of particles               *
  !                    in the particle loop                                    *
  ! nstop1             serves as indicator for wind fields (see getfields)     *
  ! outnum             number of samples for each concentration calculation    *
  ! outnum             number of samples for each concentration calculation    *
  ! prob               probability of absorption at ground due to dry          *
  !                    deposition                                              *
  ! WETDEP             .true. if wet deposition is switched on                 *
  ! weight             weight for each concentration sample (1/2 or 1)         *
  ! uap(maxpart),ucp(maxpart),uzp(maxpart) = random velocities due to          *
  !                    turbulence                                              *
  ! us(maxpart),vs(maxpart),ws(maxpart) = random velocities due to inter-      *
  !                    polation                                                *
  ! xtra1(maxpart), ytra1(maxpart), ztra1(maxpart) =                           *
  !                    spatial positions of trajectories                       *
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  ! metdata_format     format of metdata (ecmwf/gfs)                           *
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  !                                                                            *
  ! Constants:                                                                 *
  ! maxpart            maximum number of trajectories                          *
  !                                                                            *
  !*****************************************************************************

  use unc_mod
  use point_mod
  use xmass_mod
  use flux_mod
  use outg_mod
  use oh_mod
  use par_mod
  use com_mod
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  use netcdf_output_mod, only: concoutput_netcdf,concoutput_nest_netcdf,&
       &concoutput_surf_netcdf,concoutput_surf_nest_netcdf
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  implicit none

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  integer :: metdata_format,iistep
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  integer :: j,ks,kp,l,n,itime=0,nstop,nstop1
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! integer :: ksp
  integer :: loutnext,loutstart,loutend
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  integer :: ix,jy,ldeltat,itage,nage,idummy
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  integer :: i_nan=0,ii_nan,total_nan_intl=0  !added by mc to check instability in CBL scheme 
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  real :: outnum,weight,prob_rec(maxspec),prob(maxspec),decfact,wetscav
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  ! real :: uap(maxpart),ucp(maxpart),uzp(maxpart)
  ! real :: us(maxpart),vs(maxpart),ws(maxpart)
  ! integer(kind=2) :: cbt(maxpart)
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  real(sp) :: gridtotalunc
  real(dep_prec) :: drydeposit(maxspec),wetgridtotalunc,drygridtotalunc
  real :: xold,yold,zold,xmassfract
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  real :: grfraction(3)
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  real, parameter :: e_inv = 1.0/exp(1.0)
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  integer :: watersynctime
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  !double precision xm(maxspec,maxpointspec_act),
  !    +                 xm_depw(maxspec,maxpointspec_act),
  !    +                 xm_depd(maxspec,maxpointspec_act)


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  watersynctime=loutstep
!  watersynctime=3600*3 ! was loutstep before, but for monthly run not possible

  write(*,*) 'Watersynctime: ',watersynctime

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  open(89,file=path(2)(1:length(2))//'budget.dat')
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  open(90,file=path(2)(1:length(2))//'budget_nest.dat')
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  ! First output for time 0
  !************************

  loutnext=loutstep/2
  outnum=0.
  loutstart=loutnext-loutaver/2
  loutend=loutnext+loutaver/2

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  !  open(127,file=path(2)(1:length(2))//'depostat.dat'
  !    +  ,form='unformatted')
  !write (*,*) 'writing deposition statistics depostat.dat!'
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  !**********************************************************************
  ! Loop over the whole modelling period in time steps of mintime seconds
  !**********************************************************************

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!ZHG 2015
!CGZ-lifetime: set lifetime to 0
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  ! checklifetime(:,:)=0
  ! species_lifetime(:,:)=0
  ! print*, 'Initialized lifetime'
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!CGZ-lifetime: set lifetime to 0
  
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  if (.not.lusekerneloutput) write(*,*) 'Not using the kernel'
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  if (turboff) write(*,*) 'Turbulence switched off'

