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| 671 | werner | 2 | /******************************************************************************************** |
| 3 | ** iLand - an individual based forest landscape and disturbance model |
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| 4 | ** http://iland.boku.ac.at |
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| 5 | ** Copyright (C) 2009- Werner Rammer, Rupert Seidl |
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| 6 | ** |
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| 7 | ** This program is free software: you can redistribute it and/or modify |
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| 8 | ** it under the terms of the GNU General Public License as published by |
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| 9 | ** the Free Software Foundation, either version 3 of the License, or |
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| 10 | ** (at your option) any later version. |
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| 11 | ** |
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| 12 | ** This program is distributed in the hope that it will be useful, |
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| 13 | ** but WITHOUT ANY WARRANTY; without even the implied warranty of |
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| 14 | ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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| 15 | ** GNU General Public License for more details. |
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| 16 | ** |
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| 17 | ** You should have received a copy of the GNU General Public License |
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| 18 | ** along with this program. If not, see <http://www.gnu.org/licenses/>. |
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| 19 | ********************************************************************************************/ |
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| 20 | |||
| 91 | Werner | 21 | #include <QtCore> |
| 22 | #include <QtSql> |
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| 23 | #include "global.h" |
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| 393 | werner | 24 | #include "globalsettings.h" |
| 102 | Werner | 25 | #include "xmlhelper.h" |
| 90 | Werner | 26 | #include "speciesset.h" |
| 91 | Werner | 27 | #include "species.h" |
| 387 | werner | 28 | #include "model.h" |
| 29 | #include "seeddispersal.h" |
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| 393 | werner | 30 | #include "modelsettings.h" |
| 90 | Werner | 31 | |
| 697 | werner | 32 | /** @class SpeciesSet |
| 33 | A SpeciesSet acts as a container for individual Species objects. In iLand, theoretically, |
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| 34 | multiple species sets can be used in parallel. |
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| 35 | */ |
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| 36 | |||
| 90 | Werner | 37 | SpeciesSet::SpeciesSet() |
| 38 | { |
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| 91 | Werner | 39 | mSetupQuery = 0; |
| 90 | Werner | 40 | } |
| 91 | Werner | 41 | |
| 42 | SpeciesSet::~SpeciesSet() |
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| 43 | { |
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| 44 | clear(); |
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| 45 | } |
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| 46 | |||
| 47 | void SpeciesSet::clear() |
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| 48 | { |
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| 49 | qDeleteAll(mSpecies.values()); |
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| 387 | werner | 50 | qDeleteAll(mSeedDispersal); |
| 91 | Werner | 51 | mSpecies.clear(); |
| 179 | werner | 52 | mActiveSpecies.clear(); |
| 91 | Werner | 53 | } |
| 54 | |||
| 111 | Werner | 55 | const Species *SpeciesSet::species(const int &index) |
| 56 | { |
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| 57 | foreach(Species *s, mSpecies) |
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| 58 | if (s->index() == index) |
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| 59 | return s; |
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| 60 | return NULL; |
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| 61 | } |
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| 91 | Werner | 62 | |
| 63 | /** loads active species from a database table and creates/setups the species. |
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| 64 | The function uses the global database-connection. |
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| 65 | */ |
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| 102 | Werner | 66 | int SpeciesSet::setup() |
| 91 | Werner | 67 | { |
| 102 | Werner | 68 | const XmlHelper &xml = GlobalSettings::instance()->settings(); |
| 191 | werner | 69 | QString tableName = xml.value("model.species.source", "species"); |
| 318 | werner | 70 | mName = tableName; |
| 191 | werner | 71 | QString readerFile = xml.value("model.species.reader", "reader.bin"); |
| 102 | Werner | 72 | readerFile = GlobalSettings::instance()->path(readerFile, "lip"); |
| 73 | mReaderStamp.load(readerFile); |
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| 74 | |||
| 91 | Werner | 75 | QSqlQuery query(GlobalSettings::instance()->dbin()); |
| 76 | mSetupQuery = &query; |
