chem-input-default.rc.tmpl 12 KB

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  1. !-----------------------------------------------------------------------
  2. ! Emissions and Stratospheric/Surface Boundary conditions for TM5-Chem
  3. !-----------------------------------------------------------------------
  4. !
  5. ! Data are expected in two type of locations:
  6. !
  7. ! (1) below ${inputdir} (set in your main rc file) for the standard input
  8. ! files (land-sea mask, etc...). DO NOT CHANGE THESE.
  9. !
  10. ! (2) or in their own ${input.emis.dir.*} (e.g., input.emis.dir.AR5). You
  11. ! should change these to match your inventories location. Note that in
  12. ! the current template all the inventories location are below the top
  13. ! dir ${topdir.dynamic}. This is just a convenience, not mandatory.
  14. !
  15. !-----------------------------------------------------------------------
  16. !
  17. ! *** MAKE A COPY of this file and include its path into your main rc
  18. ! file. Set the flags according to your experiment (T/F keys, AR5 scenario,
  19. ! emission year...) and the location of your emissions inventories.
  20. ! -----------------------------------------------------------------------
  21. ! convenient top dir for large inventories (EDGAR, AR5, GFED, ...)
  22. topdir.dynamic : path/to/somewhere
  23. ! CMIP6 Scenario for 2015 and above (expected: SSP1-1.9, SSP1-2.6,
  24. ! SSP1-2.6-Ext, SSP2-4.5, SSP3-7.0, SSP3-LowNTCF, SSP5-8.5,
  25. ! SSP5-8.5-Ext). Tier 2 scenarios not available.
  26. input.CMIP6.SSP : SSP3-7.0
  27. !------------------------
  28. ! Photolysis
  29. !------------------------
  30. ! data dir with photolysis specific data
  31. input.photo : ${inputdir}/photolysis
  32. ! aerosols feedback on photolysis (m7)
  33. optics.lookuptable : ${inputdir}/photolysis/lookup_table.nc
  34. optics.refractive_indices : ${inputdir}/photolysis/refractive_indices_hdfstyle.nc
  35. !------------------------
  36. ! STRATOSPHERE : O3, O3S, CH4, CO and HNO3 are relaxed to climatology dataset
  37. !------------------------
  38. !
  39. ! ** For O3:
  40. ! CMIP6 data set if input.conc.o3.cmip6=T.
  41. ! MSR2 = Multi Sensor Reanalysis, version 2, if input.climat.MSR=T.
  42. ! Choose one or the other.
  43. ! If neither is selected, ${input.climat.o3vmr} must be
  44. ! set to a user input file name (see source code for expected dimension and
  45. ! units). However no nudging is performed if the 'without_o3_nudging' cpp
  46. ! macro is used.
  47. !
  48. ! See: www.temis.nl; Allaart, van der A, manuscript in preparation, 2009)
  49. !
  50. ! When CMIP6 is selected, the pre-industrial climatology is used
  51. ! if input.conc.o3.cmip6.piclim=T.
  52. !
  53. ! ** For CH4 we use HALOE CH4 Climatology (October 1991 to August 2002) if
  54. ! input.climat.HALOE=T. Else no nudging is performed.
  55. !
  56. ! See technical note: A stratospheric climatology for O3, H2O, CH4, NOx,
  57. ! HCl and HF derived from HALOE measurements by J.-U. Grooss and
  58. ! J. M. Russell III Atmospheric Chemistry and Physics, 5, 2797-2807, 2005
  59. ! SRef-ID: 1680-7324/acp/2005-5-2797
  60. !
  61. ! If input.conc.ch4.cmip6=T, the HALOE climatology is scaled
  62. ! based on the CMIP6 time series of the global and annual mean mixing ratio
  63. ! at the surface.
  64. !
  65. ! ** HNO3 is prescribed using HNO3:03 ratios from ODIN, if
  66. ! input.climat.ODIN=T, or from UARS else.
  67. !
  68. ! ** CO is prescribed using CO:03 ratios from ODIN, only if
  69. ! input.climat.ODIN=T (no fallback).
