## ----setup-------------------------------------------------------------------- library(admtools) ## ----------------------------------------------------------------------------- # simulation data # entries in vectors are coeval bc simulation time steps were identical h1 = CarboCATLite_data$height_2_km_offshore_m h2 = CarboCATLite_data$height_12_km_offshore_m ddc1 = tp_to_ddc(h1 = h1, h2 = h2, L_unit_1 = "m", # associate length units L_unit_2 = "m", sec_1 = "2 km offshore", # name of correlated sections sec_2 = "12 km offshore") ## ----------------------------------------------------------------------------- adm_2km = tp_to_adm(t = CarboCATLite_data$time_myr, h = CarboCATLite_data$height_2_km_offshore_m, L_unit = "m", T_unit = "Myr") adm_8km = tp_to_adm(t = CarboCATLite_data$time_myr, h = CarboCATLite_data$height_8_km_offshore_m, L_unit = "m", T_unit = "Myr") ddc2 = adm_to_ddc(adm1 = adm_2km, adm2 = adm_8km) # assign section names ddc2 = set_section_names(ddc2, sec_names = c("2 km from shore", "8 km from shore")) ## ----------------------------------------------------------------------------- plot(ddc1, type = "l", xlab = "", ylab = "") mtext(get_section_names(ddc1)[1], side = 1, line = 3) mtext(get_section_names(ddc1)[2], side = 2, line = 3) ## ----------------------------------------------------------------------------- summary(ddc1) ## ----------------------------------------------------------------------------- plot(ddc1, type = "l", xlab = "", ylab = "") # correlation from 2 km offshore to 12 km offshore mtext(get_section_names(ddc1)[1], side = 1, line = 3) mtext(get_section_names(ddc1)[2], side = 2, line = 3) ddc3 = flip_ddc(ddc1) plot(ddc3, type = "l", xlab = "", ylab = "") # correlates 12 km offshore with 2 km offshore mtext(get_section_names(ddc3)[1], side = 1, line = 3) mtext(get_section_names(ddc3)[2], side = 2, line = 3)