Buoyancy‐driven propagation of isolated fluid‐filled fractures: Implications for fluid transport in Gulf of Mexico geopressured sediments

Abstract: A large portion of the sediments within the northern Gulf of Mexico contain pore fluid pressures in excess of hydrostatic. Development of geopressure is generally attributed to compaction disequilibrium caused by rapid deposition of low‐permeability sediments in the Miocene and Plio‐Pleistocene. Numerous studies have examined the formation of overpressures and/or expulsion of geopressured fluids into overlying hydropressured strata. However, very little attention has been given to fluid flow within the geopres… Show more

“…8(b)) in agreement with earlier predictions of Weertman (1971), Nunn (1996), Nunn and Meulbroek (2002), Takada (1990), Algar et al (2011b).…”

Methane bubble growth in fine-grained muddy aquatic sediment: Insight from modeling

“…8(b)) in agreement with earlier predictions of Weertman (1971), Nunn (1996), Nunn and Meulbroek (2002), Takada (1990), Algar et al (2011b).…”

Methane bubble growth in fine-grained muddy aquatic sediment: Insight from modeling

“…Schultz (1993) used an elastic shear modulus of 4-23 GPa for a volcanic edifice and Rubin and Pollard (1987) estimated 1-6 GPa for the upper few kilometers of Kilauea volcano in Hawaii. In poorly consolidated sediments, μ can be less than 1 GPa (Nunn 1996). We feel that a range of 1-4 GPa is appropriate for the basaltic-andesite breccias that make up much of the Summer Coon edifice.…”

A model for radial dike emplacement in composite cones based on observations from Summer Coon volcano, Colorado, USA

“…Moreover, the diapiric ascent model is also controversial since numerical modelling indicates that magma solidification should occur due to the slow ascent (Clemens and Mawer, 1992). The model of flow through porosity networks is accepted, for example, in sediments at low confining pressures, but the model is questioned for geopressured zones since it cannot explain all aspects of the observed largescale fluid flow (Nunn, 1996). The third model of propagation relies on fluid-filled fractures and is considered valid throughout the lithosphere.…”

Structure of volcano plumbing systems: A review of multi-parametric effects