diff --git a/cmor/mpiesm/scripts/ncatted.sh b/cmor/mpiesm/scripts/ncatted_MK.sh
similarity index 81%
rename from cmor/mpiesm/scripts/ncatted.sh
rename to cmor/mpiesm/scripts/ncatted_MK.sh
index 04bf0428677c785d73fbe88a8cc7a2817bd1915a..952a1f244b8d2e0e3e1bdf0f0bcd08d1043cf50e 100644
--- a/cmor/mpiesm/scripts/ncatted.sh
+++ b/cmor/mpiesm/scripts/ncatted_MK.sh
@@ -8,10 +8,9 @@ module load nco
 
 # Attributes
 TITLE="MPI-ESM1-2 output prepared for PalMod2"
-REFERENCES="Kapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
-REFERENCES="Kleinen, T., Mikolajewicz, U. and Brovkin, V. (2020). Terrestrial methane emissions from the Last Glacial Maximum to the preindustrial period. Climate of the Past, 16(2):575–595. doi: 10.5194/cp-16-575-2020.\nKleinen, T., Gromov, S., Steil, B. and Brovkin, V. (2021). Atmospheric methane underestimated in future climate projections. Environmental Research Letters, 16(9):094006. doi: 10.1088/1748-9326/ac1814.\nKapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+REFERENCES="Kapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217\nBathymetry: Meccia, V. L., & Mikolajewicz, U. (2018). Interactive ocean bathymetry and coastlines for simulating the last deglaciation with the Max Planck Institute earth system model (MPI-ESM-v1.2). Geoscientific Model Development, 11(11), 4677–4692. https://doi.org/10.5194/gmd-11-4677-2018\nRiver Routing: Riddick, T., Brovkin, V., Hagemann, S., & Mikolajewicz, U. (2018). Dynamic hydrological discharge modelling for coupled climate model simulations of the last glacial cycle: The MPI-DynamicHD model version 3.0. Geoscientific Model Development, 11(10), 4291–4316. https://doi.org/10.5194/gmd-11-4291-2018"
 NOMINAL_RESOLUTION="500 km" # echam6, jsbach, mpiom, hamocc
-#NOMINAL_RESOLUTION="km" # vilma
+#NOMINAL_RESOLUTION="km"    # vilma
 #NOMINAL_RESOLUTION="25 km" # mPISM
 SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none/prescribed"
 CONVENTIONS="CF-1.7 PalMod-2.0"
@@ -39,7 +38,7 @@ TABLE_INFO[LImon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e3656
 TABLE_INFO[SImon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
 TABLE_INFO[Emon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
 TABLE_INFO[AERmon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
-# 
+#
 #TABLE_INFO[]=
 declare -A VARIANT_INFO
 VARIANT_INFO["1"]="Predecessor model version to p2. p2 contains a range of bug fixes and an updated model tuning: it comprises the introduction of a brine plume parameterization in MPI-OM and a modification of sea-ice lead closure parameters, improvement of the automated topography generation scripts (e.g. baroclinic exchange in shallow fjords), and a replacement of the direct use of topographic roughness in ECHAM6 by a parameterized treatment like the one in the standard ECHAM6 model. Tuning parameters are taken from Mauritsen and Roeckner (2020) and comprise the surface value of the critical humidity profile for cloud formation (crs), the threshold between cloud water and ice (csecfrl) and the fall speed of cloud ice (cvtfall). Additionally, a mean volcanic aerosol forcing was taken into account. For details see Supporting Information of Kapsch et al., 2022."
