| Abstract: | The products of volcanism on the Earth and Moon differ widely in terms of morphology, distribution, composition, and age. These differences result partly from the different thermal histories of the two bodies and partly through the different controls on volcanic eruption conditions. The controls of volcanism are here separated into three groups: (1) controls which remain constant on any one body but which differ from planet to planet: (2) parameters that are controlled by the rheology of the magma: and (3) controls which are intrinsic properties of individual eruptions and are themselves dependent upon the planetary and rheological variables. In terms of planetary variables it can be predicted that lunar volcanic morphologies are influenced by greater tephra range, hemispherical eruption clouds, lesser lithostatic pressures at corresponding depths, slower cooling, slower erosion, lesser horizontal stress differences, and no features typical of hydrosphere-magma interaction. In terms of rheology, the lunar eruptions had different rock and gas compositions, low yield strengths and viscosities, and high densities. Many lunar basalts appear to have been produced at high eruption rates, to have been derived from monogenetic volcanoes, and to have flowed in a turbulent manner.The weight of available data points to the vast majority of lunar craters being of impact origin though some dark halo craters, sinuous rille source craters, rimless pits, and craters atop domes and cones are undoubtedly of volcanic origin. Other impact craters appear to have been modified by volcanic events. Included within this latter group are the floor-fractured craters and the mare basins.Studies of volcanic morphologies on bodies other than the Earth may help isolate the effectiveness of those controls of volcanism which remain constant on any one body. Although volcanology has advanced substantially within the last few decades, much more detailed integrated scientific research is required before we are able to predict confidently the environmental hazards that result from volcanism and to understand the role of volcanism in planetary evolution. |