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| 77 | QString sql = QString("select * from %1").arg(tableName); |
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| 78 | query.exec(sql); |
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| 270 | werner | 79 | if (query.lastError().isValid()){ |
| 80 | throw IException(QString("Error loading species set: %1 \n %2").arg(sql, query.lastError().text()) ); |
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| 81 | } |
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| 82 | |||
| 91 | Werner | 83 | clear(); |
| 84 | qDebug() << "attempting to load a species set from" << tableName; |
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| 85 | while (query.next()) { |
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| 86 | if (var("active").toInt()==0) |
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| 87 | continue; |
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| 88 | |||
| 89 | Species *s = new Species(this); // create |
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| 99 | Werner | 90 | // call setup routine (which calls SpeciesSet::var() to retrieve values |
| 91 | Werner | 91 | s->setup(); |
| 92 | |||
| 93 | mSpecies.insert(s->id(), s); // store |
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| 179 | werner | 94 | if (s->active()) |
| 95 | mActiveSpecies.append(s); |
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| 577 | werner | 96 | |
| 97 | Expression::addConstant(s->id(), s->index()); |
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| 91 | Werner | 98 | } // while query.next() |
| 99 | qDebug() << "loaded" << mSpecies.count() << "active species:"; |
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| 575 | werner | 100 | qDebug() << "index, id, name"; |
| 101 | foreach(const Species *s, mActiveSpecies) |
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| 102 | qDebug() << s->index() << s->id() << s->name(); |
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| 91 | Werner | 103 | |
| 104 | mSetupQuery = 0; |
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| 209 | werner | 105 | |
| 106 | // setup nitrogen response |
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| 107 | XmlHelper resp(xml.node("model.species.nitrogenResponseClasses")); |
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| 108 | if (!resp.isValid()) |
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| 109 | throw IException("model.species.nitrogenResponseClasses not present!"); |
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| 110 | mNitrogen_1a = resp.valueDouble("class_1_a"); |
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| 111 | mNitrogen_1b = resp.valueDouble("class_1_b"); |
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| 112 | mNitrogen_2a = resp.valueDouble("class_2_a"); |
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| 113 | mNitrogen_2b = resp.valueDouble("class_2_b"); |
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| 114 | mNitrogen_3a = resp.valueDouble("class_3_a"); |
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| 115 | mNitrogen_3b = resp.valueDouble("class_3_b"); |
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| 116 | if (mNitrogen_1a*mNitrogen_1b*mNitrogen_2a*mNitrogen_2b*mNitrogen_3a*mNitrogen_3b == 0) |
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| 117 | throw IException("at least one parameter of model.species.nitrogenResponseClasses is not valid (value=0)!"); |
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| 118 | |||
| 119 | // setup CO2 response |
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| 120 | XmlHelper co2(xml.node("model.species.CO2Response")); |
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| 121 | mCO2base = co2.valueDouble("baseConcentration"); |
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| 122 | mCO2comp = co2.valueDouble("compensationPoint"); |
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| 123 | mCO2beta0 = co2.valueDouble("beta0"); |
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| 124 | mCO2p0 = co2.valueDouble("p0"); |
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| 125 | if (mCO2base*mCO2comp*(mCO2base-mCO2comp)*mCO2beta0*mCO2p0==0) |
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| 126 | throw IException("at least one parameter of model.species.CO2Response is not valid!"); |
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| 127 | |||
| 274 | werner | 128 | // setup Light responses |
| 129 | XmlHelper light(xml.node("model.species.lightResponse")); |
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| 130 | mLightResponseTolerant.setAndParse(light.value("shadeTolerant")); |
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| 131 | mLightResponseIntolerant.setAndParse(light.value("shadeIntolerant")); |
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| 428 | werner | 132 | mLightResponseTolerant.linearize(0., 1.); |
| 133 | mLightResponseIntolerant.linearize(0., 1.); |
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| 274 | werner | 134 | if (mLightResponseTolerant.expression().isEmpty() || mLightResponseIntolerant.expression().isEmpty()) |
| 135 | throw IException("at least one parameter of model.species.lightResponse is empty!"); |
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| 425 | werner | 136 | // lri-correction |
| 137 | mLRICorrection.setAndParse(light.value("LRImodifier","1")); |
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| 428 | werner | 138 | // x: LRI, y: relative heigth |
| 139 | mLRICorrection.linearize2d(0., 1., 0., 1.); |
