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Satellite passive microwaves reveal recent climate-induced carbon losses in African drylands.

Sizhuo LiJean-Pierre WigneronJerome ChaveTorbern TagessonJosep PenuelasPhilippe CiaisKjeld RasmussenFeng TianCheikh MbowAmen Al-YaariNemesio Rodriguez-FernandezGuy SchurgersWenmin ZhangJinfeng ChangYann H KerrAleixandre VergerCompton TuckerArnaud MialonLaura Vang RasmussenLei FanRasmus Fensholt
Published in: Nature ecology & evolution (2018)
The African continent is facing one of the driest periods in the past three decades as well as continued deforestation. These disturbances threaten vegetation carbon (C) stocks and highlight the need for improved capabilities of monitoring large-scale aboveground carbon stock dynamics. Here we use a satellite dataset based on vegetation optical depth derived from low-frequency passive microwaves (L-VOD) to quantify annual aboveground biomass-carbon changes in sub-Saharan Africa between 2010 and 2016. L-VOD is shown not to saturate over densely vegetated areas. The overall net change in drylands (53% of the land area) was -0.05 petagrams of C per year (Pg C yr-1) associated with drying trends, and a net change of -0.02 Pg C yr-1 was observed in humid areas. These trends reflect a high inter-annual variability with a very dry year in 2015 (net change, -0.69 Pg C) with about half of the gross losses occurring in drylands. This study demonstrates, first, the applicability of L-VOD to monitor the dynamics of carbon loss and gain due to weather variations, and second, the importance of the highly dynamic and vulnerable carbon pool of dryland savannahs for the global carbon balance, despite the relatively low carbon stock per unit area.
Keyphrases
  • climate change
  • high resolution
  • oxidative stress
  • wastewater treatment
  • mass spectrometry
  • single cell