123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505506507508509510511512513514515516517518519520521522523524525526527528529530531532533534535536537538539540541542543544545546547548549550551552553554555556557558559560561562563564565566567568569570571572573574575576577578579580581582583584585586587588589590591592593594595596597598599600601602603604605606607608609610611612613614615616617618619620621622623624625626627628629630631632633634635636637638639640641642643644645646647648649650651652653654655656657658659660661662663664665666667668669670671672673674675676677678679680681682683684685686687688689690691692693694695696697698699700701702703704705706707708709710711712713714715716717718719720721722723724725726727728729730731732733734735736737738739740741742743744745746747748749750751752753754755756757758759760761762763764765766767768769770771772773774775776777778779780781782783784785786787788789790791792793794795796797798799800801802803804805806807808809810811812813814815816817818819820821822823824825826827828829830831832833834835836837838839840841842843844845846847848849850851852853854855856857858859860861862863864865866867868869870871872873874875876877878879880881882883884885886887888889890891892893894895896897898899900901902903904905906907908909910911912913914915916917918919920921922923924925926927928929930931932933934935936937938939940941942943944945946947948949950951952953954955956957958959960961962963964965966967968969970971972973974975976977978979980981982983984985986987988989990991992993994995996997998999100010011002100310041005100610071008100910101011101210131014101510161017101810191020102110221023102410251026102710281029103010311032103310341035103610371038103910401041104210431044104510461047104810491050105110521053105410551056105710581059106010611062106310641065106610671068106910701071107210731074107510761077107810791080108110821083108410851086108710881089109010911092109310941095109610971098109911001101110211031104110511061107110811091110111111121113111411151116111711181119112011211122112311241125112611271128112911301131113211331134113511361137113811391140114111421143114411451146114711481149115011511152115311541155115611571158115911601161116211631164116511661167116811691170117111721173117411751176117711781179118011811182118311841185118611871188118911901191119211931194119511961197119811991200120112021203120412051206120712081209121012111212121312141215121612171218121912201221122212231224122512261227122812291230123112321233123412351236123712381239124012411242124312441245124612471248124912501251125212531254125512561257125812591260126112621263126412651266126712681269127012711272127312741275127612771278127912801281128212831284128512861287128812891290129112921293129412951296129712981299130013011302130313041305130613071308130913101311131213131314131513161317131813191320132113221323132413251326132713281329133013311332133313341335133613371338133913401341134213431344134513461347134813491350135113521353135413551356135713581359136013611362136313641365136613671368136913701371137213731374137513761377137813791380138113821383138413851386138713881389139013911392139313941395139613971398139914001401140214031404140514061407140814091410141114121413141414151416141714181419142014211422142314241425142614271428142914301431143214331434143514361437143814391440144114421443144414451446144714481449145014511452145314541455145614571458145914601461146214631464146514661467146814691470147114721473147414751476147714781479148014811482148314841485148614871488148914901491149214931494149514961497149814991500150115021503150415051506150715081509151015111512151315141515151615171518151915201521152215231524152515261527152815291530153115321533153415351536153715381539154015411542154315441545154615471548154915501551155215531554155515561557155815591560156115621563156415651566156715681569157015711572157315741575157615771578157915801581158215831584158515861587158815891590159115921593159415951596159715981599160016011602160316041605160616071608160916101611161216131614161516161617161816191620162116221623162416251626162716281629163016311632163316341635163616371638163916401641164216431644164516461647164816491650165116521653165416551656165716581659166016611662166316641665166616671668166916701671167216731674167516761677167816791680168116821683168416851686168716881689169016911692169316941695169616971698169917001701170217031704170517061707170817091710171117121713171417151716171717181719172017211722172317241725172617271728172917301731173217331734173517361737173817391740174117421743174417451746174717481749175017511752175317541755175617571758175917601761176217631764176517661767176817691770177117721773177417751776177717781779178017811782178317841785178617871788178917901791179217931794179517961797179817991800180118021803180418051806180718081809181018111812181318141815181618171818181918201821182218231824182518261827182818291830183118321833183418351836183718381839184018411842184318441845184618471848184918501851185218531854185518561857185818591860186118621863186418651866186718681869187018711872187318741875187618771878187918801881188218831884188518861887188818891890189118921893189418951896189718981899190019011902190319041905190619071908190919101911191219131914191519161917191819191920192119221923192419251926192719281929193019311932193319341935193619371938193919401941194219431944194519461947194819491950195119521953195419551956195719581959196019611962196319641965196619671968196919701971197219731974197519761977197819791980198119821983198419851986198719881989199019911992199319941995199619971998199920002001200220032004200520062007200820092010201120122013201420152016201720182019202020212022202320242025202620272028202920302031203220332034203520362037203820392040204120422043204420452046204720482049205020512052205320542055205620572058205920602061206220632064206520662067206820692070207120722073207420752076207720782079208020812082208320842085208620872088208920902091209220932094209520962097209820992100210121022103210421052106210721082109211021112112211321142115211621172118211921202121212221232124212521262127212821292130213121322133213421352136213721382139214021412142214321442145214621472148214921502151215221532154215521562157215821592160216121622163216421652166216721682169217021712172217321742175217621772178217921802181218221832184218521862187218821892190219121922193219421952196219721982199220022012202220322042205220622072208220922102211221222132214221522162217221822192220222122222223222422252226222722282229223022312232223322342235223622372238223922402241224222432244224522462247224822492250225122522253225422552256225722582259226022612262226322642265226622672268226922702271227222732274227522762277227822792280228122822283228422852286228722882289229022912292229322942295229622972298229923002301230223032304230523062307230823092310231123122313231423152316231723182319232023212322232323242325232623272328232923302331233223332334233523362337233823392340234123422343234423452346234723482349235023512352235323542355235623572358235923602361236223632364236523662367236823692370237123722373237423752376237723782379238023812382238323842385238623872388238923902391239223932394239523962397239823992400240124022403240424052406240724082409241024112412241324142415241624172418241924202421242224232424242524262427242824292430243124322433243424352436243724382439244024412442244324442445244624472448244924502451245224532454245524562457245824592460246124622463246424652466246724682469247024712472247324742475247624772478247924802481248224832484248524862487248824892490249124922493249424952496249724982499250025012502250325042505250625072508250925102511251225132514251525162517251825192520252125222523252425252526252725282529253025312532253325342535253625372538253925402541254225432544254525462547254825492550255125522553255425552556255725582559256025612562256325642565256625672568256925702571257225732574257525762577257825792580258125822583258425852586258725882589259025912592259325942595259625972598259926002601260226032604260526062607260826092610261126122613261426152616261726182619262026212622262326242625262626272628262926302631263226332634263526362637263826392640264126422643264426452646264726482649265026512652265326542655265626572658265926602661266226632664266526662667266826692670267126722673267426752676267726782679268026812682268326842685268626872688268926902691269226932694269526962697269826992700270127022703270427052706270727082709271027112712271327142715271627172718271927202721272227232724272527262727272827292730273127322733273427352736273727382739274027412742274327442745274627472748274927502751275227532754275527562757275827592760276127622763276427652766276727682769277027712772277327742775277627772778277927802781278227832784278527862787278827892790279127922793279427952796279727982799280028012802280328042805280628072808280928102811281228132814281528162817281828192820282128222823282428252826282728282829283028312832283328342835283628372838283928402841284228432844284528462847284828492850285128522853285428552856285728582859286028612862286328642865286628672868286928702871287228732874287528762877287828792880288128822883288428852886288728882889289028912892289328942895289628972898289929002901290229032904290529062907290829092910291129122913291429152916291729182919292029212922292329242925292629272928292929302931293229332934293529362937293829392940294129422943294429452946294729482949295029512952295329542955295629572958295929602961296229632964296529662967296829692970297129722973297429752976297729782979298029812982298329842985298629872988298929902991299229932994299529962997299829993000300130023003300430053006300730083009301030113012301330143015301630173018301930203021302230233024302530263027302830293030303130323033303430353036303730383039304030413042304330443045304630473048304930503051305230533054305530563057305830593060306130623063306430653066306730683069307030713072307330743075307630773078307930803081308230833084308530863087308830893090309130923093309430953096309730983099 |
- ///////////////////////////////////////////////////////////////////////////////////////
- /// \file framework.cpp
- /// \brief Implementation of the framework() function
- ///
- /// \author Ben Smith
- /// $Date: 2014-05-14 12:43:55 +0200 (Wed, 14 May 2014) $
- ///
- ///////////////////////////////////////////////////////////////////////////////////////
- #include "config.h"
- #include "framework.h"
- #include "commandlinearguments.h"
- #include "guessserializer.h"
- #include "parallel.h"
- #include "inputmodule.h"
- #include "driver.h"
- #include "canexch.h"
- #include "soilwater.h"
- #include "somdynam.h"
- #include "growth.h"
- #include "vegdynam.h"
- #include "landcover.h"
- #include "bvoc.h"
- #include "commonoutput.h"
- // ecev3 - not in trunk. Savestate functions copied from RCA branch
- #include "savestate.h"
- #include "eceframework.h"
- #include <string.h>
- #include <sstream>
- #include <netcdf.h>
- using namespace std;
- using namespace GuessParallel;
- #include <memory>
- // Declaration only. Definition below.
- //void updatehighcoverage(Stand& stand);
- //CLNvoid computeLAIforIFS(Gridcell& gridcell);
- void computeIFSVegetationCover(Gridcell& gridcell);
- void computeDailyLAIandFPCforIFS(Gridcell& gridcell);
- /// Prints the date and time together with the name of this simulation
- void print_logfile_heading() {
- xtring datetime;
- unixtime(datetime);
- xtring header = xtring("[LPJ-GUESS ") + datetime + "]\n\n";
- dprintf((char*)header);
- // Print the title of this run
- std::string dashed_line(50, '-');
- dprintf("\n\n%s\n%s\n%s\n",
- dashed_line.c_str(), (char*)title, dashed_line.c_str());
- }
- // ecev3
- void compute_gridcell_previous_cflux(Gridcell& gridcell) {
- // Compute previous years yearly C fluxes for gridcell
- // before stand fractions change due to landuse change
- if (date.day > 0)
- return;
- gridcell.previousyearsCfluxNat = 0.0;
- gridcell.previousyearsCfluxAnt = 0.0;
- Gridcell::iterator gc_itr = gridcell.begin();
- while (gc_itr != gridcell.end()) {
- // START OF LOOP THROUGH STANDS
- Stand& stand = *gc_itr;
- gridcell.previousyearsCfluxNat += stand.previousyearsCfluxNat * stand.get_gridcell_fraction();
- gridcell.previousyearsCfluxAnt += stand.previousyearsCfluxAnt * stand.get_gridcell_fraction();
-
- ++gc_itr;
- } // End of loop through stands
- gridcell.cLand = gridcell.ccont() + gridcell.previousyearsCfluxNat + gridcell.previousyearsCfluxAnt;
- gridcell.cFlux = 0.0;
- }
- // ecev3
- void compute_gridcell_cflux(Gridcell& gridcell) {
- // Compute daily fluxes released to the atmosphere where previous years
- // yearly fluxes (Dec 31 fluxes) and annual fluxes created on Jan 1
- // have been spread out over this year
- // Gridcell-level C flux from harvest and harvest decomposition associated with landcover change. Updated only on Jan 1
- if (date.day == 0) {
- gridcell.previousyearsCfluxAnt += gridcell.landcover.dcflux_landuse_change + gridcell.landcover.dcflux_harvest_slow;
- }
- Gridcell::iterator gc_itr = gridcell.begin();
- while (gc_itr != gridcell.end()) {
- // START OF LOOP THROUGH STANDS
- Stand& stand = *gc_itr;
- double npp = 0.0;
- double rh = 0.0;
- for (unsigned int p = 0; p < stand.npatch(); p++) {
- Patch& patch = stand[p];
- // Individual C fluxes. All kg C/m2
- npp += patch.fluxes.get_daily_flux(Fluxes::NPP, date.day);
- rh += patch.fluxes.get_daily_flux(Fluxes::SOILC, date.day);
- patch.fluxes.report_flux(Fluxes::CO2NAT, patch.fluxes.get_daily_flux(Fluxes::SOILC, date.day) -
- patch.fluxes.get_daily_flux(Fluxes::NPP, date.day) +
- gridcell.previousyearsCfluxNat / (double)date.year_length());
- patch.fluxes.report_flux(Fluxes::CO2ANTT, gridcell.previousyearsCfluxAnt / (double)date.year_length());
- }
- stand.dcfluxnat_today = (rh / (float)stand.npatch() + gridcell.previousyearsCfluxNat / (double)date.year_length());
- stand.dcfluxant_today = gridcell.previousyearsCfluxAnt / (double)date.year_length();
- stand.dnpp_today = -npp / (float)stand.npatch();
- gridcell.cFlux += ((rh - npp) / (float)stand.npatch() + (gridcell.previousyearsCfluxNat + gridcell.previousyearsCfluxAnt) / (double)date.year_length()) * stand.get_gridcell_fraction();
- // On Dec 31 we must update this stand's previousyearsCflux{Nat,Ant} values to be spread over next year
- if (date.islastday && date.islastmonth) {
- // Reset yearly fluxes
- stand.previousyearsCfluxNat = 0.0;
- stand.previousyearsCfluxAnt = 0.0;
- double estc, firec, reprc, seedc, harvestc, debexcc, orgcleach;
- for (unsigned int p = 0; p < stand.npatch(); p++) {
- Patch& patch = stand[p];
- // Individual C fluxes. All kg C m-2 and all updated on Dec 31
- reprc = patch.fluxes.get_annual_flux(Fluxes::REPRC);
- firec = patch.fluxes.get_annual_flux(Fluxes::FIREC);
- estc = patch.fluxes.get_annual_flux(Fluxes::ESTC);
- seedc = patch.fluxes.get_annual_flux(Fluxes::SEEDC);
- harvestc = patch.fluxes.get_annual_flux(Fluxes::HARVESTC);
- debexcc = patch.fluxes.get_annual_flux(Fluxes::DEBEXCC);
- orgcleach = patch.fluxes.get_annual_flux(Fluxes::LEACHC);
- stand.previousyearsCfluxNat += (estc + firec + reprc + orgcleach - debexcc) / (double)stand.npatch();
- stand.previousyearsCfluxAnt += (seedc + harvestc) / (double)stand.npatch();
- //gridcell.cFlux += patch.soil.aorgCleach / (double)stand.npatch() * stand.get_gridcell_fraction();
- //patch.fluxes.report_flux(Fluxes::CO2NAT, patch.soil.aorgCleach); // Add to get the same result as cFlux_yearly (gridcell.cFlux)
- }
- }
- ++gc_itr;
- } // End of loop through stands
- }
- // ecev3 NOTE:
- // We keep the trunk versions of simulate_day and framework. This makes it easier to svn MERGE.
