Difference between revisions of "ControlTable Production Model"
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:'''SoderbergWithTreeAge''' implies that the model by Söderberg including single tree ages will be used in calculation of height development. | :'''SoderbergWithTreeAge''' implies that the model by Söderberg including single tree ages will be used in calculation of height development. | ||
:'''SoderbergWithStandAge''' implies that the model by Söderberg including average stand ages will be used in calculation of height development. | :'''SoderbergWithStandAge''' implies that the model by Söderberg including average stand ages will be used in calculation of height development. | ||
− | '''HeightTresholdPlantToTreePlot | + | '''HeightTresholdPlantToTreePlot''' |
:Defines the average tree height at stand-level[?], in meters, when saplings are turned-over and classified as trees. | :Defines the average tree height at stand-level[?], in meters, when saplings are turned-over and classified as trees. | ||
'''InitialHeightModel''' | '''InitialHeightModel''' | ||
Line 104: | Line 104: | ||
:'''True''' implies that spatial growth models are to be used, '''False''' do not. | :'''True''' implies that spatial growth models are to be used, '''False''' do not. | ||
− | == Ingrowth calculations ( | + | == Ingrowth calculations (only if spatial growth modelling is '''True''') == |
− | Allows you to control | + | Allows you to control the establishment of new trees, as naturally regenerated seedlings. |
'''IngrowthAffectingRadius''' | '''IngrowthAffectingRadius''' | ||
'''IngrowthRasterCellsize''' | '''IngrowthRasterCellsize''' | ||
− | == Virtual plot ( | + | == Virtual plot (only if spatial growth modelling is '''True''') == |
Allows you to control... | Allows you to control... | ||
'''SmallestDistanceBetweenTrees''' | '''SmallestDistanceBetweenTrees''' | ||
'''VirtualPlotSize''' | '''VirtualPlotSize''' |
Revision as of 15:52, 15 September 2009
In the production model control table you can configure the simulation of the forests' development, i.e. how trees establish, grow, and finally die if not harvested before that.
Growth and yield
Allows you to control the net growth and yield from harvests, by applying certain models/-components in the simulations.
CalculateStandGrowthForLargeTreesOnly
- True implies that stand growth is calculated as the growth of trees with at least 10 cm's diameter only, False do not (i.e. includes all trees' growth).
CalibrateHeight
- True implies that tree heights will be calibrated, False do not. Calibration factors are calculated using sample tree data.
HeightGrowthModel
- ErikssonElfving implies that the model by Eriksson and Elving will be used in calculation of height development.
- SoderbergWithTreeAge implies that the model by Söderberg including single tree ages will be used in calculation of height development.
- SoderbergWithStandAge implies that the model by Söderberg including average stand ages will be used in calculation of height development.
HeightTresholdPlantToTreePlot
- Defines the average tree height at stand-level[?], in meters, when saplings are turned-over and classified as trees.
InitialHeightModel
- SoderbergWithTreeAge implies that the model by Söderberg including single tree ages will be used in calculation of initial tree heights.
- SoderbergWithStandAge implies that the model by Söderberg including average stand ages will be used in calculation of initial tree heights.
InitialHeightSource
- UseFunction implies that the model selected in InitialHeightModel (above) will be used.
- FromDatabase implies that initial tree heights will be obtained from an available database [The Hugin young forest-database?].
MortalityFridmanOnly
- True implies that the model by Fridman and Ståhl will be used in calculation of mortality, False implies that the model by Söderberg and Bengtsson will be used together with the model by Fridman and Ståhl.
MortalityModel
- Deterministic will apply deterministic components in the mortality model.
- Stochastic will apply stochastic components in the mortality model.
- None will not apply any mortality model.
MortalityRetainedTreesYear1_5
- Aspen defines the rate of mortality, in percentage per 5-year-period, of retained trees of Populus tremula the first five years after final felling.
- Beech defines the rate of mortality, in percentage per 5-year-period, of retained trees of Fagus silvatica the first five years after final felling.
- Birch defines the rate of mortality, in percentage per 5-year-period, of retained trees of Betula ssp. the first five years after final felling.
- Broadleaf defines the rate of mortality, in percentage per 5-year-period, of retained trees of broadleaves other than birch and aspen (sv: triviallöv) the first five years after final felling.
- Contorta defines the rate of mortality, in percentage per 5-year-period, of retained trees of Pinus contorta the first five years after final felling.
- Deciduous defines the rate of mortality, in percentage per 5-year-period, of retained trees of broadleaves other than beech and oak (sv: ädellöv) the first five years after final felling.
- Oak defines the rate of mortality, in percentage per 5-year-period, of retained trees of Quercus robur the first five years after final felling.
- Pine defines the rate of mortality, in percentage per 5-year-period, of retained trees of Pinus sylvestris the first five years after final felling.
- Spruce defines the rate of mortality, in percentage per 5-year-period, of retained trees of Picea abies the first five years after final felling.
- Unknown defines the rate of mortality, in percentage per 5-year-period, of retained trees of unknown species the first five years after final felling.
