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start:hype_file_reference:geodata.txt [2022/08/25 16:46] cpers |
start:hype_file_reference:geodata.txt [2024/02/15 09:44] (current) cpers |
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<sortable> | <sortable> | ||
- | ^ Variable ID ^ Unit ^ Requirement ^ Description ^ | + | ^ Variable ID ^ Unit ^ Requirement ^ Description ^ |
- | | ''area'' | //m<sup>2</sup>// | mandatory | subbasin area | | + | | ''area'' | //m<sup>2</sup>// | mandatory | subbasin area | |
- | | ''subid'' | //-// | mandatory | id number for subbasins, matched against [[start:hype_file_reference:qobs.txt|Qobs.txt]] and [[start:hype_file_reference:xobs.txt|Xobs.txt]] column headings, integer < 10<sup>7</sup> | | + | | ''subid'' | //-// | mandatory | id number for subbasins, matched against [[start:hype_file_reference:qobs.txt|Qobs.txt]], [[start:hype_file_reference:xobs.txt|Xobs.txt]] or [[start:hype_file_reference:xcgobs.txt|Xcgobs.txt]] column headings, integer < 10<sup>7</sup> | |
- | | ''maindown'' | //-// | mandatory | subid of downstream sub-basin, i.e. the one to which the subbasin flows (integer, use 0 for subbasins that don’t run to another subbasin, e.g. coastal areas) | | + | | ''maindown'' | //-// | mandatory | subid of downstream sub-basin, i.e. the one to which the subbasin flows (integer, use 0 for subbasins that don’t run to another subbasin, e.g. coastal areas) | |
- | | ''latitude'' | //°// | optional | latitude in degrees N (-90,90), used for calculation of extraterrestrial radiation in [[start:hype_model_description:processes_above_ground&#alternative_potential_evaporation_models|Hargreaves-Samani evapotranspiration model]] | | + | | ''latitude'' | //°// | optional | latitude in degrees N (-90,90), used for calculation of extraterrestrial radiation in [[start:hype_model_description:processes_above_ground&#alternative_potential_evaporation_models|Hargreaves-Samani evapotranspiration model]] | |
- | | ''region'' | //-// | optional/mandatory | production region for crops in [[start:hype_file_reference:cropdata.txt|CropData.txt]]. All sub-basins must have a non-zero region defined if CropData.txt is used. | | + | | ''region'' | //-// | optional/mandatory | production region for crops in [[start:hype_file_reference:cropdata.txt|CropData.txt]]. All sub-basins must have a non-zero region defined if CropData.txt is used. | |
- | | ''parreg'' | //-// | optional | region for correction parameters (e.g. evapcorr). An integer 1,2,3,.., default is 1. | | + | | ''parreg'' | //-// | optional | region for correction parameters (e.g. evapcorr). An integer 1,2,3,.., default is 1. | |
- | | ''wqparreg'' | //-// | optional | region for water quality correction parameters (e.g. incorr). An integer 1,2,3,.., default is 1. | | + | | ''wqparreg'' | //-// | optional | region for water quality correction parameters (e.g. incorr). An integer 1,2,3,.., default is 1. | |
- | | ''lakeregion'' | //-// | optional | lake region for watercourse parameter. An integer 1,2,3,.., default is 1. | | + | | ''lakeregion'' | //-// | optional | lake region for watercourse parameter. An integer 1,2,3,.., default is 1. | |
- | | ''ilregion'' | //-// | optional | lake region for internal lake (ilake) parameters. An integer 1,2,3,.. , default is 1. | | + | | ''ilregion'' | //-// | optional | lake region for internal lake (ilake) parameters. An integer 1,2,3,.. , default is 1. | |
- | | ''olregion'' | //-// | optional | lake region for outlet lake (olake) parameters. An integer 1,2,3,.. , default is 1. | | + | | ''olregion'' | //-// | optional | lake region for outlet lake (olake) parameters. An integer 1,2,3,.. , default is 1. | |
- | | ''elev_mean'' | //m// | optional | mean elevation of subbasin | | + | | ''elev_mean'' | //m// | optional | mean elevation of subbasin | |
- | | ''elev_std'' | //m// | optional | variation (standard deviation) in elevation in a subbasin | | + | | ''elev_std'' | //m// | optional | variation (standard deviation) in elevation in a subbasin | |