- /// Simulate one day for a given Gridcell
- /**
- * The climate object in the gridcell needs to be set up with
- * the day's forcing data before calling this function.
- *
- * \param gridcell The gridcell to simulate
- * \param input_module Used to get land cover fractions
- */
- void simulate_day(Gridcell& gridcell, InputModule* input_module) { // ecev3 - TRUNK VERSION
- // Update daily climate drivers etc
- dailyaccounting_gridcell(gridcell, false); // ecev3 - added "false" to compile
- // Calculate daylength, insolation and potential evapotranspiration
- daylengthinsoleet(gridcell.climate);
- if (run_landcover) {
- if (run[CROPLAND]) {
- // Update crop sowing date calculation framework
- crop_sowing_gridcell(gridcell, false); // ecev3 - added false as firstsimulationday
- }
- if (date.day == 0) {
- // Update dynamic management options
- input_module->getmanagement(gridcell);
- // Dynamic landcover and crop fraction data during historical
- // period and create/kill stands.
- landcover_dynamics(gridcell, input_module);
- // Set forest management intensity for all stands this year
- cut_fractions(gridcell);
- }
- }
- Gridcell::iterator gc_itr = gridcell.begin();
- while (gc_itr != gridcell.end()) {
- // START OF LOOP THROUGH STANDS
- Stand& stand = *gc_itr;
- dailyaccounting_stand(stand);
- stand.firstobj();
- while (stand.isobj) {
- // START OF LOOP THROUGH PATCHES
- // Get reference to this patch
- Patch& patch = stand.getobj();
- // Update daily soil drivers including soil temperature
- dailyaccounting_patch(patch,false); // ecev3 - to get this to compile
- // Determine nitrogen fertilisation amount
- if(run_landcover)
- nfert(patch);
- if (stand.landcover == CROPLAND) {
- // Calculate crop sowing dates
- crop_sowing_patch(patch);
- // Crop phenology
- crop_phenology(patch);
- // necessary updates after changing growingperiod status
- update_patch_fpc(patch);
- }
- // Leaf phenology for PFTs and individuals
- leaf_phenology(patch, gridcell.climate);
- // Interception
- interception(patch, gridcell.climate);
- initial_infiltration(patch, gridcell.climate);
- // Photosynthesis, respiration, evapotranspiration
- canopy_exchange(patch, gridcell.climate);
- // Sum total required irrigation
- irrigation(patch);
- // Soil water accounting, snow pack accounting
- soilwater(patch, gridcell.climate);
- // Daily C allocation (cropland)
- growth_daily(patch);
- // Soil organic matter and litter dynamics
- som_dynamics(patch);
- if (date.islastday && date.islastmonth) {
- // LAST DAY OF YEAR
- // Tissue turnover, allocation to new biomass and reproduction,
- // updated allometry
- growth(stand, patch);
- }
- stand.nextobj();
- }// End of loop through patches
- // Update crop rotation status
- crop_rotation(stand);
- if (date.islastday && date.islastmonth) {
- // LAST DAY OF YEAR
- stand.firstobj();
- while (stand.isobj) {
- // For each patch ...
- Patch& patch = stand.getobj();
- // Establishment, mortality and disturbance by fire
- vegetation_dynamics(stand, patch);
- stand.nextobj();
- }
- }
- ++gc_itr;
- } // End of loop through stands
- }
- int framework(const CommandLineArguments& args) {
- // The 'mission control' of the model, responsible for maintaining the
- // primary model data structures and containing all explicit loops through
- // space (grid cells/stands) and time (days and years).
- using std::auto_ptr;
- const char* input_module_name = args.get_input_module();
- auto_ptr<InputModule> input_module(InputModuleRegistry::get_instance().create_input_module(input_module_name));
- GuessOutput::OutputModuleContainer output_modules;
- GuessOutput::OutputModuleRegistry::get_instance().create_all_modules(output_modules);
- // Read the instruction file to obtain PFT static parameters and
- // simulation settings
- read_instruction_file(args.get_instruction_file());
- print_logfile_heading();
- // Initialise input/output
- input_module->init();
- output_modules.init();
- // Nitrogen limitation
- if (ifnlim && !ifcentury) {
- fail("\n\nIf nitrogen limitation is switched on then century soil module also needs to be switched on!");
- }
- // bvoc
- if (ifbvoc) {
- initbvoc();
- }
- // Create objects for (de)serializing grid cells
- auto_ptr<GuessSerializer> serializer;
- auto_ptr<GuessDeserializer> deserializer;
- if (save_state) {
- serializer = auto_ptr<GuessSerializer>(new GuessSerializer(state_path, GuessParallel::get_rank_specific(localcomm), GuessParallel::get_num_processes()));
- }
- if (restart) {
- deserializer = auto_ptr<GuessDeserializer>(new GuessDeserializer(state_path));
- }
- while (true) {
- // START OF LOOP THROUGH GRID CELLS
- // Initialise global variable date
- // (argument nyear not used in this implementation)
- date.init(1);
- // Create and initialise a new Gridcell object for each locality
- Gridcell gridcell;
- // Call input module to obtain latitude and driver data for this grid cell.
- if (!input_module->getgridcell(gridcell)) {
- break;
- }
- // Initialise certain climate and soil drivers
- gridcell.climate.initdrivers(gridcell.get_lat());
- if (run_landcover && !restart) {
- // Read landcover and cft fraction data from
- // data files for the spinup period and create stands
- landcover_init(gridcell, input_module.get());
- }
- if (restart) {
- // Get the whole grid cell from file...
- deserializer->deserialize_gridcell(gridcell);
- // ...and jump to the restart year
- date.year = state_year;
- }
- // Call input/output to obtain climate, insolation and CO2 for this
- // day of the simulation. Function getclimate returns false if last year
- // has already been simulated for this grid cell
- while (input_module->getclimate(gridcell)) {
- // START OF LOOP THROUGH SIMULATION DAYS
- compute_gridcell_previous_cflux(gridcell);
- simulate_day(gridcell, input_module.get());
- // Compute daily fluxes released to the atmosphere where previous years
- // yearly fluxes (Dec 31 fluxes) and annual fluxes created on Jan 1
- // have been spread out over this year
- compute_gridcell_cflux(gridcell);
- output_modules.outdaily(gridcell);
- if (date.islastday && date.islastmonth) {
- // LAST DAY OF YEAR
- // Call output module to output results for end of year
- // or end of simulation for this grid cell
- output_modules.outannual(gridcell);
- gridcell.balance.check_year(gridcell);
- // Time to save state?
- if (date.year == state_year-1 && save_state) {
- serializer->serialize_gridcell(gridcell);
- }
- // Check whether to abort
- if (abort_request_received()) {
- return 99;
- }
- }
- // Advance timer to next simulation day
- date.next();
- // End of loop through simulation days
- } //while (getclimate())
- gridcell.balance.check_period(gridcell);
- } // End of loop through grid cells
- // END OF SIMULATION
- return 0;
- }
- ///////////////////////////////////////////////////////////////////////////////////////
- ///////////////////////////////////////////////////////////////////////////////////////
- // EC-Earth Coupling Code - THE GUESS WORLD
- ///////////////////////////////////////////////////////////////////////////////////////
- ///////////////////////////////////////////////////////////////////////////////////////
- // The one and only world (vector of gridcells, one forest and one vegetated open land stand
- // for each grid cell)
- typedef std::vector<Gridcell*> World;
- World world;
- // Initialisation flag (whether GUESS has been initialised yet true/false)
- bool ifinit=false;
- int inst=0;
- /// Number of years in the IFS output, spinup dataset
- const int NYEARIFS = 10;
- /// Number of years in the N deposition output, historical dataset (1850-01 - 2014-12)
- const int NYEARNDEP = 165;
- // ECE Parameters to be read from .ins file:
- /// atmospheric nitrogen deposition (kgN/yr/ha)
- double ndep;
- // Determine RCP from guess.ins
- double rcpforcing;
- // Use IFS/H-TESSEl soil temp & moisture (true) or not (false)
- //CLNbool ifssoilproperties;
- bool useifssoilmoist;
- bool useifssoiltemp;
- xtring statefile;
- // ecev3 - pointers
- using std::auto_ptr;
- // Objects for serializing and deserializing Gridcells
- static std::auto_ptr<GuessSerializer> serializer_ece;
- static std::auto_ptr<GuessDeserializer> deserializer_ece;
- // For output
- GuessOutput::OutputModuleContainer* output_modules_ece;
- // For input
- // Will give access to LULCC, crop types and management options for each cell.
- InputModule* input_module_ece;
- void initlog(int inst) {
- printf("Attempting to open log file for instance number %d\n",inst);
- const char* file_log_prefix = "guess";
- xtring filename;
- filename.printf("%s%d.log", file_log_prefix, inst);
- set_shell(new CommandLineShell((char*)filename));
- }
- // EC-Earth VERSION of simulate_day.
- /// Simulate one day for a given Gridcell
- /**
- * The climate object in the gridcell needs to be set up with
- * the day's forcing data before calling this function.
- *
- * \param gridcell The gridcell to simulate
- * \param prescribe_ifs_soilmoist New ecev3 option. Use IFS soil moisture if true,
- * but standard LPJ-GUESS parameterisations if false
- * \param prescribe_ifs_soiltemp New ecev3 option. Use IFS soil temperature if true,
- * but standard LPJ-GUESS parameterisations if false
- * \param firstsimulationday New ecev3 option sent to dailyaccounting_gridcell
- *
- * \param printoutput New ecev3 option. Update outputfiles if true. Set false at start of spinup
- *
- */
- void simulate_day_ece(Gridcell& gridcell, bool prescribe_ifs_soilmoist, bool prescribe_ifs_soiltemp,
- bool firstsimulationday, bool printoutput) {
- // Compute previous years yearly C fluxes for gridcell
- // before stand fractions change due to landuse change
- compute_gridcell_previous_cflux(gridcell);
- // Update daily climate drivers etc
- dailyaccounting_gridcell(gridcell, firstsimulationday);
- // Calculate daylength, insolation and potential evapotranspiration
- daylengthinsoleet(gridcell.climate);
- if (run_landcover) {
- if (run[CROPLAND]) {
- // Update crop sowing date calculation framework
- crop_sowing_gridcell(gridcell, firstsimulationday);
- }
- if (date.day == 0) {
- // Dynamic landcover and crop fraction data during historical
- // period and create/kill stands.
- landcover_dynamics(gridcell, input_module_ece);
- // Update dynamic management options
- input_module_ece->getmanagement(gridcell);
- }
- }
- Gridcell::iterator gc_itr = gridcell.begin();
- while (gc_itr != gridcell.end()) {
- // START OF LOOP THROUGH STANDS
- Stand& stand = *gc_itr;
- dailyaccounting_stand(stand);
- stand.firstobj();
- while (stand.isobj) {
- // START OF LOOP THROUGH PATCHES
- // Get reference to this patch
- Patch& patch = stand.getobj();
- // Update daily soil drivers including soil temperature
- dailyaccounting_patch(patch,prescribe_ifs_soiltemp); // ecev3 - override soil.temp?
- // Determine nitrogen fertilisation amount
- if (run_landcover)
- nfert(patch);
- if (stand.landcover == CROPLAND) {
- // Calculate crop sowing dates
- crop_sowing_patch(patch);
- // Crop phenology
- crop_phenology(patch);
- // necessary updates after changing growingperiod status
- update_patch_fpc(patch);
- }
- // Leaf phenology for PFTs and individuals
- leaf_phenology(patch, gridcell.climate);
- // Interception
- interception(patch, gridcell.climate);
- initial_infiltration(patch, gridcell.climate);
- // Photosynthesis, respiration, evapotranspiration
- canopy_exchange(patch, gridcell.climate);
- // Sum total required irrigation
- irrigation(patch);
- // Soil water accounting, snow pack accounting
- if (prescribe_ifs_soilmoist) {
- // Update wcont[0], wcont[0] and wcont_evap with IFS values
- patch.soil.wcont[0] = gridcell.climate.ifsw_surf;
- patch.soil.wcont[1] = gridcell.climate.ifsw_deep;
- patch.soil.wcont_evap = gridcell.climate.ifsw_surf;
- // MUST call soil water, otherwise aaet and dperc are not updated.
- // These are needed for N limitation etc.
- soilwater(patch, gridcell.climate);
- // Update daily soil water in both layers
- // Done in dailyaccounting_patch, but here we override with IFS values before
- // these values are used in the fire module.
- patch.soil.wcont[0] = gridcell.climate.ifsw_surf;
- patch.soil.wcont[1] = gridcell.climate.ifsw_deep;
- patch.soil.dwcontupper[date.day] = patch.soil.wcont[0];
- patch.soil.dwcontlower[date.day] = patch.soil.wcont[1];
- patch.soil.dwcontlower_today = patch.soil.wcont[1];
- }
- else {
- soilwater(patch, gridcell.climate);
- }
- // Daily C allocation (cropland)
- growth_daily(patch);
- // Soil organic matter and litter dynamics
- som_dynamics(patch);
- if (date.islastday && date.islastmonth) {
- // LAST DAY OF YEAR
- // Tissue turnover, allocation to new biomass and reproduction,
- // updated allometry
- growth(stand, patch);
- }
- stand.nextobj();
- } // End of loop through patches
- // Update crop rotation status
- crop_rotation(stand);
- if (date.islastday && date.islastmonth) {
- // LAST DAY OF YEAR
- stand.firstobj();
- while (stand.isobj) {
- // For each patch ...
- Patch& patch = stand.getobj();
- // Establishment, mortality and disturbance by fire
- vegetation_dynamics(stand, patch);
- stand.nextobj();
- }
- }
- // gridcell.nextobj();
- ++gc_itr;
- } // End of loop through stands
- // TODO check if outdaily should be after compute_gridcell_cflux() as in the standalone framework
- // Compute daily fluxes released to the atmosphere where previous years
- // yearly fluxes (Dec 31 fluxes) and annual fluxes created on Jan 1
- // have been spread out over this year
- compute_gridcell_cflux(gridcell);
- // ecev3 - not needed yet
- if (printoutput)
- (*output_modules_ece).outdaily(gridcell);
- if (date.islastday && date.islastmonth) {
- // LAST DAY OF YEAR
- // ecev3 - update the simulation year for this gridcell
- gridcell.simulationyear++;
- // Call output module to output results for end of year
- // or end of simulation for this grid cell
- if (printoutput) {
- (*output_modules_ece).outannual(gridcell);
- // ecev3 - compute vegetation type and cover fractions for this grid cell
- // outannual must be called first!
