Add to ORKGWe are preparing a new global geo-logic map of Jupiter s volcanic moon, Io. Here we report the type of data that are now available from our global mapping efforts, and how these data can be used to investigate questions regarding the volcano-tectonic evolution of Io. We are using the new map to investigate several specific questions about the geologic evolution of Io that previously could not be well addressed, including (for example) a comparison of the areas vs. the heights of Ionian mountains to assess their stability and evolution (Fig. 1). The area-height relationships of Io s visible mountains show the low abundance and low relief of volcanic mountains (tholi) relative to tectonic mountains, consistent with formation from low-viscosit...
Io's surface is younger and has more active volcanism than any other terrestrial body in the solar s...
Galileo’s Near-Infrared Mapping Spectrometer (NIMS) obtained its final observations of Io during the...
Io is currently emitting 1–1.5 W m−2 of tidal energy as a result of its volcanic activity. If the li...
We have completed a new 1:15,000,000 global geologic map of Jupiter's volcanic moon, Io, based on a ...
A new global geologic map of Jupiter's volcanic moon, Io is being prepared, with the focus being on ...
Since the end of the Galileo epoch, ground-based observations have been crucial for the continued mo...
Geologic mapping of the Jovian satellite Io has been completed at 1:15,000,000 scale for an area lyi...
Paterae (volcano-tectonic depressions) are among the most prominent topographic features on Io. They...
Io, the innermost of Jupiter's Galilean satellites, is the most volcanically active body in the Sola...
Tidal dissipation makes Jupiter's moon Io the most volcanically active body in the solar system. Mos...
Global volcanism has implications for planetary evolution far beyond the surface features that we ob...
Terrestrial geologic mapping techniques are regularly used for "photogeologic" mapping of other plan...
Observational evidence and theoretical arguments suggest that Jupiter's satellite Europa could be ge...
Terrestrial geologic mapping techniques are regularly used for "photogeologic" mapping of other plan...
During late 1999/early 2000, the solid state imaging experiment on the Galileo spacecraft returned m...
Io's surface is younger and has more active volcanism than any other terrestrial body in the solar s...
Galileo’s Near-Infrared Mapping Spectrometer (NIMS) obtained its final observations of Io during the...
Io is currently emitting 1–1.5 W m−2 of tidal energy as a result of its volcanic activity. If the li...
We have completed a new 1:15,000,000 global geologic map of Jupiter's volcanic moon, Io, based on a ...
A new global geologic map of Jupiter's volcanic moon, Io is being prepared, with the focus being on ...
Since the end of the Galileo epoch, ground-based observations have been crucial for the continued mo...
Geologic mapping of the Jovian satellite Io has been completed at 1:15,000,000 scale for an area lyi...
Paterae (volcano-tectonic depressions) are among the most prominent topographic features on Io. They...
Io, the innermost of Jupiter's Galilean satellites, is the most volcanically active body in the Sola...
Tidal dissipation makes Jupiter's moon Io the most volcanically active body in the solar system. Mos...
Global volcanism has implications for planetary evolution far beyond the surface features that we ob...
Terrestrial geologic mapping techniques are regularly used for "photogeologic" mapping of other plan...
Observational evidence and theoretical arguments suggest that Jupiter's satellite Europa could be ge...
Terrestrial geologic mapping techniques are regularly used for "photogeologic" mapping of other plan...
During late 1999/early 2000, the solid state imaging experiment on the Galileo spacecraft returned m...
Io's surface is younger and has more active volcanism than any other terrestrial body in the solar s...
Galileo’s Near-Infrared Mapping Spectrometer (NIMS) obtained its final observations of Io during the...
Io is currently emitting 1–1.5 W m−2 of tidal energy as a result of its volcanic activity. If the li...