@@ -58,12 +57,8 @@ echo "-------------------------"
 
 #exp_id=transient-deglaciation-prescribed-ice6g_r1i1p1f1-CR
 exp_id=transient-deglaciation-prescribed-glac1d_r1i1p1f1-CR
-ifolder=/work/bk1192/k204212/palmod/${exp_id}/archive/PalMod2/
-ifolder=/work/bk1192/k204212/palmod_secondBatch/${exp_id}/archive/PalMod2/
-ifolder=/work/bk1192/k204212/palmod_thirdBatch/${exp_id}/archive/PalMod2/
-ifolder=/work/kd1292/k204212/palmod_errataBatch/${exp_id}/archive/PalMod2/
-#ifolder=/work/bk1192/k204212/palmod_pismtest/transient-deglaciation-prescribed-glac1d_r1i1p1f1-CR/archive/PalMod2
-#ifolder=/work/ik1017/ESGF_Buff/k204212/PalMod2_test
+#ifolder=/work/kd1292/k204212/palmod_MK/${exp_id}/archive/PalMod2/
+ifolder=/work/kd1292/ESGF_Buff/k204212/palmod_MK/archive/PalMod2
 
 ifiles=($(find $ifolder -type f))
 echo ${#ifiles[@]} files found.
@@ -80,6 +75,7 @@ echo $i $ifile
     #ncatted -O -h -a parent_experiment_id,global,m,c,"${PARENTEXPID}" -a variant_info,global,m,c,"${VARIANT_INFO[$physics_index]}" -a history,global,m,c,"$HISTORY" -a creation_date,global,m,c,"$CREATION_DATE" -a physics_index,global,m,c,"$physics_index" -a variant_label,global,m,c,"$memberid" -a table_info,global,m,c,"${TABLE_INFO[$table]}" -a Conventions,global,m,c,"$CONVENTIONS" -a title,global,m,c,"$TITLE" -a references,global,m,c,"$REFERENCES" -a source,global,m,c,"$SOURCE" -a nominal_resolution,global,m,c,"$NOMINAL_RESOLUTION" $ifile || echo "ERROR $ifile"
     #ncatted -O -h -a variant_info,global,m,c,"${VARIANT_INFO[$physics_index]}" $ifile || echo "ERROR $ifile"
     #ncatted -O -h -a tracking_id,global,m,c,"$uuid" $ifile || echo "ERROR $ifile"
+    ncatted -O -h -a history,global,m,c,"$HISTORY" -a creation_date,global,m,c,"$CREATION_DATE" -a table_info,global,m,c,"${TABLE_INFO[$table]}" -a Conventions,global,m,c,"$CONVENTIONS" -a title,global,m,c,"$TITLE" -a references,global,m,c,"$REFERENCES" $ifile || echo "ERROR $ifile"
 
     # Adjust filename timestamp
     if [[ "$table" != *"fx"* ]]; then
diff --git a/cmor/mpiesm/scripts/ncatted_TK_ssp.sh b/cmor/mpiesm/scripts/ncatted_TK_ssp.sh
new file mode 100644
index 0000000000000000000000000000000000000000..0b575e91c92b7e021d723fc5d4eeee84ea4ed44a
--- /dev/null
+++ b/cmor/mpiesm/scripts/ncatted_TK_ssp.sh
@@ -0,0 +1,118 @@
+#!/bin/bash
+set -ue
+
+module load nco
+
+
+# todo: rename version_ids
+
+# Attributes
+TITLE="MPI-ESM1-2 output prepared for PalMod2"
+REFERENCES="Kleinen, T., Mikolajewicz, U. and Brovkin, V. (2020). Terrestrial methane emissions from the Last Glacial Maximum to the preindustrial period. Climate of the Past, 16(2):575–595. doi: 10.5194/cp-16-575-2020\nKleinen, T., Gromov, S., Steil, B. and Brovkin, V. (2021). Atmospheric methane underestimated in future climate projections. Environmental Research Letters, 16(9):094006. doi: 10.1088/1748-9326/ac1814\nKapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+NOMINAL_RESOLUTION="500 km" # echam6, jsbach, mpiom, hamocc
+#NOMINAL_RESOLUTION="km"    # vilma
+#NOMINAL_RESOLUTION="25 km" # mPISM
+SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: unnamed (accelerated methane chemistry)\nland: JSBACH3.20, River Transport Model\nlandIce: none, prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none, prescribed\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none, prescribed"
+CONVENTIONS="CF-1.7 PalMod-2.0"
+CREATION_DATE="2023-01-10T10:00:00Z"
+HISTORY="2023-01-10T10:00:00Z ; CMOR rewrote data to be consistent with PalMod2, CF-1.7 PalMod-2.0 and CF standards."