- | | ''slope_mean'' | //%// | optional/mandatory | slope (>= 0%), mandatory for nutrient modelling | | + | | ''slope_mean'' | //%// | optional/mandatory | slope (>= 0%), mandatory for nutrient modelling | |
- | | ''slope_std'' | //%// | optional | variation (standard deviation) of slope in a subbasin | | + | | ''slope_std'' | //%// | optional | variation (standard deviation) of slope in a subbasin | |
- | | ''lake_depth'' | //m// | optional | water depth from outflow threshold, below which outlet flow ceases, down to mean depth for outlet lake, used for general lake discharge curve. Can also be defined in [[start:hype_file_reference:lakedata.txt|LakeData.txt]] or [[start:hype_file_reference:par.txt|par.txt]]. Definition in LakeData takes precedence. Must be > 0, or set to -9999 to use general or region parameter value from par.txt. | | + | | ''lake_depth'' | //m// | optional | water depth from outflow threshold, below which outlet flow ceases, down to mean depth for outlet lake, used for general lake discharge curve. Can also be defined in [[start:hype_file_reference:lakedata.txt|LakeData.txt]] or [[start:hype_file_reference:par.txt|par.txt]]. Definition in LakeData takes precedence. Must be > 0, or set to -9999 to use general or region parameter value from par.txt. | |
- | | ''lakedataid'' | //-// | optional | olake ID, coupled to //lakedataid// in [[start:hype_file_reference:lakedata.txt|LakeData.txt]], 0 if no such coupling exists | | + | | ''lakedataid'' | //-// | optional | olake ID, coupled to //lakedataid// in [[start:hype_file_reference:lakedata.txt|LakeData.txt]], 0 if no such coupling exists | |
- | | ''icatch'' | //-// | optional | fraction of local runoff that goes through the local lake (ilake), the rests runs directly into the main watercourse. To instead use parameter values (''gicatch'', ''ilicatch'' in [[start:hype_file_reference:par.txt|par.txt]]) for a single simulation set value to -9999 in GeoData or remove the column completely. | | + | | ''icatch'' | //-// | optional | fraction of local runoff that goes through the local lake (ilake), the rests runs directly into the main watercourse. To instead use parameter values (''gicatch'', ''ilicatch'' in [[start:hype_file_reference:par.txt|par.txt]]) for a single simulation set value to -9999 in GeoData or remove the column completely. | |
- | | ''rivlen'' | //m// | mandatory | length of main watercourse within subbasin | | + | | ''rivlen'' | //m// | mandatory | length of main watercourse within subbasin | |
- | | ''loc_rivlen'' | //m// | optional | length of local watercourse within subbasin, default is square root of land area | | + | | ''loc_rivlen'' | //m// | optional | length of local watercourse within subbasin, default is square root of land area | |
- | | ''slc_nnn'' | //-// | mandatory | soil-type/land-use class number //nnn// (soil-landuse-combination class, hydrological response units in HYPE), fraction of the subbasin’s area belonging to this class (between 0 and 1). A maximum of 999 SLCs can be defined //nn// matches the first column in [[start:hype_file_reference:geoclass.txt|GeoClass.txt]]. Smallest slc fraction allowed is 10<sup>-7</sup>, i.e. 7 decimals. | | + | | ''slc_nnn'' | //-// | mandatory | soil-type/land-use class number //nnn// (soil-landuse-combination class, hydrological response units in HYPE), fraction of the subbasin’s area belonging to this class (between 0 and 1). A maximum of 999 SLCs can be defined //nn// matches the first column in [[start:hype_file_reference:geoclass.txt|GeoClass.txt]]. Smallest slc fraction allowed is 10<sup>-7</sup>, i.e. 7 decimals. | |
- | | ''scr_nnn'' | //-// | optional | fraction of SLC class nn's area that is sown with secondary crop (between 0 and 1) | | + | | ''scr_nnn'' | //-// | optional | fraction of SLC class nn's area that is sown with secondary crop (between 0 and 1) | |
- | | ''dhslc_nnn'' | //m// | optional | deviation for each class from mean elevation of subbasin (defaults to 0) | | + | | ''dhslc_nnn'' | //m// | optional | deviation for each class from mean elevation of subbasin (defaults to 0) | |