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  write(*,46) float(itime)/3600,itime,numpart
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  if (verbosity.gt.0) then
    write (*,*) 'timemanager> starting simulation'
    if (verbosity.gt.1) then
      CALL SYSTEM_CLOCK(count_clock)
      WRITE(*,*) 'timemanager> SYSTEM CLOCK',(count_clock - count_clock0)/real(count_rate)
    endif     
  endif

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  do itime=0,ideltas,lsynctime

  ! Computation of wet deposition, OH reaction and mass transfer
  ! between two species every lsynctime seconds
  ! maybe wet depo frequency can be relaxed later but better be on safe side
  ! wetdepo must be called BEFORE new fields are read in but should not
  ! be called in the very beginning before any fields are loaded, or
  ! before particles are in the system
  ! Code may not be correct for decay of deposition
  ! changed by Petra Seibert 9/02
  !********************************************************************

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    if (WETDEP .and. itime .ne. 0 .and. numpart .gt. 0) then
        if (verbosity.gt.0) then
           write (*,*) 'timemanager> call wetdepo'
        endif     
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         call wetdepo(itime,lsynctime,loutnext)
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    endif
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    if (OHREA .and. itime .ne. 0 .and. numpart .gt. 0) &
         call ohreaction(itime,lsynctime,loutnext)

    if (ASSSPEC .and. itime .ne. 0 .and. numpart .gt. 0) then
       stop 'associated species not yet implemented!'
  !     call transferspec(itime,lsynctime,loutnext)
    endif

  ! compute convection for backward runs
  !*************************************

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   if ((ldirect.eq.-1).and.(lconvection.eq.1).and.(itime.lt.0)) then
        if (verbosity.gt.0) then
           write (*,*) 'timemanager> call convmix -- backward'
        endif         
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      call convmix(itime,metdata_format)
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        if (verbosity.gt.1) then
          !CALL SYSTEM_CLOCK(count_clock, count_rate, count_max)
          CALL SYSTEM_CLOCK(count_clock)
          WRITE(*,*) 'timemanager> SYSTEM CLOCK',(count_clock - count_clock0)/real(count_rate)
        endif 
   endif
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  ! Get necessary wind fields if not available
  !*******************************************
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    if (verbosity.gt.0) then
           write (*,*) 'timemanager> call getfields'
    endif 
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    call getfields(itime,nstop1,metdata_format)
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        if (verbosity.gt.1) then
          CALL SYSTEM_CLOCK(count_clock)
          WRITE(*,*) 'timemanager> SYSTEM CLOCK',(count_clock - count_clock0)/real(count_rate)
        endif 
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    if (nstop1.gt.1) stop 'NO METEO FIELDS AVAILABLE'
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  ! Get hourly OH fields if not available 
  !****************************************************
    if (OHREA) then
      if (verbosity.gt.0) then
             write (*,*) 'timemanager> call gethourlyOH'
      endif
      call gethourlyOH(itime)
          if (verbosity.gt.1) then
            CALL SYSTEM_CLOCK(count_clock)
            WRITE(*,*) 'timemanager> SYSTEM CLOCK',(count_clock - count_clock0)/real(count_rate)
          endif
    endif
        
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  ! Release particles
  !******************

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    if (verbosity.gt.0) then
           write (*,*) 'timemanager>  Release particles'
    endif 
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    if (WATERCYCLE) then ! works only backward for the moment
        if (itime.eq.ireleaseend(1)) then  !this has to be changed to +- timeintervall
            if (verbosity.gt.0) then
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              write (*,*) 'timemanager>  call init_domainfill',itime,ireleasestart(1)
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            endif   
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            call init_domainfill(itime)
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        endif
        if ( (abs(itime).le.abs(ireleasestart(1))).and. &
             (abs(itime).gt.abs(  ireleaseend(1)))  ) then
            if (verbosity.gt.0) then
              write (*,*) 'timemanager>  call boundcond_domainfill'
            endif   
            call boundcond_domainfill(itime,loutend)
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        endif
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    else
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       if (mdomainfill.ge.1) then
          if (itime.eq.0) then
            if (verbosity.gt.0) then
               write (*,*) 'timemanager>  call init_domainfill'
            endif       
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            call init_domainfill(itime)
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          else
            if (verbosity.gt.0) then
              write (*,*) 'timemanager>  call boundcond_domainfill'
            endif   
            call boundcond_domainfill(itime,loutend)
          endif
       else
          if (verbosity.gt.0) then
             print*,'call releaseparticles'  
          endif
          call releaseparticles(itime)
          if (verbosity.gt.1) then
             CALL SYSTEM_CLOCK(count_clock)
             WRITE(*,*) 'timemanager> SYSTEM CLOCK',(count_clock - count_clock0)/real(count_rate)
          endif 
       endif
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    endif