+#PARENTEXPID="no parent"
+PARENTEXPID="transient-deglaciation-prescribed-glac1d-methane"
+declare -A TABLE_INFO
+# 00.00.02
+TABLE_INFO[Amon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Omon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Lmon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[dec]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[fx]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Ofx]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+# 00.00.03
+TABLE_INFO[Amon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Omon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Lmon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[dec]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[fx]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Ofx]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Odec]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[dec]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[LImon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[SImon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Emon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[AERmon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+# 
+#TABLE_INFO[]=
+VARIANT_INFO="PalMod MPI-ESM1-2-CR setup with full methane cycle. Model physics identical to MPI-ESM1-2-CR simulation transient-deglaciation-prescribed_r1i1p1f1."
+echo "------------------------"
+echo $TITLE
+echo $REFERENCES
+echo $NOMINAL_RESOLUTION
+echo $SOURCE
+echo $CONVENTIONS
+echo $CREATION_DATE
+echo $HISTORY
+echo ${TABLE_INFO[@]}
+echo "-------------------------"
+
+exp_id=ssp119-future-methane_r1i1p1f1-CR
+exp_id=ssp126-future-methane_r1i1p1f1-CR
+exp_id=ssp245-future-methane_r1i1p1f1-CR
+exp_id=ssp370-future-methane_r1i1p1f1-CR
+exp_id=ssp585-future-methane_r1i1p1f1-CR
+ifolder=/work/kd1292/k204212/palmod_TK/${exp_id}/archive/PalMod2/
+
+ifiles=($(find $ifolder -type f))
+echo ${#ifiles[@]} files found.
+i=0
+for ifile in ${ifiles[@]}; do
+i=$((i+1))
+echo $i $ifile
+    table=$(echo $ifile | rev | cut -d '/' -f 1 | rev | cut -d '_' -f 2)
+    memberid=$(echo $ifile | rev | cut -d '/' -f 1 | rev | cut -d '_' -f 5)
+    physics_index=${memberid:5:1}
+    uuid="hdl:21.14105/$(uuidgen)"
+
+    # Run ncatted
+    #ncatted -O -h -a variant_info,global,m,c,"${VARIANTINFO}" -a parent_experiment_id,global,m,c,"${PARENTEXPID}" -a variant_info,global,m,c,"${VARIANT_INFO[$physics_index]}" -a history,global,m,c,"$HISTORY" -a creation_date,global,m,c,"$CREATION_DATE" -a physics_index,global,m,c,"$physics_index" -a variant_label,global,m,c,"$memberid" -a table_info,global,m,c,"${TABLE_INFO[$table]}" -a Conventions,global,m,c,"$CONVENTIONS" -a title,global,m,c,"$TITLE" -a references,global,m,c,"$REFERENCES" -a source,global,m,c,"$SOURCE" -a nominal_resolution,global,m,c,"$NOMINAL_RESOLUTION" $ifile || echo "ERROR $ifile"
+    #ncatted -O -h -a tracking_id,global,m,c,"$uuid" $ifile || echo "ERROR $ifile"
+    ncatted -O -h -a history,global,m,c,"$HISTORY" -a creation_date,global,m,c,"$CREATION_DATE" -a table_info,global,m,c,"${TABLE_INFO[$table]}" -a Conventions,global,m,c,"$CONVENTIONS" -a title,global,m,c,"$TITLE" -a references,global,m,c,"$REFERENCES" $ifile || echo "ERROR $ifile"
+
+    # Adjust filename timestamp
+    if [[ "$table" != *"fx"* ]]; then
+        trunk=$(echo $ifile | rev | cut -d '_' -f 2- | rev)
+        timestamp=$(echo $ifile | rev | cut -d '.' -f 2 | cut -d '_' -f 1 | rev)
+        time1=$(echo $timestamp | cut -d '-' -f 1 | sed 's/^0*//' )
+        time2=$(echo $timestamp | cut -d '-' -f 2 | sed 's/^0*//' )
+        echo $time1 $time2
+        # Case 1 - Decadal data
+        if [[ "$table" == *"dec"* ]]; then
+            if [[ "${time1: -1}" == "5" ]]; then
+                newtime1=$(printf "%04d" $(expr $time1 - 5))
+                newtime2=$(printf "%04d" $(expr $time2 + 5))
+            else
+                newtime1=$(printf "%04d" ${time1} )
