UNITED STATES DEPARTMENT OF THE INTERIOR GEOLOGICAL SURVEY
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1 UNITED STATES DEPARTMENT OF THE INTERIOR GEOLOGICAL SURVEY INTERAGENCY REPORT: 2 7 Documentation of the Apollo 14 samples by G. A. Swann, R. M. Batson, R. E. Eggleton, K. B. Larson, J.P. Schafer, and R. L. Sutton April 1971 This report is preliminary and has not been edited or reviewed for conformity with U.S. Geological Survey standards and nomenclature. Prepared by the Geological Survey for the National Aeronautics and Space Admin i s t rat i on
2 INTERAGENCY REPORT: 27 Documentation of the Apollo 14 samples by G. A. Swann, R. M. Batson, R. E. Eggleton, K. B. Larson, J. P. Schafer, and R. L. Sutton April 1971 Prepared under NASA contract number T- 6523G
3 Illustrations Figure 1. Figure 2. Figure 3. Figure 4. Figure 5. Figure 6. Figure 7. Figure 8. Regional geologic map of the area surrounding the Apollo 14 landing site. Map of major geologic features in Apollo 14 traverse area. Rock distribution map. Traverse map showing sample and photograph locations. Sample before collection. Orthogonal views of sample shown in approximate lunar orientation. Sample 14051, showing approximate lunar orientation reconstructed in the LRL. Orthogonal views of sample 14051, shown in approximate lunar orientation. Figure 9. Orthogonal views of sample Figure 10. Figure 11. Figure 12. Figure 13. Figure 14. Figure 15. Figure 16. Figure 17. Figure 18. Samples and before collection. Sample number 14082, chipped from the white rock. Sample 14305, showing approximate lunar orientation reconstructed in the LRL using oblique lighting. Orthogonal views of sample 14305, shown in approximate lunar orientation. Sample 14306, showing approximate lunar orientation reconstructed in the LRL using oblique lighting. Orthogonal views of sample 14306, shown in approximate lunar orientation. Samples and 14313, showing approximate lunar orientation reconstructed in the LRL using oblique lighting. Orthogonal views of sample 14313, shown in approximate lunar orientation. View of portion of North Boulder Field, Station H, showing locations of samples 14312, 14315, and
4 Figure 19. Figure 20. Figure 21. Figure 22. Turtle rock, samples from rock surface and fillet. Orthogonal views of sample number 14318, shown in approximate lunar orientation. Sample number 14321, showing approximate lunar orientation reconstructed in the LRL using oblique lighting. Orthogonal views of sample 14321, shown in approximate lunar orientation.
5 This report was prepared for the purpose of illustrating the regional and local environments, and the locati ons and lunar orientations of the documented samples returned by Apollo 14. All of the illustrations are taken from the Preliminary Science Report ("Ninetyday report") submitted to the National Aeronautics and Space Administration by the Apollo Lunar Geologic Investigation (S-059) team (Swann et al., 1971).
6 IMBRIUM Figure 1. Regional geologic map of the area surrounding the Apollo 14 landing site (simplified from Wilhelms and McCauley, 1971). 2
7 EXPLANATION Materials of major post- Fro Mauro era tcrs D. Dark mantling material D.... Young mare ba sa lt Old mare bas<j lt Pre -marc plains - forming materia l Alpes Formation Fra Mauro Forma tion Materials of mountains r im ming the Imbrium Basin Undivided terra materials Mostly pre-fra Mauro materia ls, but includes some later crater de posits and proba ble volcanic r ocks 3
8 -+=:a Figure 2. Map of major geologic features in Apollo 14 traverse area. Origin of geol ogic units is described in the Apollo 14 premission maps by Eggleton and Offield (1970). (Base map prepared by Topographic Command, U.S. Army.)
9 EXPLANATION Materials of Cone Crater Smooth terrain materia l of the Fra Mauro Formation 0 Ridge material of the Fra Mauro Formation Contact Long dashed where approximately located. Short dashed where location is inferred without local evidence --.., :~;--- Foot of scarp Bounds small mesa. Triangles point down slope. Short dashed wher e location inferred -----zs---""2>----zs:-- Edge of hill Long dashed where approximately located. Short dashed where location inferred. Triangles point down slope Traverse route fo r EVA's 1 and 2 Stations 0 B Panorama stat ion l>gl C I S LR3 Station without panorama ALSEP Central Station Laser Ranging Retroreflector Samp l es FSR Coni Spl Camp Spl Dg Football-sized r ock Contingency sample Comprehensive sample Grab s ample at Station D 5
10 0'1 Figure 3. Rock distribution map. Command, U. S. Army.) (Base map prepared by Topographic
11 Rock Distribution Map Explanation 0 Large Rocks 8-16 meter diameter 4-8 meter diameter 2-4 meter diameter 1-2 meter diameter Boundary of area where rocks are obscured by poor lighting--mostly inside Cone crater Small Rocks Distribution of rocks within 10 meter radius of panorama station. Rocks shown by solid pattern. Traverse and station symbols same as on Geologic Map 7
12 00 Figure 4. Traverse map showing sample and photograph locations. map prepared by Topographic Command, U.S. Army.) (Base
13 Sample Map Explanation Bag 6N (0) (T) (?) (grab) CT ://:lt DP PAN SESC Pre-numbered sample bag Sample for which location is "known" by reference to sample bags used at the time of collection Sample for which location and lunar orientation known Sample for which location is tentative, based on identification of sample in lunar surface photographs Sample for which location is tentative based on description by the astronauts, the process of elimination of known samples, or the possibility of sample mixing during transfer between or within weigh bags Sample which was not photographed before sampling or put into pre-numbered bags Core tube number 1 with a tab (not,.tentative") Sample documentation photograph numbers Panorama photograph numbers Special environmental sample Traverse and station symbols s ame as on Geologic Map 9
14 Figure 5. Sample number before collection (enlargement of NASA photograph AS ). 10
15 N 1 r ~ ~ ~ 0 6cm. I I I I I I I Figure 6, Orthogonal views of sample number 14047, shown in approximate lunar orientation. NASA photograph numbers are shown in the schematic diagram.