  70. !
  71. ! ** O3DU (also from MSR) is optionally used in photolysis only.
  72. !
  73. ! [See boundary.F90]
  74. !
  75. input.conc.o3.cmip6 : F
  76. input.conc.o3.cmip6.dir : ${inputdir}/boundary/CMIP6/O3/
  77. input.conc.o3.cmip6.piclim : F
  78. !
  79. ! Use Multi Sensor Reanalysis for O3?
  80. input.climat.MSR : T
  81. input.climat.o3vmr : ${inputdir}/boundary/O3_top/MSR_O3_VMR_HDF/
  82. ! Use O3du (for photolysis)?
  83. input.climat.use_o3du : F
  84. ! Directory of O3du ?
  85. input.climat.o3du : ${inputdir}/boundary/O3_top/MSR_O3_VMR_HDF/
  86. ! Use HALOE for CH4?
  87. input.climat.HALOE : T
  88. ! Directory of HALOE ?
  89. input.climat.ch4vmr : ${inputdir}/boundary/CH4_top/
  90. ! Use ODIN for HNO3 and CO?
  91. input.climat.ODIN : T
  92. ! Directory for ODIN?
  93. input.climat.covmr : ${inputdir}/boundary/ODIN/
  94. ! in case of fallback HNO3:O3 ratio are expected as: ${inputdir}/boundary/HNO3_top/uars_ratio.hdf (hardwired in the code)
  95. !------------------------
  96. ! Dry deposition (hardwired)
  97. !------------------------
  98. ! files "lsmlai.hdf" and "soilph.hdf" are expected in: ${inputdir}/land
  99. !------------------------
  100. ! Set emissions base year (default to simulation year if commented)
  101. !------------------------
  102. !input.emis.year :
  103. !
  104. !--------------------------------------------------------------------
  105. ! Additional switches to fix the emissions of
  106. ! anthropogenic and biomass burning emissions to a specific year
  107. ! (as required in AerChemMIP).
  108. !
  109. ! The year of emissions can be controlled for the whole group of NTCFs,
  110. ! for the sub-groups of aerosol and ozone precursors,
  111. ! and/or for the individual species.
  112. !
  113. ! Note that settings for individual species or else the subgroup
  114. ! to which they belong are leading.
  115. ! If these are commented, input.emis.year.ntcf or
  116. ! else input.emis.year is used.
  117. ! If these are also commented,
  118. ! the actual year of simulation is used.
  119. !
  120. ! Near-Term Climate Forcers (NTCFs), excl. CH4
  121. !input.emis.year.ntcf :
  122. !
  123. ! Aerosol precursors (BC, OC, NH3, SOx)
  124. !input.emis.year.aer :
  125. !input.emis.year.bc :
  126. !input.emis.year.oc :
  127. !input.emis.year.sox :
  128. !input.emis.year.nh3 :
  129. !
  130. ! Ozone precursors (NOx, CO, NMVOCs incl. isoprene and mononterpenes)
  131. ! Note that in AerChemMIP, the year for CO should be that for NMVOCs.
  132. !input.emis.year.o3 :
  133. !input.emis.year.nox :
  134. !input.emis.year.co :
  135. !input.emis.year.nmvoc :
  136. !----------------------------------------------------------------------------
  137. ! Option to fix CMIP6 or MSR O3 mixing ratios to fixed year:
  138. ! Note that, for CMIP6, this option applied to the year 1850,
  139. ! is not the same as selecting the pre-industrial climatology
  140. ! with input.conc.o3.cmip6.piclim=T.
  141. input.o3.fixyear : F
  142. input.o3.year :
  143. ! Option to fix CMIP6 methane boundary conditions and emissions to fixed year
  144. input.ch4.fixyear : F
  145. input.ch4.year :
  146. ! Option to fix CMIP6 CO2 mixing ratio to fixed year:
  147. input.co2.fixyear : F
  148. input.co2.year :
  149. ! Option to prescribe CO2 for the 1pctCO2 or abrupt-4xCO2 DECK simulation
  150. ! Only one can be set to True and when this is the case,
  151. ! the values of input.co2.fixyear and input.co2.year
  152. ! as specified above are not used.
