| thomas_2012 {rTPC} | R Documentation |
Thomas model (2012) for fitting thermal performance curves
Description
Thomas model (2012) for fitting thermal performance curves
Usage
thomas_2012(temp, a, b, c, topt)
Arguments
temp |
temperature in degrees centigrade |
a |
arbitrary constant |
b |
arbitrary constant |
c |
the range of temperatures over which growth rate is positive, or the thermal niche width (ÂșC) |
topt |
determines the location of the maximum of the quadratic portion of this function. When b = 0, tref would equal topt |
Details
Equation:
rate = a \cdot exp^{b \cdot temp} \bigg(1-\bigg(\frac{temp - t_{opt}}{c}\bigg)^2\bigg)
Start values in get_start_vals are derived from the data.
Limits in get_lower_lims and get_upper_lims are derived from the data or based on extreme values that are unlikely to occur in ecological settings.
Value
a numeric vector of rate values based on the temperatures and parameter values provided to the function
Note
Generally we found this model easy to fit.
References
Thomas, Mridul K., et al. A global pattern of thermal adaptation in marine phytoplankton. Science 338.6110, 1085-1088 (2012)
Examples
# load in ggplot
library(ggplot2)
# subset for the first TPC curve
data('chlorella_tpc')
d <- subset(chlorella_tpc, curve_id == 1)
# get start values and fit model
start_vals <- get_start_vals(d$temp, d$rate, model_name = 'thomas_2012')
# fit model
mod <- nls.multstart::nls_multstart(rate~thomas_2012(temp = temp, a, b, c, topt),
data = d,
iter = c(4,4,4,4),
start_lower = start_vals - 1,
start_upper = start_vals + 2,
lower = get_lower_lims(d$temp, d$rate, model_name = 'thomas_2012'),
upper = get_upper_lims(d$temp, d$rate, model_name = 'thomas_2012'),
supp_errors = 'Y',
convergence_count = FALSE)
# look at model fit
summary(mod)
# get predictions
preds <- data.frame(temp = seq(min(d$temp), max(d$temp), length.out = 100))
preds <- broom::augment(mod, newdata = preds)
# plot
ggplot(preds) +
geom_point(aes(temp, rate), d) +
geom_line(aes(temp, .fitted), col = 'blue') +
theme_bw()