  ! Compute convective mixing for forward runs
  ! for backward runs it is done before next windfield is read in
  !**************************************************************

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   if ((ldirect.eq.1).and.(lconvection.eq.1)) then
     if (verbosity.gt.0) then
       write (*,*) 'timemanager> call convmix -- forward'
     endif    
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     call convmix(itime,metdata_format)
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   endif
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  ! If middle of averaging period of output fields is reached, accumulated
  ! deposited mass radioactively decays
  !***********************************************************************

    if (DEP.and.(itime.eq.loutnext).and.(ldirect.gt.0)) then
      do ks=1,nspec
      do kp=1,maxpointspec_act
        if (decay(ks).gt.0.) then
          do nage=1,nageclass
            do l=1,nclassunc
  ! Mother output grid
              do jy=0,numygrid-1
                do ix=0,numxgrid-1
                  wetgridunc(ix,jy,ks,kp,l,nage)= &
                       wetgridunc(ix,jy,ks,kp,l,nage)* &
                       exp(-1.*outstep*decay(ks))
                  drygridunc(ix,jy,ks,kp,l,nage)= &
                       drygridunc(ix,jy,ks,kp,l,nage)* &
                       exp(-1.*outstep*decay(ks))
                end do
              end do
  ! Nested output grid
              if (nested_output.eq.1) then
                do jy=0,numygridn-1
                  do ix=0,numxgridn-1
                    wetgriduncn(ix,jy,ks,kp,l,nage)= &
                         wetgriduncn(ix,jy,ks,kp,l,nage)* &
                         exp(-1.*outstep*decay(ks))
                    drygriduncn(ix,jy,ks,kp,l,nage)= &
                         drygriduncn(ix,jy,ks,kp,l,nage)* &
                         exp(-1.*outstep*decay(ks))
                  end do
                end do
              endif
            end do
          end do
        endif
      end do
      end do
    endif

  !!! CHANGE: These lines may be switched on to check the conservation
  !!! of mass within FLEXPART
  !   if (itime.eq.loutnext) then
  !   do 247 ksp=1, nspec
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  !   do 247 kp=1, maxpointspec_act
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  !47         xm(ksp,kp)=0.

  !   do 249 ksp=1, nspec
  !     do 249 j=1,numpart
  !          if (ioutputforeachrelease.eq.1) then
  !            kp=npoint(j)
  !          else
  !            kp=1
  !          endif
  !       if (itra1(j).eq.itime) then
  !          xm(ksp,kp)=xm(ksp,kp)+xmass1(j,ksp)
  !         write(*,*) 'xmass: ',xmass1(j,ksp),j,ksp,nspec
  !       endif
  !49     continue
  !  do 248 ksp=1,nspec
  !  do 248 kp=1,maxpointspec_act
  !  xm_depw(ksp,kp)=0.
  !  xm_depd(ksp,kp)=0.
  !     do 248 nage=1,nageclass
  !       do 248 ix=0,numxgrid-1
  !         do 248 jy=0,numygrid-1
  !           do 248 l=1,nclassunc
  !              xm_depw(ksp,kp)=xm_depw(ksp,kp)
  !    +                  +wetgridunc(ix,jy,ksp,kp,l,nage)
  !48                 xm_depd(ksp,kp)=xm_depd(ksp,kp)
  !    +                  +drygridunc(ix,jy,ksp,kp,l,nage)
  !             do 246 ksp=1,nspec
  !46                    write(88,'(2i10,3e12.3)')
  !    +              itime,ksp,(xm(ksp,kp),kp=1,maxpointspec_act),
  !    +                (xm_depw(ksp,kp),kp=1,maxpointspec_act),
  !    +                (xm_depd(ksp,kp),kp=1,maxpointspec_act)
  !  endif
  !!! CHANGE



