Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)

Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)

Abstract China's first Mars exploration mission (Tianwen‐1), launched on July 23, 2020 with the goal of “orbiting, landing, and roving,” and its tentative landing areas (TLAs) are Chryse Planitia (TLA 1) and Isidis‐Elysium Planitia (TLA 2). Dust storm is a typical activity on Mars; it has stron...

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Main Authors: Peiwen Yao, Chenfan Li, Biao Wang, Bo Li, Jiang Zhang, Zongcheng Ling, Shengbo Chen
Format: Article
Language:English
Published: American Geophysical Union (AGU) 2020-08-01
Series:Earth and Space Science
Subjects:
Tianwen‐1
Isidis‐Elysium Planitia
dust storm activity
temporal and spatial probability
preferred landing time and areas
China's first Mars mission
Online Access:https://doi.org/10.1029/2020EA001242
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spelling doaj-df15360cecd246f0a936ccb2f4d22fe72020-11-25T03:54:23ZengAmerican Geophysical Union (AGU)Earth and Space Science2333-50842020-08-0178n/an/a10.1029/2020EA001242Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)Peiwen Yao0Chenfan Li1Biao Wang2Bo Li3Jiang Zhang4Zongcheng Ling5Shengbo Chen6Shandong Provincial Key Laboratory of Optical Astronomy and Solar‐Terrestrial Environment, School of Space and Physics, Institute of Space Sciences Shandong University Weihai ChinaShandong Provincial Key Laboratory of Optical Astronomy and Solar‐Terrestrial Environment, School of Space and Physics, Institute of Space Sciences Shandong University Weihai ChinaShandong Provincial Key Laboratory of Optical Astronomy and Solar‐Terrestrial Environment, School of Space and Physics, Institute of Space Sciences Shandong University Weihai ChinaShandong Provincial Key Laboratory of Optical Astronomy and Solar‐Terrestrial Environment, School of Space and Physics, Institute of Space Sciences Shandong University Weihai ChinaShandong Provincial Key Laboratory of Optical Astronomy and Solar‐Terrestrial Environment, School of Space and Physics, Institute of Space Sciences Shandong University Weihai ChinaShandong Provincial Key Laboratory of Optical Astronomy and Solar‐Terrestrial Environment, School of Space and Physics, Institute of Space Sciences Shandong University Weihai ChinaCollege of Geoexploration Science and Technology Jilin University Changchun ChinaAbstract China's first Mars exploration mission (Tianwen‐1), launched on July 23, 2020 with the goal of “orbiting, landing, and roving,” and its tentative landing areas (TLAs) are Chryse Planitia (TLA 1) and Isidis‐Elysium Planitia (TLA 2). Dust storm is a typical activity on Mars; it has strong interaction with atmospheric circulation and will influence the visibility of the Martian surface. To ensure the safety and accuracy for landing, it is meaningful to analyze the probability of dust storm activity during Entry‐Descent‐Landing (EDL) season in TLAs. First, based on Mars Orbiter Camera (MOC) and Mars Color Imager (MARCI) Daily Global Maps (MDGMs) from Mars Years 24–31, we identified 882 dust storms within the 2,000 km radius monitor circle of TLA 2 (short for TLA 2‐C). Second, the average daily probability of dust storm activity (Adp_ds) in TLA 2‐C was calculated, with a range of 0% to 14.13% showing obvious seasonality and discontinuity. Third, we divided TLA 2‐C into 0.5° longitude × 0.5° latitude square grids and calculated their spatial probability of dust storm activity. The spatial probability of dust storm in TLA 2‐C ranged from 0% to 11.87% and generally reduced from north to south. Finally, according to the temporal and spatial dust storm probability in TLA 2 during EDL season, we suggested the optimal landing time of China's Tianwen‐1 mission was in Ls = 20–41° and selected five preferred landing areas with the spatial probability of dust storm <3% for this mission.https://doi.org/10.1029/2020EA001242Tianwen‐1Isidis‐Elysium Planitiadust storm activitytemporal and spatial probabilitypreferred landing time and areasChina's first Mars mission
collection DOAJ
language English
format Article
sources DOAJ
author Peiwen Yao
Chenfan Li
Biao Wang
Bo Li
Jiang Zhang
Zongcheng Ling
Shengbo Chen
spellingShingle Peiwen Yao
Chenfan Li
Biao Wang
Bo Li
Jiang Zhang
Zongcheng Ling
Shengbo Chen
Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)
Earth and Space Science
Tianwen‐1
Isidis‐Elysium Planitia
dust storm activity
temporal and spatial probability
preferred landing time and areas
China's first Mars mission
author_facet Peiwen Yao
Chenfan Li
Biao Wang
Bo Li
Jiang Zhang
Zongcheng Ling
Shengbo Chen
author_sort Peiwen Yao
title Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)
title_short Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)
title_full Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)
title_fullStr Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)
title_full_unstemmed Evaluating the Dust Storm Probability in Isidis‐Elysium Planitia, a Tentative Landing Area of China's First Mars Mission (Tianwen‐1)
title_sort evaluating the dust storm probability in isidis‐elysium planitia, a tentative landing area of china's first mars mission (tianwen‐1)
publisher American Geophysical Union (AGU)
series Earth and Space Science
issn 2333-5084
publishDate 2020-08-01
description Abstract China's first Mars exploration mission (Tianwen‐1), launched on July 23, 2020 with the goal of “orbiting, landing, and roving,” and its tentative landing areas (TLAs) are Chryse Planitia (TLA 1) and Isidis‐Elysium Planitia (TLA 2). Dust storm is a typical activity on Mars; it has strong interaction with atmospheric circulation and will influence the visibility of the Martian surface. To ensure the safety and accuracy for landing, it is meaningful to analyze the probability of dust storm activity during Entry‐Descent‐Landing (EDL) season in TLAs. First, based on Mars Orbiter Camera (MOC) and Mars Color Imager (MARCI) Daily Global Maps (MDGMs) from Mars Years 24–31, we identified 882 dust storms within the 2,000 km radius monitor circle of TLA 2 (short for TLA 2‐C). Second, the average daily probability of dust storm activity (Adp_ds) in TLA 2‐C was calculated, with a range of 0% to 14.13% showing obvious seasonality and discontinuity. Third, we divided TLA 2‐C into 0.5° longitude × 0.5° latitude square grids and calculated their spatial probability of dust storm activity. The spatial probability of dust storm in TLA 2‐C ranged from 0% to 11.87% and generally reduced from north to south. Finally, according to the temporal and spatial dust storm probability in TLA 2 during EDL season, we suggested the optimal landing time of China's Tianwen‐1 mission was in Ls = 20–41° and selected five preferred landing areas with the spatial probability of dust storm <3% for this mission.
topic Tianwen‐1
Isidis‐Elysium Planitia
dust storm activity
temporal and spatial probability
preferred landing time and areas
China's first Mars mission
url https://doi.org/10.1029/2020EA001242
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