Hydrological deformation induced by the West African Monsoon: Comparison of GPS, GRACE and loading models
Résumé
Three-dimensional ground deformation measured with permanent GPS stations in
West Africa was used for investigating the hydrological loading deformation associated
with Monsoon precipitation. The GPS data were processed within a global network for the
2003–2008 period. Weekly station positions were retrieved with a repeatability (including
unmodeled loading effects) of 1–2 mm in the horizontal components and between 2.5
and 6 mm in the vertical component. The annual signal in the vertical component for
sites located between 9.6N and 16.7N is in the range 10–15 mm. It is consistent at the
3 mm-level with the annual regional-scale loading deformations estimated from GRACE
satellite products and modeled with a combination of hydrological, atmospheric, and
nontidal oceanic models. An additional 6 month transient signal was detected in the vertical
component of GPS estimates at most of the West African sites. It takes the form of an
oscillation occurring between September and March, and reaching a maximum amplitude of
12–16 mm at Ouagadougou (12.5N). The analysis of in situ hydro-geological data revealed
a strong coincidence between this transient signal and peak river discharge at three sites
located along the Niger River (Timbuktu, Gao, and Niamey). At Ouagadougou, a similar
coincidence was found with the seasonal variations of the water table depth. We propose a
mechanism to account for this signal that involves a sequence of swelling/shrinking of clays
combined with local loading effects associated with flooding of the Niger River.
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