  ! Check whether concentrations are to be calculated
  !**************************************************
    if ((ldirect*itime.ge.ldirect*loutstart).and. &
         (ldirect*itime.le.ldirect*loutend)) then ! add to grid
      if (mod(itime-loutstart,loutsample).eq.0) then
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         if (WATERCYCLE) &
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            call calculate_watercycle(-1,itime,watersynctime)   
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  ! If we are exactly at the start or end of the concentration averaging interval,
  ! give only half the weight to this sample
  !*****************************************************************************

        if ((itime.eq.loutstart).or.(itime.eq.loutend)) then
          weight=0.5
        else
          weight=1.0
        endif
        outnum=outnum+weight
        call conccalc(itime,weight)
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      endif


      if ((mquasilag.eq.1).and.(itime.eq.(loutstart+loutend)/2)) &
           call partoutput_short(itime)    ! dump particle positions in extremely compressed format


  ! Output and reinitialization of grid
  ! If necessary, first sample of new grid is also taken
  !*****************************************************

      if ((itime.eq.loutend).and.(outnum.gt.0.)) then
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        if ((iout.le.3.).or.(iout.eq.5)) then
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          if (surf_only.ne.1) then 
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            if (lnetcdfout.eq.1) then 
              call concoutput_netcdf(itime,outnum,gridtotalunc,wetgridtotalunc,drygridtotalunc)
            else 
              call concoutput(itime,outnum,gridtotalunc,wetgridtotalunc,drygridtotalunc)
            endif
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          else  
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            if (verbosity.eq.1) then
             print*,'call concoutput_surf '
             call system_clock(count_clock)
             write(*,*) 'system clock',count_clock - count_clock0   
            endif
            if (lnetcdfout.eq.1) then 
              call concoutput_surf_netcdf(itime,outnum,gridtotalunc,wetgridtotalunc,drygridtotalunc)
            else
              call concoutput_surf(itime,outnum,gridtotalunc,wetgridtotalunc,drygridtotalunc)
              if (verbosity.eq.1) then
                print*,'called concoutput_surf '
                call system_clock(count_clock)
                write(*,*) 'system clock',count_clock - count_clock0   
              endif
            endif
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          endif

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          if (nested_output .eq. 1) then
            if (lnetcdfout.eq.0) then
              if (surf_only.ne.1) then
                call concoutput_nest(itime,outnum)
              else 
                call concoutput_surf_nest(itime,outnum)
              endif
            else
              if (surf_only.ne.1) then
                call concoutput_nest_netcdf(itime,outnum)
              else 
                call concoutput_surf_nest_netcdf(itime,outnum)
              endif
            endif
          endif
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          outnum=0.
        endif
        if ((iout.eq.4).or.(iout.eq.5)) call plumetraj(itime)
        if (iflux.eq.1) call fluxoutput(itime)
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        write(*,45) itime,numpart,gridtotalunc,wetgridtotalunc,drygridtotalunc
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        !CGZ-lifetime: output species lifetime
!ZHG
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        ! write(*,*) 'Overview species lifetime in days', &
        !      real((species_lifetime(:,1)/species_lifetime(:,2))/real(3600.0*24.0))
        ! write(*,*) 'all info:',species_lifetime
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!ZHG
        !CGZ-lifetime: output species lifetime

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        !write(*,46) float(itime)/3600,itime,numpart
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45      format(i13,' SECONDS SIMULATED: ',i13, ' PARTICLES:    Uncertainty: ',3f7.3)
46      format(' Simulated ',f7.1,' hours (',i13,' s), ',i13, ' particles')
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!        if (ipout.ge.1) call partoutput(itime)    ! dump particle positions
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!        if (WATERCYCLE) &
!           call calculate_watercycle(-1,itime)   
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        if (ipout.ge.1) call partoutput_short(itime)    ! dump particle positions
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        loutnext=loutnext+loutstep
        loutstart=loutnext-loutaver/2
        loutend=loutnext+loutaver/2
        if (itime.eq.loutstart) then
          weight=0.5
          outnum=outnum+weight
          call conccalc(itime,weight)
        endif


