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start:hype_file_reference:yyyy_ss.txt [2015/03/27 17:26]
rcapell
start:hype_file_reference:yyyy_ss.txt [2024/01/25 11:38] (current)
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 ====== yyyy_ss.txt ====== ====== yyyy_ss.txt ======
  
-These output files hold modelled annual load results. //yyyy// stands for a year during the model evaluation ​period and //ss// stands for one of the HYPE-modelled nitrogen (IN, ON) and phosphorus (PP, SP) species (e.g. //​2001_IN.txt//​). The files contain modelled annual nutrient loads before and after retention/​removal the modelled nutrient transport pathways.+These output files hold modelled annual load results. //yyyy// stands for a year during the simulation ​period and //ss// stands for one of the HYPE-modelled nitrogen (IN, ON) and phosphorus (PP, SP) species (an actual file name would be e.g. //​2001_IN.txt//​). The files contain modelled annual nutrient loads before and after retention/​removal ​along the modelled nutrient transport pathways.
  
 //​yyyy_ss.txt//​ are tab-separated files written to the [[start:​hype_file_reference:​info.txt&#​model_options|resultdir]] folder if requested in [[start:​hype_file_reference:​info.txt&#​output_options|output options of info.txt]]. The first row contains a column header with variable names. The following rows contain values for all variables, in one row per sub-basin. ​ //​yyyy_ss.txt//​ are tab-separated files written to the [[start:​hype_file_reference:​info.txt&#​model_options|resultdir]] folder if requested in [[start:​hype_file_reference:​info.txt&#​output_options|output options of info.txt]]. The first row contains a column header with variable names. The following rows contain values for all variables, in one row per sub-basin. ​
  
-The table below describes all variables written column-wise in //yyy_ss.txt//. Variables with a //_nn// suffix are calculated for each SLC class separately, with //nn// numbers corresponding to numbers in [[start:​hype_file_reference:​geoclass.txt|GeoClass.txt]],​ so that the number of columns varies depending on the number of SLC classes in the model set-up. +The table below describes all variables written column-wise in //yyyy_ss.txt//. Variables with a //​_nn// ​in header ​suffix are calculated for each SLC class separately, with //nn// numbers corresponding to numbers in [[start:​hype_file_reference:​geoclass.txt|GeoClass.txt]],​ so that the total number of columns varies depending on the number of SLC classes in the model set-up. ​Point source variable with a //NN// in header suffix are currently eight in total follow each other in order.
- +
-/** +
- * ____________IMPORTANT!__________IMPORTANT!________________IMPORTANT!_______________________IMPORTANT!______________ +
- * +
- * The table below is maintained ​in spreadsheed file '​file_reference_tables.xlsx'​ +
- ​* ​in the wiki back-up folder on our server. +
- * Please edit table contents there and then copy-paste the updated full table to this page. Ask René if something is  +
- * unclear. Thanks. +
- * ___________________________________________________________________________________________________________________ +
- */+
  
 <​sortable>​ <​sortable>​
 ^ Variable ID ^ Unit ^ Description ^ ^ Variable ID ^ Unit ^ Description ^
-|''​subid''​|//​-//​|Sub-basin ​ID|+|''​subid''​|//​-//​|sub-basin ​identification number|
 |''​WetAtm_nn''​|//​kg/​year//​|gross load in wet atmospheric deposition on SLC class area in the sub-basin| |''​WetAtm_nn''​|//​kg/​year//​|gross load in wet atmospheric deposition on SLC class area in the sub-basin|
 |''​DryAtm_nn''​|//​kg/​year//​|gross load in dry atmospheric deposition on SLC class area in the sub-basin| |''​DryAtm_nn''​|//​kg/​year//​|gross load in dry atmospheric deposition on SLC class area in the sub-basin|
