167 #> Science Options
168 setenv CTM_OCEAN_CHEM N #> Flag for ocean halgoen chemistry and sea spray aerosol emissions [ default: Y ]
169 setenv CTM_WB_DUST N #> use inline windblown dust emissions [ default: Y ]
170 setenv CTM_WBDUST_BELD BELD3 #> landuse database for identifying dust source regions
171 #> [ default: UNKNOWN ]; ignore if CTM_WB_DUST = N
172 setenv CTM_LTNG_NO N #> turn on lightning NOx [ default: N ]
173 setenv CTM_WVEL Y #> save derived vertical velocity component to conc
174 #> file [ default: N ]
175 setenv KZMIN Y #> use Min Kz option in edyintb [ default: Y ],
176 #> otherwise revert to Kz0UT
177 setenv CTM_MOSAIC N #> landuse specific deposition velocities [ default: N ]
178 setenv CTM_FST N #> mosaic method to get land-use specific stomatal flux
179 #> [ default: N ]
180 setenv PX_VERSION Y #> WRF PX LSM
181 setenv CLM_VERSION N #> WRF CLM LSM
182 setenv NOAH_VERSION N #> WRF NOAH LSM
183 setenv CTM_ABFLUX Y #> ammonia bi-directional flux for in-line deposition
184 #> velocities [ default: N ]
185 setenv CTM_BIDI_FERT_NH3 T #> subtract fertilizer NH3 from emissions because it will be handled
186 #> by the BiDi calculation [ default: Y ]
187 setenv CTM_HGBIDI N #> mercury bi-directional flux for in-line deposition
188 #> velocities [ default: N ]
189 setenv CTM_SFC_HONO Y #> surface HONO interaction [ default: Y ]
190 setenv CTM_GRAV_SETL Y #> vdiff aerosol gravitational sedimentation [ default: Y ]
191 setenv CTM_BIOGEMIS N #> calculate in-line biogenic emissions [ default: N ]