Post-glacial inflation-deflation cycles, tilting, and faulting in the Yellowstone Caldera based on Yellowstone Lake shorelines

Pierce, Kenneth L.; Cannon, Kenneth P.; Meyer, Grant A.; Trebesch, Matthew J.; Watts, Raymond D.

doi:10.3133/ofr02142

Cited by 33 publications

(64 citation statements)

References 41 publications

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“…On the other hand, some areas have been continuously deforming for decades, and even millennia, without eruption [e.g., Newhall and Dzurisin , 1988]. Centuries long patterns of deformation alternating between uplift and subsidence at Campi Flegrei [ Cinque et al , 1985], Yellowstone [ Pierce et al , 2002], and possibly Long Valley [ Reid , 1992], have yielded net uplift of only 15–40 m. Uplift at Socorro has been continuous between at least 1912–2008, but proposed evidence for continuous uplift lasting 10,000 years or more is dubious [ Fialko et al , 2001; Finnegan and Pritchard , 2009].…”

Section: Discussionmentioning

confidence: 99%

Duration, magnitude, and frequency of subaerial volcano deformation events: New results from Latin America using InSAR and a global synthesis

Fournier

Pritchard

Riddick

2010

Geochem Geophys Geosyst

147

128

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[1] We combine new observations of volcano deformation in Latin America with more than 100 previous deformation studies in other areas of the world to constrain the frequency, magnitude, and duration of subaerial volcano deformation events. We discuss implications for eruptive hazards from a given deformation event and the optimum repeat interval for proposed InSAR satellite missions. We use L band (23.6 cm wavelength) satellite-based interferometric synthetic aperture radar (InSAR) to make the first systematic search for deformation in all volcanic arcs of Latin America (including Mexico, Central America, the Caribbean, and the northern and southern Andes), spanning 2006-2008. We combine L and C band (5.6 cm wavelength) InSAR observations over the southern Andes volcanoes to extend the time series from 2002 to 2008 and assess the capabilities of the different radars: L band gives superior results in highly vegetated areas. Our observations reveal 11 areas of volcano deformation, some of them in areas that were thought to be dormant. There is a lack of observed deformation at several erupting volcanoes, probably due to temporal aliasing. The total number of deforming volcanoes in the central and southern Andes now totals 15 (from observations between 1992 and 2008), comparable to the Alaska/Aleutian arc. Globally, volcanoes deform across a variety of time scales (from seconds to centuries) often without eruption and with no apparent critical observation time scale, although observations made every minute are sometimes necessary to see precursors to eruption.

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Section: Discussionmentioning

confidence: 99%

Duration, magnitude, and frequency of subaerial volcano deformation events: New results from Latin America using InSAR and a global synthesis

Fournier

Pritchard

Riddick

2010

Geochem Geophys Geosyst

147

128

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“…The lake basin is a large caldera that was formed approximately 640 000 years ago when the magma chamber of two separate domes collapsed. The lake is 352 km 2 in area, although it was originally 32 m higher than current levels (Pierce et al . 2002; US National Park Service 2004).…”

Section: Methodsmentioning

confidence: 99%

Reproductive biology and pollination ecology of the rare Yellowstone Park endemicAbronia ammophila(Nyctaginaceae)

Saunders

Sipes

2006

Plant Species Biology

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We examined the breeding system, reproductive output and pollination ecology of Abronia ammophila Greene, a rare and highly restricted endemic of Yellowstone National Park, Wyoming, USA. Floral morphology permits the automatic deposition of self-pollen on the stigma of individual flowers, and male and female reproductive functions temporally overlap. In controlled hand-pollination treatments, we found no significant difference among pollination treatments (unmanipulated, self-pollinated or cross-pollination). The species maintains a long reproductive season with high reproductive output (natural seed set ranged from 59 to 84%). Our results, along with pollinator observations, suggest that A. ammophila exhibits a mixed-mating system: the species can produce seed without pollinators (via either autogamy or agamospermy), but is also visited by an array of pollinating insects that included moths, butterflies and bumblebees. However, noctuid moths were the most abundant pollinators. In contrast, other Abronia species are obligate outcrossers. The mixed-mating system of A. ammophila may have evolved as a consequence of ecological pressures such as scarcity of mates or pollinators.

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“…The level of 2.5 MPa is shown by the dotted line as a minimum level providing dyke propagation for slow chamber infilling activity on the lake floor. The vertical offset of the fault has been detected in the area of the Yellowstone River outlet (Pierce et al 2002) measuring up to 6 m. Yellowstone Lake is still a zone of hydrothermal activity. The regional fault apparently does not cut through the entire chamber roof but terminates midway.…”

Section: Applicationsmentioning

confidence: 99%

“…The largest pool is located in the northeast corner of the caldera under the Sour Creek dome. Its evolution since the last glaciation is recorded in the elevation variation of the Yellowstone Lake shoreline (Pierce et al 2002). Pulses of magma replenishment correspond to the peak levels of uplift at roughly every 1,500 years, followed by a general subsidence at an average rate of 0.5 cm/a in Holocene times (presumably from gradual solidification and degassing of the large volume of magma).…”

Section: Applicationsmentioning

confidence: 99%

The role of magma chamber-fault interaction in caldera forming eruptions

Simakin

Ghassemi

2009

Bull Volcanol

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This paper examines the role of the position and orientation of a regional fault in the roof of a magma chamber on stress distribution, mechanical failure, and dyking using 2D finite element numerical simulations. The study pertains to the magma chamber behavior in the relatively short time intervals of several hundreds to thousand of years. The magma chamber is represented as an elliptical inclusion (eccentricity, a/b=0.12) at a relative depth, H/a, of 0.9. The fault has a 45°dip and is represented by a frictionless fracture. The temperature field in the host rock is calculated assuming a quasisteady-state thermal regime that develops through periodic episodes of magma supply. The rheology of the surrounding rocks is treated using viscoelasticity with temperature activated strain-rate dependent viscosity. Strain weakening of the rocks in the ductile zone is described within the frame of the Dynamic Power Law model . The magma pressure is coupled with the deformation of the rock mass hosting the chamber, including the fault. The variation of magma pressure in response to magma supply and chamber deformation is calculated in the elastic and viscoelastic regimes. The latter corresponds to slow filling, while the former represents a filling time much less than the viscous relaxation time scale. The resulting "equation of state" for the magma chamber couples the magma pressure with the chamber volume in the elastic regime, and with the filling rate for the viscoelastic regime. Analysis of stresses is used to predict dyke propagation conditions, and the mechanical failure of the chamber roof for different fault positions and magma overpressures. Results show that an outward dipping fault located on the periphery of the chamber roof hinders the propagation of dykes to the surface, causing magma to accumulate under the footwall of the fault. At high to moderate overpressures (30-40 MPa), the fault causes localized shear failure and chamber roof collapse that might lead to the first stage of a caldera-forming eruption.

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Post-glacial inflation-deflation cycles, tilting, and faulting in the Yellowstone Caldera based on Yellowstone Lake shorelines

Cited by 33 publications

References 41 publications

Duration, magnitude, and frequency of subaerial volcano deformation events: New results from Latin America using InSAR and a global synthesis

Duration, magnitude, and frequency of subaerial volcano deformation events: New results from Latin America using InSAR and a global synthesis

Reproductive biology and pollination ecology of the rare Yellowstone Park endemicAbronia ammophila(Nyctaginaceae)

The role of magma chamber-fault interaction in caldera forming eruptions

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