Difference between revisions of "Boulder Tracks"
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=Lunar Boulder Tracks= | =Lunar Boulder Tracks= | ||
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==What are they?== | ==What are they?== | ||
Boulder tracks occur when a boulder rolls on the surface of the Moon. The typical size of the boulder and track is about 7 meters (diameter) and 5 meters respectively. Boulders up to 23 meters and down to 1.3 meters have been identified. Boulder rolls, and their subsequent related boulder tracks, are hypothesized to be the result of lunar seismic activity or thermal cycling.<br /> <u>Note</u>''':'''<br /> Boulder Tracks should not be confused with [http://the-moon.us/wiki/Lunar%20Catenae Crater Chains]!<br /> <br /> | Boulder tracks occur when a boulder rolls on the surface of the Moon. The typical size of the boulder and track is about 7 meters (diameter) and 5 meters respectively. Boulders up to 23 meters and down to 1.3 meters have been identified. Boulder rolls, and their subsequent related boulder tracks, are hypothesized to be the result of lunar seismic activity or thermal cycling.<br /> <u>Note</u>''':'''<br /> Boulder Tracks should not be confused with [http://the-moon.us/wiki/Lunar%20Catenae Crater Chains]!<br /> <br /> | ||
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<br /> <br /> [Data for Lunar Orbiter III and V and Apollo orbital and surface images to be added.]<br /> <br /> | <br /> <br /> [Data for Lunar Orbiter III and V and Apollo orbital and surface images to be added.]<br /> <br /> | ||
==Images== | ==Images== | ||
− | [[Image:BoulderRolls-SWofMaunderB.jpg|BoulderRolls-SWofMaunderB.jpg]]<br /> Boulder rolls off a massif within the northern sector of the [ | + | [[Image:BoulderRolls-SWofMaunderB.jpg|BoulderRolls-SWofMaunderB.jpg]]<br /> Boulder rolls off a massif within the northern sector of the [[Orientale%20Basin|Orientale Basin]] - some 40 km southwest of Maunder B (for more, zoom in at this [http://bit.ly/2vGa7yJ LROC map position]).<span class="membersnap">- JohnMoore2</span><br /> [[Image:BoulderRolls-SEofWernerD.jpg|BoulderRolls-SEofWernerD.jpg]]<br /> Boulder rolls - southeast of Werner D<span class="membersnap">- DannyCaes <small>Sep 12, 2016</small></span><br /> <br /> [Existing scanned Lunar Orbiter images have adequate quality to resolve images for reference inclusion here. In the preceding table, when an image is readily available, the ID numbers are linked to pages displaying them.]<br /> <br /> |
==Apollo 17 - boulder tracks on the mountains surrounding the Taurus-Littrow Valley== | ==Apollo 17 - boulder tracks on the mountains surrounding the Taurus-Littrow Valley== | ||
* Boulder tracks were also photographed during the last manned lunar excursion of Apollo 17 in december 1972. See image/bibliography info in the page [http://the-moon.us/wiki/North%20Massif North Massif]. | * Boulder tracks were also photographed during the last manned lunar excursion of Apollo 17 in december 1972. See image/bibliography info in the page [http://the-moon.us/wiki/North%20Massif North Massif]. | ||
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Latest revision as of 20:03, 16 April 2018
Contents
- 1 Lunar Boulder Tracks
- 1.1 What are they?
- 1.2 Why are these boulder tracks useful?
- 1.3 Limitations of existing data
- 1.4 Locations/data
- 1.5 Images
- 1.6 Apollo 17 - boulder tracks on the mountains surrounding the Taurus-Littrow Valley
- 1.7 Vitello
- 1.8 Ludek Pesek
- 1.9 Peculiar boulder track
- 1.10 The hook-shaped tracks of the boulders on Werner D's ejectablanket
- 1.11 LPOD Articles
- 1.12 LROC Articles (the numbered posts)
- 1.13 Bibliography
- 2 Miscellaneous
Lunar Boulder Tracks
What are they?
