<a href="https://www.sciencedaily.com/releases/2022/06/220630095714.htm" rel="nofollow noreferrer">https://www.sciencedaily.com/releases/2022/06/220630095714.h...</a><p>"<i>Key findings from the analyses include:<p><pre><code> The length of the annual fire weather season has increased by 14 days per year (27%) during 1979-2019 on average globally and the frequency of days with extreme fire weather has increased by 10 days per year (54%) during 1979-2019 on average globally.
Fire weather has risen significantly in most world regions since the 1980s. Increases have been particularly pronounced in western North America, Amazonia and the Mediterranean. Fire weather has already emerged beyond its natural variability in the Mediterranean and Amazonia due to historical warming.
At 2°C this will also be the case in the boreal forests of Siberia, Canada and Alaska and the temperate forests of the western US. At 3°C, virtually all world regions will experience unprecedented fire weather.
Globally, the area burned by fires has decreased by around one-quarter -- or 1.1 million km2 -- during 2001-2019. Much of the decrease -- 590,000 km2 -- has been in African savannahs, where 60-70% of the area burned by fire occurs annually. Local/regional human impacts have reduced the area burned by fire in tropical savannahs, in combination with lower grassland productivity during (increasingly drier) wet seasons.
Large increases in burned area have been observed elsewhere, and especially in temperate and boreal forests. For example, the area burned by fire has increased by 21,400 km2 (93%) in east Siberian forests and by 3,400 km2 (54%) in the forests of western North America (Pacific Canada and US combined).***"</code></pre></i>
<a href="https://archive.ph/WfDJh" rel="nofollow noreferrer">https://archive.ph/WfDJh</a><p>>It turns out the percentage of the globe that burns each year has been declining since 2001.