- computeIFSVegetationCover(gridcell);
- }
- // for debugging:
- // dprintf("Stands: %4d... \n", gridcell.nbr_stands());
- } // last day?
- }
- ///////////////////////////////////////////////////////////////////////////////////////
- // INITGUESS
- // Called at start of run to read settings from ins file
- // For now ins file name is prescribed in the function body
- void initguess(int myrank) {
-
- // Hard-wired ins file name
- xtring insfilename="guess.ins";
-
- // Get instance id
- inst = myrank;
- // Open log file
- initlog(inst);
- // Retrieve specified N value as read from ins file
- ndep=param["ndep"].num;
- // Determine RCP to follow
- rcpforcing=param["nrcp"].num;
- // Use IFS soil moisture and temp (1), or not (0)
- useifssoilmoist=true;
- if (param["useifssoilmoist"].num == 0.0)
- useifssoilmoist=false;
- useifssoiltemp=true;
- if (param["useifssoiltemp"].num == 0.0)
- useifssoiltemp=false;
- // State file params
- restart=true;
- if (param["restart"].num == 0.0)
- restart=false;
- state_path=param["state_path"].str;
- state_name=param["state_name"].str;
- // Nitrogen limitation
- if (ifnlim && !ifcentury) {
- fail("\n\nIf nitrogen limitation is switched on then century soil module also needs to be switched on!");
- }
- // ecev3 - CMIP6
- if (!printcmip6 && printcmip6daily) {
- fail("\n\nOnly print daily CMIP6 output when printcmip6 is true too!");
- }
- // ecev3 - CRESCENDO
- if (!printcrescendo && printcrescendodaily) {
- fail("\n\nOnly print daily CRESCENDO output when printcrescendo is true too!");
- }
- // ecev3 - CRESCENDO FACE
- bool printCRESCENDO_FACE = false;
- #ifdef CRESCENDO_FACE
- printCRESCENDO_FACE = true;
- #endif
- if (printcrescendofacedaily && !printCRESCENDO_FACE) {
- fail("\n\nOnly print daily CRESCENDO FACE output when CRESCENDO_FACE is defined!");
- }
- if (!printcrescendofacedaily && printCRESCENDO_FACE) {
- fail("\n\nOnly define CRESCENDO_FACE if daily CRESCENDO FACE outputs are to be printed!");
- }
- // bvoc
- if (ifbvoc) {
- initbvoc();
- }
- // Done it!
- ifinit=true;
- }
- // ecev3
- void swConvert(Soiltype& stype,double &sw_surf,double &sw_deep) {
- if (sw_surf < stype.wilt_point)
- sw_surf = 0.0;
- else if (sw_surf > stype.field_cap)
- sw_surf = 1.0;
- else
- sw_surf = (sw_surf - stype.wilt_point) / stype.whcap;
- if (sw_deep < stype.wilt_point)
- sw_deep = 0.0;
- else if (sw_deep > stype.field_cap)
- sw_deep = 1.0;
- else
- sw_deep = (sw_deep - stype.wilt_point) / stype.whcap;
- }
- // ecev3
- /*
- Called daily to update gridcell.laiphen_high_today and gridcell.laiphen_high_today
- computeIFSVegetationCover below updates these Gridcell values on Dec 31:
- gridcell.IFStypehigh
- gridcell.IFSfrachigh
- gridcell.IFStypelow
- gridcell.IFSfraclow
- gridcell.transferhightolow - use total LAI today if this is true
- These values are serialized, so they are available after a restart
- */
- void computeDailyLAIandFPCforIFS(Gridcell& gridcell) {
- const double MAX_DAILY_LAI = 10; // Max daily LAI - enforced at the end of this routine. Was 15.
- double ABSCUTOFF_FPC = 0.000; // Set to 0 to ensure we send nonzero values no matter how small. Was 0.005.
- double lai_tree_daily = 0.0;
- double lai_grass_daily = 0.0;
- double lai_crop_daily = 0.0;
- double lai_pasture_daily = 0.0;
- double lai_urban_daily = 0.0;
- double lai_peat_daily = 0.0;
- double fpc_tree_daily = 0.0;
- double fpc_grass_daily = 0.0;
- double fpc_crop_daily = 0.0;
- double fpc_pasture_daily = 0.0;
- double fpc_urban_daily = 0.0;
- double fpc_peat_daily = 0.0;
- // As updated in outannual
- double natural_frac = gridcell.landcover.frac[NATURAL];
- double cropland_frac = gridcell.landcover.frac[CROPLAND];
- double pasture_frac = gridcell.landcover.frac[PASTURE];
- double urban_frac = gridcell.landcover.frac[URBAN];
- double peatland_frac = gridcell.landcover.frac[PEATLAND];
- // Sum LAI and FPC across patches and PFTs
- Gridcell::iterator gc_itr = gridcell.begin();
- // Loop through Stands
- gc_itr = gridcell.begin();
- while (gc_itr != gridcell.end()) {
- Stand& stand = *gc_itr;
- stand.firstobj();
- double to_gridcell_average = stand.get_gridcell_fraction() / (double)stand.npatch();
- if (stand.landcover == NATURAL) { // Only look in NATURAL stands!
- // Loop through Patches for trees first
- while (stand.isobj) {
- Patch& patch = stand.getobj();
- // Loop through Individuals
- Vegetation& vegetation = patch.vegetation;
- // Tree and grass fpc for this patch
- double fpc_tree_patch = 0.0;
- double fpc_grass_patch = 0.0;
- vegetation.firstobj();
- while (vegetation.isobj) {
- Individual& indiv = vegetation.getobj();
- if (indiv.id != -1 && indiv.alive) {
- double current_fpc = indiv.crownarea * indiv.densindiv * (1.0 - lambertbeer(indiv.lai_indiv_today()));
- if (indiv.pft.lifeform == TREE) {
- lai_tree_daily += indiv.lai_today() * to_gridcell_average;
- fpc_tree_patch += current_fpc * to_gridcell_average;
- }
- else {
- lai_grass_daily += indiv.lai_today() * to_gridcell_average;
- fpc_grass_patch += current_fpc * to_gridcell_average;
- }
- } // alive && id != -1?
- vegetation.nextobj();
- } // while/vegetation loop for trees
- // Tree FPC shouldn't be larger than total patch area
- if (fpc_tree_patch > to_gridcell_average)
- fpc_tree_patch = to_gridcell_average;
- // Tree and grass FPC shouldn't be larger than total patch area (trees shade grass)
- if (fpc_tree_patch + fpc_grass_patch > to_gridcell_average)
- fpc_grass_patch = to_gridcell_average - fpc_tree_patch;
- fpc_tree_daily += fpc_tree_patch;
- fpc_grass_daily += fpc_grass_patch;
- stand.nextobj();
- } // patch loop
- }
- else if (stand.landcover == PASTURE || stand.landcover == URBAN || stand.landcover == PEATLAND) {
- // Look in pasture, peatland and urban stands for C3/C4
- // Loop through Patches
- while (stand.isobj) {
- Patch& patch = stand.getobj();
-
- // Loop through Individuals
- Vegetation& vegetation = patch.vegetation;
- vegetation.firstobj();
- while (vegetation.isobj) {
- Individual& indiv = vegetation.getobj();
- if (indiv.id != -1 && indiv.alive) {
- if (indiv.pft.lifeform == GRASS) {
- double current_fpc_daily = 1.0 - lambertbeer(indiv.lai_indiv_today());
- if (stand.landcover == PASTURE) {
- lai_pasture_daily += indiv.lai_today() * to_gridcell_average;
- fpc_pasture_daily += current_fpc_daily * to_gridcell_average;
- }
- else if (stand.landcover == URBAN) {
- lai_urban_daily += indiv.lai_today() * to_gridcell_average;
- fpc_urban_daily += current_fpc_daily * to_gridcell_average;
- }
- else {
- lai_peat_daily += indiv.lai_today() * to_gridcell_average;
- fpc_peat_daily += current_fpc_daily * to_gridcell_average;
- }
- } // GRASS?
- else {
- // Error!
- bool err = true;
- }
- } // alive && id != -1?
- vegetation.nextobj();
- } // while/vegetation loop
- stand.nextobj();
- } // patch loop
- }
- else if (stand.landcover == CROPLAND) {
-
- // Look in cropland to find irrigated and none irrigated / C3 or C4 crops
- // Loop through Patches
- while (stand.isobj) {
- Patch& patch = stand.getobj();
- // Loop through Individuals
- Vegetation& vegetation = patch.vegetation;
-
- vegetation.firstobj();
- while (vegetation.isobj) {
- Individual& indiv = vegetation.getobj();
- // Calculating real FCP as indiv.fpc for crops are always 1.0!
- double current_fpc_daily = 1.0 - lambertbeer(indiv.lai_indiv_today());
- lai_crop_daily += indiv.lai_today() * to_gridcell_average;
- fpc_crop_daily += current_fpc_daily * to_gridcell_average;
- vegetation.nextobj();
- } // while/vegetation loop
- stand.nextobj();
- } // patch loop
- }
- ++gc_itr;
- } // stand loop
- // Rescale if FPC > Land cover fraction
- // If Natural tree bigger than cover fracton -> tree cover all fraction, grass zero
- if (fpc_tree_daily > natural_frac) {
- fpc_tree_daily = natural_frac;
- fpc_grass_daily = 0.0;
- }
- double fpc_natural_daily = fpc_grass_daily + fpc_tree_daily;
- if (fpc_natural_daily > natural_frac) {
- fpc_grass_daily = natural_frac - fpc_tree_daily; // Trees covers low vegetation
- }
- // Pasture
- if (fpc_pasture_daily > pasture_frac) {
- fpc_pasture_daily = pasture_frac;
- }
- // Urban
- if (fpc_urban_daily > urban_frac) {
- fpc_urban_daily = urban_frac;
- }
- // Peatland
- if (fpc_peat_daily > peatland_frac) {
- fpc_peat_daily = peatland_frac;
- }
- // Cropland
- if (fpc_crop_daily > cropland_frac) {
- fpc_crop_daily = cropland_frac;
- }
- double fpc_grass_total_daily = fpc_grass_daily + fpc_crop_daily + fpc_pasture_daily + fpc_urban_daily + fpc_peat_daily;
- // Lower limit - Low
- if (fpc_grass_total_daily < ABSCUTOFF_FPC) {
- fpc_grass_total_daily = 0.0; // Impose lower limit of 0.5%, 0 otherwise
- }
- // Lower limit - High
- if (fpc_tree_daily < ABSCUTOFF_FPC) {
- fpc_tree_daily = 0.0; // Impose lower limit of 0.5%, 0 otherwise
- }
- // Catch small rounding errors
- double coversum = fpc_tree_daily + fpc_grass_total_daily;
- if (coversum > 1.0 && coversum <= 1.001) {
- fpc_tree_daily /= coversum;
- fpc_grass_total_daily /= coversum;
- coversum = 1.0;
- }
- // Sanity check!!!
- if (coversum > 1.001)
- fail("\nInvalid gridcell.IFSfrachigh (%f) and/or gridcell.IFSfraclow (%f) value (sum = %f) in computeDailyLAIandFPCforIFS!",
- fpc_tree_daily, fpc_grass_total_daily, fpc_tree_daily + fpc_grass_total_daily);
- // Determine FPC based LAI
- double lai_fpc_tree_daily = 0.0;
- if (fpc_tree_daily > 0.0) {
- lai_fpc_tree_daily = lai_tree_daily / fpc_tree_daily;
- }
- double lai_fpc_grass_daily = 0.0;
- if (fpc_grass_total_daily > 0.0) {
- lai_fpc_grass_daily = (lai_grass_daily + lai_crop_daily + lai_pasture_daily + lai_urban_daily + lai_peat_daily) / fpc_grass_total_daily;
- }
- // Sanity checks - limit LAI to sensible values
- if (lai_fpc_tree_daily >= MAX_DAILY_LAI)
- lai_fpc_tree_daily = MAX_DAILY_LAI;
- if (lai_fpc_grass_daily >= MAX_DAILY_LAI)
- lai_fpc_grass_daily = MAX_DAILY_LAI;
- gridcell.laiphen_high_today = lai_fpc_tree_daily;
- gridcell.laiphen_low_today = lai_fpc_grass_daily;
- gridcell.IFSfrachigh = fpc_tree_daily;
- gridcell.IFSfraclow = fpc_grass_total_daily;
- }
- // ecev3 - called on Dec 31
- void computeIFSVegetationCover(Gridcell& gridcell) {
- /*
- // LPJG vegetation mapped onto H-TESSEL vegetation types and fractions.
- // Types are one of (See IFS documentation, 36r1, Table 8.1):
- 0 No high vegetation
- 1 Crops, mixd farming
- 2 Short grass
- 3 Evergreen needleleaf trees
- 4 Deciduous needleleaf trees
- 5 Deciduous broadleaf trees
- 6 Evergreen broadleaf trees
- 7 Tall grass
- 8 Desert
- 9 Tundra
- 10 Irrigated crops
- 11 Semidesert
- 12 Ice caps and glaciers
- 13 Bogs and marshes
- 14 Inland water
- 15 Ocean
- 16 Evergreen shrubs
- 17 Deciduous shrubs
- 18 Mixed forest/woodland
- 19 Interrupted forest
- 20 Water and land mixtures
- */
- // -------------------------------------------------------------------------
- // 0. Initial constants and checks
- // -------------------------------------------------------------------------
- const double FORESTCUTOFF_FPC = 0.6; // FPC of 60%
- const double DNFORESTCUTOFF_FPC = 0.4; // FPC of 40%
- const double LOWTOHIGHCUTOFF_FPC = 0.05; // FPC of 5%
- const double DOMINANCE_FRACTION = 0.6; // 60% (IGBP)
- const double DOMINANCE_FRACTION_RAINGREEN = 0.3;// 30% (Otherwise raingreen dominance is not captured)
- const double TUNDRAGDD5LIMIT = 350.0; // degree day
- const double DESERTGDD5LIMIT = 1500.0; // degree day
- const double ABSCUTOFF_FPC = 0.000; // MIN FPC (as in IFS files now)
- // const double DESERTCUTOFF_FPC = 0.05; // FPC of 5%
- // const double SEMIDESERTCUTOFF_FPC = 0.4; // FPC of 40%
- const double DESERTCUTOFF_FPC_WCONT = 0.01; // FPC * AWCONT of 0.01
- const double SEMIDESERTCUTOFF_FPC_WCONT = 0.15; // FPC * AWCONT of 0.15
- const double MAX_DAILY_LAI = 10; // Max daily LAI - enforced at the end of this routine. Was 15.
