TY - JOUR
T1 - The final Galileo SSI observations of Io
T2 - Orbits G28-I33
AU - Turtle, Elizabeth P.
AU - Keszthelyi, Laszlo P.
AU - McEwen, Alfred S.
AU - Radebaugh, Jani
AU - Milazzo, Moses
AU - Simonelli, Damon P.
AU - Geissler, Paul
AU - Williams, David A.
AU - Perry, Jason
AU - Jaeger, Windy L.
AU - Klaasen, Kenneth P.
AU - Breneman, H. Herbert
AU - Denk, Tilnmann
AU - Phillips, Cynthia B.
N1 - Funding Information:
The authors express their gratitude to the Galileo mission and SSI support teams, especially to Bill Cunningham and Greg Levanas for their exceptional efforts in diagnosing and resolving the problems that developed with the SSI late in the Galileo mission. Without their hard work the spectacular I32 images would not have been possible. We also thank Mike Belton, leader of the SSI team, for his enthusiastic support. We are grateful to Sarah Fagents and John Stansberry, who provided thorough reviews from which this manuscript benefited greatly. This material is based upon work supported by the National Aeronautics and Space Administration under the Galileo Project.
PY - 2004/5
Y1 - 2004/5
N2 - We present the observations of Io acquired by the Solid State Imaging (SSI) experiment during the Galileo Millennium Mission (GMM) and the strategy we used to plan the exploration of Io. Despite Galileo's tight restrictions on data volume and downlink capability and several spacecraft and camera anomalies due to the intense radiation close to Jupiter, there were many successful SSI observations during GMM. Four giant, high-latitude plumes, including the largest plume ever observed on Io, were documented over a period of eight months; only faint evidence of such plumes had been seen since the Voyager 2 encounter, despite monitoring by Galileo during the previous five years. Moreover, the source of one of the plumes was Tvashtar Catena, demonstrating that a single site can exhibit remarkably diverse eruption styles - from a curtain of lava fountains, to extensive surface flows, and finally a ∼ 400 km high plume - over a relatively short period of time (∼ 13 months between orbits 125 and G29). Despite this substantial activity, no evidence of any truly new volcanic center was seen during the six years of Galileo observations. The recent observations also revealed details of mass wasting processes acting on Io. Slumping and landsliding dominate and occur in close proximity to each other, demonstrating spatial variation in material properties over distances of several kilometers. However, despite the ubiquitous evidence for mass wasting, the rate of volcanic resurfacing seems to dominate; the floors of paterae in proximity to mountains are generally free of debris. Finally, the highest resolution observations obtained during Galileo's final encounters with Io provided further evidence for a wide diversity of surface processes at work on Io.
AB - We present the observations of Io acquired by the Solid State Imaging (SSI) experiment during the Galileo Millennium Mission (GMM) and the strategy we used to plan the exploration of Io. Despite Galileo's tight restrictions on data volume and downlink capability and several spacecraft and camera anomalies due to the intense radiation close to Jupiter, there were many successful SSI observations during GMM. Four giant, high-latitude plumes, including the largest plume ever observed on Io, were documented over a period of eight months; only faint evidence of such plumes had been seen since the Voyager 2 encounter, despite monitoring by Galileo during the previous five years. Moreover, the source of one of the plumes was Tvashtar Catena, demonstrating that a single site can exhibit remarkably diverse eruption styles - from a curtain of lava fountains, to extensive surface flows, and finally a ∼ 400 km high plume - over a relatively short period of time (∼ 13 months between orbits 125 and G29). Despite this substantial activity, no evidence of any truly new volcanic center was seen during the six years of Galileo observations. The recent observations also revealed details of mass wasting processes acting on Io. Slumping and landsliding dominate and occur in close proximity to each other, demonstrating spatial variation in material properties over distances of several kilometers. However, despite the ubiquitous evidence for mass wasting, the rate of volcanic resurfacing seems to dominate; the floors of paterae in proximity to mountains are generally free of debris. Finally, the highest resolution observations obtained during Galileo's final encounters with Io provided further evidence for a wide diversity of surface processes at work on Io.
KW - Geological processes
KW - Io
KW - Satellite
KW - Satellites of Jupiter
KW - Surfaces
KW - Tectonics
KW - Volcanism
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U2 - 10.1016/j.icarus.2003.10.014
DO - 10.1016/j.icarus.2003.10.014
M3 - Article
AN - SCOPUS:2442689388
SN - 0019-1035
VL - 169
SP - 3
EP - 28
JO - Icarus
JF - Icarus
IS - 1
ER -