Boulder tracks occur when a boulder rolls on the surface of the Moon. The typical size of the boulder and track is about 7 meters (diameter) and 5 meters respectively. Boulders up to 23 meters and down to 1.3 meters have been identified. Boulder rolls, and their subsequent related boulder tracks, are hypothesized to be the result of lunar seismic activity or thermal cycling.
Note:
Boulder Tracks should not be confused with Crater Chains!
Why are these boulder tracks useful?
Because it is possible to deduce surface properties (bearing strength, density) without having to land a spacecraft there. This would enable operational planning of landers and rovers.
Limitations of existing data
Although most of the present images showing boulder tracks exist in Lunar Orbiter photographs, less than 1% of the lunar surface was imaged at the high resolution necessary to resolve these tracks. Typically, 1-5m resolution is needed to obtain useful data. High resolution coverage by the upcoming Lunar Reconnaissance Orbiter (LRO) will enable more tracks to be identified.
2017... after exploring lots of High-Resolution NAC photographs from the Lunar Reconnaissance Orbiter (online in the ACT-REACT QUICK MAP of the LROC site), we could say that the number of boulder tracks on the lunar surface is ENORMOUS!!!
Locations/data
[Consolidated list of these tracks, with position on image and estimate of latitude/longitude, size estimates, other derived data.]
The list shown below is for the older Lunar Orbiter imagery. However, recent images from the Lunar Reconnaissance Orbiter have also shown boulder tracks. Image nacl00000e09.tif (LRO image with boulder tracks) shows a large number of such tracks at a resolution of 1.62 m/pixel. A download of the file will enable contrast enhancement to see >50 tracks near column 1370/row 17491 (image is 5064 by 52224).
It is desired to eventually replace the "Image Center" latitude and longitude with the track latitude and longitude. The supplementary data for the lunar orbiter images provide the frame vertex coordinates, so with the track pixel position, this should be derivable.
No Lunar Orbiter sourcebook has been found correlating the framelet number with high resolution frame code number (i.e. H1, H2 or H3). This data can only be obtained upon obtaining and viewing the high resolution frames.
The "Track Distance From Edge of Image" was originally referenced to 40 cm wide prints. The start point of the measurement is the edge of the Lunar Orbiter film with the framelet numbers. It was never defined exactly where the start point is (i.e. the very edge of the film or the edge of the visible image). Nevertheless, this data is very helpful in locating these "tiny" tracks in the large images.
Two sources of images have been useful for reviewing these tracks. These include the Lunar and Planetary Institute and the USGS Astrogeology Research Program. When reviewing images for features such as tracks, realize that it is preferable to use film and that scans may not have the quality to see some tracks, especially ones with short length.
The ID numbers are unique codes assigned to each track listed in the table. For tracks discovered on lunar orbiter images the code is LOnfffHix where LO (for Lunar Orbiter) and H (for High Resolution Camera) are fixed, n is the Lunar Orbiter mission number [1..5], fff is the three-digit frame number, i is the high-resolution subframe number [1..3], and x is a sequential capital letter [A..Z] assigned to the tracks discovered in a particular subframe, in the order of discovery.
