Capillary geochemistry in non-saturated zone of soils. Water content and geochemical signatures. - INSU - Institut national des sciences de l'Univers Access content directly
Journal Articles Applied Geochemistry Year : 2008

Capillary geochemistry in non-saturated zone of soils. Water content and geochemical signatures.

Abstract

The unsaturated zone (UZ) retains aqueous solutions against gravity by capillary forces. This suction state corresponds to a decreasing internal pressure of the water, which modifies its thermodynamic properties. Accordingly, the speciation of solutes and the solubility of solids and gases in such capillary solutions change. The volumetric capillary water content of the soil at high suction can be calculated extrapolating the water retention curves (WRC) with the Rossi–Nimmo model. Interestingly, several tens of liters per cubic meter of soil can be thus suctioned, a sufficiently large volume to support that: (1) capillary water is not restricted to nanosized pores, which means it disobeys the Young–Laplace law and is metastable with respect to vapor (superheating); and (2) the geochemistry of capillary solutions might significantly influence the subsurface mass transfer. Two field situations are here interpreted using the capillary thermodynamic properties: (1) the trapping of sand grains during the growth of desert roses (gypsum), and (2) the development of abnormal paragenetic sequences in some saprolites. The capillary approach is extended to the soil solids, so that the micro-mineralogy can be explicitly (though sketchily) integrated in the calculations. The key conclusion is that capillarity changes the saturation indexes (and so the reaction rates) at given solution composition, in a way consistent with the field observations. This perspective amounts to geochemically distinguishing the capillary and percolating solutions, which is interestingly analogous to the immobile and mobile water distinction already often integrated in UZ flow models
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Dates and versions

insu-00356838 , version 1 (05-02-2009)

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Marie Pettenati, Lionel Mercury, Mohamed Azaroual. Capillary geochemistry in non-saturated zone of soils. Water content and geochemical signatures.. Applied Geochemistry, 2008, 23, pp.3799-3818. ⟨10.1016/j.apgeochem.2008.10.002⟩. ⟨insu-00356838⟩
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