diff options
Diffstat (limited to 'R/f_time_norm_focus.R')
-rw-r--r-- | R/f_time_norm_focus.R | 50 |
1 files changed, 38 insertions, 12 deletions
diff --git a/R/f_time_norm_focus.R b/R/f_time_norm_focus.R index be5cf583..66df527e 100644 --- a/R/f_time_norm_focus.R +++ b/R/f_time_norm_focus.R @@ -10,6 +10,8 @@ utils::globalVariables("D24_2014") #' @param moisture Numeric vector of moisture contents in \\% w/w #' @param field_moisture Numeric vector of moisture contents at field capacity #' (pF2) in \\% w/w +#' @param study_moisture_ref_source Source for the reference value +#' used to calculate the study moisture #' @param Q10 The Q10 value used for temperature normalisation #' @param walker The Walker exponent used for moisture normalisation #' @param f_na The factor to use for NA values. If set to NA, only factors @@ -28,15 +30,12 @@ utils::globalVariables("D24_2014") #' \url{http://esdac.jrc.ec.europa.eu/projects/degradation-kinetics} #' @seealso [focus_soil_moisture] #' @examples -#' f_time_norm_focus(25, 20, 25) # 1.37, compare p. 184 +#' f_time_norm_focus(25, 20, 25) # 1.37, compare FOCUS 2014 p. 184 #' #' D24_2014$meta #' # No moisture normalisation in the first dataset, so we use f_na = 1 to get -#' # Temperature only normalisation as in the EU evaluation -#' f_time_norm_focus(D24_2014, f_na = 1) -#' # Moisture normalisation for the other four soils is one, as soil moisture -#' # is higher than the approximate field capacity derived from the USDA soil -#' # type +#' # temperature only normalisation as in the EU evaluation +#' f_time_norm_focus(D24_2014, study_moisture_ref_source = "focus", f_na = 1) #' @export f_time_norm_focus <- function(object, ...) { UseMethod("f_time_norm_focus") @@ -44,9 +43,9 @@ f_time_norm_focus <- function(object, ...) { #' @rdname f_time_norm_focus #' @export -f_time_norm_focus.numeric <- function(object, - moisture = NA, field_moisture = NA, - temperature = object, +f_time_norm_focus.numeric <- function(object, + moisture = NA, field_moisture = NA, + temperature = object, Q10 = 2.58, walker = 0.7, f_na = NA, ...) { f_temp <- ifelse(is.na(temperature), @@ -65,13 +64,40 @@ f_time_norm_focus.numeric <- function(object, #' @rdname f_time_norm_focus #' @export -f_time_norm_focus.mkindsg <- function(object, Q10 = 2.58, walker = 0.7, f_na = NA, ...) { +f_time_norm_focus.mkindsg <- function(object, + study_moisture_ref_source = c("meta", "focus"), + Q10 = 2.58, walker = 0.7, f_na = NA, ...) { + + study_moisture_ref_source <- match.arg(study_moisture_ref_source) meta <- object$meta - field_moisture <- focus_soil_moisture[meta$usda_soil_type, "pF2"] - study_moisture <- meta$rel_moisture * meta$moisture_ref + + if (is.null(meta$field_moisture)) { + field_moisture <- focus_soil_moisture[meta$usda_soil_type, "pF2"] + } else { + field_moisture <- ifelse(is.na(meta$field_moisture), + focus_soil_moisture[meta$usda_soil_type, "pF2"], + meta$field_moisture) + } + + if (study_moisture_ref_source == "meta") { + study_moisture_ref <- meta$study_moisture_ref + } else { + study_moisture_ref <- + focus_soil_moisture[as.matrix(meta[c("usda_soil_type", "study_moisture_ref_type")])] + } + + if ("study_moisture" %in% names(meta)) { + study_moisture <- ifelse(is.na(meta$study_moisture), + meta$rel_moisture * study_moisture_ref, + meta$study_moisture) + } else { + study_moisture <- meta$rel_moisture * study_moisture_ref + } + object$f_time_norm <- f_time_norm_focus(meta$temperature, moisture = study_moisture, field_moisture = field_moisture, Q10 = Q10, walker = walker, f_na = f_na) cat("$time_norm was set to\n") print(object$f_time_norm) + return(object$f_time_norm) } |