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| 391 | werner | 140 | return mSpecies.count(); |
| 387 | werner | 141 | |
| 391 | werner | 142 | } |
| 143 | |||
| 144 | void SpeciesSet::setupRegeneration() |
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| 145 | { |
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| 764 | werner | 146 | SeedDispersal::setupExternalSeeds(); |
| 391 | werner | 147 | foreach(Species *s, mActiveSpecies) { |
| 148 | SeedDispersal *sd = new SeedDispersal(s); |
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| 149 | sd->setup(); // setup memory for the seed map (grid) |
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| 150 | s->setSeedDispersal(sd); // establish the link between species and the map |
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| 387 | werner | 151 | } |
| 764 | werner | 152 | SeedDispersal::finalizeExternalSeeds(); |
| 391 | werner | 153 | qDebug() << "Setup of seed dispersal maps finished."; |
| 154 | } |
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| 91 | Werner | 155 | |
| 475 | werner | 156 | Species *nc_seed_distribution(Species *species) |
| 157 | { |
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| 479 | werner | 158 | species->seedDispersal()->execute(); |
| 475 | werner | 159 | return species; |
| 160 | } |
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| 391 | werner | 161 | void SpeciesSet::regeneration() |
| 162 | { |
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| 393 | werner | 163 | if (!GlobalSettings::instance()->model()->settings().regenerationEnabled) |
| 164 | return; |
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| 615 | werner | 165 | |
| 166 | |||
| 475 | werner | 167 | ThreadRunner runner(mActiveSpecies); // initialize a thread runner object with all active species |
| 168 | runner.run(nc_seed_distribution); |
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| 391 | werner | 169 | |
| 475 | werner | 170 | if (logLevelDebug()) |
| 171 | qDebug() << "seed dispersal finished."; |
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| 91 | Werner | 172 | } |
| 211 | werner | 173 | |
| 391 | werner | 174 | /** newYear is called by Model::runYear at the beginning of a year before any growth occurs. |
| 175 | This is used for various initializations, e.g. to clear seed dispersal maps |
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| 176 | */ |
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| 177 | void SpeciesSet::newYear() |
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| 178 | { |
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| 393 | werner | 179 | if (!GlobalSettings::instance()->model()->settings().regenerationEnabled) |
| 180 | return; |
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| 391 | werner | 181 | foreach(Species *s, mActiveSpecies) { |
| 415 | werner | 182 | s->newYear(); |
| 391 | werner | 183 | } |
| 184 | } |
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| 211 | werner | 185 | |
| 91 | Werner | 186 | /** retrieves variables from the datasource available during the setup of species. |
| 187 | */ |
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| 188 | QVariant SpeciesSet::var(const QString& varName) |
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| 189 | { |
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| 94 | Werner | 190 | Q_ASSERT(mSetupQuery!=0); |
| 91 | Werner | 191 | |
| 192 | int idx = mSetupQuery->record().indexOf(varName); |
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| 193 | if (idx>=0) |
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| 194 | return mSetupQuery->value(idx); |
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| 125 | Werner | 195 | throw IException(QString("SpeciesSet: variable not set: %1").arg(varName)); |
| 120 | Werner | 196 | //throw IException(QString("load species parameter: field %1 not found!").arg(varName)); |
| 91 | Werner | 197 | // lookup in defaults |
| 119 | Werner | 198 | //qDebug() << "variable" << varName << "not found - using default."; |
| 199 | //return GlobalSettings::instance()->settingDefaultValue(varName); |
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| 91 | Werner | 200 | } |
| 209 | werner | 201 | |
| 202 | inline double SpeciesSet::nitrogenResponse(const double &availableNitrogen, const double &NA, const double &NB) const |
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| 203 | { |
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| 204 | if (availableNitrogen<=NB) |
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| 205 | return 0; |
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| 206 | double x = 1. - exp(NA * (availableNitrogen-NB)); |
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| 207 | return x; |
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| 208 | } |
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| 209 | |||
| 210 | /// calculate nitrogen response for a given amount of available nitrogen and a respone class |
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| 211 | /// for fractional values, the response value is interpolated between the fixedly defined classes (1,2,3) |
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| 212 | double SpeciesSet::nitrogenResponse(const double availableNitrogen, const double &responseClass) const |
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| 213 | { |
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| 214 | double value1, value2, value3; |
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| 215 | if (responseClass>2.) { |
