## ---- include = FALSE--------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ## ----setup, warning = FALSE--------------------------------------------------- library(amerifluxr) library(pander) ## ----eval = FALSE------------------------------------------------------------- # ## When running, replace user_id and user_email with a real AmeriFlux account # floc2 <- amf_download_base( # user_id = "my_user", # user_email = "my_email@mail.com", # site_id = "US-CRT", # data_product = "BASE-BADM", # data_policy = "CCBY4.0", # agree_policy = TRUE, # intended_use = "other", # intended_use_text = "amerifluxr package demonstration", # verbose = TRUE, # out_dir = tempdir() # ) # ## ----eval = FALSE------------------------------------------------------------- # ## When running, replace user_id and user_email with a real AmeriFlux account # floc1 <- amf_download_bif( # user_id = "my_user", # user_email = "my_email@mail.com", # data_policy = "CCBY4.0", # agree_policy = TRUE, # intended_use = "other", # intended_use_text = "amerifluxr package demonstration", # out_dir = tempdir(), # verbose = TRUE, # site_w_data = TRUE # ) # ## ----results = 'hide'--------------------------------------------------------- # An example of BASE zipped files downloaded for US-CRT site floc2 <- system.file("extdata", "AMF_US-CRT_BASE-BADM_2-5.zip", package = "amerifluxr") # An example of unzipped BASE files from the above zipped file floc3 <- system.file("extdata", "AMF_US-CRT_BASE_HH_2-5.csv", package = "amerifluxr") # An example of all sites' BADM data floc1 <- system.file("extdata", "AMF_AA-Flx_BIF_CCBY4_20201218.xlsx", package = "amerifluxr") ## ----results = "asis"--------------------------------------------------------- # read the BASE from a zip file, without additional parsed time-keeping columns base1 <- amf_read_base( file = floc2, unzip = TRUE, parse_timestamp = FALSE ) pander::pandoc.table(base1[c(1:3),]) # read the BASE from a csv file, with additional parsed time-keeping columns base2 <- amf_read_base( file = floc3, unzip = FALSE, parse_timestamp = TRUE ) pander::pandoc.table(base2[c(1:3), c(1:10)]) ## ----results = "asis"--------------------------------------------------------- # get a list of latest base names and units. FP_ls <- amf_variables() pander::pandoc.table(FP_ls[c(11:20), ]) ## ----results = "asis"--------------------------------------------------------- # parse the variable name basename_decode <- amf_parse_basename(var_name = colnames(base1)) pander::pandoc.table(basename_decode[c(1, 2, 3, 4, 6, 11, 12),]) ## ----------------------------------------------------------------------------- # filter data, using default physical range +/- 5% buffer base_f <- amf_filter_base(data_in = base1) ## ----results = "asis"--------------------------------------------------------- # obtain the latest measurement height information var_info <- amf_var_info() # subset the variable by target Site ID var_info <- var_info[var_info$Site_ID == "US-CRT", ] pander::pandoc.table(var_info[c(1:10), ]) ## ----results = "asis"--------------------------------------------------------- # read the BADM BIF file, using an example data file bif <- amf_read_bif(file = floc1) # subset by target Site ID bif <- bif[bif$SITE_ID == "US-CRT", ] pander::pandoc.table(bif[c(1:15), ]) # get a list of all BADM variable groups and variables unique(bif$VARIABLE_GROUP) length(unique(bif$VARIABLE)) ## ----results = "asis"--------------------------------------------------------- # extract the FLUX_MEASUREMENTS group bif_flux <- amf_extract_badm(bif_data = bif, select_group = "GRP_FLUX_MEASUREMENTS") pander::pandoc.table(bif_flux) # extract the HEIGHTC (canopy height) group bif_hc <- amf_extract_badm(bif_data = bif, select_group = "GRP_HEIGHTC") pander::pandoc.table(bif_hc) ## ----fig.width = 7------------------------------------------------------------ # convert HEIGHTC_DATE to POSIXlt bif_hc$TIMESTAMP <- strptime(bif_hc$HEIGHTC_DATE, format = "%Y%m%d", tz = "GMT") # convert HEIGHTC column to numeric bif_hc$HEIGHTC <- as.numeric(bif_hc$HEIGHTC) # plot time series of canopy height plot(bif_hc$TIMESTAMP, bif_hc$HEIGHTC, xlab = "TIMESTAMP", ylab = "canopy height (m)") ## ----results = "asis"--------------------------------------------------------- # get a list of contacts bif_contact <- amf_extract_badm(bif_data = bif, select_group = "GRP_TEAM_MEMBER") pander::pandoc.table(bif_contact) # get data DOI bif_doi <- amf_extract_badm(bif_data = bif, select_group = "GRP_DOI") pander::pandoc.table(bif_doi)