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Article Dans Une Revue Nature Ecology & Evolution Année : 2018

Satellite passive microwaves for monitoring deforestation and drought-induced carbon losses in sub-Saharan Africa

Amen Al-Yaari
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Yann H. Kerr
Arnaud Mialon

Résumé

The African continent is facing one of the driest periods in the past three decades and continuing deforesta-tion. These disturbances threaten vegetation carbon (C) stocks and highlight the need for an operational tool for monitoring carbon stock dynamics. Knowledge of the amount, distribution, and turnover of carbon in African vegetation is crucial for understanding the effects of human pressure and climate change, but the shortcomings of optical and radar satellite products and the lack of systematic field inventories have led to considerable uncertainty in documenting patterns and dynamics of carbon stocks, in particular for drylands. Static carbon maps have been developed, but the temporal dynamics of carbon stocks cannot be derived from the benchmark maps, impeding timely, repeated, and reliable carbon assessments. The Soil Moisture and Ocean Salinity (SMOS) mission launched in 2009 was the first passive microwave-based satellite sys-tem operating at L-band (1.4 GHz) frequency. The low frequencies allow the satellite to sense deep within the canopy layer with less influence by the green non-woody plant components. The vegetation optical depth (VOD) derived from SMOS, henceforth L-VOD, is thus less sensitive to saturation effects, marking an important step forward in the monitoring of carbon as a natural resource. In this study, we apply for the first time L-VOD to quantify the inter-annual dynamics of aboveground carbon stocks for the period 2010-2016. We use this new technique to document patterns of carbon gains and losses in sub-Saharan Africa with a focus of dryland response to recent dry years. Results show that drylands lost carbon at a rate of -0.06 Pg C y-1 associated with drying trends, while humid areas lost only -0.02 Pg C y-1. These trends reflect a high inter-annual variability with a very wet (2011) and a very dry year (2016) associated with carbon gains and losses respectively. This study demonstrates, first, the operational applicability of L-VOD to mon-itor the dynamics of carbon loss and gain due to climate variations and deforestation, and second, the im-portance of the highly dynamic and drought prone carbon pool of dryland savannahs for the global carbon balance, despite the relatively low carbon stock per unit area.

Dates et versions

hal-03165699 , version 1 (10-06-2024)

Identifiants

Citer

Martin Brandt, Jean-Pierre Wigneron, Jérôme Chave, Torbern Tagesson, Josep Peñuelas, et al.. Satellite passive microwaves for monitoring deforestation and drought-induced carbon losses in sub-Saharan Africa. Nature Ecology & Evolution, 2018, 2 (5), pp.827-835. ⟨10.1038/s41559-018-0530-6⟩. ⟨hal-03165699⟩
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