Distance From |
Image Center |
Number |
||||||
---|---|---|---|---|---|---|---|---|
ID |
Spacecraft |
Frame # |
Framelet # |
Edge (cm) |
Latitude |
Longitude |
of Tracks |
References |
LO2020H3A |
LO-II |
20H3 |
991 |
21.1 |
4.1° |
38° |
1 |
4 |
LO2027H3A |
LO-II |
27H3 |
921 |
21.2 |
3.8° |
36.6° |
1 |
1,4,5 |
LO2050H3A |
LO-II |
50H3 |
932 |
10.6 |
4.6° |
21.8° |
1 |
4 |
LO2055H3A |
LO-II |
55H3 |
597 |
8.1 |
4.3° |
21.1° |
1 |
4 |
LO2065H1A |
LO-II |
65H1 |
986 |
9.5 |
4.5° |
15.8° |
1 |
4 |
LO2071H3A |
LO-II |
71H2-H3 |
710 (712?, 713?) |
20.8 (27.8?) |
2.8° |
2.5° |
1 |
2,4 |
LO2076H2A |
LO-II |
76H2-H3 |
364 |
13 |
1.3° |
23.7° |
1 |
1,5 |
LO2106H3A |
LO-II |
106H3 |
292 |
9.5 |
2.2° |
2.1° |
1 |
4,5 |
LO2122H1A |
LO-II |
122H1 |
464 |
? |
0.32° |
-1.32° |
1 |
1 |
LO2123H1A |
LO-II |
123H1 |
595 (594?) |
2.6 |
-1.3° |
0° |
1 |
1,2,4 |
LO2149H3A |
LO-II |
149H3 |
924 |
5.6 |
3.8° |
-27.2° |
1 |
4 |
LO2150H2A |
LO-II |
150H2 |
81 |
13.1 |
3.8° |
-27.1° |
1 |
4 |
LO2159H3A |
LO-II |
159 |
315 |
38.9 |
2.9° |
-26.9° |
1 |
4 |
LO2160H2A |
LO-II |
160H2-H3 |
386 |
26.4 |
3.2° |
-26.8° |
1 |
4 |
LO2163H2A |
LO-II |
163H2 |
783 |
25.1 |
0.3° |
-20.2° |
1 |
4 |
LO2164H2A |
LO-II |
164H2 |
915 |
9.5 |
0.3° |
-20.1° |
1 |
4 |
LO2166H3A |
LO-II |
166H3 |
150 |
13.8 |
-0.4° |
-19.7° |
1 |
2,4 |
LO2179H3A |
LO-II |
179H3 |
847 |
19.5 |
2.6° |
-34.5° |
1 |
4 |
LO2179H2A |
LO-II |
179H2 |
884 |
38.9 |
2.4° |
-34.5° |
1 |
4 |
LO2189H3A |
LO-II |
189H3 |
166 |
6.3 |
2.1° |
-34.5° |
1 |
4 |
LO2190H2A |
LO-II |
190H2 |
323 |
2.8 |
2° |
-34.1° |
1 |
4 |
LO2195H2A |
LO-II |
195H2-H3 |
975 |
19.2 |
2.9° |
-42.7° |
1 |
4 |
LO2198H2A |
LO-II |
198H2 |
397 |
39.1 |
1.9° |
-42° |
1 |
4 |
LO2211H3A |
LO-II |
211H3 |
49 |
26.5 |
1.6° |
-41.3° |
1 |
4,5 |
LO3026H1A |
LO-III |
26H1 |
293-295 |
2(2.9) |
-.4 |
42.1 |
1 |
4,5 |
LO3035H3A |
LO-III |
35H3 |
395-396 |
26 |
-1.1 |
42.8 |
1 |
1,4,5 |
LO3044H2A |
LO-III |
44H2 |
594 |
30.8 |
.69 |
27.1 |
1 |
5 |
LO3044H2B |
LO-III |
44H2 |
596 |
31.4 |
.69 |
27.1 |
1 |
5 |
LO3044H2C |
LO-III |
44H2 |
597 |
30.2 |
.69 |
27.1 |
1 |
5 |
LO3046H1A |
LO-III |
46H1 |
890 |
34.5 |
.69 |
27.1 |
1 |
5 |
LO3046H1B |
LO-III |
46H1 |
892 |
36.5 |
.69 |
27.1 |
1 |
5 |
LO3052H1A |
LO-III |
52H1 |
676-679 |
20.5 |
.4 |
24.1 |
1 |
4 |
LO3068H3A |
LO-III |
68H3 |
732-734 |
20.5 |
.9 |
-.9 |
1 |
4 |
LO3096H3A |
LO-III |
96H3 |
