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1

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Topography of the northern hemisphere of Mars from the Mars Orbiter Laser Altimeter (1998)

Muhleman, D. O. ; Smith, D. E. ; Frey, H. V. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The first 18 tracks of laser altimeter data across the northern hemisphere of Mars from the Mars Global Surveyor spacecraft show that the planet at latitudes north of 50 degrees is exceptionally flat; slopes and surface roughness increase toward the equator. The polar layered terrain appears to be a thick ice-rich formation with a non-equilibrium planform indicative of ablation near the periphery. Slope relations suggest that the northern Tharsis province was uplifted in the past. A profile across Ares Vallis channel suggests that the discharge through the channel was much greater than previously estimated. The martian atmosphere shows significant 1-micrometer atmospheric opacities, particularly in low-lying areas such as Valles Marineris.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 279; 5357; 1686-92

Format: text

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2

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Morphology of Mars North Polar Ice Cap (2000)

MacAyeal, D. ; Saba, J. L. ; Zwally, H. J. ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: The northern ice cap of Mars consists of a parabolic dome centered within 13 km of the pole, plus an arm-like ridge extending from the dome between about 135 and 225 east. Chasma Boreale lies between the dome and the extended ridge. The base of the dome is approximately elliptical with a major axis of 1100 km along the 90 east to 270 east direction and minor axis of 700 km along zero east to 180 deg. The heights of the dome and the extended ridge are respectively 2900 inches and 1700 inches above the surrounding basin. Least-squares fitting of a parabola through height profiles of the dome along longitudes 90 deg to 270 deg and zero deg to 180 deg gives an elliptic-paraboloid equation for the dome: Z(m) = 2800 - [(X-x)(exp 2)/113.6] - [(Y-y)(exp 2)/50.3], where X is the 90 deg to 270 deg axis, x = 9.90 km, y = 13.32 km, and the slightly-different fitted heights for the two axes are averaged. The center of the dome is shifted 13.32 km from the pole along zero deg longitude and 9.90 km along 90 deg longitude. Typical mean surface slopes on the ice cap are the order of 1/100 (0.6 deg), A small central portion of the cap, about 100 km by 200 km, extends in elevation about 200 inches above the parabolic shape of the cap. Additional information is contained in the original extended abstract.

Keywords: Lunar and Planetary Science and Exploration

Type: International Conference on Mars Polar Science and Exploration; 192-193; LPI-Contrib-1057

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3

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Observations of the north polar region of Mars from the Mars orbiter laser altimeter (1998)

Fishbaugh, K. ; Head, J. W. ; Afzal, R. S. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Elevations from the Mars Orbiter Laser Altimeter (MOLA) have been used to construct a precise topographic map of the martian north polar region. The northern ice cap has a maximum elevation of 3 kilometers above its surroundings but lies within a 5-kilometer-deep hemispheric depression that is contiguous with the area into which most outflow channels emptied. Polar cap topography displays evidence of modification by ablation, flow, and wind and is consistent with a primarily H2O composition. Correlation of topography with images suggests that the cap was more spatially extensive in the past. The cap volume of 1.2 x 10(6) to 1.7 x 10(6) cubic kilometers is about half that of the Greenland ice cap. Clouds observed over the polar cap are likely composed of CO2 that condensed out of the atmosphere during northern hemisphere winter. Many clouds exhibit dynamical structure likely caused by the interaction of propagating wave fronts with surface topography.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 282; 5396; 2053-60

Format: text

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4

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The global topography of Mars and implications for surface evolution (1999)

Hauck, S. A. ; Muhleman, D. O. ; Solomon, S. C. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Elevations measured by the Mars Orbiter Laser Altimeter have yielded a high-accuracy global map of the topography of Mars. Dominant features include the low northern hemisphere, the Tharsis province, and the Hellas impact basin. The northern hemisphere depression is primarily a long-wavelength effect that has been shaped by an internal mechanism. The topography of Tharsis consists of two broad rises. Material excavated from Hellas contributes to the high elevation of the southern hemisphere and to the scarp along the hemispheric boundary. The present topography has three major drainage centers, with the northern lowlands being the largest. The two polar cap volumes yield an upper limit of the present surface water inventory of 3.2 to 4.7 million cubic kilometers.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 284; 5419; 1495-503

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5

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Comparisons between Geosat and Seasat tracking over non-ocean surfaces (1990)

Zwally, H. J. ; Brenner, A. C. ; Frey, H. V.

