IORE.solution.Rd
Function describing exponential decline from a defined starting value, with a concentration dependent rate constant.
IORE.solution(t, parent.0, k__iore, N)
t | Time. |
---|---|
parent.0 | Starting value for the response variable at time zero. |
k__iore | Rate constant. Note that this depends on the concentration units used. |
N | Exponent describing the nonlinearity of the rate equation |
The solution of the IORE kinetic model reduces to the
SFO.solution
if N = 1.
The parameters of the IORE model can be transformed to equivalent parameters
of the FOMC mode - see the NAFTA guidance for details.
The value of the response variable at time t
.
NAFTA Technical Working Group on Pesticides (not dated) Guidance for Evaluating and Calculating Degradation Kinetics in Environmental Media
fit.fomc <- mkinfit("FOMC", FOCUS_2006_C, quiet = TRUE) fit.iore <- mkinfit("IORE", FOCUS_2006_C, quiet = TRUE) fit.iore.deS <- mkinfit("IORE", FOCUS_2006_C, solution_type = "deSolve", quiet = TRUE) print(data.frame(coef(fit.fomc), coef(fit.iore), coef(fit.iore.deS), row.names = paste("model par", 1:3)))#> coef.fit.fomc. coef.fit.iore. coef.fit.iore.deS. #> model par 1 85.87489063 85.874890 85.874890 #> model par 2 0.05192238 -4.826631 -4.826631 #> model par 3 0.65096665 1.949403 1.949403print(rbind(fomc = endpoints(fit.fomc)$distimes, iore = endpoints(fit.iore)$distimes, iore.deS = endpoints(fit.iore)$distimes))#> DT50 DT90 DT50back #> fomc 1.785233 15.1479 4.559973 #> iore 1.785233 15.1479 4.559973 #> iore.deS 1.785233 15.1479 4.559973