379 |
20.3 |
.83 |
-1.4 |
1 |
5 |
LO3100H3A |
LO-III |
100H3 |
910 |
10.4 |
.9 |
-1 |
1 |
4,5 |
LO3103H?A |
LO-III |
103H? |
342 |
22.5 |
.93 |
-6.2 |
1 |
5 |
LO3107H2A |
LO-III |
107H2 |
868 |
2.1(2.6) |
-.3 |
-5.7 |
1 |
1,4,5 |
LO3107H2B |
LO-III |
107H2 |
870-871 |
1 |
-.3 |
-5.7 |
12 |
4,5 |
LO3111H2A |
LO-III |
111H2 |
364 |
28.6 |
-4.9 |
4.8 |
4 |
1,5 |
LO3111H2B |
LO-III |
111H2 |
373 |
39.2(38.9) |
-4.9 |
4.8 |
1 |
1,4,5 |
LO3111H3A |
LO-III |
111H3 |
382 |
39.2 |
-4.9 |
4.8 |
1 |
5 |
LO3118H2A |
LO-III |
118H2 |
305-307 |
31.5 |
-3.4 |
-3.4 |
1 |
4,5 |
LO3125H3A |
LO-III |
125H3 |
204 |
6.8(7) |
-.6 |
-20 |
1 |
1,5 |
LO3125H3B |
LO-III |
125H3 |
204 |
7.5 |
-.6 |
-20 |
1 |
1 |
LO3125H3C |
LO-III |
125H3 |
204 |
7.6 |
-.6 |
-20 |
1 |
1 |
LO3125H3D |
LO-III |
125H3 |
204,205 |
5.3(5.6) |
-.6 |
-20 |
1 |
1,5 |
LO3125H3E |
LO-III |
125H3 |
206 |
6.4(6.5) |
-.6 |
-20 |
1 |
1,5 |
LO3125H3F |
LO-III |
125H3 |
206 |
8.7 |
-.6 |
-20 |
4 |
4 |
LO3130H3A |
LO-III |
130H3 |
895-898 |
9.6 |
-.9 |
-20 |
2 |
4 |
LO3132H2A |
LO-III |
132H2 |
142 |
14.7 |
-3.2 |
-18 |
1 |
5 |
LO3143H3A |
LO-III |
143H3 |
562 |
10.5 |
-3.3 |
-23 |
1 |
5 |
LO3146H3A |
LO-III |
146H3 |
935 |
5.1 |
-2.4 |
-23 |
1 |
5 |
LO3146H3B |
LO-III |
146H3 |
935 |
2.7 |
-2.4 |
-23 |
2 |
4 |
LO3147H1A |
LO-III |
147H1 |
134 |
29.8 |
-2.8 |
-23 |
1 |
5 |
LO3149H1A |
LO-III |
149H1 |
409 |
28.3 |
-3 |
-23 |
1 |
5 |
LO3151H1A |
LO-III |
151H1 |
656 |
15.8 |
-3.2 |
-23 |
1 |
5 |
LO3151H1B |
LO-III |
151H1 |
678 |
33.7 |
-3.2 |
-23 |
1 |
4 |
LO3153H1A |
LO-III |
153H1 |
944 |
30.5 |
-3 |
-24 |
1 |
5 |
LO3155H1A |
LO-III |
155H1 |
209 |
6.6 |
-3.1 |
-23 |
1 |
5 |
LO3157H3A |
LO-III |
157H3 |
387 |
34.2 |
-3.2 |
-23 |
1 |
5 |
LO3158H2A |
LO-III |
158H2 |
541-543 |
39.2 |
-3.1 |
-23 |
1 |
4,5 |
LO3159H3A |
LO-III |
159H3 |
659 |
22.2 |
-3.3 |
-23 |
1 |
5 |
LO3159H2A |
LO-III |
159H2 |
674 |
3.1 |
-3.3 |
-23 |
1 |
5 |
LO3163H1A |
LO-III |
163H1 |
249 |
39 |
1.77 |
-42 |
1 |
5 |
LO3164H2A |
LO-III |
164H2 |
340-346 |
7.5 |
1.8 |
-42 |
1 |
4 |
LO3167H2A |
LO-III |
167H2 |
723 |
11.1 |
1.55 |
-42 |
1 |
5 |
LO3173H1A |
LO-III |
173H1 |
557 |
15.2 |
-3.3 |
-37 |
1 |
5 |
LO3178H1A |
LO-III |
178H1 |
221 |
7.8 |
-3.5 |
-37 |
1 |
5 |
LO3181H2A |
LO-III |
181H2 |
567 |
28.4 |
-2.1 |
-44 |
1 |
1 |
LO3186H2A |
LO-III |
186H2 |
231 |
8(8.2) |
-2.1 |
-45 |
2 |
4,5 |
LO3186H3A |
LO-III |
186H3 |
