This is a reimplementation of the calculation described in the Exposit 3.01 spreadsheet file, in the worksheet "Konzept Runoff". Calculation of sediment PEC values is not implemented.
PEC_sw_exposit_runoff(rate, Koc, DT50 = Inf, t_runoff = 3, exposit_reduction_version = c("3.01", "2.0"), V_ditch = 30, V_event = 100)
rate | The application rate in g/ha |
---|---|
Koc | The sorption coefficient to soil organic carbon |
DT50 | The soil half-life in days |
t_runoff | The time between application and the runoff event, where degradation occurs, in days |
exposit_reduction_version | The version of the reduction factors to be used |
V_ditch | The volume of the ditch is assumed to be 1 m * 100 m * 30 cm = 30 m3 |
V_event | The unreduced runoff volume, equivalent to 10 mm precipitation on 1 ha |
Excel 3.01 spreadsheet available from https://www.bvl.bund.de/DE/04_Pflanzenschutzmittel/03_Antragsteller/04_Zulassungsverfahren/07_Naturhaushalt/psm_naturhaush_node.html#doc1400590bodyText3
A list containing the following components
The runoff percentages for dissolved and bound substance
A matrix containing dissolved and bound input for the different distances
A matrix containing PEC values for dissolved and bound substance for the different distances. If the rate was given in g/ha, the PECsw are in microg/L.
perc_runoff_exposit
for runoff loss percentages and perc_runoff_reduction_exposit
for runoff reduction percentages used
PEC_sw_exposit_runoff(500, 150)#> $perc_runoff #> dissolved bound #> 0.248 0.001 #> #> $runoff #> dissolved bound total #> No buffer 1.240 0.00500 1.24500 #> 5 m 0.744 0.00300 0.74700 #> 10 m 0.496 0.00075 0.49675 #> 20 m 0.248 0.00025 0.24825 #> #> $PEC_sw_runoff #> dissolved bound total #> No buffer 4.769231 0.019230769 4.788462 #> 5 m 4.133333 0.016666667 4.150000 #> 10 m 3.542857 0.005357143 3.548214 #> 20 m 2.480000 0.002500000 2.482500 #>