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Census tract-level data"
In censobr: Download Data from Brazil's Population Census
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>",
eval = identical(tolower(Sys.getenv("NOT_CRAN")), "true"),
out.width = "100%"
)
Perhaps the most commonly used datasets from Brazilian censuses are the microdata of individuals and households. Nonetheless, IBGE also makes available some extremely data on population and environmental characteristics aggregated at the census tract level. In this vignette, we show how to use the {censobr} package to easily access census tract-level data using the read_tracts() function.
At the moment, this function includes data from the censuses of 2000, 2010 and 2022.
Data structure
Aggregated data at the census tract level are split into different datasets, and some of them are scattered across several files. For the sake of convenience, we have gathered all of the files into different datasets:
"Basico"
"Entorno"
"Domicilio"
"Pessoa"
"Responsavel"
"PessoaRenda"
"DomicilioRenda"
"ResponsavelRenda"
# ---- packages -----------------------------------------------------------
library(knitr)
library(kableExtra)
# ---- data ---------------------------------------------------------------
dic_2000 <- c(
"Basico", "Domicilio", "Pessoa", "Responsavel", "Instrucao", "Morador"
)
dic_2010 <- c(
"Basico", "Domicilio", "Pessoa", "Responsavel", "Entorno", "ResponsavelRenda", "DomicilioRenda", "PessoaRenda"
)
dic_2022 <- c(
"Basico", "Domicilio", "Pessoas", " ", "Entorno", "ResponsavelRenda",
"Indigenas", "Quilombolas", "Obitos", "Preliminares"
)
# pad the shorter vector with blanks so the columns have equal length
max_len <- max(length(dic_2000), length(dic_2010), length(dic_2022))
dic_2000 <- c(dic_2000, rep("", max_len - length(dic_2000)))
dic_2010 <- c(dic_2010, rep("", max_len - length(dic_2010)))
dic_2022 <- c(dic_2022, rep("", max_len - length(dic_2022)))
tab <- data.frame(`2000` = dic_2000,
`2010` = dic_2010,
`2022` = dic_2022,
check.names = FALSE)
# ---- display ------------------------------------------------------------
kable(tab, escape = FALSE, align = "l") |>
kable_styling(full_width = FALSE, position = "left")
All of the data aggregated at census tracts are organized following the same logic.
In the cases when there are multiple files in the same dataset, we add a reference to the number of the file as a prefix to the variable name. To illustrate this, let's have a look at the "Domicilio" dataset. This dataset is based on three separate tables: Domicilio01, Domicilio02 and Domicilio03. So the names of the columns in this dataset are organized as follows:
library(censobr)
dom <- read_tracts(
year = 2022,
dataset = 'Domicilio',
showProgress = FALSE
)
names(dom)[c(30:33,119:121, 526:528)]
Dictionary of variables
To check the meaning of each variable, users can run the data_dictionary(), which will open the file with the dictionary of variables in each dataset. The dictionary file is either an .html, a .pdf or an .xlsx file, depending on the data set and year.
data_dictionary(
year = 2022,
dataset = 'tracts'
)
Reproducible examples
Now let's use a couple reproducible examples to illustrate how to work with census tract-level data. First, we need to load the libraries we'll be using in this vignette.
library(arrow)
library(dplyr)
library(geobr)
library(ggplot2)
In these examples below, example we'll use the city of Belo Horizonte for demonstration purposes. So we can start by downloading the the geometries of the census tracts in the area. First, we need to download the geometries of all census tracts in the state of Minas Gerais (MG), and then keep only the ones in the municipality of Belo Horizonte. We'll also download the municipality borders of BH.
muni_bh <- geobr::read_municipality(
code_muni = 'MG',
year = 2010,
showProgress = FALSE
) |>
filter(name_muni == "Belo Horizonte")
tracts_sf <- geobr::read_census_tract(
code_tract = "MG",
simplified = FALSE,
year = 2010,
showProgress = FALSE
)
tracts_sf <- filter(tracts_sf, name_muni == "Belo Horizonte")
ggplot() +
geom_sf(data=tracts_sf, fill = 'gray90', color='gray60') +
theme_void()
Example 1:
In this first example we are going to map the proportion of households with the presence of trees in their surroundings. To do this, we need to download the "Entorno" dataset and sum the variables domicilios_V05031 + domicilios_V05032 + domicilios_V05033.