193 |
28.4 |
-2.1 |
-45 |
1 |
4 |
LO3189H2A |
LO-III |
189H2 |
615 |
7.7 |
-2.4 |
-44 |
1 |
1 |
LO3189H2B |
LO-III |
189H2 |
617 |
9.1 |
-2.4 |
-44 |
1 |
1,5 |
LO3189H2C |
LO-III |
189H2 |
618 |
.5 |
-2.4 |
-44 |
1 |
5 |
LO3189H2D |
LO-III |
189H2 |
626 |
8.5 |
-2.4 |
-44 |
1 |
5 |
LO3189H2E |
LO-III |
189H2 |
628 |
7.4 |
-2.4 |
-44 |
1 |
5 |
LO3197H1A |
LO-III |
197H1 |
707 |
13.6 |
-2.9 |
-43 |
1 |
5 |
LO3200H1A |
LO-III |
200H1 |
101-103 |
6.4 |
-3.2 |
-43 |
1 |
4 |
LO3203H3A |
LO-III |
203H3 |
419 |
5.6 |
-3.3 |
-43 |
1 |
5 |
LO3203H2A |
LO-III |
203H2 |
469 |
16.5 |
-3.3 |
-43 |
1 |
5 |
LO3204H3A |
LO-III |
204H3 |
564 |
24.3 |
-3.1 |
-43 |
1 |
5 |
LO3204H1A |
LO-III |
204H1 |
601,602 |
11.5 |
-3.1 |
-43 |
1 |
4 |
LO-V |
34H3 |
880 |
17.6 |
-25.7° |
60.6° |
1 |
1,5 | |
LO-V |
34H3 |
891 |
29.9 |
-25.7° |
60.6° |
4? |
1,5 | |
LO5034H2A |
LO-V |
34H2 |
916 |
5.3 |
-25.7 |
60.6 |
1 |
5 |
LO5034H2B |
LO-V |
34H2 |
922 |
7.0 |
-25.7 |
60.6 |
2 |
5 |
LO5035H1A |
LO-V |
35H1 |
76 |
33.3 |
-25.2 |
60.6 |
1+ |
5 |
LO-V |
35H2 |
051 |
25.6 |
-25.2° |
60.6° |
6+? |
5 | |
LO-V |
35H2 |
064 |
28.5 |
-25.2° |
60.6° |
1 |
5 | |
LO-V |
36H3 |
144 |
21.5 |
-24.8° |
60.7° |
1 |
3,5 | |
LO-V |
36H3 |
167 |
4.05 |
-24.8° |
60.7° |
1 |
5 | |
LO5047H3A |
LO-V |
47H3 |
611 |
24.25 |
-.5 |
43.2 |
1 |
5 |
LO5047H3B |
LO-V |
47H3 |
613 |
31.3 |
-.5 |
43.2 |
1 |
5 |
LO5049H2A |
LO-V |
49H2 |
908 |
1 |
-.8 |
41.4 |
1 |
5 |
LO5049H3A |
LO-V |
49H3 |
867 |
1 |
-.8 |
41.4 |
1 |
5 |
LO5062H2A |
LO-V |
62H2 |
605 |
18.3 |
3.2 |
33.0 |
1 |
5 |
LO-V |
63H2 |
738 |
14.7 |
-.2 |
31.0 |
4+ |
5 | |
LO5086H1A |
LO-V |
86H1 |
787 |
7.1 |
37.7 |
13.4 |
1 |
5 |
LO5088H2A |
LO-V |
88H2 |
10 |
22.7 |
38.6 |
13.5 |
1 |
1,5 |
LO-V |
95H1 |
956 |
16.0 |
7.6 |
5.9 |
1 |
1,5 | |
LO-V |
95H1 |
957 |
16.4 |
7.6 |
5.9 |
1 |
1,5 | |
LO-V |
95H1 |
958 |
16.0 |
7.6 |
5.9 |
1 |
1,5 | |
LO-V |
95H1 |
959 |
16.1 |
7.6 |
5.9 |
1 |
1,5 | |
LO5095H1E |
LO-V |
95H1 |
960 |
14.6 |
7.6 |
5.9 |
1 |
1,5 |
LO-V |
95H1 |
962 |
16.7 |
7.6 |
5.9 |
1 |
1,5 | |
LO-V |
95H1 |
965 |
23.9 |
7.6 |
5.9 |
1 |
1,5 | |
LO-V |
95H1 |
967 |
25.2 |
7.6 |
5.9 |
1 |
1,5 | |
LO-V |
95H1 |
968 |
25.3 |
7.6 |
5.9 |
1 |
1,5 | |
LO-V |
95H1 |
970 |
24.6 |
7.6 |
5.9 |
1 |
1,5 | |
LO-V |
95H1 |
978 |
25.2 |
7.6 |
5.9 |
1 |
1,5 |
[Data for Lunar Orbiter III and V and Apollo orbital and surface images to be added.]