MortalityRetainedTreesYear6_10
- Aspen defines the rate of mortality, in percentage per 5-year-period, of retained trees of Populus tremula year six to ten after final felling.
- Beech defines the rate of mortality, in percentage per 5-year-period, of retained trees of Fagus silvatica year six to ten after final felling.
- Birch defines the rate of mortality, in percentage per 5-year-period, of retained trees of Betula ssp. year six to ten after final felling.
- Broadleaf defines the rate of mortality, in percentage per 5-year-period, of retained trees of broadleaves other than birch and aspen (sv: triviallöv) year six to ten after final felling.
- Contorta defines the rate of mortality, in percentage per 5-year-period, of retained trees of Pinus contorta year six to ten after final felling.
- Deciduous defines the rate of mortality, in percentage per 5-year-period, of retained trees of broadleaves other than beech and oak (sv: ädellöv) year six to ten after final felling.
- Oak defines the rate of mortality, in percentage per 5-year-period, of retained trees of Quercus robur year six to ten after final felling.
- Pine defines the rate of mortality, in percentage per 5-year-period, of retained trees of Pinus sylvestris year six to ten after final felling.
- Spruce defines the rate of mortality, in percentage per 5-year-period, of retained trees of Picea abies year six to ten after final felling.
- Unknown defines the rate of mortality, in percentage per 5-year-period, of retained trees of unknown species year six to ten after final felling.
OmitThinningEffect
- True implies that the usually positive thinning effect upon growth will be omitted, False do not.
SingleTreeGrowthModel
- Elfving implies that the model by Elfving will be used in calculation of each trees' diameter development at the plot-level (the prediction unit).
- Soderberg implies that the model by Söderberg will be used in calculation of each trees' diameter development at the plot-level (the prediction unit).
VolumeModel
- BrandelLesser implies that the model by Brandel, with less predictor variables, will be used in calculation of tree volumes.
- SoderbergFormHeight implies that the model by Söderberg, with form height as predictor variable, will be used in calculation of tree volumes.
- BrandelWithIndicatorVariables implies that the model by Brandel, with indicator variables as predictors, will be used in calculation of tree volumes.
WholeStandGrowthModel
- None implies that no basal area development, as the sum for all trees at the plot-level, will be used in growth calculations.
- Elfving2005 implies that the model by Elfving, anno 2005, will be used in calculation of basal area development at the plot-level (the prediction unit).
- Elfving2009 implies that the model by Elfving, anno 2009, will be used in calculation of basal area development at the plot-level (the prediction unit).
Age settings
Allows you to control how different types of ages, at tree-level, should be handled in the simulations.
AgeSetting
- Real implies that the real age of the trees should be used in the calculations. The real age is calculated from the time of germination of the seed.
- Biological implies that the biological age of the trees should be used in the calculations. The biological age is calculated from the time when the seedling began to grow.
AgeToBreastHeightModel
- Elfving implies that the model by Elfving will be used in calculation of the age of a tree when it reach breast height (1.3 m).
- Tax implies that the model from the Swedish NFI will be used in calculation of the age of a tree when it reach breast height (1.3 m).
CalibrateAge
- True implies that tree ages will be calibrated (using sample tree data[?]), False do not.
InitialAgeSource
- UseFunction implies that a build-in function will be used in calculation of trees' initial ages.
- FromDatabase implies that information from database [The Hugin young forest-database?] will be used in derivation [imputation?] of trees' initial ages.
Regeneration
Allows you to control how the forest regeneration, the establishment of new trees, should be handled in the simulations.
IngrowthModel
- Deterministic applies deterministic ingrowth model components, where ingrowth is defined as the establishment of other seedlings than those planted.
- Stochastic applies stochasitc ingrowth model components, where ingrowth is defined as the establishment of other seedlings than those planted.
- None applies no ingrowth/establishment of other seedlings than those planted.
PlantDamageFactor
- Defines the factor of which damages upon seedlings and saplings should be simulated, expressed in value range (0, 2).
PlantDiameterModel
- Elfving implies that the model by Elfving will be used in calculation of the saplings' diameter.
- NystromSoderberg implies that the model by Nyström and Söderberg will be used in calculation of the saplings' diameter.
PlantHeightGrowthModel
- ElfvingHugin implies that the model by Elfving, with information from the Hugin young forest-database, will be used in calculation of the saplings' height development (at the plot-level).
- NystromSingleTree implies that the model by Nyström will be used in calculation of each saplings' height development, i.e. at the single tree-level.
SkipIngrowthStepOne
- True implies that the first step, in the first 5 year-period, of ingrowth will not be simulated, False do not.
Growth
Allows you to control if spatiality should be taken into account in the growth simulations. The results of a spatial growth model will depend on the trees' positions.
Spatial
- True implies that spatial growth models are to be used, False do not.
Ingrowth calculations (only if spatial growth modelling is True)
Allows you to control the establishment of new trees, as naturally regenerated seedlings.
IngrowthAffectingRadius IngrowthRasterCellsize
Virtual plot (only if spatial growth modelling is True)
Allows you to control...
SmallestDistanceBetweenTrees VirtualPlotSize