  ! Check, whether particles are to be split:
  ! If so, create new particles and attribute all information from the old
  ! particles also to the new ones; old and new particles both get half the
  ! mass of the old ones
  !************************************************************************

        if (ldirect*itime.ge.ldirect*itsplit) then
          n=numpart
          do j=1,numpart
            if (ldirect*itime.ge.ldirect*itrasplit(j)) then
              if (n.lt.maxpart) then
                n=n+1
                itrasplit(j)=2*(itrasplit(j)-itramem(j))+itramem(j)
                itrasplit(n)=itrasplit(j)
                itramem(n)=itramem(j)
                itra1(n)=itra1(j)
                idt(n)=idt(j)
                npoint(n)=npoint(j)
                nclass(n)=nclass(j)
                xtra1(n)=xtra1(j)
                ytra1(n)=ytra1(j)
                ztra1(n)=ztra1(j)
                uap(n)=uap(j)
                ucp(n)=ucp(j)
                uzp(n)=uzp(j)
                us(n)=us(j)
                vs(n)=vs(j)
                ws(n)=ws(j)
                cbt(n)=cbt(j)
                do ks=1,nspec
                  xmass1(j,ks)=xmass1(j,ks)/2.
                  xmass1(n,ks)=xmass1(j,ks)
                end do
              endif
            endif
          end do
          numpart=n
        endif
      endif
    endif


    if (itime.eq.ideltas) exit         ! almost finished

  ! Compute interval since radioactive decay of deposited mass was computed
  !************************************************************************

    if (itime.lt.loutnext) then
      ldeltat=itime-(loutnext-loutstep)
    else                                  ! first half of next interval
      ldeltat=itime-loutnext
    endif


  ! Loop over all particles
  !************************
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  ! Various variables for testing reason of CBL scheme, by mc
    well_mixed_vector=0. !erase vector to test well mixed condition: modified by mc
    well_mixed_norm=0.   !erase normalization to test well mixed condition: modified by mc
    avg_ol=0.
    avg_wst=0.
    avg_h=0.
    avg_air_dens=0.  !erase vector to obtain air density at particle positions: modified by mc
  !-----------------------------------------------------------------------------
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    do j=1,numpart


  ! If integration step is due, do it
  !**********************************

      if (itra1(j).eq.itime) then

        if (ioutputforeachrelease.eq.1) then
            kp=npoint(j)
        else
            kp=1
        endif
  ! Determine age class of the particle
        itage=abs(itra1(j)-itramem(j))
        do nage=1,nageclass
          if (itage.lt.lage(nage)) exit
        end do

  ! Initialize newly released particle
  !***********************************

        if ((itramem(j).eq.itime).or.(itime.eq.0)) &
             call initialize(itime,idt(j),uap(j),ucp(j),uzp(j), &
             us(j),vs(j),ws(j),xtra1(j),ytra1(j),ztra1(j),cbt(j))

  ! Memorize particle positions
  !****************************

        xold=xtra1(j)
        yold=ytra1(j)
        zold=ztra1(j)

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  ! RECEPTOR: dry/wet depovel
  !****************************
  ! Before the particle is moved 
  ! the calculation of the scavenged mass shall only be done once after release
  ! xscav_frac1 was initialised with a negative value

      if  (DRYBKDEP) then
       do ks=1,nspec
         if  ((xscav_frac1(j,ks).lt.0)) then
            call get_vdep_prob(itime,xtra1(j),ytra1(j),ztra1(j),prob_rec)
            if (DRYDEPSPEC(ks)) then        ! dry deposition
               xscav_frac1(j,ks)=prob_rec(ks)
             else
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                xmass1(j,ks)=0.
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                xscav_frac1(j,ks)=0.
             endif
         endif
        enddo
       endif

       if (WETBKDEP) then 
       do ks=1,nspec
         if  ((xscav_frac1(j,ks).lt.0)) then
            call get_wetscav(itime,lsynctime,loutnext,j,ks,grfraction,idummy,idummy,wetscav)
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            if (wetscav.gt.0) then
                xscav_frac1(j,ks)=wetscav* &
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                       (zpoint2(npoint(j))-zpoint1(npoint(j)))*grfraction(1)
            else
                xmass1(j,ks)=0.
                xscav_frac1(j,ks)=0.
            endif
         endif
        enddo
       endif
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  ! Integrate Lagevin equation for lsynctime seconds
  !*************************************************

