Influence of surface water variations on VOD and biomass estimates from passive microwave sensors

https://doi.org/10.1016/j.rse.2021.112345Get rights and content
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Highlights

  • Dynamic water extent is generally not considered in passive microwave algorithms.

  • They can impact significantly the retrieved Vegetation Optical Depth (VOD) values.

  • The VOD and derived AGB values are underestimated during floods.

  • This error is due to the low brightness temperatures of the surface water introduced.

  • Retrieval algorithms of passive microwave biomass estimates need to be corrected.

Abstract

Vegetation optical depth (VOD) is a remotely sensed indicator characterizing the attenuation of the Earth's thermal emission at microwave wavelengths by the vegetation layer. At L-band, VOD is used to estimate the global biomass, a key component of the Earth's surface and of the carbon cycle. This study focuses on the behaviour of L-band VOD (L-VOD) retrieval algorithm over seasonally inundated areas, as some previous observations have shown an unexpected decline in VOD during flooding events. To analyse such variations, a passive microwave model was used to simulate the signal emitted by a mixed scene composed of soil and standing water. The retrieval over this inundated scene led to an overestimation of soil moisture (SM) and an underestimation of L-VOD. The phenomenon is more pronounced over grasslands than over forests, since low vegetation is mostly submerged under water and becomes invisible to the sensor; and since more standing water is visible to the sensor. The estimated L-VOD is typically reduced by ~10% over flooded forests and up to 100% over flooded grasslands. Such effects can distort the analysis of aboveground biomass (AGB) and aboveground carbon (AGC) dynamics based on L-VOD estimates. We evaluated that AGB can be underestimated by 15/20 Mg ha−1 in the largest seasonal wetlands, which can represent more than 50% of the actual AGB of these fields, and up to higher values during exceptional meteorological years. Consequently, to better estimate the global biomass, surface water seasonality has to be taken into account in passive microwave retrieval algorithms.

Keywords

Biomass
Water fraction
Passive microwaves
SMOS
L-band
VOD
Retrievals

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