+                newtime2=$(printf "%04d" ${time2} )
+            fi
+        # Case 2 - the rest - annual and monthly data
+        elif [[ "$table" == *"mon"* ]]; then
+            newtime1=$(printf "%06d" ${time1} )
+            newtime2=$(printf "%06d" ${time2} )
+        elif [[ "$table" == *"yr"* ]]; then
+            newtime1=$(printf "%04d" ${time1} )
+            newtime2=$(printf "%04d" ${time2} )
+        elif [[ "$table" == *"day"* ]]; then
+            newtime1=$(printf "%08d" ${time1} )
+            newtime2=$(printf "%08d" ${time2} )
+        elif [[ "$table" == *"hr"* ]]; then
+            newtime1=$(printf "%010d" ${time1} )
+            newtime2=$(printf "%010d" ${time2} )
+        else
+            echo "ERROR: ${table}: no timestamp renaming rule!"
+            continue
+        fi
+        # mv command
+        ifile_new=${trunk}_${newtime1}-${newtime2}.nc
+        [[ "$ifile" != "$ifile_new" ]] && {
+            mv -v $ifile $ifile_new || echo "ERROR renaming $ifile to $ifile_new"
+        }
+    fi
+done
diff --git a/cmor/mpiesm/scripts/ncatted_TK_transient.sh b/cmor/mpiesm/scripts/ncatted_TK_transient.sh
new file mode 100644
index 0000000000000000000000000000000000000000..f999862d77b976b0bffa08207ea61fa450eea868
--- /dev/null
+++ b/cmor/mpiesm/scripts/ncatted_TK_transient.sh
@@ -0,0 +1,114 @@
+#!/bin/bash
+set -ue
+
+module load nco
+
+
+# todo: rename version_ids
+
+# Attributes
+TITLE="MPI-ESM1-2 output prepared for PalMod2"
+REFERENCES="Kleinen, T., Mikolajewicz, U. and Brovkin, V. (2020). Terrestrial methane emissions from the Last Glacial Maximum to the preindustrial period. Climate of the Past, 16(2):575–595. doi: 10.5194/cp-16-575-2020\nKleinen, T., Gromov, S., Steil, B. and Brovkin, V. (2021). Atmospheric methane underestimated in future climate projections. Environmental Research Letters, 16(9):094006. doi: 10.1088/1748-9326/ac1814\nKapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+NOMINAL_RESOLUTION="500 km" # echam6, jsbach, mpiom, hamocc
+#NOMINAL_RESOLUTION="km"    # vilma
+#NOMINAL_RESOLUTION="25 km" # mPISM
+SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: unnamed (accelerated methane chemistry)\nland: JSBACH3.20, River Transport Model\nlandIce: none, prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none, prescribed\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none, prescribed"
+CONVENTIONS="CF-1.7 PalMod-2.0"
+CREATION_DATE="2023-01-10T10:00:00Z"
+HISTORY="2023-01-10T10:00:00Z ; CMOR rewrote data to be consistent with PalMod2, CF-1.7 PalMod-2.0 and CF standards."
+PARENTEXPID="no parent"
+#PARENTEXPID="transient-deglaciation-prescribed-glac1d-methane"
+declare -A TABLE_INFO
+# 00.00.02
+TABLE_INFO[Amon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Omon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Lmon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[dec]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[fx]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Ofx]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+# 00.00.03
+TABLE_INFO[Amon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Omon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Lmon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[dec]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[fx]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Ofx]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Odec]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[dec]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[LImon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[SImon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[Emon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+TABLE_INFO[AERmon]="Creation Date:(14 February 2022) MD5:26bac4b397da7babac4e36561826e6b0"
+# 
+#TABLE_INFO[]=
+VARIANT_INFO="PalMod MPI-ESM1-2-CR setup with full methane cycle. Model physics identical to MPI-ESM1-2-CR simulation transient-deglaciation-prescribed_r1i1p1f1."