16 Figure 7. Sample number 14051, showing approximate lunar orientation reconstructed in the LRL using oblique lighting. The reconstruction is superimposed on NASA photograph AS taken before sample collection. 12
17 N w~ ~E _, w S-71- S cm. I I I I I I I Figure 8. Orthogonal views of sample number 14051, shown in approximate lunar orientation. NASA photograph numbers are shown in the schematic diagram.
18 I 6cm I Figure 9. Orthogonal views of sample number NASA photograph numbers are shown in the schematic diagram. The lunar orientation of the rock is not known, but weathered and unweathered portions of the rock suggest a burial line. 14
19 Figure 10. Samples (rocks) and (fines) photographed before collection (NASA photograph AS ). Tentative correlations have been made between the four largest fragments and LRL photographs of the samples. 15
20 Figure 11. Sample number 14082, chipped from the white rocks. Geologic hammer is 40 em long. (NASA photograph AS ). 16
21 Figure 12. Sample number showing approximate lunar orientation reconstructed in the LRL using oblique lighting. The reconstruction is superimposed on NASA photograph AS taken before sample collection and before broke from
22 0 6cm I I I I Figure 13. Orthogonal views of sample 14305, shown in approximate lunar orientation. NASA photograph numbers are shown in the schematic diagram. 18
23 Figure 14. Sample 14306, showing approximate lunar orientation reconstructed in the LRL using oblique lighting. The reconstruction is superimposed on NASA photograph AS taken before sample collection. 19
24 N C> 0 6cm I I I I I I I Figure 15. Orthogonal views of sample 14306, shown in approximate lunar orientation. NASA photograph numbers are shown in the schematic diagram.
25 .. N Figure 16. Sample and (tentatively identified) showing approximate lunar orientation reconstructed in the LRL using oblique lighting. The reconstruction is superimposed on NASA photograph AS taken prior to collecting the sample.
26 w f L s ~ 0 I 6cm. I Figure 17. Orthogonal views of sample 14313, shown in approximate lunar orientation. NASA photograph numbers are shown in the schematic diagram. 22
27 Figure 18. View of portion of North Boulder Field, Station H, showing tentative locations of samples and 14312, and "Turtle rock" in background. (NASA photograph AS ) 23
28 Figure 19. Turtle rock near Station H, showing samples from rock surface and fillet. 24
29 0 6cm I I I I Figure 20. Orthogonal views of sample 14318, shown in approximate lunar orientation. NASA photograph numbers are shown in the schematic diagram. 25
30 Figure 21. Sample 14321, showing approximate lunar orientation reconstructed in the LRL using oblique lighting. The reconstruction is superimposed on NASA photograph AS taken before sample collection. 26
31 y ~ ~ s ~ 0 6cm. I I I I Figure 22. Orthogonal views of sample 14321, shown in approximate lunar orientation. NASA photograph numbers are shown in the schematic diagram. 27
32 References Swann, G. A., Bailey, N. G., Batson, R. M., Eggleton, R. E., Hait, M. H., Holt, H. E., Larson, K. B., McEwen, M. C., Mitchell, E. D., Schaber, G. G., Schafer, J.P., Shepard, A. B., Sutton, R. L., Trask, N.J., Ulrich, G. E., Wilshire, H. G., and Wolfe, E. W., 1971, Preliminary geologic investigations of the Apollo 14 landing site, National Aeronautics and Space Administration Special Paper, [in press]. Eggleton, R. E. and Offield, T. W., 1970, Geologic maps of the Fra Mauro region of the moon: U.S. Geol. Survey Misc. Geol. Inv. Map I-708. Wilhelms, D. E. and McCauley, J. F., 1971, Geologic map of the near side of the moon: U.S. Geol. Survey Misc. Geol. Inv. Map 1-703, [in press]. 28
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grams grams Crystalline matrix Breccia
14069 24.87 grams 14070-36.56 grams Crystalline matrix Breccia Figure 1: Photo of 14069,0. Scale in cm and mm. S78-28808. 14070 Figure 2: Photo of 14070. Scale is in cm. S71-22168. Introduction 14069 and
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