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        if (verbosity.gt.0) then
           if (j.eq.1) then
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             write (*,*) 'timemanager> call advance'
           endif     
        endif
     
        call advance(itime,npoint(j),idt(j),uap(j),ucp(j),uzp(j), &
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             us(j),vs(j),ws(j),nstop,xtra1(j),ytra1(j),ztra1(j),prob, &
             cbt(j))
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!        write (*,*) 'advance: ',prob(1),xmass1(j,1),ztra1(j)
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  ! Calculate the gross fluxes across layer interfaces
  !***************************************************

        if (iflux.eq.1) call calcfluxes(nage,j,xold,yold,zold)


  ! Determine, when next time step is due
  ! If trajectory is terminated, mark it
  !**************************************

        if (nstop.gt.1) then
          if (linit_cond.ge.1) call initial_cond_calc(itime,j)
          itra1(j)=-999999999
        else
          itra1(j)=itime+lsynctime

  ! Dry deposition and radioactive decay for each species
  ! Also check maximum (of all species) of initial mass remaining on the particle;
  ! if it is below a threshold value, terminate particle
  !*****************************************************************************

          xmassfract=0.
          do ks=1,nspec
            if (decay(ks).gt.0.) then             ! radioactive decay
              decfact=exp(-real(abs(lsynctime))*decay(ks))
            else
              decfact=1.
            endif

            if (DRYDEPSPEC(ks)) then        ! dry deposition
              drydeposit(ks)=xmass1(j,ks)*prob(ks)*decfact
              xmass1(j,ks)=xmass1(j,ks)*(1.-prob(ks))*decfact
              if (decay(ks).gt.0.) then   ! correct for decay (see wetdepo)
                drydeposit(ks)=drydeposit(ks)* &
                     exp(real(abs(ldeltat))*decay(ks))
              endif
            else                           ! no dry deposition
              xmass1(j,ks)=xmass1(j,ks)*decfact
            endif

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! Skip check on mass fraction when npoint represents particle number
            if (mdomainfill.eq.0.and.mquasilag.eq.0) then
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              if (xmass(npoint(j),ks).gt.0.) &
                   xmassfract=max(xmassfract,real(npart(npoint(j)))* &
                   xmass1(j,ks)/xmass(npoint(j),ks))
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!ZHG 2015
                  !CGZ-lifetime: Check mass fraction left/save lifetime
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                   ! if(real(npart(npoint(j)))*xmass1(j,ks)/xmass(npoint(j),ks).lt.e_inv.and.checklifetime(j,ks).eq.0.)then
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                       !Mass below 1% of initial >register lifetime
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                       ! checklifetime(j,ks)=abs(itra1(j)-itramem(j))
                       ! species_lifetime(ks,1)=species_lifetime(ks,1)+abs(itra1(j)-itramem(j))
                       ! species_lifetime(ks,2)= species_lifetime(ks,2)+1
                   ! endif
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                   !CGZ-lifetime: Check mass fraction left/save lifetime
!ZHG 2015
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            else
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              xmassfract=1.0
            end if
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          end do

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          if (xmassfract.lt.minmass) then   ! terminate all particles carrying less mass
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            itra1(j)=-999999999
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            if (verbosity.gt.0) then
              print*,'terminated particle ',j,' for small mass'
            endif
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          endif

