1 | |
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2 | \documentclass[11pt]{amsart} |
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3 | \usepackage{helvet} |
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4 | \usepackage{geometry} |
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5 | \geometry{a4paper} |
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6 | \usepackage[parfill]{parskip} \usepackage{graphicx} |
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7 | \usepackage{amssymb} |
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8 | \usepackage{epstopdf} |
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9 | |
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10 | |
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11 | |
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12 | \begin{document} |
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13 | |
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14 | \renewcommand{\arraystretch}{1.5} |
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15 | |
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16 | \begin{tabular}{|c|l|r|} |
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17 | \hline |
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18 | \bf {symbol} & \bf {variable name} & \bf {description} \\ |
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19 | \hline |
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20 | $ps^{old}$ & psold & surface static energy at old timestep (J/kg) \\ |
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21 | $ps^{new}$ & psnew & surface static energy at new timestep (J/kg)\\ |
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22 | $q_s$ & qsurf & surface specific humidity (kg/kg) \\ |
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23 | $q_{s, sat}$ & qsol\_sat & saturated surface humidity (kg/kg) \\ |
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24 | $q_{air}$ & qair & lowest level specific humidity at 'old' timestep (kg/kg) \\ |
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25 | $q_{air}^{new}$ & qair\_new & lowest level specific humidity at 'new' timestep (kg/kg) \\ |
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26 | $\frac{\delta q_s^{old}}{\delta t}$ & pdqsold & derivative of saturated specific humidity at old temperature (kg/(kg s)) \\ |
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27 | $p_l$ & pb & lowest level air pressure (Pa) \\ |
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28 | \hline |
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29 | $C_p^{air}$ & cp\_air & lowest level atmospheric heat capacity (J/(K kg)) \\ |
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30 | \hline |
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31 | $\chi_{CO_2}^{canopy}$ & ccanopy & $CO_2$ concentration in the canopy (?? ppm) \\ |
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32 | $\bar{Ci}$ & cimean & mean intercellular ci (from STOMATE) $(\mu mole/m^2/s)$\\ |
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33 | \hline |
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34 | $R^{LW}_{\uparrow}$ & lwup & long-wave upwelling radiation $(W/m^2)$ \\ |
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35 | $ R^{LW}_{\downarrow}$ & lwdown & downwelling long-wave radiation flux $(W/m^2)$ \\ |
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36 | $R^{LW}_{abs}$ & lwabs & LW radiation absorbed by the surface $(W/m^2)$ \\ |
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37 | $R^{SW}_{net}$ & swnet & net shortwave radiation flux $(W/m^2)$ \\ |
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38 | $R^{net}_{sns}$ & netrad\_sns & sensitivity of net radiation $(W/m^2)$ \\ |
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39 | $R_{net}$ & netrad & net radiation at surface layer $(W/m^2)$ \\ |
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40 | \hline |
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41 | $\Delta \theta$ & dtradia & Time step (s) \\ |
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42 | $\epsilon$ & emis & emissivity (fraction) \\ |
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43 | $\sigma$ & c\_stefan & Stefan-Boltzmann constant $(W / (m^2 K^4))$\\ |
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44 | $q_{c}$ & q\_cdrag & surface drag coefficient (m/s) \\ |
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45 | $\rho_{air}$ & rau & density of air $(kg/m^3)$ \\ |
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46 | \hline |
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47 | \end{tabular} |
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48 | |
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49 | |
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50 | \begin{tabular}{|c|l|r|} |
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51 | |
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52 | \hline |
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53 | \bf {symbol} & \bf {variable name} & \bf {description} \\ |
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54 | |
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55 | |
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56 | \hline |
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57 | |
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58 | $z_0$ & z0 & Surface roughness Length (m) \\ |
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59 | roughheight & roughheight & Effective roughness height (m) \\ |
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60 | zlev & zlev & Height of first atmospheric layer (m) \\ |
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61 | veget\_max & veget\_max & Fraction of vegetation type (-) \\ |
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62 | temp\_sol & temp\_sol & Ground temperature (K) \\ |