  153. !
  154. ! Option to prescribe CO2 as in 1pctCO2:
  155. input.co2.1pct: F
  156. !
  157. ! Option to prescribe CO2 as in abrupt-4xCO2:
  158. input.co2.abrupt-4x: F
  159. !------------------------------------------------
  160. ! Set base year for natural emissions
  161. ! that don't cover the full period 1850-2100.
  162. ! Use 2000 in climate integrations (CMIP6).
  163. ! Used for CH4 emissions from LPJ,
  164. ! as well as for MACC & MEGAN.
  165. !------------------------------------------------
  166. input.natemis.year : 2000
  167. ! ----------------------------------------
  168. ! Anthropogenic emis (choose ONE: CMIP6 (1850-2100) or AR5(1850-2100) or EDGAR4(1970-2005/8) or MACCITY(1960-2020) )
  169. ! ----------------------------------------
  170. use_cmip6 : F
  171. input.emis.dir.CMIP6 : ${topdir.dynamic}/CMIP6
  172. use_ar5 : F
  173. input.emis.dir.AR5 : ${topdir.dynamic}/AR5
  174. ! AR5 scenario: choose b/w RCP26, RCP45, RCP60, RCP85 and 'hist' for historical
  175. input.emis.AR5.RCP : RCP45
  176. use_edgar4 : F
  177. input.emis.dir.ED41 : ${topdir.dynamic}/EDGAR4
  178. use_maccity : F
  179. ! dir for MACC-city is "input.emis.dir.MACC". [same data + IPCC aircraft emiss]
  180. !***** it is important that the path to AR5 and EDGAR are correct even if the *****
  181. !***** use_ar5 and use_edgar4 are set to F. Because maccity is missing CH4 and *****
  182. !***** reverts to EDGAR for CH4, and because (if using M7) AR5 is always used *****
  183. !***** to get BC and OC emissions. *****
  184. ! ----------------------------------------
  185. ! Biomass burning (choose one: CMIP6BMB (1850-2100), GFED3 (1997-2010), RETRO_FIRES(1960-2000) or AR5_FIRES)
  186. ! ----------------------------------------
  187. use_cmip6_fires : F
  188. use_ar5_fires : F
  189. use_retro_fires : F
  190. use_gfed3 : F
  191. input.emis.dir.gfed : ${topdir.dynamic}/GFED3
  192. input.emis.dir.retro : ${topdir.dynamic}/RETRO
  193. ! apply daily cycle to BMB in the tropics
  194. ! (based on isoprene and not applied to BC/POM)
  195. input.emis.bb.dailycycle : F
  196. ! ----------------------------------------
  197. ! Natural emissions
  198. ! ----------------------------------------
  199. ! all gases : MACC
  200. use_macc : T
  201. input.emis.dir.MACC : ${topdir.dynamic}/MACCity
  202. ! use MEGAN v1 (1980-2010) for biogenic sources
  203. ! (will replaces 'bio' src from MACC for ISOP, CO, and NMVOC)
  204. use_megan : T
  205. input.emis.dir.MEGAN : ${topdir.dynamic}/MEGAN
  206. ! CH4 : add HYMN/LPJ (see readme-hymn)
  207. use_lpj : T
  208. use_hymn : T
  209. input.emis.dir.natch4 : ${inputdir}/natural_emissions/reactive_gases/CH4/HYMN
  210. ! RN 222 (file: RN222_WMO2004.hdf)
  211. input.emis.dir.rn222 : ${inputdir}/natural_emissions/tracer
  212. ! DMS (files: "DMSland.hdf" and "DMSconc.hdf")
  213. input.emis.dir.dms : ${inputdir}/natural_emissions/reactive_gases/DMS
  214. ! ----------------------------------------
  215. ! Aerosols
  216. ! ----------------------------------------
  217. ! DUST : choose between AEROCOM (monthly, fix year:2000), TEGEN-VIGNATI
  218. ! (monthly, location unknown=> option unavailable until further notice),
  219. ! and ONLINE
  220. input.emis.dust : ONLINE
  221. ! directory for that choice
  222. input.emis.dir.dust : ${inputdir}/aerosols/Dust/${input.emis.dust}
  223. ! POM : directory for anthropogenic SOA file (SOA.hdf)
  224. input.emis.dir.aerocom : ${inputdir}/aerosols/SOA
  225. ! New particle formation scheme
  226. ! 1 Vehkamaki et al. 2002 (so4)
  227. ! 2 Kulmala et al. 1996 (so4)
  228. ! 3 Paasonen et al. 2010 (organic+so4) + Vehkamaki et al.