- // Initialise these Gridcell values before updating them below
- gridcell.IFStypehigh = 0;
- double IFSfrachigh = 0.0;
- gridcell.IFStypelow = 0;
- double IFSfraclow = 0.0;
- gridcell.naturaltreeFPC = 0.0;
- gridcell.naturalgrassFPC = 0.0;
- // Whether we transfer possible tree characteristics from the NATURAL stand to the low veg information sent to IFS
- gridcell.transferhightolow = false;
- // Some quick checks
- if (gridcell.get_lat() < -65.0) {
- // Antarctica
- // gridcell.IFStypelow=12; // 12 Ice caps and glaciers
- return;
- }
- // As updated in outannual
- double natural_frac = gridcell.landcover.frac[NATURAL];
- double cropland_frac = gridcell.landcover.frac[CROPLAND];
- double pasture_frac = gridcell.landcover.frac[PASTURE];
- double urban_frac = gridcell.landcover.frac[URBAN];
- double peatland_frac = gridcell.landcover.frac[PEATLAND];
- // -------------------------------------------------------------------------
- // 1. Determine FPC for trees and grasses in Natural stands and real FPC for crops.
- // -------------------------------------------------------------------------
- double fpcEN = 0.0;
- double fpcDN = 0.0;
- double fpcDB = 0.0;
- double fpcRB = 0.0;
- double fpcEB = 0.0;
- double fpcgrass = 0.0;
- // To distinguish tall from short grass we need C3/C4 distinctions
- double fpcgrass_c3 = 0.0;
- double fpcgrass_c4 = 0.0;
- double fpcgrass_crop_c3 = 0.0;
- double fpcgrass_crop_c4 = 0.0;
- double fpcgrass_pasture_c3 = 0.0;
- double fpcgrass_pasture_c4 = 0.0;
- double fpcgrass_urban_c3 = 0.0;
- double fpcgrass_urban_c4 = 0.0;
- double fpcgrass_peatland_c3 = 0.0;
- double fpcgrass_peatland_c4 = 0.0;
- // To distinguish rainfed and irrigated crops
- double fpccrop_rain = 0.0;
- double fpccrop_irri = 0.0;
- double fpccrop = 0.0;
- Gridcell::iterator gc_itr = gridcell.begin();
- // Loop through Stands
- while (gc_itr != gridcell.end()) {
- Stand& stand = *gc_itr;
- stand.firstobj();
- double to_gridcell_average = stand.get_gridcell_fraction() / (double)stand.npatch();
- if (stand.landcover == NATURAL) { // Only look in NATURAL stands!
- // Loop through Patches
- while (stand.isobj) {
- Patch& patch = stand.getobj();
- // Loop through Individuals
- Vegetation& vegetation = patch.vegetation;
- vegetation.firstobj();
- while (vegetation.isobj) {
- Individual& indiv = vegetation.getobj();
- if (indiv.id != -1 && indiv.alive) {
- if (indiv.pft.lifeform == GRASS) {
- fpcgrass += indiv.fpc * to_gridcell_average;
- // C3 or C4?
- if (indiv.pft.pathway == C3) {
- fpcgrass_c3 += indiv.fpc * to_gridcell_average;
- }
- else {
- fpcgrass_c4 += indiv.fpc * to_gridcell_average;
- }
- }
- else if (indiv.pft.leafphysiognomy == NEEDLELEAF && indiv.pft.phenology == EVERGREEN) {
- fpcEN += indiv.fpc * to_gridcell_average;
- }
- else if (indiv.pft.leafphysiognomy == NEEDLELEAF && indiv.pft.phenology == SUMMERGREEN) {
- fpcDN += indiv.fpc * to_gridcell_average;
- }
- else if (indiv.pft.leafphysiognomy == BROADLEAF && indiv.pft.phenology == SUMMERGREEN) {
- fpcDB += indiv.fpc * to_gridcell_average;
- }
- else if (indiv.pft.leafphysiognomy == BROADLEAF && indiv.pft.phenology == EVERGREEN) {
- fpcEB += indiv.fpc * to_gridcell_average;
- }
- else if (indiv.pft.leafphysiognomy == BROADLEAF && indiv.pft.phenology == RAINGREEN) {
- fpcDB += indiv.fpc * to_gridcell_average;
- fpcRB += indiv.fpc * to_gridcell_average;
- }
- else {
- // Error!
- bool err = true;
- }
- } // alive && id != -1?
- vegetation.nextobj();
- } // while/vegetation loop
- stand.nextobj();
- } // patch loop
- }
- else if (stand.landcover == PASTURE || stand.landcover == URBAN || stand.landcover == PEATLAND) {
- // Look in pasture, peatland and urban stands for C3/C4
- // Loop through Patches
- while (stand.isobj) {
- Patch& patch = stand.getobj();
- // Loop through Individuals
- Vegetation& vegetation = patch.vegetation;
- vegetation.firstobj();
- while (vegetation.isobj) {
- Individual& indiv = vegetation.getobj();
- if (indiv.id != -1 && indiv.alive) {
- if (indiv.pft.lifeform == GRASS) {
- // C3 or C4?
- if (indiv.pft.pathway == C3) {
- // C3
- if (stand.landcover == PASTURE)
- fpcgrass_pasture_c3 += indiv.fpc * to_gridcell_average;
- else if (stand.landcover == URBAN)
- fpcgrass_urban_c3 += indiv.fpc * to_gridcell_average;
- else
- fpcgrass_peatland_c3 += indiv.fpc * to_gridcell_average;
- }
- else {
- // C4
- if (stand.landcover == PASTURE)
- fpcgrass_pasture_c4 += indiv.fpc * to_gridcell_average;
- else if (stand.landcover == URBAN)
- fpcgrass_urban_c4 += indiv.fpc * to_gridcell_average;
- else
- fpcgrass_peatland_c4 += indiv.fpc * to_gridcell_average;
- }
- } // GRASS?
- else {
- // Error!
- bool err = true;
- }
- } // alive && id != -1?
- vegetation.nextobj();
- } // while/vegetation loop
- stand.nextobj();
- } // patch loop
- }
- else if (stand.landcover == CROPLAND) {
- // Look in cropland to find irrigated and none irrigated / C3 or C4 crops
- // Loop through Patches
- while (stand.isobj) {
- Patch& patch = stand.getobj();
- // Loop through Individuals
- Vegetation& vegetation = patch.vegetation;
- vegetation.firstobj();
- while (vegetation.isobj) {
- Individual& indiv = vegetation.getobj();
- if (!indiv.pft.isintercropgrass) {
- // Calculating real FCP as indiv.fpc for crops are always 1.0!
- double indiv_fpc = 1.0 - lambertbeer(indiv.lai);
- if (patch.stand.isirrigated)
- fpccrop_irri += indiv_fpc * to_gridcell_average;
- else
- fpccrop_rain += indiv_fpc * to_gridcell_average;
- if (indiv.pft.pathway == C3)
- fpcgrass_crop_c3 += indiv_fpc * to_gridcell_average;
- else
- fpcgrass_crop_c4 += indiv_fpc * to_gridcell_average;
- fpccrop += indiv_fpc * to_gridcell_average;
- }
- vegetation.nextobj();
- } // while/vegetation loop
- stand.nextobj();
- } // patch loop
- }
- ++gc_itr;
- } // stand loop
- // Now determine the maximum type
- double fpcnatural = fpcEN + fpcDN + fpcDB + fpcEB + fpcgrass;
- double fpctree = fpcEN + fpcDN + fpcDB + fpcEB;
- double fpcpeatland = fpcgrass_peatland_c3 + fpcgrass_peatland_c4;
- double fpcpasture = fpcgrass_pasture_c3 + fpcgrass_pasture_c4;
- double fpcurban = fpcgrass_urban_c3 + fpcgrass_urban_c4;
- // Rescale if FPC > Land cover fraction
- // Natural
- if (fpcnatural > natural_frac) {
- fpcEN *= (natural_frac / fpcnatural);
- fpcDN *= (natural_frac / fpcnatural);
- fpcDB *= (natural_frac / fpcnatural);
- fpcRB *= (natural_frac / fpcnatural);
- fpcEB *= (natural_frac / fpcnatural);
- fpctree *= (natural_frac / fpcnatural);
- fpcgrass *= (natural_frac / fpcnatural);
- fpcgrass_c3 *= (natural_frac / fpcnatural);
- fpcgrass_c4 *= (natural_frac / fpcnatural);
- // Reset total to
- fpcnatural = natural_frac;
- }
- // Pasture
- if (fpcpasture > pasture_frac) {
- fpcgrass_pasture_c3 *= (pasture_frac / fpcpasture);
- fpcgrass_pasture_c4 *= (pasture_frac / fpcpasture);
- // Reset total to
- fpcpasture = pasture_frac;
- }
- // Urban
- if (fpcurban > urban_frac) {
- fpcgrass_urban_c3 *= (urban_frac / fpcurban);
- fpcgrass_urban_c4 *= (urban_frac / fpcurban);
- // Reset total to
- fpcurban = urban_frac;
- }
- // Peatland
- if (fpcpeatland > peatland_frac) {
- fpcgrass_peatland_c3 *= (peatland_frac / fpcpeatland);
- fpcgrass_peatland_c4 *= (peatland_frac / fpcpeatland);
- // Reset total to
- fpcpeatland = peatland_frac;
- }
- // Cropland
- if (fpccrop > cropland_frac) {
- fpccrop_rain *= (cropland_frac / fpccrop);
- fpccrop_irri *= (cropland_frac / fpccrop);
- fpcgrass_crop_c3 *= (cropland_frac / fpccrop);
- fpcgrass_crop_c4 *= (cropland_frac / fpccrop);
- // Reset total to
- fpccrop = cropland_frac;
- }
- // -------------------------------------------------------------------------
- // 1. Lump together to totals
- // -------------------------------------------------------------------------
- // Note: we limit FPCs to be <= 1
- double fpcgridcell = fpccrop + fpcpasture + fpcnatural + fpcurban + fpcpeatland;
- // Gridcell C3/C4 grass distinctions - NATURAL, PASTURE, URBAN & PEATLAND - must be between 0 and 1
- double fpcgrasses_c3 = fpcgrass_c3 + fpcgrass_crop_c3 + fpcgrass_pasture_c3 + fpcgrass_urban_c3 + fpcgrass_peatland_c3;
- double fpcgrasses_c4 = fpcgrass_c4 + fpcgrass_crop_c4 + fpcgrass_pasture_c4 + fpcgrass_urban_c4 + fpcgrass_peatland_c4;
- double fpcgrasses = fpcgrasses_c3 + fpcgrasses_c4;
- // -------------------------------------------------------------------------
- // 2. Forest types
- // -------------------------------------------------------------------------
- int typehigh;
- // *** FOREST ***
- // 4 Deciduous needleleaf trees
- // 3 Evergreen needleleaf trees
- // 5 Deciduous broadleaf trees
- // 6 Evergreen broadleaf trees
- // or
- // 18 Mixed forest/woodland
-
- if (fpcDN > DOMINANCE_FRACTION * fpctree)
- typehigh = 4;
- else if (fpcEN > DOMINANCE_FRACTION * fpctree)
- typehigh = 3;
- else if (fpcDB > DOMINANCE_FRACTION * fpctree || fpcRB > DOMINANCE_FRACTION_RAINGREEN * fpctree)
- typehigh = 5;
- else if (fpcEB > DOMINANCE_FRACTION * fpctree)
- typehigh = 6;
- else if (!negligible(fpctree))
- typehigh = 18; // Mixed if no type exceeds 60% of the total
- else
- typehigh = 0;
- gridcell.IFStypehigh = typehigh;
- // -------------------------------------------------------------------------
- // 3. Low types and fractions
- // -------------------------------------------------------------------------
- // Quick, initial check for desert and glacier-type conditions
- if (negligible(fpcgrasses)) {
- gridcell.IFStypelow = 0; // No Vegetation
- }
- // Peatland check - and this must depend on the hard-coded wetland fraction
- else if (fpcpeatland > (fpcgrasses - fpcpeatland))
- gridcell.IFStypelow = 13; // Bogs and marshes
- else {
- // Not Bogs and marshes ....
- // Crops, mixed farming dominate
- if (fpccrop > fpcgrass && fpccrop > fpcpasture) {
- if (fpccrop_irri > fpccrop_rain)
- gridcell.IFStypelow = 10; // Irrigated crops 10
- else
- gridcell.IFStypelow = 1; // Crops, mixed farming
- }
- else {
- // Natural GRASSES (and maybe trees) dominate the low cover types
- if (gridcell.climate.agdd5_5.mean() < TUNDRAGDD5LIMIT) {
- gridcell.IFStypelow = 9; // Tundra (Hickler et al. 2006)
- }
- else {
- if (fpcgrasses_c3 > fpcgrasses_c4)
- gridcell.IFStypelow = 2; // Short grass 2
- else
- gridcell.IFStypelow = 7; // Tall grass 7
- }
- }
- }
- } // computeIFSVegetationCover
- std::string lpjg_to_string(int d) {
- std::ostringstream os;
- os << d;
- return os.str();
- }
- bool getdailyIFSforcing(const char* varname, const int& startyear, const int numyear, double data[NYEARIFS][366], int daysinyear, int ifsindex, bool depth) {
- string filenametail = "_dayavg.nc";
- // var39_1971_dayavg.nc
- xtring ifs_spinup_dir=param["ifs_spinup_dir"].str;
- int yrix = 0;
- double yearavg = 0.0; // Test of annual averages
- // New code for reading AMIP files
- const char* filevar = varname;
- if (startyear < 1900) {
- // ECE v3.2 AMIP forcing only
- if (!strcmp(varname,"var39"))
- filevar = "var039";
- if (!strcmp(varname, "var40"))
- filevar = "var040";
- if (!strcmp(varname, "var41"))
- filevar = "var041";
- if (!strcmp(varname, "var42"))
- filevar = "var042";
-
- }
- // ecev3 - AMIP fix. No AMIP data before 1870, so use that data instead
- int datastartyear = startyear;
- if (startyear < 1870)
- datastartyear = 1870;
- for (int yr = datastartyear; yr < datastartyear+numyear; yr++) {
- // First create NC file name for this year of data
- string yearstr;
- std::string full_path((char*)ifs_spinup_dir);
-
- // AMIP
- full_path += filevar + std::string("_") + lpjg_to_string(yr) + filenametail;
- // Open NC file
- int status, ncid;
- status = nc_open(full_path.c_str(), NC_NOWRITE, &ncid);
- if (status != NC_NOERR)
- return false;
- // Get the ID for varname
- int var_id;
- status = nc_inq_varid (ncid, varname, &var_id);
- if (status != NC_NOERR)
- return false;
- // check for leap years
- if (!(yr % 4) && (yr % 100 | !(yr % 400)))
- daysinyear = 366;
- else
- daysinyear = 365;
- // Read data
- // double dataarray[365*88834];
- //status = nc_get_var_double(ncid, var_id, dataarray);
-
- for (int dd = 0; dd < daysinyear; dd++) {
- size_t index[] = {(size_t)dd,0,(size_t)ifsindex-1}; // NB! because ifsindex has base 1
- size_t depthindex[] = {(size_t)dd,0,0,(size_t)ifsindex-1}; // E.g. soil temp & moisture
-
- double val;
-
- if (!depth)
- status = nc_get_var1_double(ncid, var_id, index, &val);
- else
- status = nc_get_var1_double(ncid, var_id, depthindex, &val);
-
- if (status != NC_NOERR)
- return false;
- data[yrix][dd] = val;
- yearavg+=data[yrix][dd];
- }
- nc_close(ncid);
- // Get the data for variable longitude
- //status = nc_get_var_double(ncid, lon_id, lon);
- //if (status != NC_NOERR) handle_error(status);
- // Read one year of data for this point (ifsindex)
- yrix++;
- }
- yearavg/=(numyear*365);
- return true;
- } // getdailyIFSforcing
- // Faster version of the above function.
