Geomorphology of the Imhotep region on comet 67P/Churyumov-Gerasimenko from osiris observations
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A.-T. Auger et al.: Geomorphology of the Imhotep region on comet 67P /Churyumov-Gerasimenko from OSIRIS observations Fig. 2. Upper panel: mosaic of six NAC images covering the Imhotep region (see Table 1 for the list of images). Letters A to F are reference names for the accumulations basins (see text for details). Lower panel: geomorphological mapping of the Imhotep region. Smooth terrains cover about one third of the Imhotep re- gion. Most of the smooth terrains are located in the local grav- itational lows (Fig. 4 ), and all of them are located in flat areas where the gravitational slope is lower than 15 ◦ (Fig. 5 ). The
largest smooth area, located at the center of the region, covers a surface of 0.8 km 2 . It is remarkably flat, with gravitational slopes lower than 5 ◦ and very close to the gravitational lowest point of Imhotep (Fig. 4 ). Although less extended, some smooth terrains are also visible in the area of roundish features (Figs. 4 and 9 ) that are located in the gravitational low of the region. A35, page 3 of 13
A&A 583, A35 (2015) Table 1. NAC images used for the general mapping of the Imhotep region. Image
Date Distance to comet center (km) Pixel scale (m) NAC_2014-08-03T17.19.34.549 3 Aug. 2014 273.3
5.1 NAC_2014-08-25T23.12.54.550 25 Aug. 2014 52.1
1.0 NAC_2014-09-05T06.31.16.575 5 Sept. 2014 43.2
0.8 NAC_2014-09-05T06.35.55.557 5 Sept. 2014 43.2
0.8 NAC_2014-09-05T06.40.55.560 5 Sept. 2014 43.1
0.8 NAC_2014-09-05T06.45.55.557 5 Sept. 2014 43.1
0.8 Fig. 3. Smooth terrains on Imhotep and zooms on the fine material for two di fferent areas. This image was acquired with the NAC cam- era on 5 Oct. 2014 from a distance of 18 km. The spatial resolution is 34 cm
/pix. (NAC_2014-10-05T16.09.11.) Fig. 4. Gravitational heights on Imhotep, shown in transparency above a mosaic image of the region. Accumulation basins, boulders, and smooth terrain boundaries are also represented. The yellow cross indicates the gravitationally lowest point of the region. The thickness of smooth terrains seems to vary across the region, although we cannot quantify it. Upslope on the borders of the basins, the thickness of the fine material gradually decreases, revealing the underlying rocky terrains. Finally, smooth terrains are cut by terrace margins (Figs. 2 and
3 ) that can be gentle or very steep. 3.2. Rocky terrains Rocky terrains are so called to distinguish them from smooth terrains. Rocky terrains consist of exposed, consolidated mate- rials. As they are covered by a fine material in flat areas, most
Gravitational slopes on Imhotep, shown in transparency above a mosaic image of the region. Smooth terrain boundaries and boulders are also represented. Fig. 6. Rocky terrains with fractures. This image was acquired with the NAC camera on 18 Sept. 2014 from a distance of 28 km. The spatial resolution is 54 cm /pix. (NAC_2014-09-18T05.22.28.) of them are only visible at the peripheries of the Imhotep region (Fig. 2
◦ (Fig.
5 ). Rocky
terrains on Imhotep are made of a highly fractured material. The fractures present di fferent orientations (Fig. 6 ), which are some- times locally associated with a feature (Fig. 18 , Sect. 4.3). These fractures are quite common on the nucleus of 67P and have been observed in other regions ( Thomas et al. 2015b ). The notable exception to these statements is the area of roundish features located in the gravitational low of the region (Fig.
4 ), where rocky terrains are still visible in a more chaotic arrangement and do not show fractures at the meter scale (Figs. 2 and 9 ). A35, page 4 of 13 A.-T. Auger et al.: Geomorphology of the Imhotep region on comet 67P /Churyumov-Gerasimenko from OSIRIS observations Fig. 7. Color-composite images with zoom on the bright, bluer, ar- eas. We used three filters: blue (480 nm), green (536 nm), and or- ange (649 nm). The images were acquired with the NAC camera on 5 Sept. 2014 from a distance of 43 km. The spatial resolution is 81 cm
/pix. (NAC_2014-09-05T06.45 and NAC_2014-09-05T08.00.) 3.3. Accumulation basins Morphologically, we define the accumulation basins as areas where a fine material and boulders seem to accumulate preferen- tially (Fig. 2 ). These basins correspond to the gravitational lows of the region (Fig. 4 ). They are all shaped like an alcove and have steep sides with gravitational slopes exceeding 40 ◦ . Except for basin F in the south, each basin opens toward a lower basin. We detected four minor basins of 0.1–0.2 km 2 (basins A, B, C, and F) and two larger ones of 0.8 km 2 each (basins D and E). Basin D corresponds to the largest smooth terrain and basin E to the area of roundish features. Accumulation basins cover two- thirds of the Imhotep region and thus dominate the overall geo- morphology of the region. 3.4. Bright areas A few bright patches are visible in the images (Fig. 2 ). They are located at the basin edges. They are associated with boulders that have recently been illuminated (they were in the dark before due to large localized projected shadows from surrounding terrains), but also with a scarp east of the region that has been illuminated daily for several months (Fig. 7 ). These patches are bluer than the average color of the region, with a contrast of 7.5 at 550 nm (V band) between the dark and bright terrains (see Pommerol et al. 2015 ). This may be indicative of ice and water ice in par- ticular ( Sunshine et al. 2006 ; Pommerol et al. 2015 ). Water ice is also supported by the lack of changes of these bright areas over a period of several weeks, which excludes more volatile species such as CO 2 ice (
Pommerol et al. 2015 ). In the Imhotep region, bright areas represent less than 1% of the total surface area. 3.5. Linear features The Imhotep region presents linear features as slope breaks (Fig.
2 ). These linear features are long compared to the size of the nucleus, typically hundreds of meters and up to 1 km for
the Imhotep region. This image was acquired with the NAC cam- era on 5 Sept. 2014, from a distance of 43.5 km. The spatial reso- lution is 80 cm /pix. (NAC_2014-09-05T05.21.16). Bottom: zoom on terraces cut by fractures. This image was acquired with the NAC cam- era on 16 Sept. 2014 from a distance of 28 km. The spatial resolution is 50 cm
/pix. (NAC_2014-09-16T01.17.56.) the longest ones. All linear features are located near the gravi- tational low of the region, with the exception of one linear fea- ture in basin C. Several linear features cross the interface of the rocky to the smooth terrain without discontinuities, suggesting a continuity of the rocky terrain topography below the smooth material (Figs. 2 and 8 ). In the vicinity of basin F, linear features correspond to roughly concentric scarps that can be described as terraces (Fig. 8 ). We identified about ten terraces, with a height of 5 ±2 m derived from the DTM ( Jorda et al. 2014 ). 3.6. Roundish features The roundish features identified in Fig. 2 (see also Fig. 9 ) are characterized by a circular, elliptical, or irregular roundish A35, page 5 of 13
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