Systematic destruction of K-feldspar in deeply buried rift and passive margin sandstones

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Journal of the Geological Society; 2001; v. 158; issue.4; p. 675-683
© 2001 Geological Society of London

Regular Article

Systematic destruction of K-feldspar in deeply buried rift and passive margin sandstones

M. WILKINSON, KITTY L. MILLIKEN & R. STUART HASZELDINE

¹ Department of Geology and Geophysics, Grant Institute, Kings Buildings, University of Edinburgh, Edinburgh, Scotland EH9 3JW, UK (e-mail: m.wilkinson{at}glg.ed.ac.uk)
² Department of Geological Sciences, University of Texas at Austin, Austin, Texas 78713, USA

Scientific editing by Duncan Pirrie.

Systematic patterns of detrital K-feldspar decline with increasingburial depth are revealed during deep burial (1.5–4.5km) of sandstones in diverse sedimentary basins from three riftand two passive margin settings in the North Sea and USA GulfCoast. K-feldspar destruction is predominantly by dissolution,though in-situ alteration to albite also occurs. Dissolutioncan remove up to 15% solid volume of the rock by 4.5 km, sothat primary arkosic sandstones become diagenetic quartzarenitesat depth, with increased secondary:primary porosity ratios.The quantity of K-feldspar destroyed during temperature increaseis very variable: 0.05–1.0% solid volume/°C. Compactioncontinues during deep burial and petrographic textures diagnosticof secondary porosity are destroyed (so that many sandstonespreserve <10% secondary porosity). Alternative explanationsfor K-feldspar reduction with depth, including changes in originalsediment provenance controlling the observed variation of feldsparwith depth, or that source areas changed during deposition,can be refuted. Deeply buried sandstones are not reliable recordsof depositional composition.

Exceptions to this scenario of detrital K-feldspar dissolutionare noted. Proximity of K-rich evaporites, high SiO₂ and K⁺activity due to the breakdown of volcanic clasts or very lowP_CO₂ can stabilize both K-feldspar and a suite of K-rich cements.

Keywords: feldspar, sandstone, diagenesis, secondary porosity, compaction.

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