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63 | temp\_air & temp\_air & !! Lowest level temperature (K) \\ |
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64 | qsurf & qsurf & near surface specific air humidity (kg/kg) \\ |
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65 | qair & qair & Lowest level specific air humidity (kg/kg) \\ |
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66 | |
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67 | \hline |
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68 | |
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69 | veget & veget & vegetation fraction for each type (fraction) \\ |
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70 | qsintveg & qsintveg & Water on vegetation due to interception $(kg/m^2)$ \\ |
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71 | qsintmax & qsintmax & Maximum water on vegetation $(kg/m^2)$ \\ |
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72 | rstruct & rstruct & architectural resistance (s/m) \\ |
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73 | humrel & humrel & Soil moisture stress (within range 0 to 1 \\ |
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74 | veget & veget & Type of vegetation (-) \\ |
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75 | veget\_max & veget\_max & Max. vegetation fraction (LAI to infinity) (fraction) \\ |
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76 | lai & lai & Leaf\ area\ index $(m^2/m^2)$ \\ |
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77 | qsintveg & qsintveg & Water on vegetation due to interception $(kg/m^2)$ \\ |
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78 | |
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79 | \hline |
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80 | |
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81 | $r_a$ & raero & aerodynamic resistance (s/m) \\ |
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82 | $r_{soil}$ & rsol & bare soil evaporation resistance (s/m) \\ |
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83 | $\delta _c$ & zdefconc & water vapour concentration deficit $(kg/m^3)$\\ |
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84 | \hline |
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85 | |
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86 | \end{tabular} |
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87 | |
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88 | |
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89 | |
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90 | \begin{tabular}{|c|l|r|} |
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91 | \hline |
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92 | \bf {symbol} & \bf {variable name} & \bf {description} \\ |
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93 | |
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94 | |
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95 | \hline |
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96 | $T_{air}$ & tair & air temperature (K) \\ |
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97 | $T_{dgnc}^{2m}$ & t2mdiag & diagnostic temperature at 2m above ground (K) \\ |
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98 | $T^{2m}$ & t2m & 2m air temperature (K) \\ |
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99 | $q^{2m}$ & q2m & 2m specific humidity (kg/kg) \\ |
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100 | $T_S$ & temp\_sol & surface temperature (K) \\ |
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101 | \hline |
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102 | |
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103 | $\alpha_v $ & valpha & total $\alpha$ resistance coefficient (fraction) \\ |
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104 | $\beta_v$ & vbeta & total resistance coefficient (fraction) \\ |
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105 | $\beta_{v1}$ & vbeta1 & snow resistance (fraction) \\ |
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106 | $\beta_{v2}$ & vbeta2 & interception resistance (fraction)\\ |
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107 | $\beta_{v3}$ & vbeta3 & vegetation resistance (fraction)\\ |
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108 | $\beta_{v4}$ & vbeta4 & bare soil resistance (fraction)\\ |
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109 | $\beta_{v23}$ & vbeta23 & portion of wetted foliage that will transpire (fraction)\\ |
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110 | $\beta_{v,CO_2}$ & vbetaco2 & vegetation resistance to $CO_2$ \\ |
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111 | \hline |
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112 | $U$ & speed & lowest level wind speed (m/s) \\ |
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113 | $u$ & u & lowest level wind velocity, Eastward component (m/s) \\ |
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114 | $v$ & v & lowest level wind volocity, Northward component (m/s) \\ |
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115 | \hline |
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116 | $z_{ikt}$ & zikt & aerodynamic resistance / density of air (kg s $m^{-4}$) \\ |
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117 | $z_{ikq}$ & zikq & aerodynamic resistance / density of air (kg s $m^{-4}$) \\ |
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118 | \hline |
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119 | \end{tabular} |
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120 | |
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121 | |
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122 | \end{document} |
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