Images
Boulder rolls off a massif within the northern sector of the Orientale Basin - some 40 km southwest of Maunder B (for more, zoom in at this LROC map position).- JohnMoore2
Boulder rolls - southeast of Werner D- DannyCaes Sep 12, 2016
[Existing scanned Lunar Orbiter images have adequate quality to resolve images for reference inclusion here. In the preceding table, when an image is readily available, the ID numbers are linked to pages displaying them.]
Apollo 17 - boulder tracks on the mountains surrounding the Taurus-Littrow Valley
- Boulder tracks were also photographed during the last manned lunar excursion of Apollo 17 in december 1972. See image/bibliography info in the page North Massif.
- One of the boulder tracks on Apollo 17's North Massif is also mentioned and depicted in NASA SP-362 APOLLO OVER THE MOON; A View From Orbit, Chapter 3: The Terrae - Part 1; Figures 40 and 41.
- More photographs of the boulder tracks on the slopes of both the North Massif and South Massif were included in NASA's APOLLO 17 PRELIMINARY SCIENCE REPORT.
- See also page 297 of the article Exploring Taurus-Littrow by Harrison H. Schmitt (National Geographic september 1973).
Vitello
- The most well-known orbital photograph of boulder tracks on the lunar surface (at the slopes of the central peak in Vitello) was included on page 236 of the article Awesome Views of the Forbidding Moonscape (a nine-page portfolio) in the National Geographic of february 1969.
Ludek Pesek
- An interesting painting of a lunar boulder and its downslope track, by space artist Ludek Pesek, was printed on pages 40 and 41 in Ron Miller's book Space Art (Starlog Magazine, 1978).
- https://fineartamerica.com/featured/artwork-of-moons-surface-with-earth-in-the-sky-ludek-pesek.html
Peculiar boulder track
The area to the northwest of Koval'skiy (farside crater) is the location of an unnamed high-albedo raycraterlet (probably the remains of an oblique impact), see photographic version of LAC 100 (page 200) in the Clementine Atlas (a broad white spot almost at centre of LAC 100). Immediately east-northeast of this bright raycraterlet is the location of a peculiar looking track south of a 20 or 25 meter sized boulder. This peculiar appearance (the track) was independently discovered by Danny Caes via the LRO's ACT-REACT Quick Map. The pinpoint coordinates of the boulder and its weird looking track are: Longitude 100.155 Latitude -21.045
Now, why are there no tracks behind the other boulders in the neighborhood?
The hook-shaped tracks of the boulders on Werner D's ejectablanket
It's interesting to explore the LRO's NAC close-ups of the ejectablanket around Werner D. The location of the bright crater Werner D is on the northern inner slope of Werner itself. The tracks of almost each one of the ejected boulders (from Werner D) look remarkably "hook-shaped", because they rolled down the slope, southward.
LPOD Articles
A Long Trail, Follow the Bouncing Boulder (boulder tracks in Tsiolkowskij).
