This is quite a complex map to reproduce, and all the details required to make it work seem beyond the scope of a single question. However, this is most of the stuff you require.
Doing this in ggplot is easier to do that using the base graphics. However, it is quite a complex graph to make.
I have had to use a few hacks to get it to work. In particular, the axes produced from
coord_map did not end at the edge of the plot, so I had to manually delete the axes and then recreate them using the
geom_segment lines below.
# Defines the x axes required
x_lines <- seq(-120,180, by = 60)
geom_polygon(data = wm_ggplot, aes(x = long, y = lat, group = group), fill = "grey", colour = "black", alpha = 0.8) +
# Convert to polar coordinates
coord_map("ortho", orientation = c(90, 0, 0)) +
scale_y_continuous(breaks = seq(45, 90, by = 5), labels = NULL) +
# Removes Axes and labels
scale_x_continuous(breaks = NULL) +
# Adds labels
geom_text(aes(x = 180, y = seq(55, 85, by = 10), hjust = -0.2, label = paste0(seq(55, 85, by = 10), "°N"))) +
geom_text(aes(x = x_lines, y = 39, label = c("120°W", "60°W", "0°", "60°E", "120°E", "180°W"))) +
# Adds axes
geom_hline(aes(yintercept = 45), size = 1) +
geom_segment(aes(y = 45, yend = 90, x = x_lines, xend = x_lines), linetype = "dashed") +
# Change theme to remove axes and ticks
theme(panel.background = element_blank(),
panel.grid.major = element_line(size = 0.25, linetype = 'dashed',
colour = "black"),
labs(caption = "Designed by Mikey Harper")