- | | ''grwdown'' | //-// | optional | subid for the subbasin to which this subbasin’s lateral/regional groundwater flow runs (use 0 for subbasins whose groundwater flow disappears). If column is missing or all zeros it is assumed that the groundwater flows via maindown. | | + | | ''grwdown'' | //-// | optional | subid for the subbasin to which this subbasin’s lateral/regional groundwater flow runs (use 0 for subbasins whose groundwater flow disappears). If column is missing or all zeros it is assumed that the groundwater flows via maindown. | |
- | | ''grwolake'' | //-// | optional | fraction of groundwater flow from this subbasin that flows to this subbasins olake instead of to subbasin given in grwdown | | + | | ''grwolake'' | //-// | optional | fraction of groundwater flow from this subbasin that flows to this subbasins olake instead of to subbasin given in grwdown | |
- | | ''loc_tp'' | //mg/l// | optional | concentration of Tot-P from rural households outflow | | + | | ''loc_vol'' | //m<sup>3</sup>/d// | optional | outflow from rural households (modeloption diffusesource 0). The outflow is given per day regardless of simulation time step. | |
- | | ''loc_tn'' | //mg/l// | optional | concentration of Tot-N from rural households outflow | | + | | ''loc_tp'' | //mg/l// | optional | concentration of Tot-P from rural households outflow (''loc_vol'') | |
- | | ''loc_ts'' | //mg/l// | optional | concentration of total suspended material from rural households outflow | | + | | ''loc_sp'' | //-// | optional | fraction of rural household P outlet that is in soluble form | |
- | | ''loc_vol'' | //m<sup>3</sup>/d// | optional | outflow from rural households | | + | | ''loc_tn'' | //mg/l// | optional | concentration of Tot-N from rural households outflow (''loc_vol'') | |
- | | ''loc_sp'' | //-// | optional | fraction of rural household P outlet that is in soluble form | | + | | ''loc_in'' | //-// | optional | fraction of rural household N outlet that is inorganic | |
- | | ''loc_in'' | //-// | optional | fraction of rural household N outlet that is inorganic | | + | | ''loc_ts'' | //mg/l// | optional | concentration of total suspended material from rural households outflow (''loc_vol'') | |
- | | ''loc_ss'' | //-// | optional | fraction of rural total suspended material outlet that is is suspended material | | + | | ''loc_ss'' | //-// | optional | fraction of rural total suspended material outlet that is is suspended material | |
- | | ''loc_t1'' | //µU/L// | optional | concentration of tracer T1 from rural households outflow | | + | | ''loc_t1'' | //µU/L// | optional | concentration of tracer T1 from rural households outflow (''loc_vol'') | |
- | | ''loc_t2'' | //°C// | optional | temperature of rural households outflow (used for T2 simulation) | | + | | ''loc_t2'' | //°C// | optional | temperature of rural households outflow (used for T2 simulation) | |
- | | ''loc_soil'' | //-// | optional | fraction of emission from rural waste water that is emitted directly to the lowest soil layer (rest goes to the local watercourse). If no column: parameter ''locsoil'' is used. | | + | | ''loc_si'' | //mg/l// | optional | concentration of silica from rural households diffuse source (''loc_vol'') | |
- | | ''lrwet_area'' | //m<sup>2</sup>// | optional | area of local river wetland | | + | | ''loc_ds'' | //-// | optional | fraction of rural hoursehold silica outlet that is is dissolved silica | |
- | | ''mrwet_area'' | //m<sup>2</sup>// | optional | area of main river wetland | | + | | ''loc_oc'' | //mg/l// | optional | concentration of organic carbon from rural households diffuse source (''loc_vol'') | |
- | | ''lrwet_dep'' | //m// | optional | mean depth of local river wetland | | + | | ''loc_soil'' | //-// | optional | fraction of emission from rural waste water (''loc_vol'') that is emitted directly to the lowest soil layer (rest goes to the local river). If no column found, the parameter ''locsoil'' is used. | |
- | | ''mrwet_dep'' | //m// | optional | mean depth of main river wetland | | + | | ''locltp'' | //kg/yr// | optional | rural household diffuse source in the form of a load added to soil water (used for modeloption diffusesource 1) | |
