Long term GNSS time series detect vertical crustal movement rates, which typically at orogens demonstrate uplift.
The orogenic uplift can be ascribed to tectonic and post-glacial adjustments and crustal thickening. We investigate
the sensitivity of satellite gravity change rate observations to detect the associated mass changes. Gravity change
rate joint with uplift monitoring allows to distinguish the mechanism of uplift (Braitenberg and Shum, 2016).
We use known vertical uplift rates over specific orogens to predict the gravity change for different geodynamic
hypotheses of pure uplift and mantle inflow, or crustal thickening and isostatic Moho lowering. The sensitivity
of gravity as a tool to distinguish the two mechanisms is investigated. The estimate of this tectonic signal is
important, when the observed gravity change rates of GRACE and future missions are interpreted exclusively
in terms of hydrologic changes tied to climatic variation. We find that in some areas, as the Tibetan plateau and
the Himalayan- Alpine range, the tectonic signal is measurable by satellite gravity and contributes to a better
understanding of the geodynamic processes leading to orogenesis