+echo "------------------------"
+echo $TITLE
+echo $REFERENCES
+echo $NOMINAL_RESOLUTION
+echo $SOURCE
+echo $CONVENTIONS
+echo $CREATION_DATE
+echo $HISTORY
+echo ${TABLE_INFO[@]}
+echo "-------------------------"
+
+exp_id=transient-deglaciation-prescribed-glac1d-methane_r1i1p1f1-CR
+ifolder=/work/kd1292/k204212/palmod_TK/${exp_id}/archive/PalMod2/
+
+ifiles=($(find $ifolder -type f))
+echo ${#ifiles[@]} files found.
+i=0
+for ifile in ${ifiles[@]}; do
+i=$((i+1))
+echo $i $ifile
+    table=$(echo $ifile | rev | cut -d '/' -f 1 | rev | cut -d '_' -f 2)
+    memberid=$(echo $ifile | rev | cut -d '/' -f 1 | rev | cut -d '_' -f 5)
+    physics_index=${memberid:5:1}
+    uuid="hdl:21.14105/$(uuidgen)"
+
+    # Run ncatted
+    #ncatted -O -h -a variant_info,global,m,c,"${VARIANTINFO}" -a parent_experiment_id,global,m,c,"${PARENTEXPID}" -a variant_info,global,m,c,"${VARIANT_INFO[$physics_index]}" -a history,global,m,c,"$HISTORY" -a creation_date,global,m,c,"$CREATION_DATE" -a physics_index,global,m,c,"$physics_index" -a variant_label,global,m,c,"$memberid" -a table_info,global,m,c,"${TABLE_INFO[$table]}" -a Conventions,global,m,c,"$CONVENTIONS" -a title,global,m,c,"$TITLE" -a references,global,m,c,"$REFERENCES" -a source,global,m,c,"$SOURCE" -a nominal_resolution,global,m,c,"$NOMINAL_RESOLUTION" $ifile || echo "ERROR $ifile"
+    #ncatted -O -h -a tracking_id,global,m,c,"$uuid" $ifile || echo "ERROR $ifile"
+    ncatted -O -h -a history,global,m,c,"$HISTORY" -a creation_date,global,m,c,"$CREATION_DATE" -a table_info,global,m,c,"${TABLE_INFO[$table]}" -a Conventions,global,m,c,"$CONVENTIONS" -a title,global,m,c,"$TITLE" -a references,global,m,c,"$REFERENCES" $ifile || echo "ERROR $ifile"
+
+    # Adjust filename timestamp
+    if [[ "$table" != *"fx"* ]]; then
+        trunk=$(echo $ifile | rev | cut -d '_' -f 2- | rev)
+        timestamp=$(echo $ifile | rev | cut -d '.' -f 2 | cut -d '_' -f 1 | rev)
+        time1=$(echo $timestamp | cut -d '-' -f 1 | sed 's/^0*//' )
+        time2=$(echo $timestamp | cut -d '-' -f 2 | sed 's/^0*//' )
+        echo $time1 $time2
+        # Case 1 - Decadal data
+        if [[ "$table" == *"dec"* ]]; then
+            if [[ "${time1: -1}" == "6" ]]; then
+                newtime1=$(printf "%05d" $(expr $time1 - 5))
+                newtime2=$(printf "%05d" $(expr $time2 + 4))
+            else
+                newtime1=$(printf "%05d" ${time1} )
+                newtime2=$(printf "%05d" ${time2} )
+            fi
+        # Case 2 - the rest - annual and monthly data
+        elif [[ "$table" == *"mon"* ]]; then
+            newtime1=$(printf "%07d" ${time1} )
+            newtime2=$(printf "%07d" ${time2} )
+        elif [[ "$table" == *"yr"* ]]; then
+            newtime1=$(printf "%05d" ${time1} )
+            newtime2=$(printf "%05d" ${time2} )
+        elif [[ "$table" == *"day"* ]]; then
+            newtime1=$(printf "%09d" ${time1} )
+            newtime2=$(printf "%09d" ${time2} )
+        elif [[ "$table" == *"hr"* ]]; then
+            newtime1=$(printf "%011d" ${time1} )
+            newtime2=$(printf "%011d" ${time2} )
+        else
+            echo "ERROR: ${table}: no timestamp renaming rule!"
