Friday, February 26, 2010

More cavern entrances discovered on the Moon

NEW DISCOVERIES OF LUNAR HOLES IN MARE TRANQUILLTATIS AND MARE INGENII. Junichi Haruyama1, Seiichi Hara2, Kazuyuki Hioki2, Tomokatsu Morota1, Yasuhiro Yokota1, Motomaro Shirao3, Harald Hiesinger4, Carolyn H. van der Bogert4, Hideaki Miyamoto5, Akira Iwasaki5, Makiko Ohtake1, Yoshifumi Saito1, Tsuneo Matsunaga6, Shunsuke Nakanotani7, Carle M. Pieters8, and Paul G. Lucey9, 1ISAS, JAXA, Japan (Haruya-ma.junichi@jaxa.jp), 2NTT DATA CCS CORPORATION, Japan, 3Taito-ku, Tokyo 111-0035, Japan, 4Westfälische Wilhelms-Universität, Germany, 5The University of Tokyo, Japan, 6NIES, Japan, 7Mitsubishi Space Software Co., Ltd., Japan, 8Brown University, USA, 9University of Hawaii, USA.

Introduction: We recently reported the discovery of a vertical hole on the Moon [1] in data acquired by the Terrain Camera (TC) and Multiband Imager (MI) on the Japanese lunar orbiter Selenological and Engineering Explorer (SELENE) [2], (nicknamed Kaguya). The 65 m-diameter hole is located at 303.3 °E, 14.2 °N in the Marius Hills region in Oceanus Procellarum on the near side of the Moon. The Marius Hills Hole (MHH) is probably a skylight in a lava tube. Here, we report the discovery of two additional nearly circular deep shafts.

Hole Search Methodology: SELENE TC and MI achieved almost 100% coverage of the Moon during the twenty-one month SELENE mission. To find vertical holes similar to MHH, we extracted the TC data of higher solar elevation angles (SEAs) of > 40° (Fig. 1). At these sun angles, the shadowed portions of these vertical shafts receive less sunlight reflected off of their walls than typical shallow lunar craters causing their shadows to be darker than typical craters. Be-cause TC’s sensitivity is very high, we can detect this difference. We searched for the lowest radiances in the data set and found two new holes in Mare Tranquillitatis and Mare Ingenii.

Mare Tranquillitatis Hole: The hole in Mare Tranquillitatis (MTH) is located at 33.2 °E, 8.3 °N (Fig. 1), 350 km from the Apollo 11 landing site. It is nearly twice the diameter of the MHH, and is roughly circular with a short axis length of 110 m (east-west) and a long axis length 120 m (north-south) (Fig. 2). The east rim is about 50 m higher than the west rim. MTH was observed eight times by TC and twice by MI. From the higher SEA data (49.6° in TC observations and 75.6° and 82.8° in MI), we estimate the hole to be 180m deep from the east rim. Unlike the Marius Hills Hole (MHH), MTH is not in or near a sinuous rille. There are numerous craters near MTH, but no other holes are present at the resolution of TC (10 m).

Mare Ingenii Hole: Using the same search for low radiance data, we discovered a hole in Mare Inge-nii (MIH) at 166.0 °E, 35.6 °S, near a prominent swirl feature on the far side of the Moon (Fig. 1). It has a slightly irregular shape (rounded triangle) with a long axis length of 140 m (east-west) and a short axis length of 110 m (north-south) (Fig. 3). Its northwest rim is a few tens of meters higher than the other portions of the rim. TC observed MIH six times and MI observed it once. Because we could not detect the bottom of MIH, even at the highest SEA (47.4° with TC), we can only place a lower limit on the depth of 90 meters. Like that in Mare Tranquillitatis, this hole is not located on or near a rille.

Interior Temperatures of Underlying Lava Tubes: The temperatures of these cavities are of interest for lunar resources and as special lunar microen-vironments. Based on a thermal equilibrium calculation for the shallow lunar interior, we estimated the temperature at the bottoms of the holes. For the surface albedos around the lunar holes, we used radiance data acquired by TC. Assuming a diffuse (Lambertian) sur-face, the albedos are 3.6%, for the surfaces around MHH, 3.7% around MTH, and 5.2% around MIH (Table 1). The interior temperatures of any lava tubes possibly connected to MHH, MTH, and MIH are estimated to be 18, 19, and 4 °C (Table 1). These tempera-tures may be overestimated because we used the radiance data obtained at SEA < style="font-weight: bold;">Table 1.


