Table 1.
Input parameters of the Glycine max (soybean) canopy model
| Parameter | Full name | Value | Reference |
|---|---|---|---|
| Ci | Intercellular CO2 concentration | 280 μbar | Environmental input |
| fh | Empirical constant in determining the decrease of F v/F m for a given I int. | 5.1e+5 | Zhu et al. (2004) |
| Fv/Fm | Maximum quantum yield of photosystem II | 0.801 | Measured |
| Γ* | The CO2 compensation point in the absence of dark respiration | 38.6 μbar | Von Caemmerer (2000) |
| J max | Maximum electron transport capacity | 200 μmol m−2 sec−1 | Bernacchi et al. (2005) |
| K o | Michaelis–Menten constant of Rubisco for O2 | 404 mbar | Von Caemmerer (2000) |
| K c | Michaelis–Menten constant of Rubisco for CO2 | 248 μbar | Von Caemmerer (2000) |
| ka Rac | A constant for the calculation of maximum steady‐state Rubisco activity (eqn 2) | 12.4 mg m−2 | Mott and Woodrow (2000) |
| k light | A constant for the calculation of steady‐state Rubisco activity (eqn 3) | 120 μmol m−2 sec−1 | Sage and Seemann (1993) |
| K TaoRac | A constant for the calculation of the time constant of Rubisco activation | 214 min mg m−2 | Mott and Woodrow (2000), Soleh et al. (2016) |
| O2 | Intercellular O2 concentration | 210 mbar | Environmental input |
| PqE | Proportion of the contribution of qE in steady‐state ΦNPQ | 0.7 | Measured |
| PqM | Proportion of the contribution of qM in steady‐state ΦNPQ | 0.3 | Measured |
| [Rac] | Concentration of Rubisco activase | 70 mg m−2 | Mott and Woodrow (2000) |
| R d0 | Dark respiration | 1.2 μmol m−2 sec−1 | Measured |
| Temp | Leaf temperature | 25°C | Environmental input |
| τqE | Time constant of qE relaxation | 0.56 min | Measured |
| τqM | Time constant of qM relaxation | 16.8 min | Measured |
| V max0 | Maximum Rubisco activity | 120 μmol m−2 sec−1 | Bernacchi et al. (2005) |