- | | ''lrwet_part'' | //-// | optional | part of local river flow through river wetland | | + | | ''loclsp'' | //-// | optional | fraction of locltp that is SP | |
- | | ''mrwet_part'' | //-// | optional | part of main river flow through river wetland | | + | | ''locltn'' | //kg/yr// | optional | rural household diffuse source in the form of a load added to soil water (used for modeloption diffusesource 1) | |
- | | ''iwetcatch'' | //-// | optional | fraction of subbasin area that are catchment area of the internal wetland (iwet) | | + | | ''loclin'' | //-// | optional | fraction of locltn that is IN | |
- | | ''buffer'' | //-// | optional | fraction of watercourse through agricultural land that has a buffer zone (between 0 and 1), mandatory for phosphorus simulation | | + | | ''loclts'' | //kg/yr// | optional | rural household diffuse source in the form of a load added to soil water (used for modeloption diffusesource 1) | |
- | | ''close_w'' | //-// | optional | fraction of agricultural land that lies near watercourse and which leakage therefore is affected by the buffer zone (between 0 and 1), mandatory for phosphorus simulation | | + | | ''loclss'' | //-// | optional | fraction of loclts that is SS | |
- | | ''eroindex'' | //-// | optional | erosion index given per subbasin, used for erosion model 1 (defaults to 1) | | + | | ''loclt1'' | //U/yr// | optional | rural household diffuse source in the form of a load added to soil water (used for modeloption diffusesource 1) | |
- | | ''suspchannel'' | //-// | optional | river channel erodability/vegetation cover modification factor of resuspension (0-1), used for sedresusp model 2 | | + | | ''loclt2'' | //k°C m3/yr // | optional | rural household diffuse source in the form of a load added to soil water (used for modeloption diffusesource 1) | |
- | | ''sand'' | //-// | optional | sand soil fraction, used for siltation model | | + | | ''loclsi'' | //kg/yr// | optional | rural household diffuse source in the form of a load added to soil water (used for modeloption diffusesource 1) | |
- | | ''silt'' | //-// | optional | silt soil fraction, used for siltation model | | + | | ''loclds'' | //-// | optional | fraction of loclsi that is dissolved silica (DS) | |
- | | ''clay'' | //-// | optional | clay soil fraction, used for siltation model | | + | | ''locloc'' | //kg/yr// | optional | rural household diffuse source in the form of a load added to soil water (used for modeloption diffusesource 1) | |
- | | ''petmodel'' | //-// | optional | defines with alternative potential evapotranspiration model should be used for each subbasin. Default is temperature dependence or use of observations (0), alternatives are temperature dependent (1), modified Jensen-Haise/McGuinness (2), modified Hargreaves-Samani (3), Priestly-Taylor (4), and FAO Penman-Monteith reference crop evapotranspiration (5). Note: will override petmodel given in info.txt | | + | | ''lrwet_area'' | //m<sup>2</sup>// | optional | area of local river wetland | |
- | | ''ws_nn_d'' | | optional | Winstral coefficient for each class number //nn// and direction //d// | | + | | ''mrwet_area'' | //m<sup>2</sup>// | optional | area of main river wetland | |
- | | ''cloud_nnn'' | //-// | optional | monthly cloudiness climatology (fraction). //nnn// is the first three letters of the month. | | + | | ''lrwet_dep'' | //m// | optional | mean depth of local river wetland | |
- | | ''weight_sub'' | //-// | optional | weight of (trust in) subbasin in calculation of average model performace criteria and objective function | | + | | ''mrwet_dep'' | //m// | optional | mean depth of main river wetland | |
- | | ''lks_num'' | //-// | optional | number of lake section of ilake (maximum 99) | | + | | ''lrwet_part'' | //-// | optional | part of local river flow through river wetland | |
- | | ''lks_dp_N'' | //m// | optional | lake section N threshold above lake depth at outlet, N=1,2,.. | | + | | ''mrwet_part'' | //-// | optional | part of main river flow through river wetland | |
- | | ''lks_fi_N'' | //-// | optional | lake section N fraction of icatch, N=1,2,.. | | + | | ''iwetcatch'' | //-// | optional | fraction of subbasin area that are catchment area of the internal wetland (iwet) | |
