SpParams: Data tables with species parameter values for Mediterranean and US

A data frame with species as rows and the following columns (variables), grouped by categories.

Plant identity:

Name: A factor with taxon names (mostly species names). IFNcodes: A factor with levels corresponding to species codes in the Third Spanish forest inventory (DGCN 2005). SpIndex: A numeric vector of the species index. Group: Either "Gymnosperm" or "Angiosperm". Order: Taxonomical order. Family: Taxonomical family. GrowthForm: Either Shrub, Tree and Tree/Shrub.

Plant size:

Hmax: Maximum plant height (in cm). Hmed: Median plant height (in cm). Z50: Rooting depth (in mm) corresponding to 50% of fine roots. Z95: Rooting depth (in mm) corresponding to 95% of fine roots.

Shrub allometric coefficients (calibrated for Catalonia; see De C<U+00E1>ceresCaceres et al. 2019):

a_ash, b_ash: Allometric coefficients relating shrub height with the projected area of shrub individuals. a_bsh, b_bsh: Allometric coefficients relating phytovolume with dry weight of shrub individuals. cr: Ratio between shrub crown length and total height.

Tree allometric coefficients (calibrated for Catalonia):

a_fbt, b_fbt, c_fbt, d_fbt: Regression coefficients used to calculate foliar biomass of an individual tree from its dbh and the cummulative basal area of larger trees. a_cr, b_1cr, b_2cr, b_3cr, c_1cr, c_2cr: Regression coefficients used to calculate crown ratio of trees. a_cw, b_cw: Regression coefficients used to calculated crown width of trees.

Phenology:

PhenologyType: Leaf phenology type, either "oneflush-evergreen" (new leaves develop in spring-summer), "progressive-evergreen" (new leaves develop during any season), "winter-deciduous" (leaf senescence in autumn, new leaves in spring-summer) or "winter-semideciduous" (same as before, but abscission of senescent leaves occurs when new leaves are produced). LeafDuration: Leaf duration (in years). Sgdd: Degree days for leaf budburst (in Celsius). Tbgdd: Base temperature for the calculation of degree days to leaf budburst. Ssen: Degree days corresponding to leaf senescence. Phsen: Photoperiod corresponding to start counting senescence degree-days. Tbsen: Base temperature for the calculation of degree days to leaf senescence.

Anatomy:

SLA: Specific leaf area (mm2/mg = m2/kg). LeafDensity: Density of leaf tissue (dry weight over volume). WoodDensity: Wood density (at 0 percent humidity!). FineRootDensity: Density of fine root tissue (dry weight over volume). conduit2sapwood: Proportion of sapwood corresponding to conducive elements (vessels or tracheids) as opposed to parenchymatic tissue. r635: Ratio between the weight of leaves plus branches and the weight of leaves alone for branches of 6.35 mm. pDead: Proportion of total fine fuels that are dead Al2As: Leaf area to sapwood area ratio (in m2<U+00B7>m-2). LeafWidth: Leaf width (in cm). SRL: Specific root length (cm/g). RLD: Fine root length density (i.e. density of root length per soil volume) (cm<U+00B7>cm-3).

Tissue moisture:

maxFMC: Maximum fuel moisture (in percent of dry weight) minFMC: Minimum fuel moisture (in percent of dry weight) LeafPI0: Osmotic potential at full turgor of leaves (MPa). LeafEPS: Modulus of elasticity (capacity of the cell wall to resist changes in volume in response to changes in turgor) of leaves (MPa). LeafAF: Apoplastic fraction (proportion of water outside the living cells) in leaves. StemPI0: Osmotic potential at full turgor of symplastic xylem tissue (MPa). StemEPS: Modulus of elasticity (capacity of the cell wall to resist changes in volume in response to changes in turgor) of symplastic xylem tissue (Mpa). StemAF: Apoplastic fraction (proportion of water outside the living cells) in stem xylem.

Flammability:

LigninPercent: Percent of lignin+cutin over dry weight in leaves. ParticleDensity: Particle density (kg/m3). LeafLitterFuelType: Fuel type for leaf litter, with levels Broadleaved, LongLinear, Scale and ShortLinear. Flammability: Flammability modifier (either 1 or 2 for normal or high, respectively). SAV: Surface-area-to-volume ratio of the small fuel (1h) fraction (leaves and branches < 6.35mm) (m2/m3). HeatContent: High fuel heat content (kJ/kg).

