Galileo at Io: Results from high-resolution imaging

A. S. McEwen; M. J.S. Belton; H. H. Breneman; S. A. Fagents; P. Geissier; R. Greeley; J. W. Head; G. Hoppa; W. L. Jaeger; T. V. Johnson; L. Keszthelyi; K. P. Klaasen; R. Lopes-Gautier; K. P. Magee; M. P. Milazzo; J. M. Moore; R. T. Pappalardo; C. B. Phillips; J. Radebaugh; G. Schubert; P. Schuster; D. P. Simonelli; R. Sullivan; P. C. Thomas; E. P. Turtle; D. A. Williams

doi:10.1126/science.288.5469.1193

Galileo at Io: Results from high-resolution imaging

A. S. McEwen, M. J.S. Belton, H. H. Breneman, S. A. Fagents, P. Geissier, R. Greeley, J. W. Head, G. Hoppa, W. L. Jaeger, T. V. Johnson, L. Keszthelyi, K. P. Klaasen, R. Lopes-Gautier, K. P. Magee, M. P. Milazzo, J. M. Moore, R. T. Pappalardo, C. B. Phillips, J. Radebaugh, G. SchubertP. Schuster, D. P. Simonelli, R. Sullivan, P. C. Thomas, E. P. Turtle, D. A. Williams

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Abstract

During late 1999/early 2000, the solid state imaging experiment on the Galileo spacecraft returned more than 100 high-resolution (5 to 500 meters per pixel) images of volcanically active Io. We observed an active lava lake, an active curtain of lava, active flows, calderas, mountains, plateaus, and plains. Several of the sulfur dioxide-rich plumes are erupting from distal flows, rather than from the source of silicate lava (caldera or fissure, often with red pyroclastic deposits). Most of the active flows in equatorial regions are being emplaced slowly beneath insulated crust, but rapidly emplaced channelized flows are also found at all latitudes. There is no evidence for high-viscosity lava, but some bright flows may consist of sulfur rather than mafic silicates. The mountains, plateaus, and calderas are strongly influenced by tectonics and gravitational collapse. Sapping channels and scarps suggests that many portions of the upper ~1 kilometer are in volatiles.

Original language	English (US)
Pages (from-to)	1193-1198
Number of pages	6
Journal	Science
Volume	288
Issue number	5469
DOIs	https://doi.org/10.1126/science.288.5469.1193
State	Published - May 19 2000

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McEwen, A. S., Belton, M. J. S., Breneman, H. H., Fagents, S. A., Geissier, P., Greeley, R., Head, J. W., Hoppa, G., Jaeger, W. L., Johnson, T. V., Keszthelyi, L., Klaasen, K. P., Lopes-Gautier, R., Magee, K. P., Milazzo, M. P., Moore, J. M., Pappalardo, R. T., Phillips, C. B., Radebaugh, J., ... Williams, D. A. (2000). Galileo at Io: Results from high-resolution imaging. Science, 288(5469), 1193-1198. https://doi.org/10.1126/science.288.5469.1193

McEwen, AS, Belton, MJS, Breneman, HH, Fagents, SA, Geissier, P, Greeley, R, Head, JW, Hoppa, G, Jaeger, WL, Johnson, TV, Keszthelyi, L, Klaasen, KP, Lopes-Gautier, R, Magee, KP, Milazzo, MP, Moore, JM, Pappalardo, RT, Phillips, CB, Radebaugh, J, Schubert, G, Schuster, P, Simonelli, DP, Sullivan, R, Thomas, PC, Turtle, EP & Williams, DA 2000, 'Galileo at Io: Results from high-resolution imaging', Science, vol. 288, no. 5469, pp. 1193-1198. https://doi.org/10.1126/science.288.5469.1193

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abstract = "During late 1999/early 2000, the solid state imaging experiment on the Galileo spacecraft returned more than 100 high-resolution (5 to 500 meters per pixel) images of volcanically active Io. We observed an active lava lake, an active curtain of lava, active flows, calderas, mountains, plateaus, and plains. Several of the sulfur dioxide-rich plumes are erupting from distal flows, rather than from the source of silicate lava (caldera or fissure, often with red pyroclastic deposits). Most of the active flows in equatorial regions are being emplaced slowly beneath insulated crust, but rapidly emplaced channelized flows are also found at all latitudes. There is no evidence for high-viscosity lava, but some bright flows may consist of sulfur rather than mafic silicates. The mountains, plateaus, and calderas are strongly influenced by tectonics and gravitational collapse. Sapping channels and scarps suggests that many portions of the upper ~1 kilometer are in volatiles.",

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AU - McEwen, A. S.

AU - Belton, M. J.S.

AU - Breneman, H. H.

AU - Fagents, S. A.

AU - Geissier, P.

AU - Greeley, R.

AU - Head, J. W.

AU - Hoppa, G.

AU - Jaeger, W. L.

AU - Johnson, T. V.

AU - Keszthelyi, L.

AU - Klaasen, K. P.

AU - Lopes-Gautier, R.

AU - Magee, K. P.

AU - Milazzo, M. P.

AU - Moore, J. M.

AU - Pappalardo, R. T.

AU - Phillips, C. B.

AU - Radebaugh, J.

AU - Schubert, G.

AU - Schuster, P.

AU - Simonelli, D. P.

AU - Sullivan, R.

AU - Thomas, P. C.

AU - Turtle, E. P.

AU - Williams, D. A.

PY - 2000/5/19

Y1 - 2000/5/19

N2 - During late 1999/early 2000, the solid state imaging experiment on the Galileo spacecraft returned more than 100 high-resolution (5 to 500 meters per pixel) images of volcanically active Io. We observed an active lava lake, an active curtain of lava, active flows, calderas, mountains, plateaus, and plains. Several of the sulfur dioxide-rich plumes are erupting from distal flows, rather than from the source of silicate lava (caldera or fissure, often with red pyroclastic deposits). Most of the active flows in equatorial regions are being emplaced slowly beneath insulated crust, but rapidly emplaced channelized flows are also found at all latitudes. There is no evidence for high-viscosity lava, but some bright flows may consist of sulfur rather than mafic silicates. The mountains, plateaus, and calderas are strongly influenced by tectonics and gravitational collapse. Sapping channels and scarps suggests that many portions of the upper ~1 kilometer are in volatiles.

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Galileo at Io: Results from high-resolution imaging

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