  229. ! 4 Riccobono et al. 2014 + Vehkamaki et al.
  230. input.nucleation.scheme : 4
  231. !SOA scheme
  232. !0 POM AeroCom (aitkenmodes)
  233. !1 POM distribution according to volatility (5 modes) (not implemented)
  234. !2 monoterpene+isoprene oxidation + condensation
  235. input.soa.scheme : 2
  236. !Use also isoprene yields for ELVOC and SVOC production
  237. !Default value True
  238. input.soa.isoprene_on : T
  239. !Size of formed particles in KK parameterisation in nm (default: 5.0)
  240. input.KK.d_form : 5.0
  241. ! ----------------------------------------
  242. ! NOx extra sources
  243. ! ----------------------------------------
  244. ! MODIS
  245. input.onlinenox.dir : ${inputdir}/input/glb1x1
  246. ! Lightning NOx uses Land fraction, expected as: ${inputdir}/land/landfraction.hdf (hardwired)
  247. ! ----------------------------------------
  248. ! Nudging CH4 [see emission_CH4.F90]
  249. ! ----------------------------------------
  250. ! If input.conc.ch4.cmip6 is set to T:
  251. ! - CMIP6 zonal mean surface mixing ratios used in the lower troposphere
  252. ! - HALOE climatology of stratospheric CH4 mixing ratios scaled
  253. ! based on CMIP6 time series of global annual mean mixing ratio at surface
  254. ! (input.climat.HALOE forced to T)
  255. input.conc.ch4.cmip6 : F
  256. input.conc.ch4.cmip6.dir : ${inputdir}/boundary/CMIP6/CH4/
  257. ! Alternatively, if input.emis.ch4.single is set to T, a single mixing ratio
  258. ! (input.emis.ch4.fixed_ppb) is prescribed at the surface, or [TODO:
  259. ! doublecheck is true] in the whole atmosphere (with HALOE climatology
  260. ! switched off):
  261. input.emis.ch4.single : F
  262. input.emis.ch4.fixed_ppb : 1760.0
  263. input.emis.ch4.fix3d : F
  264. ! Else read the zonal background field from NOAA/GMD mean surface fields in
  265. ! input.emis.ch4.surf for year/month (without scaling of the HALOE
  266. ! climatology).
  267. !
  268. ! This zonal mean field is used for nudging CH4 emissions:
  269. ! - up to 550 hPa, if with_ch4_emission is used [RECOMMENDED]
  270. ! - in the two lowest layers if with_ch4_emission is NOT used, and input.emis.ch4.fix3d is F
  271. ! - in all layers if with_ch4_emission is NOT used, and input.emis.ch4.fix3d is T
  272. !
  273. input.emis.ch4.surf : ${inputdir}/boundary/CH4_surf/
  274. ! ----------------------------------------
  275. ! CO2 mixing ratio used in pH calculation for aqueous chemistry
  276. ! ----------------------------------------
  277. ! If input.conc.co2.cmip6 is set to T (RECOMMENDED),
  278. ! global annual mean mixing ratios from CMIP6 are used;
  279. ! otherwise, it is fixed to a value for the year 2000.
  280. input.conc.co2.cmip6 : T
  281. input.conc.co2.cmip6.dir : ${inputdir}/boundary/CMIP6/CO2/
  282. !------------------------
  283. ! Cariolle
  284. !------------------------
  285. ! Does not applied