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| 216 | if (responseClass==3.) |
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| 217 | return nitrogenResponse(availableNitrogen, mNitrogen_3a, mNitrogen_3b); |
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| 218 | else { |
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| 219 | // interpolate between 2 and 3 |
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| 220 | value2 = nitrogenResponse(availableNitrogen, mNitrogen_2a, mNitrogen_2b); |
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| 221 | value3 = nitrogenResponse(availableNitrogen, mNitrogen_3a, mNitrogen_3b); |
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| 222 | return value2 + (responseClass-2)*(value3-value2); |
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| 223 | } |
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| 224 | } |
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| 225 | if (responseClass==2) |
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| 226 | return nitrogenResponse(availableNitrogen, mNitrogen_2a, mNitrogen_2b); |
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| 227 | if (responseClass==1) |
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| 228 | return nitrogenResponse(availableNitrogen, mNitrogen_1a, mNitrogen_1b); |
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| 229 | // last ressort: interpolate between 1 and 2 |
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| 230 | value1 = nitrogenResponse(availableNitrogen, mNitrogen_1a, mNitrogen_1b); |
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| 231 | value2 = nitrogenResponse(availableNitrogen, mNitrogen_2a, mNitrogen_2b); |
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| 232 | return value1 + (responseClass-1)*(value2-value1); |
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| 233 | } |
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| 234 | |||
| 235 | /** calculation for the CO2 response for the ambientCO2 for the water- and nitrogen responses given. |
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| 236 | The calculation follows Friedlingsstein 1995 (see also links to equations in code) |
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| 534 | werner | 237 | see also: http://iland.boku.ac.at/CO2+response |
| 238 | @param ambientCO2 current CO2 concentration (ppm) |
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| 239 | @param nitrogenResponse (yearly) nitrogen response of the species |
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| 240 | @param soilWaterReponse soil water response (mean value for a month) |
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| 209 | werner | 241 | */ |
| 242 | double SpeciesSet::co2Response(const double ambientCO2, const double nitrogenResponse, const double soilWaterResponse) const |
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| 243 | { |
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| 210 | werner | 244 | if (nitrogenResponse==0) |
| 245 | return 0.; |
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| 246 | |||
| 209 | werner | 247 | double co2_water = 2. - soilWaterResponse; |
| 248 | double beta = mCO2beta0 * co2_water * nitrogenResponse; |
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| 249 | |||
| 250 | double r =1. + M_LN2 * beta; // NPP increase for a doubling of atmospheric CO2 (Eq. 17) |
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| 251 | |||
| 252 | // fertilization function (cf. Farquhar, 1980) based on Michaelis-Menten expressions |
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| 253 | double deltaC = mCO2base - mCO2comp; |
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| 254 | double K2 = ((2*mCO2base - mCO2comp) - r*deltaC ) / ((r-1.)*deltaC*(2*mCO2base - mCO2comp)); // Eq. 16 |
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| 255 | double K1 = (1. + K2*deltaC) / deltaC; |
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| 256 | |||
| 257 | double response = mCO2p0 * K1*(ambientCO2 - mCO2comp) / (1 + K2*(ambientCO2-mCO2comp)); // Eq. 16 |
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| 258 | return response; |
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| 259 | |||
| 260 | } |
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| 211 | werner | 261 | |
| 274 | werner | 262 | /** calculates the lightResponse based on a value for LRI and the species lightResponseClass. |
| 263 | LightResponse is classified from 1 (very shade inolerant) and 5 (very shade tolerant) and interpolated for values between 1 and 5. |
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| 298 | werner | 264 | Returns a value between 0..1 |
| 265 | @sa http://iland.boku.ac.at/allocation#reserve_and_allocation_to_stem_growth */ |
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| 470 | werner | 266 | double SpeciesSet::lightResponse(const double lightResourceIndex, const double lightResponseClass) const |
| 274 | werner | 267 | { |
| 268 | double low = mLightResponseIntolerant.calculate(lightResourceIndex); |
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| 269 | double high = mLightResponseTolerant.calculate(lightResourceIndex); |
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| 270 | double result = low + 0.25*(lightResponseClass-1.)*(high-low); |
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| 271 | return limit(result, 0., 1.); |
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| 214 | werner | 272 | |
| 274 | werner | 273 | } |
| 274 | |||
| 275 | |||
| 276 |