  !        Sabine Eckhardt, June 2008
  !        don't create depofield for backward runs
          if (DRYDEP.AND.(ldirect.eq.1)) then
            call drydepokernel(nclass(j),drydeposit,real(xtra1(j)), &
                 real(ytra1(j)),nage,kp)
            if (nested_output.eq.1) call drydepokernel_nest( &
                 nclass(j),drydeposit,real(xtra1(j)),real(ytra1(j)), &
                 nage,kp)
          endif

  ! Terminate trajectories that are older than maximum allowed age
  !***************************************************************

          if (abs(itra1(j)-itramem(j)).ge.lage(nageclass)) then
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            if (linit_cond.ge.1) call initial_cond_calc(itime+lsynctime,j)
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            itra1(j)=-999999999
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            if (verbosity.gt.0) then
              print*,'terminated particle ',j,' for age'
            endif
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          endif
        endif

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      endif !  if (mdomainfill.eq.0.and.mquasilag.eq.0) then

      if (WATERCYCLE.and.(abs(itra1(j)-itramem(j)).ge.lage(nageclass))) then
          itra1(j)=-999999999
           if (verbosity.gt.0) then
             print*,'terminated particle ',j,' for age'
           endif
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      endif

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    end do !loop over particles
    
  ! Counter of "unstable" particle velocity during a time scale of
  ! maximumtl=20 minutes (defined in com_mod)
  !***************************************************************
    
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    total_nan_intl=0
    i_nan=i_nan+1 ! added by mc to count nan during a time of maxtl (i.e. maximum tl fixed here to 20 minutes, see com_mod)
    sum_nan_count(i_nan)=nan_count
    if (i_nan > maxtl/lsynctime) i_nan=1 !lsynctime must be <= maxtl
    do ii_nan=1, (maxtl/lsynctime) 
      total_nan_intl=total_nan_intl+sum_nan_count(ii_nan)
    end do
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  ! Output to keep track of the numerical instabilities in CBL simulation and if
  ! they are compromising the final result (or not)
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    if (cblflag.eq.1) print *,j,itime,'nan_synctime',nan_count,'nan_tl',total_nan_intl  
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  end do


  ! Complete the calculation of initial conditions for particles not yet terminated
  !*****************************************************************************

  do j=1,numpart
    if (linit_cond.ge.1) call initial_cond_calc(itime,j)
  end do

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!  if (ipout.eq.2) call partoutput(itime)     ! dump particle positions
  if (ipout.eq.2) call partoutput_short(itime)     ! dump particle positions
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      if (WATERCYCLE) then
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           call calculate_watercycle(-1,itime,watersynctime)   
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          write (*,*) 'last watercycle'
      endif
     
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  if (linit_cond.ge.1) call initial_cond_output(itime)   ! dump initial cond. field

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  if (WATERCYCLE) then
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      open(43,file='waterfield.dat')
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!      write(*,*) 'Writing waterfield file'
!      do 76 iistep=1,100
!      do 76 jy=1,180
!          do 76 ix=1,360
!76           write(43,'(2i4,2e15.3)') ix,jy,waterfieldp(iistep,ix,jy),waterfielde(ix,jy)
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      close(43)

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      close(89) ! Euler rain, water budget file
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      close(90) ! Euler rain, water budget file
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  endif
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  ! De-allocate memory and end
  !***************************

  if (iflux.eq.1) then
      deallocate(flux)
  endif
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  if (OHREA) then
      deallocate(OH_field,OH_hourly,lonOH,latOH,altOH)
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  endif
  if (ldirect.gt.0) then
  deallocate(drygridunc,wetgridunc)
  endif
  deallocate(gridunc)
  deallocate(xpoint1,xpoint2,ypoint1,ypoint2,zpoint1,zpoint2,xmass)
  deallocate(ireleasestart,ireleaseend,npart,kindz)
  deallocate(xmasssave)
  if (nested_output.eq.1) then
     deallocate(orooutn, arean, volumen)
     if (ldirect.gt.0) then
     deallocate(griduncn,drygriduncn,wetgriduncn)
     endif
  endif
  deallocate(outheight,outheighthalf)
  deallocate(oroout, area, volume)
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  if (WATERCYCLE) then
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     deallocate(uul,vvl,uuln,vvln)
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  endif
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end subroutine timemanager