## ----include = FALSE---------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ## ----loaddata, eval = dir.exists("D:/NFI/NFI5/")------------------------------ library(knfi) # Load tree and CWD data for all districts nfi5_data <- read_nfi("D:/NFI/NFI5", district = NULL, tables = c("tree", "cwd"), recursive = TRUE) # Applying hierarchical filtering to select only privately owned forest subplots. # Ensures all child tables' subplots match the filtered plot table's subplots. nfi5_data <- filter_nfi(nfi5_data, c("plot$OWN_CD == '5'"), hier = TRUE) # Switch column names from English to original Korean names nfi5_data_kor <- switchcol_nfi(nfi5_data) ## ----calculate---------------------------------------------------------------- library(knfi) # The Korean and English names of the column names data("nfi_col") # National Forest Inventory data for Donghae-si, Gangwon-do, Republic of Korea for testing the function data("nfi_donghae") # calculates comprehensive descriptive statistics for study area summary_stats <- summary_nfi(nfi_donghae, continuousplot = T) # Calculate importance values using genus importance_genus <- iv_nfi(nfi_donghae, sp = "GENUS", continuousplot = T) # Calculate tree diversity indices using basal area diversity_tree_ba <- diversity_nfi(nfi_donghae, sp = "SP", table = "tree", basal = TRUE, continuousplot = T) # Calculate biomass by administrative district biomass_district <- biomass_nfi(nfi_donghae, plotgrp = "SGG", continuousplot = T) # Calculate CWD biomass grouped by administrative district and decay class cwd_grpby <- cwd_biomass_nfi(nfi_donghae, plotgrp = "SGG", treegrp = "DECAY", continuousplot = T) # Create a bar plot of importance values at 5-year intervals tsvis_iv_bar <- tsvis_nfi(nfi_donghae, y = "iv", output = "bar", isannual = FALSE, continuousplot = T) # Generate a line plot of carbon biomass over time tsvis_bm_line <- tsvis_nfi(nfi_donghae, y = "biomass", continuousplot = T, bm_type = "carbon", output = "line") # # Create a map of volume at the sido level # remotes::install_github("SYOUNG9836/kadmin") # tsvis_bm_map <- tsvis_nfi(nfi_donghae, admin = "sido", continuousplot = T, # y = "biomass", bm_type = "volume", output = "map")