- | | ''lks_fa_N'' | //-// | optional | lake section N fraction of ilake area, N=1,2,.. | | + | | ''buffer'' | //-// | optional | fraction of watercourse through agricultural land that has a buffer zone (between 0 and 1), mandatory for phosphorus simulation | |
+ | | ''close_w'' | //-// | optional | fraction of agricultural land that lies near watercourse and which leakage therefore is affected by the buffer zone (between 0 and 1), mandatory for phosphorus simulation | | ||
+ | | ''eroindex'' | //-// | optional | erosion index given per subbasin, used for erosion model 1 (defaults to 1) | | ||
+ | | ''suspchannel'' | //-// | optional | river channel erodability/vegetation cover modification factor of resuspension (0-1), used for sedresusp model 2 | | ||
+ | | ''sand'' | //-// | optional | sand soil fraction, used for siltation model | | ||
+ | | ''silt'' | //-// | optional | silt soil fraction, used for siltation model | | ||
+ | | ''clay'' | //-// | optional | clay soil fraction, used for siltation model | | ||
+ | | ''petmodel'' | //-// | optional | defines with alternative potential evapotranspiration model should be used for each subbasin. Default is temperature dependence or use of observations (0), alternatives are temperature dependent (1), modified Jensen-Haise/McGuinness (2), modified Hargreaves-Samani (3), Priestly-Taylor (4), and FAO Penman-Monteith reference crop evapotranspiration (5). Note: will override petmodel given in info.txt | | ||
+ | | ''ws_nn_d'' | | optional | Winstral coefficient for each class number //nn// and direction //d// | | ||
+ | | ''cloud_nnn'' | //-// | optional | monthly cloudiness climatology (fraction). //nnn// is the first three letters of the month. | | ||
+ | | ''weight_sub'' | //-// | optional | weight of (trust in) subbasin in calculation of average model performace criteria and objective function | | ||
+ | | ''lks_num'' | //-// | optional | number of lake section of ilake (maximum 99) | | ||
+ | | ''lks_dp_N'' | //m// | optional | lake section N threshold above lake depth at outlet, N=1,2,.. | | ||
+ | | ''lks_fi_N'' | //-// | optional | lake section N fraction of icatch, N=1,2,.. | | ||
+ | | ''lks_fa_N'' | //-// | optional | lake section N fraction of ilake area, N=1,2,.. | | ||
+ | | ''tilefrac_n'' | //-// | optional | optional fraction of tile drained area for the classes of this tile group, n=1-10| | ||
+ | | ''xcoord'' | //m// | optional | X/Y coordinate in meter, used for snowfall distribution | | ||
+ | | ''ycoord'' | //m// | optional | X/Y coordinate in meter, used for snowfall distribution | | ||
+ | | ''hds_depth'' | //m// | optional | maximum lake depth of HDS connectivity model| | ||
</sortable> | </sortable> | ||
- | Table. Deprecated variables from HYPE version 5.17.0 | + | Table. Deprecated variables from HYPE version 5.17.0. |
<sortable> | <sortable> | ||
^ Variable ID ^ Unit ^ Description ^ Replacement ^ | ^ Variable ID ^ Unit ^ Description ^ Replacement ^ | ||
- | | ''wetdep_n'' | //μg/l// | wet deposition of inorganic nitrogen, concentration of precipitation | Replaced by column IN_WD in AtmdepData.txt. Note the unit change to //mg/L//. | | + | | ''wetdep_n'' | //μg/l// | wet deposition of inorganic nitrogen, concentration of precipitation | Replaced by column IN_WD in [[start:hype_file_reference:atmdepdata.txt|AtmdepData.txt]]. Note the unit change to //mg/L//. | |
| ''drydep_n1'' | //kg/(km<sup>2</sup> d)// | dry deposition of inorganic nitrogen on vegetation type 1 (open) | Replaced by column IN_DD_V1 in AtmdepData.txt | | | ''drydep_n1'' | //kg/(km<sup>2</sup> d)// | dry deposition of inorganic nitrogen on vegetation type 1 (open) | Replaced by column IN_DD_V1 in AtmdepData.txt | | ||
| ''drydep_n2'' | //kg/(km<sup>2</sup> d)// | dry deposition of inorganic nitrogen on vegetation type 2 (forest) | Replaced by column IN_DD_V2 in AtmdepData.txt | | | ''drydep_n2'' | //kg/(km<sup>2</sup> d)// | dry deposition of inorganic nitrogen on vegetation type 2 (forest) | Replaced by column IN_DD_V2 in AtmdepData.txt | |