+            continue
+        fi
+        # mv command
+        ifile_new=${trunk}_${newtime1}-${newtime2}.nc
+        [[ "$ifile" != "$ifile_new" ]] && {
+            mv -v $ifile $ifile_new || echo "ERROR renaming $ifile to $ifile_new"
+        }
+    fi
+done
diff --git a/cmor/mpiesm/scripts/tables/MPI-ESM1-2_mpism_PalMod2_mapping.txt b/cmor/mpiesm/scripts/tables/MPI-ESM1-2_mpism_PalMod2_mapping.txt
index 65395873dda148892654189e541546349f5ab0e7..b3fe257b832860795655955d9361724518fd0d86 100644
--- a/cmor/mpiesm/scripts/tables/MPI-ESM1-2_mpism_PalMod2_mapping.txt
+++ b/cmor/mpiesm/scripts/tables/MPI-ESM1-2_mpism_PalMod2_mapping.txt
@@ -53,7 +53,7 @@
 ! listed in the following:                     !
 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
 &parameter cmor_name="sftgifIt"                     name="ifl,gi,fi,o"                             project_mip_table="IdecAnt"      units="1"             cell_methods="m" character_axis="typelice"  /
-&parameter cmor_name="sftgifIt"                     name="ifl,gi,fi,o"                             project_mip_table="IdecGre"      units="%"             cell_methods="m" character_axis="typelice"  /
+&parameter cmor_name="sftgifIt"                     name="ifl,gi,fi,o"                             project_mip_table="IdecGre"      units="1"             cell_methods="m" character_axis="typelice"  /
 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
 ! Diagnosed Variables listed in the following: !
 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
diff --git a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p1f1-CR_cdocmorinfo b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p1f1-CR_cdocmorinfo
index a67d648c65e77e6ccc3a4e2e95295c56a8afdf6e..8b8419ecced200381568140a42f233ac937b567f 100644
--- a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p1f1-CR_cdocmorinfo
+++ b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p1f1-CR_cdocmorinfo
@@ -45,6 +45,7 @@ SUB_EXPERIMENT=none
 SOURCE_ID=MPI-ESM1-2-CR
 #MODEL_ID=MPI-ESM1-2-CR
 REFERENCES="Kapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+#\nBathymetry: Meccia, V. L., & Mikolajewicz, U. (2018). Interactive ocean bathymetry and coastlines for simulating the last deglaciation with the Max Planck Institute earth system model (MPI-ESM-v1.2). Geoscientific Model Development, 11(11), 4677–4692. https://doi.org/10.5194/gmd-11-4677-2018\nRiver Routing: Riddick, T., Brovkin, V., Hagemann, S., & Mikolajewicz, U. (2018). Dynamic hydrological discharge modelling for coupled climate model simulations of the last glacial cycle: The MPI-DynamicHD model version 3.0. Geoscientific Model Development, 11(10), 4291–4316. https://doi.org/10.5194/gmd-11-4291-2018
 SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none/prescribed"
 SOURCE_TYPE="AOGCM"
 #CALENDAR=proleptic_gregorian
diff --git a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p2f2-CR_cdocmorinfo b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p2f2-CR_cdocmorinfo
index 12ae0fc03e3700373e3935edf675729f45de0435..bd9be681551a214accb300ebdb566d51a6249bfc 100644
--- a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p2f2-CR_cdocmorinfo
+++ b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p2f2-CR_cdocmorinfo
@@ -45,6 +45,7 @@ SUB_EXPERIMENT=none
 SOURCE_ID=MPI-ESM1-2-CR
 #MODEL_ID=MPI-ESM1-2-CR