- // Read in the data for all NYEARIFS (10) years at once for this point.
- // We created one file per variable as follows, for var143:
- // cdo mergetime *var143* var143_1870-1879.nc
- // ncpdq -a x,time,y var143_1870-1879.nc var143_1870-1879_fast.nc
- bool getdailyIFSforcing_fast(const char* varname, const int& startyear, const int numyear, double data[NYEARIFS][366], int daysinyear, int ifsindex, bool depth) {
- string filenametail = "_1870-1879_fast.nc";
- xtring ifs_spinup_dir = param["ifs_spinup_dir"].str;
- // New code for reading AMIP files
- const char* filevar = varname;
- if (startyear < 1900) {
- // ECE v3.2 AMIP forcing only
- if (!strcmp(varname, "var39"))
- filevar = "var039";
- if (!strcmp(varname, "var40"))
- filevar = "var040";
- if (!strcmp(varname, "var41"))
- filevar = "var041";
- if (!strcmp(varname, "var42"))
- filevar = "var042";
- }
- // ecev3 - AMIP fix. No AMIP data before 1870, so use that data instead
- int datastartyear = startyear;
- if (startyear < 1870)
- datastartyear = 1870;
- // First create NC file name for this year of data
- string yearstr;
- std::string full_path((char*)ifs_spinup_dir);
- // AMIP - merged and reordered
- full_path += filevar + filenametail;
- dprintf("full_path %s \n",full_path.c_str());
- // Open NC file
- int status, ncid;
- status = nc_open(full_path.c_str(), NC_NOWRITE, &ncid);
- if (status != NC_NOERR) {
- fprintf(stderr, "Error opening %s: %s \n",full_path.c_str(),nc_strerror(status));
- return false;
- }
- dprintf("file read \n");
- // Get the ID for varname
- int var_id;
- status = nc_inq_varid(ncid, varname, &var_id);
- if (status != NC_NOERR) {
- fprintf(stderr, "Error inquiring var %s: %s \n",varname,nc_strerror(status));
- return false;
- }
- // Read data
- double data_arr[3652]; // 1870-79 daily data, incl. 2 leap years
- size_t start[] = {(size_t)ifsindex - 1,0,0 }; // NB! because ifsindex has base 1
- size_t start_depth[] = {(size_t)ifsindex - 1,0,0,0 }; // NB! because ifsindex has base 1
- size_t count[] = {1,3652,1}; // NB! because ifsindex has base 1
- size_t count_depth[] = {1,3652,1,1}; // NB! because ifsindex has base 1
- if (!depth)
- status = nc_get_vara_double(ncid, var_id, start, count, data_arr);
- else
- status = nc_get_vara_double(ncid, var_id, start_depth, count_depth, data_arr);
- nc_close(ncid);
- int yrix = 0;
- int dayix = 0;
- for (int yr = datastartyear; yr < datastartyear + NYEARIFS; yr++) {
- // check for leap years
- if (!(yr % 4) && (yr % 100 | !(yr % 400)))
- daysinyear = 366;
- else
- daysinyear = 365;
- for (int dd = 0; dd < daysinyear; dd++) {
- data[yrix][dd] = data_arr[dayix];
- dayix++;
- }
- yrix++;
- }
- return true;
- } // getdailyIFSforcing_fast
- // Read in ERA20C or GSWP3 data for NYEARIFS (10) years at once for this point.
- // We created one file per variable as follows, for var143:
- // cdo mergetime *var143* var143_1870-1879.nc
- // ncpdq -a x,time,y var143_1901-1910.nc var143_1901-1910_fast.nc
- bool getdailyERA20Cforcing_fast(const char* varname, const int& startyear, const int numyear, double data[NYEARIFS][366], int daysinyear, int ifsindex, bool depth) {
- int datastartyear = datastartyear = startyear;
- xtring filenametail;
- filenametail.printf("_%4d-%4d_fast.nc", startyear, startyear+NYEARIFS-1);
- xtring ifs_spinup_dir = param["ifs_spinup_dir"].str;
- const char* filevar = varname;
- // First create NC file name for this year of data
- string yearstr;
- xtring full_path = ifs_spinup_dir + filevar + filenametail;
- //dprintf("Reading fast forcing file %s for era20c spinup \n", (const char*)full_path);
- // Open NC file
- int status, ncid;
- status = nc_open((const char*)full_path, NC_NOWRITE, &ncid);
- if (status != NC_NOERR)
- return false;
- // Get the ID for varname
- int var_id;
- status = nc_inq_varid(ncid, varname, &var_id);
- if (status != NC_NOERR)
- return false;
- // Read data
- double data_arr[3652]; // 1901-1910 daily data, incl. 2 leap years
- size_t start[] = {(size_t)ifsindex - 1,0,0 }; // NB! because ifsindex has base 1
- size_t start_depth[] = {(size_t)ifsindex - 1,0,0,0 }; // NB! because ifsindex has base 1
- size_t count[] = { 1,3652,1 }; // NB! because ifsindex has base 1
- size_t count_depth[] = { 1,3652,1,1 }; // NB! because ifsindex has base 1
- if (!depth)
- status = nc_get_vara_double(ncid, var_id, start, count, data_arr);
- else
- status = nc_get_vara_double(ncid, var_id, start_depth, count_depth, data_arr);
- nc_close(ncid);
- int yrix = 0;
- int dayix = 0;
- for (int yr = datastartyear; yr < datastartyear + NYEARIFS; yr++) {
- // check for leap years
- if (!(yr % 4) && (yr % 100 | !(yr % 400)))
- daysinyear = 366;
- else
- daysinyear = 365;
- for (int dd = 0; dd < daysinyear; dd++) {
- data[yrix][dd] = data_arr[dayix];
- dayix++;
- }
- yrix++;
- }
- return true;
- } // getdailyERA20Cforcing_fast
- // Used for nearest-neighbour N dep
- void getndep_nearest_index(double lon, double lat, int ncid, int& lon_index, int& lat_index) {
- // Search all coordinates in a square around (lon, lat), but first go down to
- // multiple of 0.5 - ecev3 - add 0.25
- double center_lon = floor(lon * 2) / 2 + 0.25;
- double center_lat = floor(lat * 2) / 2 + 0.25;
- int nrlat = 96;
- int nrlon = 144;
- // Get the ID for longitude
- int status, lon_id;
- status = nc_inq_varid(ncid, "lon", &lon_id);
- if (status != NC_NOERR)
- fail("Can't find N deposition longitude");
- double val;
- double diff = 360.0;
- // Loop through latitudes to find the nearest
- for (int lo = 0; lo < nrlon; lo++) {
- size_t index[] = {(size_t)lo, 0, 1 };
- status = nc_get_var1_double(ncid, lon_id, index, &val);
-
- // same longitude scale
- if (val >= 180.0)
- val = val - 360.0;
-
- // determine if this latitude is nearer
- if (abs((val + 1.25) - center_lon) < diff) {
- lon_index = lo;
- diff = abs((val + 1.25) - center_lon);
- }
- }
- // Get the ID for latitude
- int lat_id;
- status = nc_inq_varid(ncid, "lat", &lat_id);
- if (status != NC_NOERR)
- fail("Can't find N deposition latitude");
- double val1, val1_c, val2;
- diff = 180.0;
- lat_index = -999;
- // Loop through latitudes to find the nearest
- size_t index[] = { 0, 0, 1 };
- status = nc_get_var1_double(ncid, lat_id, index, &val1);
- for (int la = 1; la < nrlat; la++) {
- size_t index[] = {(size_t)la, 0, 1 };
- status = nc_get_var1_double(ncid, lat_id, index, &val2);
-
- // calculate center for previous latitude cell
- val1_c = val1 - (val1 - val2) / 2.0;
- // determine if the previous latitude is nearer
- if (abs(val1_c - center_lat) < diff) {
- lat_index = la - 1;
- diff = abs(val1_c - center_lat);
- }
- val1 = val2;
- // if the end if reached without updating the latitude index,
- // then the last latitude cell is the correct one.
- if (la == 95 && lat_index < 0)
- lat_index = la;
- }
- }
- // Used for nearest-neighbour N dep
- bool getmonthlyNdepforcing(const char* varname, const int numyear, double data[NYEARNDEP][12], double lon, double lat, int& ndeplonindex, int& ndeplatindex) {
- string filenametail = "_input4MIPs_surfaceFluxes_CMIP_NCAR-CCMI-1-0_gr_185001-201412.nc";
- xtring ndep_cmip6_dir = param["ndep_cmip6_dir"].str;
- const char* filevar = varname;
- if (!strcmp(varname, "drynhx"))
- filevar = "drynhx";
- if (!strcmp(varname, "drynoy"))
- filevar = "drynoy";
- if (!strcmp(varname, "wetnhx"))
- filevar = "wetnhx";
- if (!strcmp(varname, "wetnoy"))
- filevar = "wetnoy";
- // First create NC file name for this data
- std::string full_path((char*)ndep_cmip6_dir);
- // AMIP
- full_path += filevar + filenametail;
- // Open NC file
- int status, ncid;
- status = nc_open(full_path.c_str(), NC_NOWRITE, &ncid);
- if (status != NC_NOERR)
- return false;
- if (ndeplonindex < 0)
- getndep_nearest_index(lon, lat, ncid, ndeplonindex, ndeplatindex);
- // Get the ID for varname
- int var_id;
- status = nc_inq_varid(ncid, varname, &var_id);
- if (status != NC_NOERR)
- return false;
- // Read data
- for (int yy = 0; yy < numyear; yy++) {
- for (int mm = 0; mm < 12; mm++) {
- size_t index[] = { (size_t)yy*12+mm, (size_t)ndeplatindex - 1, (size_t)ndeplonindex - 1 }; // NB! because ndep index has base 1
- double val;
- status = nc_get_var1_double(ncid, var_id, index, &val);
- if (status != NC_NOERR)
- return false;
- data[yy][mm] = val * 86400.0; // convert from kg N m-2 s-1 to kg N m-2 day-1
- }
- }
- nc_close(ncid);
- return true;
- } // getmonthlyNdepforcing
- bool getmonthlyNdepforcingConserve(const char* varname, const int numyear, double data[NYEARNDEP][12], int ndepindex) {
- // 1st (".nc") or 2nd order remapping file?
- string filenametail = "2.nc";
- xtring ndep_cmip6_dir = param["ndep_cmip6_dir"].str;
- const char* filevar = varname;
- if (!strcmp(varname, "drynhx"))
- filevar = "drynhx";
- if (!strcmp(varname, "drynoy"))
- filevar = "drynoy";
- if (!strcmp(varname, "wetnhx"))
- filevar = "wetnhx";
- if (!strcmp(varname, "wetnoy"))
- filevar = "wetnoy";
- // First create NC file name for this data
- std::string full_path((char*)ndep_cmip6_dir);
- // AMIP
- full_path += filevar + filenametail;
- // Open NC file
- int status, ncid;
- status = nc_open(full_path.c_str(), NC_NOWRITE, &ncid);
- if (status != NC_NOERR)
- return false;
- // Get the ID for varname
- int var_id;
- status = nc_inq_varid(ncid, varname, &var_id);
- if (status != NC_NOERR)
- return false;
- // Read data
- for (int yy = 0; yy < numyear; yy++) {
- for (int mm = 0; mm < 12; mm++) {
- size_t index[] = {(size_t)yy * 12 + mm, (size_t)ndepindex};
- double val;
- status = nc_get_var1_double(ncid, var_id, index, &val);
- // < 0?
- val = max(val, 0.0);
- if (status != NC_NOERR)
- return false;
- data[yy][mm] = val * 86400.0; // convert from kg N m-2 s-1 to kg N m-2 day-1
- }
- }
- nc_close(ncid);
- return true;
- } // getmonthlyNdepforcingConserve
- /// Spinup LPJ-GUESS using IFS output data for EC-Earth restarts
- /**
- *
- * \param gridcell The gridcell to simulate
- * \param year The year to save the state for. e.g. 1850
- * \param prescribe_ifs_soilmoist Use IFS soil moisture if true,
- * but standard LPJ-GUESS parameterisations if false
- * \param prescribe_ifs_soiltemp Use IFS soil temperature if true,
- * but standard LPJ-GUESS parameterisations if false
- */
- bool IFSspinup(Gridcell& gridcell, int year, double co2spinup, bool prescribe_ifs_soilmoist,
- bool prescribe_ifs_soiltemp) {
- bool spinon=true;
- // Read netcdf files with daily ECE output.
- dprintf("Reading data before LPJ-GUESS IFS spinup \n");
- int repetitions = (int) nyear_spinup / NYEARIFS;
- int repix = 0;
- int calyear = year;
- int yrix = 0;
- int spinupyear = 0;
- // Keep a track of the simulation year for this cell.
