1 Introduction

1.1 What are Wildfires?

Wildfires are uncontrolled fires that burn off vegetation. They are a natural part of the ecosystem, but in recent years, have become extremely destructive, causing damage to habitats, homes, and humans.

1.2 Why are Wildfires Important?

Wildfires currently have a bad reputation, but it is not their fault. In a ideal natural environment, wildfires are key for nutrient cycling, forest regeneration, and ecological balance.

1.3 Wildfires in Recent Years:

In recent years, wildfires have changed from an essential part of our ecosystems to unnatural and destructive disasters. Increasingly, the causes of wildfires are from humans, whether its from a gender reveal party gone wrong, or a cigarette thrown away to early. Due to exacerbated conditions from climate change, these mundane causes lead to humongous fires that burn down entire forests and cities. The rate of wildfires are also increasing, and wildfire season is becoming a common term. I am writing this here

1.4 How do Wildfires Relate to Climate Change?

Climate change is increasing the frequency and severity of wildfires. Rising temperatures and prolonged droughts create drier conditions, making it easier for wildfires to start and spread. This contributes to larger, more intense fires that pose greater risks to communities and ecosystems. Climate change exacerbates wildfires, making them more frequent and harder to control.

1.5 This Project:

This project aims to explore the different factors that influence wildfires. After a Literature Review and exploring the different data available to us, we decided to investigate these four factors:

Temperature

Rainfall

Lightning

Tourism/Visitation

To investigate these factors, their data sets will be combined with our wildfire data set.

This wildfire data set has data from 1983 to 2020. For every year, it has the amount of wildfires that occurred in America that year, the amount of acres that were burnt from the fires that year, and the amount of money the Forest Service and the Department of Interior paid to combat and mitigate fires.

These combined data sets will be explored and analyzed to produce data-driven conclusions

1.6 Preliminary Data Analysis

# Importing dataset
setwd('~/workspace/bookdown-demo-main')
wf = read_csv('federal_costs.csv')
# Taking a look

head(wf)
## # A tibble: 6 × 6
##    Year Fires   Acres ForestService DOIAgencies  Total       
##   <dbl> <dbl>   <dbl> <chr>         <chr>        <chr>       
## 1  1985 82591 2896147 $161,505,000  $78,438,000  $239,943,000
## 2  1986 85907 2719162 $111,625,000  $91,153,000  $202,778,000
## 3  1987 71300 2447296 $253,657,000  $81,452,000  $335,109,000
## 4  1988 72750 5009290 $429,609,000  $149,317,000 $578,926,000
## 5  1989 48949 1827310 $331,672,000  $168,115,000 $499,787,000
## 6  1990 66481 4621621 $253,700,000  $144,252,000 $397,952,000
#Setting up easier column names

colnames(wf)[4] ="ForestService"
colnames(wf)[5] ="DOI"
colnames(wf)[6] ="Total"
# Looking better, but data is not numerical
head(wf)
## # A tibble: 6 × 6
##    Year Fires   Acres ForestService DOI          Total       
##   <dbl> <dbl>   <dbl> <chr>         <chr>        <chr>       
## 1  1985 82591 2896147 $161,505,000  $78,438,000  $239,943,000
## 2  1986 85907 2719162 $111,625,000  $91,153,000  $202,778,000
## 3  1987 71300 2447296 $253,657,000  $81,452,000  $335,109,000
## 4  1988 72750 5009290 $429,609,000  $149,317,000 $578,926,000
## 5  1989 48949 1827310 $331,672,000  $168,115,000 $499,787,000
## 6  1990 66481 4621621 $253,700,000  $144,252,000 $397,952,000
# Converting data with commas and dollar signs to numerical values

wf <- wf %>%
  mutate(ForestService = as.numeric(gsub("[^0-9.]", "", ForestService)))
wf <- wf %>%
  mutate(DOI = as.numeric(gsub("[^0-9.]", "", DOI)))
wf <- wf %>%
  mutate(Total = as.numeric(gsub("[^0-9.]", "", Total)))
# Nice!
head(wf) 
## # A tibble: 6 × 6
##    Year Fires   Acres ForestService       DOI     Total
##   <dbl> <dbl>   <dbl>         <dbl>     <dbl>     <dbl>
## 1  1985 82591 2896147     161505000  78438000 239943000
## 2  1986 85907 2719162     111625000  91153000 202778000
## 3  1987 71300 2447296     253657000  81452000 335109000
## 4  1988 72750 5009290     429609000 149317000 578926000
## 5  1989 48949 1827310     331672000 168115000 499787000
## 6  1990 66481 4621621     253700000 144252000 397952000
write.csv(wf, "wf.csv", row.names=FALSE)
# Plotting the amount of money spent on Wildfires in America from 1983 to 2020

ggplot(wf, aes(x = Year, y = Total)) + geom_point(col = 'red') +
  geom_smooth(formula = y ~ x, method = lm, col = 'orange') +
  xlab("Year") + ylab('Total Money Spent on Wildfires') + 
  scale_y_continuous(labels = scales::comma)
The amount of money spent on Wildfires every year has dramatically increased.
# Plotting the amount of fires that occurred every year in America from 1983 to 2020

ggplot(wf, aes(x = Year, y = Total)) + geom_point(col = 'red') +
  geom_smooth(formula = y ~ x, method = lm, col = 'orange') +
  xlab("Year") + ylab('Total Money Spent on Wildfires') + 
  scale_y_continuous(labels = scales::comma)
The amount of fires occuring every year has slightly decreased recently.
# Plotting the amount of acres burned from Wildfires every year in America from 1983 to 2020

ggplot(wf, aes(x = Year, y = Acres)) + geom_point(col = 'red') +
  geom_smooth(formula = y ~ x, method = lm, col = 'orange') +
  xlab("Year") + ylab('Total Acres Burned from Wildfires') + 
  scale_y_continuous(labels = scales::comma)
The amount of acres burned every year due to Wildfires has increased dramatically.

From an analysis of just our wildfire dataset, we conclude that:

Wildfire costs are at an all time high, and although the number of wildfires occurring every year might be slightly declining, the number of acres that these fires burn every year is increasing.