From bbb74d4f60033899cd5cdd36aa70f157bc52209e Mon Sep 17 00:00:00 2001 From: Johannes Ranke Date: Fri, 1 Nov 2019 12:19:03 +0100 Subject: Fix bug in yesterdays release, add methods for BIC --- docs/reference/NAFTA_2015_datasets.html | 218 -------------------------------- 1 file changed, 218 deletions(-) delete mode 100644 docs/reference/NAFTA_2015_datasets.html (limited to 'docs/reference/NAFTA_2015_datasets.html') diff --git a/docs/reference/NAFTA_2015_datasets.html b/docs/reference/NAFTA_2015_datasets.html deleted file mode 100644 index be080428..00000000 --- a/docs/reference/NAFTA_2015_datasets.html +++ /dev/null @@ -1,218 +0,0 @@ - - - - - - - - -Example datasets from the NAFTA guidance published 2015 — NAFTA_2015_datasets • mkin - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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Example datasets from the NAFTA guidance published 2015

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Data taken from US EPA (2015), p. 23.

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NAFTA_2015_datasets
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Format

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1 dataset with observations on the following variables.

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name

a factor containing the name of the observed variable

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time

a numeric vector containing time points

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value

a numeric vector containing concentrations

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Source

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NAFTA (2011) Guidance for evaluating and calculating degradation kinetics - in environmental media. NAFTA Technical Working Group on Pesticides - https://www.epa.gov/pesticide-science-and-assessing-pesticide-risks/guidance-evaluating-and-calculating-degradation - accessed 2019-02-22

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US EPA (2015) Standard Operating Procedure for Using the NAFTA Guidance to - Calculate Representative Half-life Values and Characterizing Pesticide - Degradation - https://www.epa.gov/pesticide-science-and-assessing-pesticide-risks/standard-operating-procedure-using-nafta-guidance

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Examples

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  nafta_evaluation <- nafta(MRID_555555)
#> The SFO model is rejected as S_SFO is equal or higher than the critical value S_c
#> The representative half-life of the IORE model is longer than the one corresponding
#> to the terminal degradation rate found with the DFOP model.
#> The representative half-life obtained from the DFOP model may be used
  print(nafta_evaluation)
#> Sums of squares:
-#>       SFO      IORE      DFOP 
-#> 1378.6832  615.7730  517.8836 
-#> [1] 717.4598
-#> 
-#> Parameters:
-#> $SFO
-#>                   Estimate       Pr(>t)        Lower        Upper
-#> parent_0      83.755751519 8.076390e-15 76.928220975 90.583282063
-#> k_parent_sink  0.001703321 7.452357e-05  0.001108568  0.002617164
-#> 
-#> $IORE
-#>                         Estimate Pr(>t)        Lower        Upper
-#> parent_0            9.685291e+01     NA 8.752855e+01 1.061773e+02
-#> k__iore_parent_sink 8.403374e-14     NA 1.092054e-19 6.466412e-08
-#> N_parent            6.684458e+00     NA 3.538511e+00 9.830405e+00
-#> 
-#> $DFOP
-#>              Estimate       Pr(>t)        Lower        Upper
-#> parent_0 9.755655e+01 4.439930e-13 8.884447e+01 1.062686e+02
-#> k1       4.240633e-02 3.554769e-02 1.414189e-02 1.271610e-01
-#> k2       8.237928e-04 2.060933e-02 3.172784e-04 2.138925e-03
-#> g        2.881037e-01 1.313715e-04 1.783967e-01 4.299694e-01
-#> 
-#> 
-#> DTx values:
-#>      DT50    DT90 DT50_rep
-#> SFO   407    1352      407
-#> IORE  541 5192066  1562968
-#> DFOP  429    2383      841
-#> 
-#> Representative half-life:
-#> [1] 841.4096
  plot(nafta_evaluation)
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