# download data
tract_entorno <- censobr::read_tracts(
year = 2022,
dataset = "Entorno",
showProgress = FALSE
)
# filter observations and calculate indicator
df_trees <- tract_entorno |>
filter(code_tract %in% tracts_sf$code_tract) |>
group_by(code_tract) |>
mutate(total_households = domicilios_V05000,
trees = domicilios_V05031 + domicilios_V05032+ domicilios_V05033,
trees_prop = trees / total_households) |>
select(code_tract, total_households, trees, trees_prop) |>
collect()
head(df_trees)
Now we can merge the spatial data with our indicator and see how the presence of trees in the surroundings of households varies spatially.
bh_tracts <- left_join(tracts_sf, df_trees, by = 'code_tract')
ggplot() +
geom_sf(data = bh_tracts, aes(fill = trees_prop), color=NA) +
geom_sf(data = muni_bh, color='gray10', fill=NA) +
labs(subtitle = 'Share of households with trees in their surroundings.\nBelo Horizonte, 2010') +
scale_fill_distiller(palette = "Greens", direction = 1,
name='Share of\nhouseholds',
na.value = "gray90",
labels = scales::percent) +
theme_void()
Example 2: Spatial distribution of income
In this second example, we are going to create a map of the spatial distribution of average income per capita. Unfortunately, this information was not collected in the 2022 census at the census tract level, so this example is based on the 2010 data.
In the 2010 census, we can find the information on the the total number of residents in each census tract in the "Basico" dataset, variable "V002". Meanwhile, the information on income can be found in the "DomicilioRenda" dataset, variable "V003".
Using the code below, we download the data and calculate the income per capita of all census tracts in Brazil.
# download data
tract_basico <- censobr::read_tracts(
year = 2010,
dataset = "Basico",
showProgress = FALSE
)
tract_income <- censobr::read_tracts(
year = 2010,
dataset = "DomicilioRenda",
showProgress = FALSE
)
# select columns
tract_basico <- tract_basico |> select('code_tract','V002')
tract_income <- tract_income |> select('code_tract','V003')
# merge
tracts_df <- left_join(tract_basico, tract_income) |> collect()
# calculate income per capita
tracts_df <- tracts_df |> mutate(income_pc = V003 / V002)
head(tracts_df)
Finally, we can merge the spatial data with our per capita income estimates and map the results.
bh_tracts <- left_join(tracts_sf, tracts_df, by = 'code_tract')
ggplot() +
geom_sf(data = bh_tracts, aes(fill = income_pc), color=NA) +
geom_sf(data = muni_bh, color='gray10', fill=NA) +
labs(subtitle = 'Avgerage income per capita.\nBelo Horizonte, 2010') +
scale_fill_viridis_c(name = "Income per\ncapita (R$)",
labels = scales::number_format(),
option = 'cividis',
breaks = c(0, 500, 1e3, 5e3, 1e4, 2e4),
trans = "pseudo_log", na.value = "gray90") +
theme_void()
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censobr documentation built on Aug. 8, 2025, 6:32 p.m.
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knitr::opts_chunk$set( collapse = TRUE, comment = "#>", eval = identical(tolower(Sys.getenv("NOT_CRAN")), "true"), out.width = "100%" )
Perhaps the most commonly used datasets from Brazilian censuses are the microdata of individuals and households. Nonetheless, IBGE also makes available some extremely data on population and environmental characteristics aggregated at the census tract level. In this vignette, we show how to use the {censobr} package to easily access census tract-level data using the read_tracts() function.
At the moment, this function includes data from the censuses of 2000, 2010 and 2022.
Data structure
Aggregated data at the census tract level are split into different datasets, and some of them are scattered across several files. For the sake of convenience, we have gathered all of the files into different datasets:
"Basico"
"Entorno"
"Domicilio"
"Pessoa"
"Responsavel"
"PessoaRenda"
"DomicilioRenda"
"ResponsavelRenda"
# ---- packages ----------------------------------------------------------- library(knitr) library(kableExtra) # ---- data --------------------------------------------------------------- dic_2000 <- c( "Basico", "Domicilio", "Pessoa", "Responsavel", "Instrucao", "Morador" ) dic_2010 <- c( "Basico", "Domicilio", "Pessoa", "Responsavel", "Entorno", "ResponsavelRenda", "DomicilioRenda", "PessoaRenda" ) dic_2022 <- c( "Basico", "Domicilio", "Pessoas", " ", "Entorno", "ResponsavelRenda", "Indigenas", "Quilombolas", "Obitos", "Preliminares" ) # pad the shorter vector with blanks so the columns have equal length max_len <- max(length(dic_2000), length(dic_2010), length(dic_2022)) dic_2000 <- c(dic_2000, rep("", max_len - length(dic_2000))) dic_2010 <- c(dic_2010, rep("", max_len - length(dic_2010))) dic_2022 <- c(dic_2022, rep("", max_len - length(dic_2022))) tab <- data.frame(`2000` = dic_2000, `2010` = dic_2010, `2022` = dic_2022, check.names = FALSE) # ---- display ------------------------------------------------------------ kable(tab, escape = FALSE, align = "l") |> kable_styling(full_width = FALSE, position = "left")
All of the data aggregated at census tracts are organized following the same logic.