 REFERENCES="Kapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+#\nBathymetry: Meccia, V. L., & Mikolajewicz, U. (2018). Interactive ocean bathymetry and coastlines for simulating the last deglaciation with the Max Planck Institute earth system model (MPI-ESM-v1.2). Geoscientific Model Development, 11(11), 4677–4692. https://doi.org/10.5194/gmd-11-4677-2018\nRiver Routing: Riddick, T., Brovkin, V., Hagemann, S., & Mikolajewicz, U. (2018). Dynamic hydrological discharge modelling for coupled climate model simulations of the last glacial cycle: The MPI-DynamicHD model version 3.0. Geoscientific Model Development, 11(10), 4291–4316. https://doi.org/10.5194/gmd-11-4291-2018
 SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none/prescribed"
 SOURCE_TYPE="AOGCM"
 #CALENDAR=proleptic_gregorian
diff --git a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p3f2-CR_cdocmorinfo b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p3f2-CR_cdocmorinfo
index 3f7922fde061c3ed6cd09a5ceeaf01f957d912ee..34749971ffa5f7b9ca1ccf05650c3e42f58a7e8c 100644
--- a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p3f2-CR_cdocmorinfo
+++ b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-glac1d_r1i1p3f2-CR_cdocmorinfo
@@ -45,6 +45,7 @@ SUB_EXPERIMENT=none
 SOURCE_ID=MPI-ESM1-2-CR
 #MODEL_ID=MPI-ESM1-2-CR
 REFERENCES="Kapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+#\nBathymetry: Meccia, V. L., & Mikolajewicz, U. (2018). Interactive ocean bathymetry and coastlines for simulating the last deglaciation with the Max Planck Institute earth system model (MPI-ESM-v1.2). Geoscientific Model Development, 11(11), 4677–4692. https://doi.org/10.5194/gmd-11-4677-2018\nRiver Routing: Riddick, T., Brovkin, V., Hagemann, S., & Mikolajewicz, U. (2018). Dynamic hydrological discharge modelling for coupled climate model simulations of the last glacial cycle: The MPI-DynamicHD model version 3.0. Geoscientific Model Development, 11(10), 4291–4316. https://doi.org/10.5194/gmd-11-4291-2018
 SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none/prescribed"
 SOURCE_TYPE="AOGCM"
 #CALENDAR=proleptic_gregorian
diff --git a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p1f1-CR_cdocmorinfo b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p1f1-CR_cdocmorinfo
index 00443059f50337567ed188ec0cfc7f358c25e09d..6b86a7d113c3b0475142bbee0bfaa7ec8408166b 100644
--- a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p1f1-CR_cdocmorinfo
+++ b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p1f1-CR_cdocmorinfo
@@ -45,6 +45,7 @@ SUB_EXPERIMENT=none
 SOURCE_ID=MPI-ESM1-2-CR
 #MODEL_ID=MPI-ESM1-2-CR
 REFERENCES="Kapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+#\nBathymetry: Meccia, V. L., & Mikolajewicz, U. (2018). Interactive ocean bathymetry and coastlines for simulating the last deglaciation with the Max Planck Institute earth system model (MPI-ESM-v1.2). Geoscientific Model Development, 11(11), 4677–4692. https://doi.org/10.5194/gmd-11-4677-2018\nRiver Routing: Riddick, T., Brovkin, V., Hagemann, S., & Mikolajewicz, U. (2018). Dynamic hydrological discharge modelling for coupled climate model simulations of the last glacial cycle: The MPI-DynamicHD model version 3.0. Geoscientific Model Development, 11(10), 4291–4316. https://doi.org/10.5194/gmd-11-4291-2018
 SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none/prescribed"
 SOURCE_TYPE="AOGCM"
 #CALENDAR=proleptic_gregorian
diff --git a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p2f2-CR_cdocmorinfo b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p2f2-CR_cdocmorinfo