LROC Articles (the numbered posts)
http://lroc.sese.asu.edu/posts/79 (Bright Boulder Trail) (Moore F)
http://lroc.sese.asu.edu/posts/80 (Bouncing, Bounding Boulders!) (southwest Rowland)
http://lroc.sese.asu.edu/posts/82 (Small Crater on the Wall of Metius B)
http://lroc.sese.asu.edu/posts/178 (Hole in One!) (Henry Freres)
http://lroc.sese.asu.edu/posts/221 (Central Peak / Mare Boundary) (Tsiolkovskiy)
http://lroc.sese.asu.edu/posts/256 (Boulder Trails in Menelaus)
http://lroc.sese.asu.edu/posts/258 (Gassendi's Central Peak)
http://lroc.sese.asu.edu/posts/381 (Sampling Schrodinger)
http://lroc.sese.asu.edu/posts/416 (A Gathering in Lacus Mortis)
http://lroc.sese.asu.edu/posts/495 (A Recent Journey) (in Schiller T on the floor of Schiller)
http://lroc.sese.asu.edu/posts/509 (Rolling Rolling Rolling) (Pikel'ner S)
http://lroc.sese.asu.edu/posts/524 (Boulder Tales) (Schrodinger)
http://lroc.sese.asu.edu/posts/532 (Sampling a Central Peak) (Moretus)
http://lroc.sese.asu.edu/posts/544 (Rock Slide in Rima Hyginus)
http://lroc.sese.asu.edu/posts/557 (Weaving Boulder Trails on the Moon) (Tsiolkovskiy)
http://lroc.sese.asu.edu/posts/619 (Bounce, Roll, and Stop) (Shuckburgh E)
http://lroc.sese.asu.edu/posts/630 (Star Light Star Bright) (in the bowl-shaped crater east of the concentric crater on the floor of Humboldt)
http://lroc.sese.asu.edu/posts/633 (Lazy Boulders in Scaliger)
http://lroc.sese.asu.edu/posts/703 (Northeastward!) (northeast Van Gent U)
http://lroc.sese.asu.edu/posts/757 (Bowl of Boulders in Steno Q)
http://lroc.sese.asu.edu/posts/759 (Station 6 - Apollo 17)
Bibliography
Lists of boulder locations are given in:
- 1) Hovland, H. John; Mitchell, James K. 1973. Boulder Tracks and Nature of Lunar Soil. The Moon, Volume 6, Issue 1-2, pp. 164-175. - lists 69 tracks
- 2) Arant, W. H.; Eggleston, J. M.; Patteson, A. W.; Spooner, D. L.; Throop, J. E. 1968. Lunar "rolling stones." (Lunar Orbiter 2 spacecraft high resolution photographs used to study rolling boulders on moon, noting tracks on crater walls). Photogrammetric Engineering, Vol. 34, P. 246-255. - lists 4 tracks
- 3) Moore. H.J., Vischer, W.A., Martin, G.L. 1972. Boulder Tracks on the Moon and Earth, Geological Survey Research 1972 Chapter B, Geological Survey professional Paper 800-B, pg. B163-174. - lists 14 tracks
- 4) Moore, H.J. 1970. "Interagency Report: Astrogeology 22, Estimates of the Mechanical Properties of Lunar Surface Using Tracks and Secondary Impact Craters Produced by Blocks and Boulders", July 1970, - lists 48 tracks
- 5) Grolier, M.J., Moore, H.J., Martin, G.L. 1968. "A Preliminary Geologic Evaluation of Areas Photographed by Lunar Orbiter V Including an Apollo Landing Analysis of One of the Areas, Appendix A, Lunar Block Tracks", Langley/Lunar Orbiter Photo Data Screening Group, Langley Working Paper: 506, February 1968. - lists "at least 290 tracks".
Miscellaneous
Terrestrial boulder tracks and snow rollers
EPOD (Earth Science Picture of the Day)
The mysterious Moving Rocks:
http://epod.usra.edu/blog/2002/03/the-mysterious-moving-rocks.html
Snow Roller:
http://epod.usra.edu/blog/2017/02/archive-snow-roller.html
Gravity driven Snow Roller:
http://epod.usra.edu/blog/2007/04/gravity-driven-snow-roller.html
Boulder tracks on Mars?