TY - JOUR
T1 - Volcanic mesocyclones
AU - Chakraborty, Pinaki
AU - Gioia, Gustavo
AU - Kieffer, Susan W.
N1 - Funding Information:
Acknowledgements We acknowledge discussions with A. Tupper, D. MacGorman, S. Nesbitt and M. Fromm. We thank the members of the ‘volcanic clouds’ discussion list for help with satellite images. P.C. and S.W.K. acknowledge support through the latter’s Walgreen Chair funds and NSF\EAR grant 06-09712 (S. Esperanza, programme director). G.G. acknowledges support through NSF\DMR grant 06-04435 (W. Fuller-Mora, programme director).
PY - 2009/3/26
Y1 - 2009/3/26
N2 - A strong volcanic plume consists of a vertical column of hot gases and dust topped with a horizontal umbrella. The column rises, buoyed by entrained and heated ambient air, reaches the neutral-buoyancy level, then spreads radially to form the umbrella. In classical models of strong volcanic plumes, the plume is assumed to remain always axisymmetric and non-rotating. Here we show that the updraught of the rising column induces a hydrodynamic effect not addressed to datea volcanic mesocyclone. This volcanic mesocyclone sets the entire plume rotating about its axis, as confirmed by an unprecedented analysis of satellite images from the 1991 eruption of Mount Pinatubo. Destabilized by the rotation, the umbrella loses axial symmetry and becomes lobate in plan view, in accord with satellite records of recent eruptions on Mounts Pinatubo, Manam, Reventador, Okmok, Chaiten and Ruang. The volcanic mesocyclone spawns waterspouts or dust devils, as seen in numerous eruptions, and groups the electric charges about the plume to form the lightning sheath that was so prominent in the recent eruption of Mount Chaiten. The concept of a volcanic mesocyclone provides a unified explanation for a disparate set of poorly understood phenomena in strong volcanic plumes.
AB - A strong volcanic plume consists of a vertical column of hot gases and dust topped with a horizontal umbrella. The column rises, buoyed by entrained and heated ambient air, reaches the neutral-buoyancy level, then spreads radially to form the umbrella. In classical models of strong volcanic plumes, the plume is assumed to remain always axisymmetric and non-rotating. Here we show that the updraught of the rising column induces a hydrodynamic effect not addressed to datea volcanic mesocyclone. This volcanic mesocyclone sets the entire plume rotating about its axis, as confirmed by an unprecedented analysis of satellite images from the 1991 eruption of Mount Pinatubo. Destabilized by the rotation, the umbrella loses axial symmetry and becomes lobate in plan view, in accord with satellite records of recent eruptions on Mounts Pinatubo, Manam, Reventador, Okmok, Chaiten and Ruang. The volcanic mesocyclone spawns waterspouts or dust devils, as seen in numerous eruptions, and groups the electric charges about the plume to form the lightning sheath that was so prominent in the recent eruption of Mount Chaiten. The concept of a volcanic mesocyclone provides a unified explanation for a disparate set of poorly understood phenomena in strong volcanic plumes.
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U2 - 10.1038/nature07866
DO - 10.1038/nature07866
M3 - Article
C2 - 19325632
AN - SCOPUS:63649159813
SN - 0028-0836
VL - 458
SP - 497
EP - 500
JO - Nature
JF - Nature
IS - 7237
ER -