 |''​Fertil_nn''​|//​kg/​year//​|gross load in fertilizer application on SLC class area in the sub-basin| |''​Fertil_nn''​|//​kg/​year//​|gross load in fertilizer application on SLC class area in the sub-basin|
-|''​PDecay_nn''​|//​kg/​year//​|gross load from decaying ​plant matter ​on SLC class area in the sub-basin| +|''​PDecay_nn''​|//​kg/​year//​|gross load from plant residues ​on SLC class area in the sub-basin| 
-|''​RuralA_nn''​|//​kg/​year//​|gross load from rural source fraction which is routed into lowest soil layer (see parameter //locsoil// in [[start:​hype_file_reference:​par.txt|par.txt]]),​ land SLC classes only|+|''​RuralA_nn''​|//​kg/​year//​|gross load from rural household ​source fraction which is routed into lowest soil layer (see parameter //locsoil// in [[start:​hype_file_reference:​par.txt|par.txt]]),​ land SLC classes only|
 |''​GrwSln_nn''​|//​kg/​year//​|gross load from groundwater flows into lowest soil layer (regional groundwater routine 1, see code ''​deepground''​ in [[start:​hype_file_reference:​info.txt&#​model_options|info.txt model options]], land SLC classes only)| |''​GrwSln_nn''​|//​kg/​year//​|gross load from groundwater flows into lowest soil layer (regional groundwater routine 1, see code ''​deepground''​ in [[start:​hype_file_reference:​info.txt&#​model_options|info.txt model options]], land SLC classes only)|
 |''​IrrSrc_nn''​|//​kg/​year//​|gross load in irrigation water, land SLC classes only| |''​IrrSrc_nn''​|//​kg/​year//​|gross load in irrigation water, land SLC classes only|
-|''​Runoff_nn''​|//​kg/​year//​|total load in runoff to local stream, including soil runoff, tile drainage, and surface runoff| +|''​Runoff_nn''​|//​kg/​year//​|total load in runoff to local stream, including soil runoff, tile drainage, and surface runoff, land SLC classes only
-|''​RuralB''​|//​kg/​year//​|gross load from rural source fraction which is routed into main river (see parameter //locsoil// in [[start:​hype_file_reference:​par.txt|par.txt]]), land SLC classes only| +|''​RzLay3_nn''​|//​kg/​year//​|load ​in runoff ​from root zone, including soil runoff, tile drainage, surface runoff, and percolation to layer 3, land SLC classes only| 
-|''​Urban1''​|//​kg/​year//​|gross load in point source type 1see [[start:​hype_file_reference:​pointsourcedata.txt|description in PointSourceData.txt]]+|''​RfLay3_nn''​|//​kg/​year//​|load in runoff from third soil layer to local streamincluding soil runoff and tile drainage, land SLC classes only
-|''​Urban2''​|//​kg/​year//​|gross load in point source ​type 2, see [[start:​hype_file_reference:​pointsourcedata.txt|description in PointSourceData.txt]]| +|''​RuralB''​|//​kg/​year//​|gross load from rural household ​source ​fraction which is routed into local stream (see parameter //locsoil// in [[start:​hype_file_reference:​par.txt|par.txt]])
-|''​Urban3''​|//​kg/​year//​|gross load in point source type 3, see [[start:​hype_file_reference:​pointsourcedata.txt|description in PointSourceData.txt]]|+|''​PointNN''​|//​kg/​year//​|gross load in point source type NNeight columns with NN=01-08 (see description in [[start:​hype_file_reference:​pointsourcedata.txt|PointSourceData.txt]])|
 |''​Rgrwmr''​|//​kg/​year//​|gross load from groundwater flows into main river (regional groundwater routine 2, see code ''​deepground''​ in [[start:​hype_file_reference:​info.txt&#​model_options|info.txt model options]])| |''​Rgrwmr''​|//​kg/​year//​|gross load from groundwater flows into main river (regional groundwater routine 2, see code ''​deepground''​ in [[start:​hype_file_reference:​info.txt&#​model_options|info.txt model options]])|