In: Other Sources

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Publication Date: 2011-08-19

Description: The differences in both the quantity and quality of the nonocean measurements of the Geosat and Seasat altimeters due to the tracker modifications and satellite and antenna design changes are presented. The Geosat tracker exhibits more agility over the rougher surfaces and therefore is able to maintain lock better than Seasat. Large off-nadir attitude excursions created differences in Geosat tracking between cycles. The Geosat altimeter was at times able to track over surfaces Seasat could not, but sometimes the acquisition problem was worse. It is observed that Geosat yields denser coverage, but over land Seasat measurements yield a better overall picture of the general topography. It is concluded that the Geosat elevation data set over land can best be utilized to augment the information obtained from the Seasat data and is most useful when investigating topography at scales less than 100 km.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 17; 1537-154

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6

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Slope-induced errors in radar altimetry over continental ice sheets (1983)

Bindschadler, R. A. ; Thomas, R. H. ; Zwally, H. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Altimeter measurements of ranges to modelled irregular surfaces are simulated and two correction schemes are used to reconstruct the modelled surfaces from the simulated data. When the cross-track slope is negligible, the problem can be treated as two-dimensional and the relocation method is preferred to the slope correction method. In a two-dimensional test case, 85 percent of the slope-induced rms error was removed by the relocation method. The mean error along profiles of about 75 km or longer is usually reduced more than the rms error. An alternative slope correction scheme, which uses the local slope to calculate the expected error, is less effective in the two-dimensional case. Over a simulated three-dimensional surface, where groundtracks are widely spaced and cross-track slopes are significant, the slope-correction method must be used in at least the cross-track direction.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 88; Feb. 28

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7

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Analysis and retracking of continental ice sheet radar altimeter waveforms (1983)

Martin, T. V. ; Brenner, A. C. ; Zwally, H. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: The Seasat-1 radar altimeter data set acquired over both the Antarctic and Greenland continental ice sheets is analyzed to obtain corrected ranges to the ice surface. The radar altimeter functional response over the continental ice sheets is considerably more complex than over the oceans. Causal factors identified in this complicated response include sloping surfaces, undulating ice surfaces with characteristic wavelengths on the same spatial scale as the altimeter beam-limited footprint, off-track reflections, and dynamic lag of the altimeter tracking circuit. Retracking methods using the altimeter return pulse waveforms give range corrections that are typically several meters. The entire set of Seasat-1 altimetry over the continental ice sheets is being retracked by fitting a multi-parameter function to each waveform. Many waveforms have double ramps indicating near-normal reflections from two distinct portions of the ice surface within the altimeter beam. Two independent range measurements differing by less than 25 m are obtained from retracking the double-ramp waveforms.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 88; Feb. 28

Format: text

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8

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Surface elevation contours of Greenland and Antarctic ice sheets (1983)

Zwally, H. J. ; Bindschadler, R. A. ; Brenner, A. C. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: Preliminary results from Seasat radar altimetry over Antarctica north of 72 deg S and Greenland south of 72 deg N are presented. Surface elevations of the ice sheets, obtained from computer retracking of the radar altimeter waveforms, are contoured at 50-m intervals for Greenland and at 100-m intervals for Antarctica. Elevation differences at orbital crossover points are analyzed to obtain a precision of 1.9 m; this figure is partly determined by radial errors of approximately 1.0 m in orbital determination and partly by noise due to ice surface irregularities. Adjustment of the radial components of the orbits to minimize the differences in elevations at crossovers over a small, relatively flat region reduces the rms difference to 0.25 m, which is indicative of the optimum precision obtainable over the ice sheets. However, the precision degrades as the slope of the surface or amplitude of the undulations increases, yielding an overall precision of + or - 1.6 m.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 88; Feb. 28

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9

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Troughs in Ice Sheets and Other Icy Deposits on Mars: Analysis of Their Radiative Balance (2000)

Zwally, H. J. ; Pfeffer, T. ; Kargel, J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-17

Description: It has long been known that groove-like structures in glaciers and ice sheets can trap more incoming solar radiation than is the case for a 'normal' flat, smooth surface. In this presentation, we shall describe the radiative regimes of typical scarps and troughs on icy surfaces of Mars, and suggest how these features originate and evolve through time. The basis of our analysis is the radiation balance model presented by Pfeffer and Bretherton. Their model considers the visible band radiation regime of a V-shaped groove on a terrestrial ice surface, and shows that absorbed energy can be enhanced by up to 50 percent for grooves with small opening angles and with typical polar values of the solar zenith angle. Our work extends this model by considering: (a) departures from V-shaped geometry, (b) both englacial and surficial dust and debris, and (c) the infrared spectrum. We apply the extended model to various features on the Martian surface, including the spiral-like scarps on the Northern and Southern ice sheets, the large-scale chasms (e.g., Chasm Borealis), and groove-like lineations on valley floors thought to be filled with mixtures of dust and icy substances. In conjunction with study of valley-closure experiments, we suggest that spiral-like scarps and chasms are stable features of the Martian climate regime. We also suggest that further study of scarps and chasms may shed light on the composition (i.e., relative proportions of water ice, carbon-dioxide ice and dust) of the Martian ice sheets and valley fills.

Keywords: Lunar and Planetary Science and Exploration

Type: International Conference on Mars Polar Science and Exploration; 44; LPI-Contrib-1057

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