Hydrogen Accumulation in lava tubes exposed by skylights: The lunar surface is continuously showered by solar wind protons. Although a small fraction of the protons are implanted into the lunar surface, most pro-tons escape into space. However, the deep holes and their possible connected lava tubes might effectively trap solar wind protons. The surface ages surrounding MHH, MTH, and MIH are 3.5 Ga [1], 3.7 Ga [3], and 3.2 Ga [4]. If the holes opened simultaneously with or just after the formation of surrounding surfaces and the solar proton flux was similar to the current flux: 4 x 10(8)/cm2/sec [5], the integrated amount of the protons inside MHH, MIH, and MIH and their con-nected lava tubes would be 3 x 10(3), 1 x 10(4), and 9 x 10(3) tons, which correspond to water of 3 x 10(4), 9 x 10(4), and 8 x 10(4) tons (Table 2).



While these abundances are not entirely protected from loss, the vertical shafts and especially any connected lava tubes are protected from loss mechanisms such as sputtering and UV radiation, while preserving local low temperatures.

Observations By Other Missions: Although SELENE impacted on the Moon and ended its mission in June 2009, the Lunar Reconnaissance Orbiter (LRO) is currently observing the lunar surface with a variety of instruments. The observations acquired by LRO instruments will provide much additional information on these lunar holes. For example, the Lunar Reconnaissance Orbiter Camera (LROC) will reveal the detailed structure of the holes, Diviner can investigate the thermal conditions of the holes, and Chandrayaan and Change’1 data will also hopefully provide additional data for these holes. Of critical importance, is to investigate and understand the geological setting of each of the holes, to determine whether they are associated with lava tubes, like MHH, or have another origin.




Figure 1
. SELENE Terrain Camera observation coverage at solar elevation angles > 40°. Marius Hills Hole and newly dis-covered holes in Mare Tranquillitatis and Mare Ingenii are indicated by *1 (303.3 °E, 14.2 °N), *2(33.2 °E, 8.3 °N), and *3(35.6 °S, 166.0 °E).




Figure 2
. Enlarged TC images of Mare Tranquillitatis Hole, nearly circular with a short axis length of 110 m (east-west) and a long axis length 120 m (north-south).




Figure 3
. Enlarged TC images of Mare Ingenii Hole, a slightly irregular shape (rounded triangle) with a long axis length of 140 m (east-west) and a short axis of 110 m (north-south).


References: [1] Haruyama J. et al. (2009) GRL, 36, L21206, doi:10.1029/2009GL040635. [2] Haruyama J. et al. (2008) Earth Planets and Space, 60, 243-255. [3] Hiesinger H. et al. (2000), JGR, 105(E12), 29239-29276. [4] Haruyama J. et al. (2008) Science, 322, 938-939. [5] Starukhina L. V. and Shkuratov Y. G. (2000) Icarus 147, 585–587.

2 comments:

Tychocrater said...

Collapses in the roofs of lunar lava tubes - skylights - have been recognized and correctly interpreted since the late 1960s, and their value as entrances to shelters has been discussed for decades. What is new with these discoveries is the smallness of the skylights, which implies youthfulness and still existing voids (again, already known from the existence of uncollapsed areas between skylights). Vertical shafts such as these will not be useful for entering tubes because of the danger.

Joel Raupe said...

You are absolutely dead-on correct, Chuck. The study cited is not JAXA which, unlike ISRO's farm-league, has tended to be more measured in their "original claims." On a global-scale, institutional memory sometimes seems as lacking as it is in politics in the U.S.

There's another Print-Only submission to next week's conference in Texas wherein the author has an unattributed image

http://picasaweb.google.com/lh/photo/_ah-Ic9iGmpybO-Gy7NHMw?authkey=Gv1sRgCJfkhJGn5Y-vmQE&feat=directlink

(ISRO?, tented Apollo metric cropping of southeastern Serenitatis?) showing a rille bisected by an "uncollapsed roof." It shows too-soon a leap of faith in what seems to my less-trained eye to be a rubble-filled channel within an overall scene long since gardened into a >2 - >3.2 Ga old ruin. Of course, it might be more accurately labeled than I'm giving the writer credit for, and I think it's likely that there are accessible voids, probably far less apparent than the "holes," and perhaps better designated as less-unsafe geologically "stable opportunities" for excavation below the estimated 11 meters or so of regolith needed to attain an Earth-like equivalent of protection from GCR's.

Rather than scaling such a hole in what is probably thin ice, I think these hole are only really useful as evidence for the Moon's under-appreciated, undiscovered aspects. After General Bolden's expression of disinterest in the Moon at Senator Nelson's hearing, this past week, I simply couldn't resist pulling a Percival Lowell, I suppose. His astounding belief in a relatively hospitable Mars, the idea of leap-frogging the Moon's essential lessons to go off into the Solar System unarmed with the knowledge we so obviously need to gain there betrayed what seemed to me like performing brain surgery as a first-year med student.

-Joel