| 289 | | S_m = \dfrac{LE_\mathrm{veg}}{\rho_l\ l_\mathrm{v}} \sum \limits_{k = 0}^3 \dfrac{R_\mathrm{fr}(k)}{dz(k)}\ \dfrac{m_\mathrm{soil}(k)}{m_\mathrm{total}(k)} . |
| 290 | | \end{equation*} |
| 291 | | }}} |
| 292 | | |
| | 289 | S_m = \dfrac{LE_\mathrm{veg}}{\rho_l\ l_\mathrm{v}} \sum \limits_{k = 0}^3 \dfrac{R_\mathrm{fr}(k)}{d zs(k)}\ \dfrac{m_\mathrm{soil}(k)}{m_\mathrm{total}(k)} . |
| | 290 | \end{equation*} |
| | 291 | }}} |
| | 292 | Here, ''dzs(k)'' is the thickness of layer ''k''. Again, only layers where the soil moisture is above its value at wilting point are used for root extraction (which is zero otherwise). |
