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Possible dust devils - Vortices on Mars (1983)

Lucich, R. D. ; Ryan, J. A.

In: Other Sources

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Publication Date: 2019-06-28

Description: This paper presents the results of a study of local vortices, and dust devils, on Mars as observed by Viking Landers 1 and 2. It is found that these vortices are most common during Martian spring and summer, as occurs on earth. Seven of the vortices involve wind speeds that may raise dust from the Martian surface. There is no indication that these possible dust devils contribute to the planet-wide spread of major dust storms. However, it appears that they may help in maintaining the atmospheric dust content. The data indicate that there is no preference in rotation direction, at least to core diameters of 300 m (corresponding to a region of influence of about 3 km diameter).

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research (ISSN 0148-0227); 88; 11005-11

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2

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Two major dust storms, one Mars year apart - Comparison from Viking data (1981)

Ryan, J. A. ; Sharman, R. D.

In: Other Sources

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Publication Date: 2019-06-28

Description: The Viking Mars Landers have been on the Mars surface for over two Mars years. During the first year two major, probably global, dust storms occurred. The first was unusually early compared to most previous earth-based observations. A major storm occurred during the second year, almost precisely one year after the first storm of the first year. Meteorological data show roughly similar atmospheric behavior for the two early storms. Of particular note is the increase in amplitude of pressure oscillations (probably of baroclinic origin) and concurrent increases in wind speed during the build-up phase of all three storms. The generation of these waves appears to be a natural consequence of seasonal effects not associated with the dust storms. It is suggested that baroclinic waves, should they exist in the Southern Hemisphere during the time of dust storm generation, could be an important factor in the growth and development of the dust storms.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 86; Apr. 20

Format: text

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3

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H2O frost point detection on Mars (1981)

Ryan, J. A. ; Sharman, R. D.

In: Other Sources

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Publication Date: 2019-06-28

Description: The Viking Mars landers contain meteorological instrumentation to measure wind, temperature, and pressure but not atmospheric water content. The landings occurred during local summer, and it was observed that the nocturnal temperature decrease at sensor height (1.6 m) did not exhibit a uniform behavior at either site. It was expected that the rate of decrease would gradually slow, leveling off near sunrise. Instead, a leveling occurred several hours earlier. Temperature subsequently began a more rapid decrease which slowed by sunrise. This suggested that the temperature sensors may be detecting the frost point of water vapor. Analysis of alternative hypotheses demonstrates that none of these are viable candidates. The frost point interpretation is consistent with other lander and orbiter observations, with terrestrial experience, and with modeling of Mars' atmospheric behavior. It thus appears that the meteorology experiment can help provide a basis toward understanding the distribution and dynamics of Martian water vapor.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 86; Jan. 20

Format: text

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4

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Local Mars dust storm generation mechanism (1981)

Ryan, J. A. ; Sharman, R. D. ; Lucich, R. D.

In: Other Sources

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Publication Date: 2019-06-28

Description: On an areocentric solar longitude of 340 deg, first Mars year of Viking on the surface, a local dust storm was observed at the Viking Lander No. 1 site by Viking Orbiter A. The storm lasted less than one Martian day (sol) with the dust raised affecting the site for about three sols. It is concluded that this storm was caused by baroclinic waves and that the threshold wind speed for saltation was 25-30 m/sec.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Geophysical Research Letters; 8; Aug. 198

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5

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Mars atmosphere pressure periodicities from Viking observations (1980)

Ryan, J. A. ; Sharman, R. D.

In: Other Sources

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Publication Date: 2019-06-28

Description: The first Martian year of pressure data taken by the Viking landers on Mars is subjected to power spectrum analysis. The analysis suggests that strong periodicities are present in the Martian atmosphere, especially at the high-latitude (48 deg N) site of the second lander. Most of these periodicities are probably due to the passage of baroclinic waves. Inspection of individual segments of data shows that the periodicities of the dominant waves vary significantly with time of year. This may be related to the amount of dust in the atmosphere since the dominant frequencies of the waves during times of major dust storms are quite different than at other times.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of the Atmospheric Sciences; 37; Sept

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6

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The annual cycle of pressure on Mars measured by Viking landers 1 and 2 (1980)

Hess, S. L. ; Ryan, J. A. ; Tillman, J. E. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Daily mean atmospheric pressures at the two Viking landers are presented for slightly more than a Martian year. The seasonal variation of pressure owing to exchange of CO2 with the polar caps is quite evident and contradicts, in part, earlier theoretical results. Day-to-day variations are the result of passage of synoptic-scale high and low pressure systems and are an important clue to the general circulation of the atmosphere. The effects of global dust storms on the general circulation and on the diurnal variation of pressure are detected and interpreted.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Geophysical Research Letters; 7; Mar. 198

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7

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Mars water vapor, near-surface (1982)

Ryan, J. A. ; Lucich, R. D. ; Sharman, R. D.

In: Other Sources

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Publication Date: 2019-06-28

Description: In a previous paper we concluded that the temperature sensors aboard the Viking landers (VL-1 and VL-2) were detecting the water vapor frost point. Analysis of one Mars year of data at both lander sites substantiates this conclusion. At VL-1 it is found that the water vapor mixing ratio is constant with height through the bulk of the atmosphere, most of the time. Exceptions are during the onset phases of the two major dust storms when temporary enhancement of near-surface vapor occurs (the same phenomenon is observed at VL-2), and some depletion of near-surface vapor during the decay phase of the first storm, possibly the second storm as well. The former suggests near-surface, northward transport of water vapor with the storms. The latter suggests adsorption of vapor on dust particles followed by surface deposition. At VL-2, severe near-surface depletion of water vapor occurs during northern autumn and winter. The residual vapor is in equilibrium with the surface condensate observed at the site during this period, indicating that the source region for the condensate must be aloft with downward transport by dust fall-out. Since the near-surface water vapor mixing ratio and concentration at VL-1 generally parallels the column abundance over VL-1 obtained by the orbiters, this suggests that VL-1 can be used to give a measure of column abundance for as long as the temperature sensors remain operational.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 87; Aug. 20

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