index 0322221a3fadaedab88dcbd90a817827c61572f6..f41ce9ad43e06b3091091d43ade574f9111a5e71 100644
--- a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p2f2-CR_cdocmorinfo
+++ b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p2f2-CR_cdocmorinfo
@@ -45,6 +45,7 @@ SUB_EXPERIMENT=none
 SOURCE_ID=MPI-ESM1-2-CR
 #MODEL_ID=MPI-ESM1-2-CR
 REFERENCES="Kapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+#\nBathymetry: Meccia, V. L., & Mikolajewicz, U. (2018). Interactive ocean bathymetry and coastlines for simulating the last deglaciation with the Max Planck Institute earth system model (MPI-ESM-v1.2). Geoscientific Model Development, 11(11), 4677–4692. https://doi.org/10.5194/gmd-11-4677-2018\nRiver Routing: Riddick, T., Brovkin, V., Hagemann, S., & Mikolajewicz, U. (2018). Dynamic hydrological discharge modelling for coupled climate model simulations of the last glacial cycle: The MPI-DynamicHD model version 3.0. Geoscientific Model Development, 11(10), 4291–4316. https://doi.org/10.5194/gmd-11-4291-2018
 SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none/prescribed"
 SOURCE_TYPE="AOGCM"
 #CALENDAR=proleptic_gregorian
diff --git a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p3f2-CR_cdocmorinfo b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p3f2-CR_cdocmorinfo
index a91d93bbdb8c0a8ead6e39f08df7890c1a2bd506..cc147b17c734eb6a5aef5040af9d06702414adb6 100644
--- a/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p3f2-CR_cdocmorinfo
+++ b/cmor/mpiesm/scripts/transient-deglaciation-prescribed-ice6g_r1i1p3f2-CR_cdocmorinfo
@@ -45,6 +45,7 @@ SUB_EXPERIMENT=none
 SOURCE_ID=MPI-ESM1-2-CR
 #MODEL_ID=MPI-ESM1-2-CR
 REFERENCES="Kapsch, M.-L., Mikolajewicz, U., Ziemen, F., & Schannwell, C. (2022). Ocean response in transient simulations of the last deglaciation dominated by underlying ice-sheet reconstruction and method of meltwater distribution. Geophysical Research Letters, 49, e2021GL096767. https://doi.org/10.1029/2021GL096767\nMPI-ESM: Mauritsen, T. et al. (2019), Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2, J. Adv. Model. Earth Syst.,11, 998-1038, doi:10.1029/2018MS001400,\nMueller, W.A. et al. (2018): A high‐resolution version of the Max Planck Institute Earth System Model MPI‐ESM1.2‐HR. J. Adv. Model. EarthSyst.,10,1383–1413, doi:10.1029/2017MS001217"
+#\nBathymetry: Meccia, V. L., & Mikolajewicz, U. (2018). Interactive ocean bathymetry and coastlines for simulating the last deglaciation with the Max Planck Institute earth system model (MPI-ESM-v1.2). Geoscientific Model Development, 11(11), 4677–4692. https://doi.org/10.5194/gmd-11-4677-2018\nRiver Routing: Riddick, T., Brovkin, V., Hagemann, S., & Mikolajewicz, U. (2018). Dynamic hydrological discharge modelling for coupled climate model simulations of the last glacial cycle: The MPI-DynamicHD model version 3.0. Geoscientific Model Development, 11(10), 4291–4316. https://doi.org/10.5194/gmd-11-4291-2018
 SOURCE="MPI-ESM1.2-CR (2017): \naerosol: none, prescribed Kinne (2010)\natmos: ECHAM6.3 (spectral T31; 96 x 48 longitude/latitude; 31 levels; top level 10 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (bipolar GR3.0, approximately 300km; 122 x 101 longitude/latitude; 40 levels; top grid cell 0-15 m)\nocnBgchem: none\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)\nsolidLand: none/prescribed"
 SOURCE_TYPE="AOGCM"
 #CALENDAR=proleptic_gregorian