-|''​Rgrvol''​|//​kg/​year//​|gross load from groundwater flows into outlet lake if [[start:​hype_file_reference:​geodata.txt| GeoData.txt variable //​grwolake//​]] ​!= 0 (regional groundwater routine 1, see code ''​deepground''​ in [[start:​hype_file_reference:​info.txt&#​model_options|info.txt model options]])| +|''​Wtrans''​|//​kg/​year//​|load from water transfer (given in MgmtData) into main river| 
-|''​A''​|//​kg/​year//​|| +|''​Rgrvol''​|//​kg/​year//​|gross load from groundwater flows into outlet lake if [[start:​hype_file_reference:​geodata.txt|GeoData.txt variable //​grwolake//​]] ​0 (regional groundwater routine 1, see code ''​deepground''​ in [[start:​hype_file_reference:​info.txt&#​model_options|info.txt model options]])| 
-|''​B''​|//​kg/​year//​|| +|''​A''​|//​kg/​year//​|load to local stream from all SLC classes
-|''​C''​|//​kg/​year//​|| +|''​B''​|//​kg/​year//​|part of load to local stream from all SLC classes that bypasses the internal wetland
-|''​D''​|//​kg/​year//​|| +|''​C''​|//​kg/​year//​|part of load to local stream from all SLC classes that goes into the internal wetland
-|''​E''​|//​kg/​year//​|| +|''​D''​|//​kg/​year//​|load in fraction of load to local stream that has passed through internal wetland
-|''​F''​|//​kg/​year//​|| +|''​E''​|//​kg/​year//​|load to local stream after internal wetlands
-|''​G''​|//​kg/​year//​|| +|''​F''​|//​kg/​year//​|load in local stream after internal wetlands and from rural household source local stream fraction (''​E''​ + ''​RuralB''​)
-|''​H''​|//​kg/​year//​|| +|''​G''​|//​kg/​year//​|load in local stream (''​F''​) after including the effect of local river wetlands (defined in [[start:​hype_file_reference:​geodata.txt|GeoData.txt]],​ see also [[start:​hype_model_description:​hype_human_water&#​constructed_wetlands|wetlands in model description]])
-|''​I''​|//​kg/​year//​|| +|''​H''​|//​kg/​year//​|load after passage of local streams but before internal lakes
-|''​J''​|//​kg/​year//​|| +|''​I''​|//​kg/​year//​|load in fraction of local stream discharge that bypasses local lakes (see variable ''​icatch''​ in [[start:​hype_file_reference:​geodata.txt|GeoData.txt]]
-|''​K''​|//​kg/​year//​|| +|''​J''​|//​kg/​year//​|load in fraction of local stream discharge that passes through local lakes (see variable ''​icatch''​ in [[start:​hype_file_reference:​geodata.txt|GeoData.txt]]
-|''​L''​|//​kg/​year//​|| +|''​K''​|//​kg/​year//​|load in fraction of local stream discharge that has passed through local lakes
-|''​M''​|//​kg/​year//​|| +|''​L''​|//​kg/​year//​|net load in local stream after local lake passage (''​J''​ + ''​K''​)| 
-|''​N''​|//​kg/​year//​||+|''​MA''​|//​kg/​year//​|total load to main river, consisting of: net load of local stream, upstream load, point source loads (''​Urban1-3''​),​ water transfers (''​Wtrans''​) and groundwater load (''​Rgrwmr''​)
 +|''​M''​|//​kg/​year//​|total load to main river, consisting of: net load of local stream, upstream load, point source loads (''​Urban1-3''​),​ water transfers (''​Wtrans''​) and groundwater load (''​Rgrwmr''​),​ as well as abstractions for irrigation etc.
 +|''​N''​|//​kg/​year//​|load to main river after including the effect of main river wetlands (defined in [[start:​hype_file_reference:​geodata.txt|GeoData.txt]],​ see also [[start:​hype_model_description:​hype_human_water&#​constructed_wetlands|wetlands in model description]])| 
 +|''​O''​|//​kg/​year//​|load in main river, after river passage (river nutrient proesses)| 
 +|''​P''​|//​kg/​year//​|load in main river, after outlet wetland| 
 +|''​Q''​|//​kg/​year//​|load in main river with added inflow from lakebasins and regional ground water sources (''​Rgrwmr''​)| 
 +|''​R''​|//​kg/​year//​|net load in main river after outlet lake passage| 
 +|''​S''​|//​kg/​year//​|load in bifurcation branch (see [[start:​hype_file_reference:​branchdata.txt|BranchData.txt]])| 
 </​sortable>​ </​sortable>​
start/hype_file_reference/yyyy_ss.txt.1427473572.txt.gz · Last modified: 2023/11/16 14:28 (external edit)