## ----runtimer, include=FALSE-------------------------------------------------- runstart <- lubridate::now() ## ----setup, message=FALSE----------------------------------------------------- # load packages library(boot) library(car) library(rTPC) library(nls.multstart) library(broom) library(tidyverse) library(patchwork) library(minpack.lm) ## ----include = FALSE---------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = "#>", #tidy.opts=list(width.cutoff=60), #tidy=TRUE, fig.align = 'center', warning = FALSE ) ## ----load_data, fig.height=3.5, fig.width=9----------------------------------- # load in data data("chlorella_tpc") # keep just a single curve d <- filter(chlorella_tpc, curve_id <= 3) # fit d_fits <- nest(d, data = c(rate, temp)) %>% mutate( gaussian = map( data, ~ nls_multstart( rate ~ gaussian_1987(temp, rmax, topt, a), data = .x, iter = c(3, 3, 3), start_lower = get_start_vals( .x$temp, .x$rate, model_name = 'gaussian_1987' ) - 1, start_upper = get_start_vals( .x$temp, .x$rate, model_name = 'gaussian_1987' ) + 1, lower = get_lower_lims(.x$temp, .x$rate, model_name = 'gaussian_1987'), upper = get_upper_lims(.x$temp, .x$rate, model_name = 'gaussian_1987'), supp_errors = 'Y', convergence_count = FALSE ) ) ) # create high resolution predictions d_preds <- mutate( d_fits, new_data = map( data, ~ tibble(temp = seq(min(.x$temp), max(.x$temp), length.out = 100)) ) ) %>% select(., -data) %>% mutate(preds = map2(gaussian, new_data, ~ augment(.x, newdata = .y))) %>% select(curve_id, growth_temp, process, flux, preds) %>% unnest(preds) # show the data ggplot(d, aes(temp, rate)) + geom_point(size = 2) + geom_line(aes(temp, .fitted), d_preds) + theme_bw(base_size = 12) + labs( x = 'Temperature (ºC)', y = 'Metabolic rate', title = 'Metabolic rate across temperatures' ) + facet_wrap(~curve_id) ## ----refit_nlsLM-------------------------------------------------------------- # get coefs d_fits <- mutate(d_fits, coefs = map(gaussian, coef)) # fit with nlsLM instead d_fits <- mutate( d_fits, nls_fit = map2( data, coefs, ~ nlsLM( rate ~ gaussian_1987(temp, rmax, topt, a), data = .x, start = .y, lower = get_lower_lims(.x$temp, .x$rate, model_name = 'gaussian_1987'), upper = get_upper_lims(.x$temp, .x$rate, model_name = 'gaussian_1987') ) ) ) head(d_fits) d_fits$nls_fit[[1]] ## ----boot_error, error=TRUE--------------------------------------------------- try({ # try and bootstrap # THIS BREAKS d_fits <- mutate( d_fits, bootstrap = map(nls_fit, ~ Boot(.x, method = 'residual')) ) }) ## ----work_around-------------------------------------------------------------- # create empty list column d_fits <- mutate(d_fits, bootstrap = list(rep(NA, n()))) # run for loop to bootstrap each refitted model for (i in 1:nrow(d_fits)) { temp_data <- d_fits$data[[i]] temp_fit <- nlsLM( rate ~ gaussian_1987(temp, rmax, topt, a), data = temp_data, start = d_fits$coefs[[i]], lower = get_lower_lims( temp_data$temp, temp_data$rate, model_name = 'gaussian_1987' ), upper = get_upper_lims( temp_data$temp, temp_data$rate, model_name = 'gaussian_1987' ) ) boot <- Boot(temp_fit, method = 'residual') d_fits$bootstrap[[i]] <- boot rm(list = c('temp_fit', 'temp_data', 'boot')) } d_fits ## ----get_preds_and_plot, fig.height=3.5, fig.width=9-------------------------- # get the raw values of each bootstrap d_fits <- mutate(d_fits, output_boot = map(bootstrap, function(x) x$t)) # calculate predictions with a gnarly written function d_fits <- mutate( d_fits, preds = map2(output_boot, data, function(x, y) { temp <- as.data.frame(x) %>% drop_na() %>% mutate(iter = 1:n()) %>% group_by_all() %>% do(data.frame(temp = seq(min(y$temp), max(y$temp), length.out = 100))) %>% ungroup() %>% mutate(pred = gaussian_1987(temp, rmax, topt, a)) return(temp) }) ) # select, unnest and calculate 95% CIs of predictions boot_conf_preds <- select(d_fits, curve_id, preds) %>% unnest(preds) %>% group_by(curve_id, temp) %>% summarise( conf_lower = quantile(pred, 0.025), conf_upper = quantile(pred, 0.975), .groups = 'drop' ) ggplot() + geom_line(aes(temp, .fitted), d_preds, col = 'blue') + geom_ribbon( aes(temp, ymin = conf_lower, ymax = conf_upper), boot_conf_preds, fill = 'blue', alpha = 0.3 ) + geom_point(aes(temp, rate), d, size = 2) + theme_bw(base_size = 12) + labs(x = 'Temperature (ºC)', y = 'Rate') + facet_wrap(~curve_id) ## ----get_params_and_plot, fig.height=3.5, fig.width=9------------------------- # get tidied parameters using broom::tidy # get confidence intervals of parameters d_fits <- mutate( d_fits, params = map(nls_fit, broom::tidy), cis = map(bootstrap, function(x) { temp <- confint(x, method = 'bca') %>% as.data.frame() %>% rename(conf_lower = 1, conf_upper = 2) %>% rownames_to_column(., var = 'term') return(temp) }) ) # join parameter and confidence intervals in the same dataset left_join( select(d_fits, curve_id, growth_temp, flux, params) %>% unnest(params), select(d_fits, curve_id, growth_temp, flux, cis) %>% unnest(cis) ) %>% ggplot(., aes(curve_id, estimate)) + geom_point(size = 4) + geom_linerange(aes(ymin = conf_lower, ymax = conf_upper)) + theme_bw() + facet_wrap(~term, scales = 'free') ## ----calc_params_and_plot, fig_width = 8, fig_height = 5---------------------- # create empty list column d_fits <- mutate(d_fits, ci_extra_params = list(rep(NA, n()))) # run for loop to bootstrap extra params from each model for (i in 1:nrow(d_fits)) { temp_data <- d_fits$data[[i]] temp_fit <- nlsLM( rate ~ gaussian_1987(temp, rmax, topt, a), data = temp_data, start = d_fits$coefs[[i]], lower = get_lower_lims( temp_data$temp, temp_data$rate, model_name = 'gaussian_1987' ), upper = get_upper_lims( temp_data$temp, temp_data$rate, model_name = 'gaussian_1987' ) ) boot <- Boot( temp_fit, f = function(x) { unlist(calc_params(x)) }, labels = names(calc_params(temp_fit)), R = 20, method = 'case' ) %>% confint(., method = 'bca') %>% as.data.frame() %>% rename(conf_lower = 1, conf_upper = 2) %>% rownames_to_column(., var = 'param') d_fits$ci_extra_params[[i]] <- boot rm(list = c('temp_fit', 'temp_data', 'boot')) } # calculate extra params for each model and put in long format to begin with d_fits <- mutate( d_fits, extra_params = map(nls_fit, function(x) { calc_params(x) %>% pivot_longer(everything(), names_to = 'param', values_to = 'estimate') }) ) left_join( select(d_fits, curve_id, growth_temp, flux, extra_params) %>% unnest(extra_params), select(d_fits, curve_id, growth_temp, flux, ci_extra_params) %>% unnest(ci_extra_params) ) %>% ggplot(., aes(as.character(curve_id), estimate)) + geom_point(size = 4) + geom_linerange(aes(ymin = conf_lower, ymax = conf_upper)) + theme_bw() + labs(y = 'estimate', x = "curve id") + facet_wrap(~param, scales = 'free') + labs(title = 'Calculation of confidence intervals for extra parameters') ## ----tot_time, include=FALSE-------------------------------------------------- tot_time <- lubridate::as.duration(lubridate::now() - runstart)