- gridcell.simulationyear = spinupyear;
- // ecev3 - isspinup true will ensure fixed 1850 land use during spinup
- gridcell.isspinup = true; // ONLY true during spinup!
- // Arrays to be populated by data from IFS output
- double ifstemp[NYEARIFS][366];
- double ifsprecip[NYEARIFS][366];
- double ifsprecipstrat[NYEARIFS][366];
- double ifsprecipconv[NYEARIFS][366];
- double ifsswradnet[NYEARIFS][366]; // net SW at the surface
- double ifslwradnet[NYEARIFS][366]; // net LW at the surface
- double ifstempsoil2[NYEARIFS][366];
- double ifstempsoil3[NYEARIFS][366];
- double ifssw1[NYEARIFS][366];
- double ifssw2[NYEARIFS][366];
- double ifssw3[NYEARIFS][366];
- double ifssw4[NYEARIFS][366];
- // Reset date
- gridcell.date.set(year,0,0,0,0,0);
- date = gridcell.date;
- // Populate arrays one by one using gridcell.ifs_index for this gridcell
- // T2M (K)
- const char* vartoread = "var167";
- bool dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifstemp, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading T2M data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SURFACE SOLAR RAD - SW (W m-2 s - average of 4 6h periods)
- vartoread = "var176";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifsswradnet, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading NETSW data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SURFACE THERMAL RAD - LW (W m-2 s - average of 4 6h periods)
- vartoread = "var177";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifslwradnet, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading NETLW data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL TEMP 2 (K)
- vartoread = "var170";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifstempsoil2, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading SOIL TEMP 2 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL TEMP 3 (K)
- vartoread = "var183";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifstempsoil3, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading SOIL TEMP 3 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL WATER 1 (m3 m-3)
- vartoread = "var39";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifssw1, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading SOIL WATER 1 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL WATER 2 (m3 m-3)
- vartoread = "var40";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifssw2, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading SOIL WATER 2 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL WATER 3 (m3 m-3)
- vartoread = "var41";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifssw3, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading SOIL WATER 3 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL WATER 4 (m3 m-3)
- vartoread = "var42";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifssw4, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading SOIL WATER 4 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // STRATIFORM PRECIP (m - average of 4 6h periods). NB! This includes both rain and snow
- vartoread = "var142";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifsprecipstrat, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading STRATIFORM PRECIP data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // CONVECTIVE PRECIP (m - average of 4 6h periods) NB! This includes both rain and snow
- vartoread = "var143";
- dataOK = getdailyIFSforcing_fast(vartoread, year, NYEARIFS, ifsprecipconv, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading CONVECTIVE PRECIP data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // CONVERSIONS and averages:
- // **************************
- float lpjgsw1[NYEARIFS][366];
- float lpjgsw2[NYEARIFS][366];
- // Precip: aggregation and conversion to mm/day (*4 for full day acc precip & * 1000 m to mm)
- // SW: Conversion to W m-2. (* 4 as to get daily J m-2 (accumulated), / secs_in_day to get W m-2
- double secs_in_day = 60.0 * 60.0 * 24.0;
- // Annual averages - Forget about leap years
- double t2mavg = 0.0;
- double soiltavg = 0.0;
- double precavg = 0.0;
- double SWavg = 0.0;
- double LWavg = 0.0;
- double lpjg_wcont = 0.0;
- int ndays = 0;
- for (int yy = 0; yy < NYEARIFS; yy++) {
- for (int dd = 0; dd < 366; dd++ ) {
- // Precip:
- ifsprecip[yy][dd] = (ifsprecipstrat[yy][dd] + ifsprecipconv[yy][dd]) * 4 * 1000; // ecev3 bugfix - removed snow
- ifsprecip[yy][dd] = max(ifsprecip[yy][dd],0.0); // remove small -ve values
- if (ifsprecip[yy][dd] < 0.000001) ifsprecip[yy][dd] = 0.0; // remove very small or negative precip amounts (< 0.000001 mm/day)
- // SW:
- ifsswradnet[yy][dd] *= 4.0 / secs_in_day;
- if (ifsswradnet[yy][dd] < 0.000001) ifsswradnet[yy][dd] = 0.0; // remove very small or negative SSR amounts (< 0.000001 W m-2)
-
- // LW:
- ifslwradnet[yy][dd] *= 4.0 / secs_in_day; // can be positive or negative
- // Soil water
- ifs_to_lpjg_soilwater(ifssw1[yy][dd], ifssw2[yy][dd], ifssw3[yy][dd],
- ifssw4[yy][dd], lpjgsw1[yy][dd], lpjgsw2[yy][dd]);
- if (dd < 365) {
- ndays++;
- t2mavg += ifstemp[yy][dd];
- SWavg += ifsswradnet[yy][dd];
- LWavg += ifslwradnet[yy][dd];
- precavg += ifsprecip[yy][dd];
- soiltavg += ifstempsoil2[yy][dd];
- lpjg_wcont += lpjgsw1[yy][dd];
- }
- }
- }
- t2mavg /= ndays;
- precavg /= ndays;
- SWavg /= ndays;
- LWavg /= ndays;
- soiltavg /= ndays;
- lpjg_wcont /= ndays;
- // Now loop through the X years until Y years of spinup have been performed
- dprintf("Data loaded. Now performing LPJ-GUESS spinup \n");
- dprintf("Spinup mean T2M, Prec, SW, LW, SoilT, SoilW for cell with lon=%f, lat=%f are: %f, %f, %f, %f, %f, %f \n", gridcell.get_lon(), gridcell.get_lat(),
- t2mavg, precavg, SWavg, LWavg, soiltavg, lpjg_wcont);
- // CO2 now passed into this routine
- // double co2spinup = 284.725; // ppm - fixed for spinup period - preIndustrial, 1850
- // double co2spinup = 353.855; // ppm - fixed for spinup period - modern, 1990
- // double co2spinup = 324.985; // ppm - fixed for spinup period - modern, 1970
- //////////////// ERROR fix N dep index, nearest cell
- gridcell.ndep_lon_index = -999;
- gridcell.ndep_lat_index = -999;
- // Monthly dry NH4 deposition (kg m-2 s-1)
- vartoread = "drynhx";
- double drynhx_data[NYEARNDEP][12];
- // dataOK = getmonthlyNdepforcing(vartoread, NYEARNDEP, drynhx_data, gridcell.get_lon(), gridcell.get_lat(), gridcell.ndep_lon_index, gridcell.ndep_lat_index);
- dataOK = getmonthlyNdepforcingConserve(vartoread, NYEARNDEP, drynhx_data, gridcell.ndep_index);
- if (!dataOK) {
- dprintf("Error reading dry NHx deposition data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // Monthly wet NH4 deposition (kg m-2 s-1)
- vartoread = "wetnhx";
- double wetnhx_data[NYEARNDEP][12];
- //dataOK = getmonthlyNdepforcing(vartoread, NYEARNDEP, wetnhx_data, gridcell.get_lon(), gridcell.get_lat(), gridcell.ndep_lon_index, gridcell.ndep_lat_index);
- dataOK = getmonthlyNdepforcingConserve(vartoread, NYEARNDEP, wetnhx_data, gridcell.ndep_index);
- if (!dataOK) {
- dprintf("Error reading wet NHx deposition data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // Monthly dry NO3 deposition (kg m-2 s-1)
- vartoread = "drynoy";
- double drynoy_data[NYEARNDEP][12];
- //dataOK = getmonthlyNdepforcing(vartoread, NYEARNDEP, drynoy_data, gridcell.get_lon(), gridcell.get_lat(), gridcell.ndep_lon_index, gridcell.ndep_lat_index);
- dataOK = getmonthlyNdepforcingConserve(vartoread, NYEARNDEP, drynoy_data, gridcell.ndep_index);
- if (!dataOK) {
- dprintf("Error reading dry NOy deposition data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // Monthly wet NO3 deposition (kg m-2 s-1)
- vartoread = "wetnoy";
- double wetnoy_data[NYEARNDEP][12];
- //dataOK = getmonthlyNdepforcing(vartoread, NYEARNDEP, wetnoy_data, gridcell.get_lon(), gridcell.get_lat(), gridcell.ndep_lon_index, gridcell.ndep_lat_index);
- dataOK = getmonthlyNdepforcingConserve(vartoread, NYEARNDEP, wetnoy_data, gridcell.ndep_index);
- if (!dataOK) {
- dprintf("Error reading wet NOy deposition data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // Get monthly ndep values and convert to daily
- double mndrydep[12];
- double mnwetdep[12];
- /// Daily N deposition for current year
- double dndep[Date::MAX_YEAR_LENGTH];
- bool veryfirstday = true; // needed to initialise below
- bool printoutput = false; // Will be set to true for the final 50 years of the spinup simulation
- bool printdlai = false; // print daily LAI on the last day of the spinup.
- FILE *ofp; // Daily LAI
- while (spinon) {
- // START OF LOOP THROUGH SIMULATION DAYS
- // First get the climate and soil drivers for this day of the simulation:
- // temp, precip, netswrad, temp_soil,soilw_surf,soilw_deep
- double temp = 0.0;
- double precip = 0.0;
- double netswrad = 0.0;
- double netlwrad = 0.0;
- double temp_soil = 0.0;
- double temp_soil_2 = 0.0;
- double temp_soil_3 = 0.0;
- double soilw_surf = 0.0;
- double soilw_deep = 0.0;
- // T2M
- temp = ifstemp[yrix][gridcell.date.day];
- temp-=K2degC; // Convert to degC
- // PRECIP, NET SW & LW
- precip = ifsprecip[yrix][gridcell.date.day];
- netswrad = ifsswradnet[yrix][gridcell.date.day];
- netlwrad = ifslwradnet[yrix][gridcell.date.day];
- if (veryfirstday) {
- // ecev3 - Only need to populate the dndep array ONCE during the spinup
- // When using .bin files:
- // gridcell.ndepts.get_one_calendar_year(gridcell.date.year, mndrydep, mnwetdep);
- // Use CMIP6 N dep historical data
- for (int mm = 0; mm < 12; mm++) {
- mndrydep[mm] = drynhx_data[0][mm] + drynoy_data[0][mm]; // values for year 1850 during spinup
- mnwetdep[mm] = wetnhx_data[0][mm] + wetnoy_data[0][mm]; // values for year 1850 during spinup
- }
- // Distribute N deposition
- distribute_ndep(mndrydep, mnwetdep, ifsprecip[yrix], gridcell.date.ndaymonth, dndep);
- }
- // SOIL TEMP
- temp_soil_2 = ifstempsoil2[yrix][gridcell.date.day];
- temp_soil_3 = ifstempsoil3[yrix][gridcell.date.day];
- // Interpolate soil temp to 25cm
- temp_soil = ifs_to_lpjg_soiltemp(temp_soil_2,temp_soil_3);
- temp_soil-=K2degC; // Convert to degC
- // SOIL WATER
- soilw_surf = (double)lpjgsw1[yrix][gridcell.date.day];
- soilw_deep = (double)lpjgsw2[yrix][gridcell.date.day];
- // Convert from m3 m-3 to AWC [0-1] depending on soil type
- swConvert(gridcell.soiltype,soilw_surf,soilw_deep);
- // Daily N deposition (Read from file)
- // double dndep = ndep / (365.0 * 10000.0); // units kgN/ha/year to kgN/m2/day
- // double dndep_today = ndep / (365.0 * 10000.0); // units kgN/ha/year to kgN/m2/day
- double dndep_today = dndep[gridcell.date.day]; // units: kgN/m2/day
- double dnfert = 0.0;
- // NB! ecev3 - Could call getgridcell here if LU cover changes during spinup...
- // Transfer today's climate data to the Climate object in Gridcell.
- gridcell.climate.setdrivers(temp, precip, netswrad, netlwrad, co2spinup, temp_soil, soilw_surf, soilw_deep, dndep_today, dnfert);
- // Simulate vegetation today!
- simulate_day_ece(gridcell, prescribe_ifs_soilmoist, prescribe_ifs_soiltemp,
- veryfirstday, printoutput);
- veryfirstday= false; // NB! gridcell.simulationyear is updated on Dec 31 in simulate_day_ece
- // Daily LAI?
- if (spinupyear == nyear_spinup - 1 && gridcell.date.day == 0) {
- printdlai = true;
- // Print out dLAI?
- ofp = fopen("dailyLAIandFPC.txt", "a");
- }
- if (printdlai) {
- // Now calculate the LAI for high and low fractions
- computeDailyLAIandFPCforIFS(gridcell);
- fprintf(ofp, "%8.6f\t %8.6f\t %d\t %d\t %8.5f\t %8.5f\t %8.5f\t %8.5f\n", gridcell.get_lon(), gridcell.get_lat(), date.get_calendar_year(), date.day + 1,
- gridcell.laiphen_low_today, gridcell.laiphen_high_today, gridcell.IFSfraclow,gridcell.IFSfrachigh);
- }
- // Advance day and check for new years, number of repetitions etc.
- int oldyear = gridcell.date.year;
- // Next day of the simulation
- gridcell.date.next();
- date=gridcell.date;
- int newyear = gridcell.date.year;
- if (newyear != oldyear) {
- // If Jan 1...
- calyear++;
- yrix++;
- spinupyear++;
- // if (spinupyear >= 0) // for testing & debugging
- if (spinupyear >= nyear_spinup-5)
- printoutput = true; // Only print output if we're in the final 10 years of the spinup
- // test with:
- // dprintf("Repetition %4d... \n", spinupyear);
- // dprintf("Nr of stands %4d\n", gridcell.nbr_stands());
- if (calyear == year + NYEARIFS) {
- repix++; // One more repetition completed...
- calyear = year; // so reset the clock
- gridcell.date.set(year,0,0,0,0,0);
- date=gridcell.date;
- yrix=0; // Refer to correct array elements above
- }
- }
- if (repix==repetitions) // End of spinup if we've run all repetitions
- spinon=false;
- }
- // Close LAI file
- if (printdlai) {
- fclose(ofp);
- }
- dprintf("LPJ-GUESS IFS spinup complete\n");
- gridcell.isspinup = false; // set to false
-
- return true;
- } // IFSspinup
- /// Spinup LPJ-GUESS using ERA20C or GSWP3 output data for EC-Earth restarts
- /**
- *
- * \param gridcell The gridcell to simulate
- * \param year The year to save the state for. e.g. 1850
- * \param prescribe_ifs_soilmoist Use IFS soil moisture if true,
- * but standard LPJ-GUESS parameterisations if false
- * \param prescribe_ifs_soiltemp Use IFS soil temperature if true,
- * but standard LPJ-GUESS parameterisations if false
- */
- bool ERA20Cspinup(Gridcell& gridcell, int year, double co2spinup, bool prescribe_ifs_soilmoist,
- bool prescribe_ifs_soiltemp) {
- bool spinon = true;
- // Read netcdf files with daily ECE output.
