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Outflow

Pesticide is removed from the reach segment in outflow. The amount of dissolved and particulate pesticide removed from the reach segment in outflow is:

$pst_{sol,o}=Q*\frac{F_d*pst_{rchwtr}}{V}$ 7:4.1.13

$pst_{sorb,o}=Q*\frac{F_p*pst_{rchwtr}}{V}$ 7:4.1.14

where $pst_{sol,o}$ is the amount of dissolved pesticide removed via outflow (mg pst), $pst_{sorb,o}$ is the amount of particulate pesticide removed via outflow (mg pst), $Q$ is the rate of outflow from the reach segment (m $^3$ H $_2$ O/day), $F_d$ is the fraction of total pesticide in the dissolved phase, $F_p$ is the fraction of total pesticide in the particulate phase, $pst_{rchwtr}$ is the amount of pesticide in the water (mg pst), and $V$ is the volume of water in the reach segment (m $^3$ H $_2$ O).

Table 7:4-1: SWAT+ input variables that pesticide partitioning.

Variable Name

Definition

Input File

Outflow

Pesticide is removed from the reach segment in outflow. The amount of dissolved and particulate pesticide removed from the reach segment in outflow is:

$pst_{sol,o}=Q*\frac{F_d*pst_{rchwtr}}{V}$ 7:4.1.13

$pst_{sorb,o}=Q*\frac{F_p*pst_{rchwtr}}{V}$ 7:4.1.14

Table 7:4-1: SWAT+ input variables that pesticide partitioning.

Variable Name

Definition

Input File