Extinction:

gammaSWR: Reflectance (albedo) for SWR (gammaPAR = 0.8*gammaSWR). alphaSWR: Absorbance coefficient for SWR (alphaPAR = alphaSWR * 1.35). kPAR: Extinction coeficient for PAR (kSWR = kPAR/1.35). g: Canopy water storage capacity per LAI unit (in mm/LAI).

Transpiration/Photosynthesis:

Tmax_LAI: Coefficient relating LAI with the ratio of maximum transpiration over potential evapotranspiration. Tmax_LAIsq: Coefficient relating squared LAI with the ratio of maximum transpiration over potential evapotranspiration. Psi_Extract: Water potential corresponding to 50% stomatal conductance (in MPa). Psi_Critic: Water potential corresponding to 50% of stem cavitation (in MPa). WUE: Water use efficiency for carbon assimilation (gross photosynthesis) (g C /mm water). pRootDisc: Relative root conductance leading to hydraulic disconnection from a soil layer. Gswmin: Minimum stomatal conductance to water vapor per leaf area unit (in mol<U+00B7>s-1<U+00B7>m-2). Gswmax: Maximum stomatal conductance to water vapor per leaf area unit (in mol<U+00B7>s-1<U+00B7>m-2). VCleaf_kmax: Leaf hydraulic conductance (in mmol H2O<U+00B7>s-1<U+00B7>m-2<U+00B7>MPa-1). VCleaf_c, VCleaf_d: Parameters of the leaf vulnerability curve (VCleaf_d in MPa). Kmax_stemxylem: Sapwood-specific hydraulic conductivity of stem xylem (in kg H2O<U+00B7>s-1<U+00B7>m-1<U+00B7>MPa-1). VCstem_c, VCstem_d: Parameters of the stem xylem vulnerability curve (VCstem_d in MPa). Kmax_rootxylem: Sapwood-specific hydraulic conductivity of root xylem (in kg H2O<U+00B7>s-1<U+00B7>m-1<U+00B7>MPa-1). VCroot_c, VCroot_d: Parameters of the root xylem vulnerability curve (VCroot_d in MPa). Narea: Nitrogen contrentration per leaf area (in g<U+00B7>m-2). Vmax298: Maximum Rubisco carboxilation rate at 25<U+00BA>C (in micromol CO2<U+00B7>s-1<U+00B7>m-2). Jmax298: Maximum electron transport rate at 25<U+00BA>C (in micromol electrons<U+00B7>s-1<U+00B7>m-2).

Growth:

WoodC: Wood carbon content per dry weight (g C /g dry). RERleaf: Maintenance respiration rate for leaves (g gluc <U+00B7> g dry-1 <U+00B7> day-1). RERsapwood: Maintenance respiration rate for living cells of sapwood (g gluc <U+00B7> g dry-1 <U+00B7> day-1). RERfineroot: Maintenance respiration rate for fine roots (g gluc <U+00B7> g dry-1 <U+00B7> day-1). RGRleafmax: Maximum leaf area growth rate relative to sapwood area (in m2<U+00B7>cm-2<U+00B7> day-1). RGRsapwoodmax: Maximum sapwood area relative growth rate (in cm2<U+00B7>cm-2<U+00B7>day-1). RGRfinerootmax: Maximum fine root relative growth rate (in g dry<U+00B7>g dry-1<U+00B7> day-1). fHDmin: Minimum value of the height-to-diameter ratio (dimensionless). fHDmax: Maximum value of the height-to-diameter ratio (dimensionless).

Recruitment:

SeedProductionHeight: Minimum height (cm) for seed production. MinTempRecr: Minimum average temperature (Celsius) of the coldest month for successful recruitment. MinMoistureRecr: Minimum value of the moisture index (annual precipitation over annual PET) for successful recruitment. MinFPARRecr: Minimum percentage of PAR at the ground level for successful recruitment. RecrTreeDBH: Recruitment DBH (cm) for trees. RecrTreeHeight: Recruitment height (cm) for trees. RecrTreeDensity: Recruitment density (ind<U+00B7>ha-1) for trees. RecrShrubCover: Recruitment cover (%) for shrubs. RecrShrubHeight: Recruitment height (cm) for shrubs. RecrZ50: Soil depth (mm) corresponding to 50% of fine roots for recruitment. RecrZ95: Soil depth (mm) corresponding to 95% of fine roots for recruitment.