International Journal of Digital Earth (Dec 2023)

Monitoring forest dynamics in Africa during 2000–2020 using a remotely sensed fractional tree cover dataset

  • Xuexin Wei,
  • Yang Liu,
  • Lin Qi,
  • Jilong Chen,
  • Guoqin Wang,
  • Linxiu Zhang,
  • Ronggao Liu

DOI
https://doi.org/10.1080/17538947.2023.2220613
Journal volume & issue
Vol. 16, no. 1
pp. 2212 – 2232

Abstract

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Africa is covered with extensive woodlands, savannas and rainforests. The tree cover of these biomes has been undergoing substantial changes in recent decades. However, the dynamics of forests in Africa are currently unclear, particularly in the woodlands and savanna areas covered by sparse trees. Here, we assessed the spatio-temporal trend of African forests from 2000 to 2020, using a 250-m resolution fractional tree cover product that can capture the variation of forest density in the widespread mixed vegetation landscapes of the continent. The tree cover trends, interannual change and hotspots of forest gain and loss were evaluated. Results showed that the African forest area increased at a rate of 3.59 million ha/year over the study period, reaching 589 million ha in 2020. Considerable forest gain and loss both occurred in Africa. The net change rate in woodlands’ forest area was the fastest (2.28 million ha/year), followed by rainforests (0.80 million ha/year) and savannas (0.34 million ha/year). Hotspots of forest gain were concentrated in the north belt of woodlands and savannas, while forest loss primarily clustered in East and South Africa. This work would help African countries to monitor forest change and promote forest management to achieve the Sustainable Development Goals.

Keywords