- dprintf("Reading data before LPJ-GUESS ERA20C spinup \n");
- int repetitions = (int)nyear_spinup / NYEARIFS;
- int repix = 0;
- int calyear = year;
- int yrix = 0;
- int spinupyear = 0;
- // Keep a track of the simulation year for this cell.
- gridcell.simulationyear = spinupyear;
- // ecev3 - isspinup true will ensure fixed 1850 land use during spinup
- gridcell.isspinup = true; // ONLY true during spinup!
- // Arrays to be populated by data from IFS output
- double ifstemp[NYEARIFS][366];
- double ifsprecip[NYEARIFS][366];
- double ifsswradnet[NYEARIFS][366]; // net SW at the surface
- double ifslwradnet[NYEARIFS][366]; // net LW at the surface
- double ifstempsoil2[NYEARIFS][366];
- double ifstempsoil3[NYEARIFS][366];
- double ifssw1[NYEARIFS][366];
- double ifssw2[NYEARIFS][366];
- double ifssw3[NYEARIFS][366];
- double ifssw4[NYEARIFS][366];
- // Reset date
- gridcell.date.set(year, 0, 0, 0, 0, 0);
- date = gridcell.date;
- // Populate arrays one by one using gridcell.ifs_index for this gridcell
- // T2M (K)
- const char* vartoread = "var167";
- bool dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifstemp, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading ERA20C T2M data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SURFACE SOLAR RAD - SW (W m-2)
- vartoread = "var176";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifsswradnet, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading ERA20C NETSW spinup data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SURFACE THERMAL RAD - LW (W m-2)
- vartoread = "var177";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifslwradnet, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading ERA20C NETLW data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL TEMP 2 (K)
- vartoread = "var170";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifstempsoil2, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading ERA20C SOIL TEMP 2 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL TEMP 3 (K)
- vartoread = "var183";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifstempsoil3, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading ERA20C SOIL TEMP 3 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL WATER 1 (m3 m-3)
- vartoread = "var39";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifssw1, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading ERA20C SOIL WATER 1 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL WATER 2 (m3 m-3)
- vartoread = "var40";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifssw2, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading ERA20C SOIL WATER 2 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL WATER 3 (m3 m-3)
- vartoread = "var41";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifssw3, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading ERA20C SOIL WATER 3 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // SOIL WATER 4 (m3 m-3)
- vartoread = "var42";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifssw4, gridcell.date.year_length(), gridcell.ifs_index, true);
- if (!dataOK) {
- dprintf("Error reading ERA20C SOIL WATER 4 data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // PRECIP (mm). NB! This includes both rain and snow
- vartoread = "var228";
- dataOK = getdailyERA20Cforcing_fast(vartoread, year, NYEARIFS, ifsprecip, gridcell.date.year_length(), gridcell.ifs_index, false);
- if (!dataOK) {
- dprintf("Error reading ERA20C PRECIP data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // CONVERSIONS and averages:
- // **************************
- float lpjgsw1[NYEARIFS][366];
- float lpjgsw2[NYEARIFS][366];
- // Precip: aggregation and conversion to mm/day (*4 for full day acc precip & * 1000 m to mm)
- // SW: Conversion to W m-2. (* 4 as to get daily J m-2 (accumulated), / secs_in_day to get W m-2
- double secs_in_day = 60.0 * 60.0 * 24.0;
- // Annual averages - Forget about leap years
- double t2mavg = 0.0;
- double soiltavg = 0.0;
- double precavg = 0.0;
- double SWavg = 0.0;
- double LWavg = 0.0;
- double lpjg_wcont = 0.0;
- int ndays = 0;
- for (int yy = 0; yy < NYEARIFS; yy++) {
- for (int dd = 0; dd < 366; dd++) {
- // Precip:
- ifsprecip[yy][dd] = max(ifsprecip[yy][dd], 0.0); // remove small -ve values
- if (ifsprecip[yy][dd] < 0.000001) ifsprecip[yy][dd] = 0.0; // remove very small precip amounts (< 0.000001 mm/day)
- // SW
- if (ifsswradnet[yy][dd] < 0.000001) ifsswradnet[yy][dd] = 0.0; // remove very small or negative SSR amounts (< 0.000001 W m-2)
- // Soil water
- ifs_to_lpjg_soilwater(ifssw1[yy][dd], ifssw2[yy][dd], ifssw3[yy][dd], ifssw4[yy][dd], lpjgsw1[yy][dd], lpjgsw2[yy][dd]);
- if (dd < 365) {
- ndays++;
- t2mavg += ifstemp[yy][dd];
- SWavg += ifsswradnet[yy][dd];
- LWavg += ifslwradnet[yy][dd];
- precavg += ifsprecip[yy][dd];
- soiltavg += ifstempsoil2[yy][dd];
- lpjg_wcont += lpjgsw1[yy][dd];
- }
- }
- }
- t2mavg /= ndays;
- precavg /= ndays;
- SWavg /= ndays;
- LWavg /= ndays;
- soiltavg /= ndays;
- lpjg_wcont /= ndays;
- // Now loop through the X years until Y years of spinup have been performed
- dprintf("Data loaded. Now performing LPJ-GUESS ERA20C spinup \n");
- dprintf("Spinup mean T2M, Prec, SW, LW, SoilT, SoilW for cell with lon=%f, lat=%f are: %f, %f, %f, %f, %f, %f \n", gridcell.get_lon(), gridcell.get_lat(),
- t2mavg, precavg, SWavg, LWavg, soiltavg, lpjg_wcont);
- // CO2 now passed into this routine
- // double co2spinup = 284.725; // ppm - fixed for spinup period - preIndustrial, 1850
- // double co2spinup = 353.855; // ppm - fixed for spinup period - modern, 1990
- // double co2spinup = 324.985; // ppm - fixed for spinup period - modern, 1970
- //////////////// ERROR fix N dep index, nearest cell
- gridcell.ndep_lon_index = -999;
- gridcell.ndep_lat_index = -999;
- // Monthly dry NH4 deposition (kg m-2 s-1)
- vartoread = "drynhx";
- double drynhx_data[NYEARNDEP][12];
- dataOK = getmonthlyNdepforcingConserve(vartoread, NYEARNDEP, drynhx_data, gridcell.ndep_index);
- if (!dataOK) {
- dprintf("Error reading dry NHx deposition data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // Monthly wet NH4 deposition (kg m-2 s-1)
- vartoread = "wetnhx";
- double wetnhx_data[NYEARNDEP][12];
- dataOK = getmonthlyNdepforcingConserve(vartoread, NYEARNDEP, wetnhx_data, gridcell.ndep_index);
- if (!dataOK) {
- dprintf("Error reading wet NHx deposition data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // Monthly dry NO3 deposition (kg m-2 s-1)
- vartoread = "drynoy";
- double drynoy_data[NYEARNDEP][12];
- dataOK = getmonthlyNdepforcingConserve(vartoread, NYEARNDEP, drynoy_data, gridcell.ndep_index);
- if (!dataOK) {
- dprintf("Error reading dry NOy deposition data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // Monthly wet NO3 deposition (kg m-2 s-1)
- vartoread = "wetnoy";
- double wetnoy_data[NYEARNDEP][12];
- dataOK = getmonthlyNdepforcingConserve(vartoread, NYEARNDEP, wetnoy_data, gridcell.ndep_index);
- if (!dataOK) {
- dprintf("Error reading wet NOy deposition data before LPJ-GUESS spinup. Quitting... \n");
- return false;
- }
- // Get monthly ndep values and convert to daily
- double mndrydep[12];
- double mnwetdep[12];
- /// Daily N deposition for current year
- double dndep[Date::MAX_YEAR_LENGTH];
- bool veryfirstday = true; // needed to initialise below
- bool printoutput = false; // Will be set to true for the final 50 years of the spinup simulation
- bool printdlai = false; // print daily LAI on the last day of the spinup.
- FILE *ofp; // Daily LAI
- while (spinon) {
- // START OF LOOP THROUGH SIMULATION DAYS
- // First get the climate and soil drivers for this day of the simulation:
- // temp, precip, netswrad, temp_soil,soilw_surf,soilw_deep
- double temp = 0.0;
- double precip = 0.0;
- double netswrad = 0.0;
- double netlwrad = 0.0;
- double temp_soil = 0.0;
- double temp_soil_2 = 0.0;
- double temp_soil_3 = 0.0;
- double soilw_surf = 0.0;
- double soilw_deep = 0.0;
- // T2M
- temp = ifstemp[yrix][gridcell.date.day];
- temp -= K2degC; // Convert to degC
- // PRECIP, NET SW & LW
- precip = ifsprecip[yrix][gridcell.date.day];
- precip = precip*1.e3*secs_in_day/1000; // Convert from kg m-2 s-1 to mm
- netswrad = ifsswradnet[yrix][gridcell.date.day];
- netlwrad = ifslwradnet[yrix][gridcell.date.day];
- if (veryfirstday) {
- // ecev3 - Only need to populate the dndep array ONCE during the spinup
- // When using .bin files:
- // gridcell.ndepts.get_one_calendar_year(gridcell.date.year, mndrydep, mnwetdep);
- // Use CMIP6 N dep historical data
- for (int mm = 0; mm < 12; mm++) {
- mndrydep[mm] = drynhx_data[0][mm] + drynoy_data[0][mm]; // values for year 1850 during spinup
- mnwetdep[mm] = wetnhx_data[0][mm] + wetnoy_data[0][mm]; // values for year 1850 during spinup
- }
- // Distribute N deposition
- distribute_ndep(mndrydep, mnwetdep, ifsprecip[yrix], gridcell.date.ndaymonth, dndep);
- }
- // SOIL TEMP
- temp_soil_2 = ifstempsoil2[yrix][gridcell.date.day];
- temp_soil_3 = ifstempsoil3[yrix][gridcell.date.day];
- // Interpolate soil temp to 25cm
- temp_soil = ifs_to_lpjg_soiltemp(temp_soil_2, temp_soil_3);
- temp_soil -= K2degC; // Convert to degC
- // SOIL WATER
- soilw_surf = (double)lpjgsw1[yrix][gridcell.date.day];
- soilw_deep = (double)lpjgsw2[yrix][gridcell.date.day];
- // Convert from m3 m-3 to AWC [0-1] depending on soil type
- swConvert(gridcell.soiltype, soilw_surf, soilw_deep);
- // Daily N deposition (Read from file)
- // double dndep = ndep / (365.0 * 10000.0); // units kgN/ha/year to kgN/m2/day
- // double dndep_today = ndep / (365.0 * 10000.0); // units kgN/ha/year to kgN/m2/day
- double dndep_today = dndep[gridcell.date.day]; // units: kgN/m2/day
- double dnfert = 0.0;
- // NB! ecev3 - Could call getgridcell here if LU cover changes during spinup...
- // Transfer today's climate data to the Climate object in Gridcell.
- gridcell.climate.setdrivers(temp, precip, netswrad, netlwrad, co2spinup, temp_soil, soilw_surf, soilw_deep, dndep_today, dnfert);
- // Simulate vegetation today!
- simulate_day_ece(gridcell, prescribe_ifs_soilmoist, prescribe_ifs_soiltemp,
- veryfirstday, printoutput);
- veryfirstday = false; // NB! gridcell.simulationyear is updated on Dec 31 in simulate_day_ece
- // Daily LAI?
- if (spinupyear == nyear_spinup - 1 && gridcell.date.day == 0) {
- printdlai = true;
- // Print out dLAI?
- ofp = fopen("dailyLAIandFPC.txt", "a");
- }
- if (printdlai) {
- // Now calculate the LAI for high and low fractions
- computeDailyLAIandFPCforIFS(gridcell);
- fprintf(ofp, "%8.6f\t %8.6f\t %d\t %d\t %8.5f\t %8.5f\t %8.5f\t %8.5f\n", gridcell.get_lon(), gridcell.get_lat(), date.get_calendar_year(), date.day + 1,
- gridcell.laiphen_low_today, gridcell.laiphen_high_today, gridcell.IFSfraclow, gridcell.IFSfrachigh);
- }
- // Advance day and check for new years, number of repetitions etc.
- int oldyear = gridcell.date.year;
- // Next day of the simulation
- gridcell.date.next();
- date = gridcell.date;
- int newyear = gridcell.date.year;
- if (newyear != oldyear) {
- // If Jan 1...
- calyear++;
- yrix++;
- spinupyear++;
- // if (spinupyear >= 0) // for testing & debugging
- if (spinupyear >= nyear_spinup - 5)
- printoutput = true; // Only print output if we're in the final 10 years of the spinup
- if (calyear == year + NYEARIFS) {
- repix++; // One more repetition completed...
- calyear = year; // so reset the clock
- gridcell.date.set(year, 0, 0, 0, 0, 0);
- date = gridcell.date;
- yrix = 0; // Refer to correct array elements above
- }
- }
- if (repix == repetitions) // End of spinup if we've run all repetitions
- spinon = false;
- }
- // Close LAI file
- if (printdlai) {
- fclose(ofp);
- }
- dprintf("LPJ-GUESS ERA20C spinup complete\n");
- gridcell.isspinup = false; // set to false
- return true;
- } // ERA20Cspinup
- ///////////////////////////////////////////////////////////////////////////////////////
- // GUESS_COUPLED
- //
- void guess_coupled(int& id,
- int localrank,
- int numlpjgprocesses,
- int isfinal,
- double lon,
- double lat,
- int ifs_soilcd,
- int ifs_index,
- int ndep_index,
- int year,
- int sim_year,
- int month,
- int monthday,
- int hour,
- double temp,
- double precip,
- double netswrad,
- double netlwrad,
- double co2std,
- double temp_soil,
- double soilw_surf,
- double soilw_deep, // Arg18
- double vegl,
- int vegl_type,
- float& cfluxnattoday,
- float& cfluxanttoday,
- float& npptoday,
- float& laiphen_high,
- float& laiphen_low,
- float& ifsvegfrachigh,
- int& ifsvegtypehigh,
- float& ifsvegfraclow,
- int& ifsvegtypelow,
- bool islpjgspinup,
- int fixedNDepafter,
- int fixedLUafter)
- {
- // ARGUMENTS:
- // id = id from Gridcell object, 0 if initialising
- // is_final = 0: not the last timestep. 1: the final timestep - so save state!
