Global mapping of iron and titanium oxides in the lunar megaregolith and subsurface

[Abstract]: This paper reports mapping results obtained by remote sensing analysis of Iron and Titanium oxides in the megaregolith under the lunar Highlands regolith and in the subsurface under the Mare and South Pole Aitken basin regolith. FeO and TiO2 images were mosaicked from data extracted from...

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Bibliographic Details
Published in:Australian Journal of Earth Sciences
Main Authors: Jackson, Noel William, Carter, B. D.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2007
Subjects:
moon
Clementine
mapping
crater
ejecta
megaregolith
subsurface
South Pole
Aitken
South pole
Online Access:https://research.usq.edu.au/item/9y55z/global-mapping-of-iron-and-titanium-oxides-in-the-lunar-megaregolith-and-subsurface
https://research.usq.edu.au/download/accbd69caa64444260bca487bc22d42a4e6d2e2f91e0ba3eba65c5326a152656/936496/Jackson_Carter.pdf
https://doi.org/10.1080/08120090701392713
Description
Summary:[Abstract]: This paper reports mapping results obtained by remote sensing analysis of Iron and Titanium oxides in the megaregolith under the lunar Highlands regolith and in the subsurface under the Mare and South Pole Aitken basin regolith. FeO and TiO2 images were mosaicked from data extracted from the 1994 Clementine lunar orbiter mission from 600 N to 600 S, using the Lucey et al. technique (2000). These images then used to study the ejecta blanket for each of 2059 craters analysed using ISIS software (US Geological Survey). Average weight percentage values for each crater ejecta blanket were interpolated to derive underlying global Province Maps for FeO and TiO2. The Moon was divided into five (5) provinces as a balance of the needs of analysis requirements and simplicity. Division of global TiO2 weight percentages in the megaregolith /subsurface five provinces was matching the observed distribution of that at the surface. In contrast, division of lunar FeO into 5 Provinces reveals unexpectedly elevated iron concentrations (3.8 to 6.4%) in some areas of the Highland megaregolith. This Province of elevated iron oxide is termed “Highland II”.

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