In the cases when there are multiple files in the same dataset, we add a reference to the number of the file as a prefix to the variable name. To illustrate this, let's have a look at the "Domicilio" dataset. This dataset is based on three separate tables: Domicilio01, Domicilio02 and Domicilio03. So the names of the columns in this dataset are organized as follows:
library(censobr) dom <- read_tracts( year = 2022, dataset = 'Domicilio', showProgress = FALSE ) names(dom)[c(30:33,119:121, 526:528)]
Dictionary of variables
To check the meaning of each variable, users can run the data_dictionary(), which will open the file with the dictionary of variables in each dataset. The dictionary file is either an .html, a .pdf or an .xlsx file, depending on the data set and year.
data_dictionary( year = 2022, dataset = 'tracts' )
Reproducible examples
Now let's use a couple reproducible examples to illustrate how to work with census tract-level data. First, we need to load the libraries we'll be using in this vignette.
library(arrow) library(dplyr) library(geobr) library(ggplot2)
In these examples below, example we'll use the city of Belo Horizonte for demonstration purposes. So we can start by downloading the the geometries of the census tracts in the area. First, we need to download the geometries of all census tracts in the state of Minas Gerais (MG), and then keep only the ones in the municipality of Belo Horizonte. We'll also download the municipality borders of BH.
muni_bh <- geobr::read_municipality( code_muni = 'MG', year = 2010, showProgress = FALSE ) |> filter(name_muni == "Belo Horizonte") tracts_sf <- geobr::read_census_tract( code_tract = "MG", simplified = FALSE, year = 2010, showProgress = FALSE ) tracts_sf <- filter(tracts_sf, name_muni == "Belo Horizonte") ggplot() + geom_sf(data=tracts_sf, fill = 'gray90', color='gray60') + theme_void()
Example 1:
In this first example we are going to map the proportion of households with the presence of trees in their surroundings. To do this, we need to download the "Entorno" dataset and sum the variables domicilios_V05031 + domicilios_V05032 + domicilios_V05033.
# download data tract_entorno <- censobr::read_tracts( year = 2022, dataset = "Entorno", showProgress = FALSE ) # filter observations and calculate indicator df_trees <- tract_entorno |> filter(code_tract %in% tracts_sf$code_tract) |> group_by(code_tract) |> mutate(total_households = domicilios_V05000, trees = domicilios_V05031 + domicilios_V05032+ domicilios_V05033, trees_prop = trees / total_households) |> select(code_tract, total_households, trees, trees_prop) |> collect() head(df_trees)
Now we can merge the spatial data with our indicator and see how the presence of trees in the surroundings of households varies spatially.
bh_tracts <- left_join(tracts_sf, df_trees, by = 'code_tract') ggplot() + geom_sf(data = bh_tracts, aes(fill = trees_prop), color=NA) + geom_sf(data = muni_bh, color='gray10', fill=NA) + labs(subtitle = 'Share of households with trees in their surroundings.\nBelo Horizonte, 2010') + scale_fill_distiller(palette = "Greens", direction = 1, name='Share of\nhouseholds', na.value = "gray90", labels = scales::percent) + theme_void()
Example 2: Spatial distribution of income
In this second example, we are going to create a map of the spatial distribution of average income per capita. Unfortunately, this information was not collected in the 2022 census at the census tract level, so this example is based on the 2010 data.
In the 2010 census, we can find the information on the the total number of residents in each census tract in the "Basico" dataset, variable "V002". Meanwhile, the information on income can be found in the "DomicilioRenda" dataset, variable "V003".
Using the code below, we download the data and calculate the income per capita of all census tracts in Brazil.
# download data tract_basico <- censobr::read_tracts( year = 2010, dataset = "Basico", showProgress = FALSE ) tract_income <- censobr::read_tracts( year = 2010, dataset = "DomicilioRenda", showProgress = FALSE ) # select columns tract_basico <- tract_basico |> select('code_tract','V002') tract_income <- tract_income |> select('code_tract','V003') # merge tracts_df <- left_join(tract_basico, tract_income) |> collect() # calculate income per capita tracts_df <- tracts_df |> mutate(income_pc = V003 / V002) head(tracts_df)
Finally, we can merge the spatial data with our per capita income estimates and map the results.
bh_tracts <- left_join(tracts_sf, tracts_df, by = 'code_tract') ggplot() + geom_sf(data = bh_tracts, aes(fill = income_pc), color=NA) + geom_sf(data = muni_bh, color='gray10', fill=NA) + labs(subtitle = 'Avgerage income per capita.\nBelo Horizonte, 2010') + scale_fill_viridis_c(name = "Income per\ncapita (R$)", labels = scales::number_format(), option = 'cividis', breaks = c(0, 500, 1e3, 5e3, 1e4, 2e4), trans = "pseudo_log", na.value = "gray90") + theme_void()
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