- // ifs_soilcd = soil code used in IFS (1-8)
- // ifs_index = IFS index, i.e. cell 1 to 35718 (T159), or XXXXX (T255)
- // tile = forest or open land
- // year = calender! year (e.g. 1964)
- // sim_year = simulation year (0 to ...)
- // month = month (0-11)
- // dayofmonth = what it says (0-30)
- // hour = hour (0-23)
- // temp = instantaneous temperature 2m above ground (deg C)
- // precip = precip (total mm this time step)
- // netswrad = net downward shortwave radiation (J/m2/s)
- // netlwrad = net longwave radiation (J/m2/s)
- // co2std = ambient CO2 concentration (ppmv)
- // temp_soil = soil temperature (deg C)
- // soilw_surf = m3 m-3 from IFS - will convert below to soil water content AWC (0-1) - surface layer 0-50 cm
- // soilw_deep = m3 m-3 from IFS - will convert below to soil water content AWC (0-1) - deep layer 50-150 cm
- // vegl = fraction of IFS gridcell covered by the low type
- // vegl_type = IFS/H-TESSEL low vegetation type - needed to distinguish crops/agriculture, and tundra
- // cfluxnattoday = natural c clux for the gridcell
- // cfluxanttoday = anthropogenic c flux for the gridcell
- // npptoday = npp for the gridcell
- // laiphen_high = LAI from high vegetation today
- // laiphen_low = LAI from low vegetation today
- // ifsvegfrachigh = fraction of high vegetation in this cell
- // updated after spinup and on Dec 31
- // ifsvegtypehigh = Dominant IFS/H-TESSEL type of high vegetation in this cell
- // Values allowed: 3 (EN), 4 (DN), 5 (DB), 6 (EB), 18 (Mixed forest), 19 (Interrupted forest)
- // updated after spinup on Dec 31, for FOREST/HIGH stands only. 0 for GRASS/LOW stands
- // ifsvegfraclow = fraction of low vegetation in this cell
- // updated after spinup and on Dec 31
- // ifsvegtypelow = Dominant IFS/H-TESSEL type of low vegetation in this cell
- // Values allowed:
- // updated after spinup on Dec 31
- // islpjgspinup = Is this a spinup?
- // fixedNDepafter = year at which N deposition is fixed. Needed for DECK runs. Value -1 if not needed
- // fixedLUafter = year at which land use is fixed. Needed for DECK runs. Value -1 if not needed
- bool initialising=false;
- // Initialise variables to be returned to IFS
- cfluxnattoday=0.0;
- cfluxanttoday=0.0;
- npptoday=0.0;
- laiphen_high=0.0;
- laiphen_low=0.0;
- ifsvegfrachigh=0.0;
- ifsvegtypehigh=0;
- ifsvegfraclow=0.0;
- ifsvegtypelow=0;
- // Set to TRUE if we want debugguing print statements
- bool LPJG_debug = false;
- // Initialise GUESS if not yet done
- if (!ifinit) {
- // Input and output modules
- const char* input_module_name = "ece"; // ecev3 - use new EC-Earth InputModule
- InputModuleRegistry& theinstance = InputModuleRegistry::get_instance();
- input_module_ece = theinstance.create_input_module(input_module_name);
-
- output_modules_ece = new GuessOutput::OutputModuleContainer();
- GuessOutput::OutputModuleRegistry::get_instance().create_all_modules(*output_modules_ece);
- // Read the instruction file to obtain PFT static parameters and
- // simulation settings
- read_instruction_file("guess.ins");
- print_logfile_heading();
- // Initialise input/output - MUST be before the output module is initialized
- input_module_ece->init();
- // Initialise output
- (*output_modules_ece).init();
- // Initialise LPJ-GUESS
- initguess(localrank);
- // Create objects for (de)serializing grid cells
- if (!islpjgspinup && restart==1) { // Do not restart from file if we're spinning up.
- dprintf("LPJG: deserialization preparation for state path %s and name %s \n", (char*)state_path, (char*)state_name);
- deserializer_ece.reset(create_deserializer(state_path, state_name, year));
- }
- }
- if (LPJG_debug)
- dprintf("LPJG DEBUG 1 - Date is YEAR: %04d, MONTH: %02d, DOY:%03d, HOUR:%02d\n",year,month+1,monthday+1,hour);
- if (!id) {
-
- // Create new Gridcell object and initialise
-
- if (LPJG_debug) dprintf("LPJG DEBUG 2 - Date is YEAR: %04d, MONTH: %02d, DOY:%03d, HOUR:%02d\n",year,month+1,monthday+1,hour);
-
- initialising=true;
- world.push_back(new Gridcell());
- Gridcell& gridcell = *world.back();
- gridcell.id = world.size();
- gridcell.date.init(1);
- gridcell.ifs_index = ifs_index; // Record this gridcell's IFS index - used to get IFS spinup data
- gridcell.ndep_index = ndep_index; // Record this gridcell's N deposition index - used to access N deposition data
- date.init(1); // date.year needs to be zero when landcover_init/getlandcover is called
-
- // Store id
- id = gridcell.id;
- // Tell framework the coordinates of this grid cell
- gridcell.set_coordinates(lon, lat);
- // The insolation data is sent in as net SW over the whole day, not just daylight hours
- gridcell.climate.instype=NETSWRAD_TS;
- // Tell framework the soil type of this grid cell
- // Set soilcode to the value used by IFS.
- ifssoilparameters(gridcell.soiltype,ifs_soilcd);
- // Initialise dates AFTER call to landcover_init. This ensures that the stands are created.
- // NB - ecev3 - this makes sure that stand.first_year is set in landcover_init!!!
- date.set(year,month,monthday,hour,0,0);
- gridcell.date = date;
- gridcell.set_first_year(date.year); // Now initialise the first year. This ensures that anetps_ff_est_initial is initialised
- // Initialise certain climate and soil drivers
- gridcell.climate.initdrivers(gridcell.get_lat());
-
- // RESTART from state file?
- if (deserializer_ece.get() && !islpjgspinup) {
- deserializer_ece->deserialize_gridcell(gridcell);
- dprintf("LPJG: Loaded state from file\n");
- if (calc_phen_after_restart) {
- // Update phenology - not saved in earlier versions of the code
- // Now it is saved, so there is no need for this code anymore, but it is kept to
- // ensure for consistency with non-C4MIP CMIP6 runs. Set in guess.ins
- for(unsigned int i = 0; i < gridcell.nbr_stands(); i++) {
-
- // For each stand ...
- Stand& stand = gridcell[i];
- stand.firstobj();
- while (stand.isobj) {
- // For each patch ...
- Patch& patch = stand.getobj();
- leaf_phenology(patch,gridcell.climate);
- stand.nextobj();
- }
- }
- }
- } else
- dprintf("LPJG: Did not load state from file\n");
- // ecev3 - set a year from which to freeze Land Use Change
- // Moved here, after deserialization because fixedLUafter is serialized.
- //TODO: remove from serialization
- gridcell.fixedLUafter = fixedLUafter;
- int thisyear = date.get_calendar_year();
- if (gridcell.fixedLUafter >= 0 && thisyear >= gridcell.fixedLUafter) {
- gross_land_transfer = 0;
- if (date.day == 0)
- dprintf("Setting gross_land_transfer = 0. fixedLUfter = %d, year = %d \n", gridcell.fixedLUafter, thisyear);
- }
- // Call input module to obtain updated LU driver data for this grid cell.
- if (!input_module_ece->getgridcell(gridcell)) {
- dprintf("LPJG: error in getgridcell !\n");
- return;
- }
- if(run_landcover && islpjgspinup) {
- // ecev3 - moved from above. We should call this when we're spinning up, and on Jan 1 each year
- // Read static landcover and cft fraction data from ins-file and/or from data files for the spinup period and create stands
- // make sure that landcover is initialized with isspinup = true
- gridcell.isspinup = true;
- landcover_init(gridcell, input_module_ece); // ecev3
- }
- // SPINUP?
- if (islpjgspinup) {
- // Always use IFS data to spinup
- bool spinupOK = false;
- if (!ERA20CSPINUP)
- spinupOK = IFSspinup(gridcell, year, co2std, useifssoilmoist, useifssoiltemp);
- else // ERA20C or GSWP3 forcing
- spinupOK = ERA20Cspinup(gridcell, year, co2std, useifssoilmoist, useifssoiltemp);
-
- if (!spinupOK) {
- dprintf("Error in spinup \n\n\n");
- fail();
- }
- // Save the state so we don't need a spinup next time
- dprintf("Rank %i is saving state after spinup for cell with lon=%f, lat=%f\n", localrank, lon, lat);
- if (!serializer_ece.get()) {
- serializer_ece.reset(create_serializer(state_path, state_name,
- year,
- inst,
- numlpjgprocesses));
- }
-
- serializer_ece->serialize_gridcell(gridcell);
- // Save the state so we don't need a spinup next time
- dprintf("Rank %i has saved the state after spinup for cell with lon=%f, lat=%f\n", localrank, lon, lat);
- }
- if (LPJG_debug) dprintf("LPJG DEBUG - initialisation OK \n\n\n");
- // End of initialisation
- }
- // No need for return values when spinning up
- if (islpjgspinup) {
- cfluxnattoday=0.0;
- cfluxanttoday=0.0;
- npptoday=0.0;
- laiphen_high=0.0;
- laiphen_low=0.0;
- ifsvegfrachigh=0.0;
- ifsvegtypehigh=0;
- ifsvegfraclow=0.0;
- ifsvegtypelow=0;
- world.clear(); // reduce memory usage during spinup
- return;
- }
- // Retrieve gridcell object
- Gridcell& gridcell = *world[id-1];
- // Reset dates
- date.set(year,month,monthday,hour,0,0);
- gridcell.date = date;
- // Convert from m3 m-3 to AWC [0-1] depending on soil type
- swConvert(gridcell.soiltype,soilw_surf,soilw_deep);
- /// Daily N deposition for current year
- double dndep[Date::MAX_YEAR_LENGTH];
- if (gridcell.date.day == 0) {
- // Jan 1 only
- // We use the following call to instead read conservatively-mapped N deposition data into
- // gridcell.mndrydep[12] and gridcell.mnwetdep[12] in getndepCMIP6.
- // Saves the data in gridcell.mndrydep[12] and gridcell.mnwetdep[12], so only need to call this once per year, per gridcell
- bool Ndepdatafound = gridcell.getndepCMIP6(param["ndep_cmip6_dir"].str, fixedNDepafter);
- if (!Ndepdatafound) {
- dprintf("Rank %i could not read N deposition files for cell with lon=%f, lat=%f\n", localrank, lon, lat);
- fail();
- }
- }
- double drizzle[Date::MAX_YEAR_LENGTH];
- for (int dd=0; dd<Date::MAX_YEAR_LENGTH; dd++) drizzle[dd]=1.0; // Assume 1 mm/day
- // Distribute N deposition, assuming it rains a bit every day
- distribute_ndep(gridcell.mndrydep, gridcell.mnwetdep, drizzle, date.ndaymonth, dndep);
-
- double dndep_today = dndep[gridcell.date.day]; // NB! "day" is actually month day
- double dnfert = 0.0;
- // Call input module to obtain LU driver data for this grid cell.
- if (gridcell.date.day == 0) {
- if (!input_module_ece->getgridcell(gridcell)) {
- dprintf("LPJG: error in getgridcell !\n");
- return;
- }
- }
- // Transfer today's climate data to the Climate object in Gridcell.
- gridcell.climate.setdrivers(temp, precip, netswrad, netlwrad, co2std,temp_soil,soilw_surf,soilw_deep, dndep_today, dnfert);
- // simulate vegetation today (and assume that Gridcell properties have already been initialised)
- simulate_day_ece(gridcell, useifssoilmoist, useifssoiltemp, false, true);
- // Don't update date. This is driven outside the call to guess_coupled and updated in Reset dates above
- /*
- gridcell.date.next();
- date=gridcell.date;
- */
- // Calculate return values
- // -------------
- // 1. C FLUX TODAY
- // NB! a positive C flux (cfluxtoday or npptoday) implies a net C RELEASE by this gridcell,
- // and a negative value implies a net C UPTAKE
- // Update C flux variable of interest
- unsigned int nrst = gridcell.nbr_stands();
- for(unsigned int i = 0; i < nrst; i++) {
- // For each stand ...
- cfluxnattoday += gridcell[i].dcfluxnat_today * gridcell[i].get_gridcell_fraction();
- cfluxanttoday += gridcell[i].dcfluxant_today * gridcell[i].get_gridcell_fraction();
- npptoday += gridcell[i].dnpp_today * gridcell[i].get_gridcell_fraction();
- }
- // 2. VEGETATION STATE
- // Dominant vegetation type and cover fractions for this grid cell are updated on Dec 31
- // each year, when computeIFSVegetationCover(gridcell) is called from simulate_day_ece() above,
- // just after outannual
- // Now calculate the LAI for high and low fractions
- computeDailyLAIandFPCforIFS(gridcell);
- // Send the vegetation state information back to IFS
- // Values updated daily:
- laiphen_high = gridcell.laiphen_high_today;
- laiphen_low = gridcell.laiphen_low_today;
- ifsvegfrachigh = gridcell.IFSfrachigh;
- ifsvegfraclow = gridcell.IFSfraclow;
- // Values updated on Dec 31:
- ifsvegtypehigh = gridcell.IFStypehigh;
- ifsvegtypelow = gridcell.IFStypelow;
- /*
- if (date.month==11 && date.dayofmonth==30)
- dprintf("Year, number of stands: %04d, %04d\n", date.year, gridcell.nbr_stands());
- */
- // SAVESTATE???
- // -------------
- // Finally, we determine if the state file should be created
- if (isfinal && !initialising) {
- dprintf("Date info for isfinal is: %04d-%02d-%02d, %02d\n",date.year,date.month+1,date.dayofmonth+1);
-
- // Serialize by increasing the year by 1, i.e. so we can restart on Jan 1 the following year
- if (!serializer_ece.get()) {
- serializer_ece.reset(create_serializer(state_path, state_name, year+1, inst, numlpjgprocesses));
- }
-
- serializer_ece->serialize_gridcell(gridcell);
-
- } else {
- // When it's no longer time to save state we'll get rid of the serializer
- // object so that the files get flushed. The next time it's time to
- // save state, we'll create a new serializer object with a new date.
- serializer_ece.reset();
- }
- }
- // cleans up after run has finished
- void guess_coupled_finish()
- {
- delete output_modules_ece;
- }
|