Presentation is loading. Please wait.

Presentation is loading. Please wait.

MODERN CLIMATE AND HYDROLOGICAL CYCLE OF MARS. A.V.Rodin, A.A.Fedorova, N.A.Evdokimova, A.V.Burlakov, O.I.Korablev 1Moscow Institute of Physics and Technology,

Published byReginald Lesley Matthews Modified over 8 years ago

Similar presentations

Presentation on theme: "MODERN CLIMATE AND HYDROLOGICAL CYCLE OF MARS. A.V.Rodin, A.A.Fedorova, N.A.Evdokimova, A.V.Burlakov, O.I.Korablev 1Moscow Institute of Physics and Technology,"— Presentation transcript:

1 MODERN CLIMATE AND HYDROLOGICAL CYCLE OF MARS. A.V.Rodin, A.A.Fedorova, N.A.Evdokimova, A.V.Burlakov, O.I.Korablev 1Moscow Institute of Physics and Technology, Russia; Space Research Institute, Russia. Contact: Alexander.Rodin@phystech.edu

2 Seasonal and latitudinal distribution of water vapor Viking 1,2 MAWD TES – 20-40 microns 1.38 μm MY 27 SPICAM IR Smith 2002-2008 Fedorova et al. 2006Jakosky, Farmer 1984

3 Jakosky et al.1984-1995: Titov, Houben Regolith matters Clancy et al., 1996: Circulation affected by Richardson, Wilson, 2003orbit excentricity & Montmessin et al., 2004hemispheircal asymmetry cloud microphysics matters TES, PFS, OMEGA, SPICAM, MCS: search for zonal, seasonal and interannual variations

4 Mars Atmosphere General Circulation Model FMS dynamical core Aerosol –consistent radiation H 2 O cloud microphysics 1  1.5 , k z =28 Ls = 270  z=5 km

5 GCM illustration of Clancy effect: aphelion-perihelion asymmetry

6 perihelion aphelion Clancy et al., 1996, Montmessin et al, 2002

7 Seasonal Mars water cycle: GCM results

8 Water vapor column distributions on Mars imply significant zonal variations: Viking/MAWD (Fedorova et al., 2004, Pankine et al.,2009) Ls = 20  Ls = 330  Ls = 150  Ls = 90  MGCM simulations

9 Water vapor annual average: atmosphere-surface interactions Water vapor column, pr.  m Exposure (days) of frost layer exceeding 100  m Mitrofanov et al., 2002 Antipodal maxima of bound water content

10 Annual average (contd.) H 2 O molecules number density provided T > 220 K Cold trap: t otal time when  T>30 K and T > 200 K, days Basilevsky et al., 2006, Nelli et al., 2006

11 Soil hydration: - significant latitudinal variations - no evident connection to the seasonal water cycle Evdokimova et al., 2010

12 MGS/TES (Pankine et al.,2009)

13 MEX/SPICAM: Spatial distribution of water vapor summer in north hemisphere L s 95-120: 59 orbits from 72 orbits are presented Fedorova et al, 2009

14 00 180  10 20 30 40 50 60 MGCM instant water vapor column: North hemisphere [pr.  m] 00 180  0 100 200 Ls = 92  00 180  0 100 200 Ls = 113  Ls = 142 

15 L s ~93  -97  OMEGA: Modes 2 and 3 in NPC sublimation marked by 1.25  m water ice band depth MGCM water column, pr µm L s ~113  -115  L s ~127  -136  L s ~94  L s ~114  L s ~132 

16 The location of maximal wind stress at the NPC coincides with spots of enhanced ice aging 0505 Near-surface wind according to MGCM (m/s) Ls = 92  Ls = 113  Ls = 137  + + + + + (!) NPC sublimation rate depends on dynamics of the ambient atmosphere, not just heating and relative humidity

17 Ls = 145  event: switching from mesoscale to global perturbation Ls = 92  Ls = 137  Ls = 147  Zonal flow meridional shear Meridional V-component Emerging circumpolar vortex Wave-3 pattern -55-1010 -5 5 Decaying circumpolar vortex

18 Polar vortex barotropic instability: laboratory studies (Barbosa et al., 2010)

19 Mode 3 in the residual seasonal water ice deposits (left) and MGCM moisture (right) MEX/OMEGA 1.5  m index Rodin et al., 2010 MGCM

20 South hemisphere Ls = 225  event: implications to dust cycle Ls = 220  Ls = 227  Near-surface dust mixing ratio (ppm) Wave-3 pattern 0 50 Ls = 233  Wave-2 pattern Wave-4 pattern 0 50 Season of the strongest transient in the South hemisphere coincides with the window of dust storm initiation

21 Conclusions The nature of current Mars water cycle is understood; GCMs are able to reproduce observables The role of polar caps, regolith, and clouds needs further quantitative assessment Water cycle demonstrates a major role of low-wavenumber eddy transport in the Martian atmopsheric circulation

Download ppt "MODERN CLIMATE AND HYDROLOGICAL CYCLE OF MARS. A.V.Rodin, A.A.Fedorova, N.A.Evdokimova, A.V.Burlakov, O.I.Korablev 1Moscow Institute of Physics and Technology,"

Similar presentations

Atmospheric Dynamics on Solid-Surface Bodies Mark I. Richardson.

Atmospheric Dynamics on Solid-Surface Bodies Mark I. Richardson.
Comparing TitanWRF and Cassini Results at the End of the Cassini Prime Mission Claire E. Newman, Mark I. Richardson, Anthony D. Toigo and Christopher Lee.

Comparing TitanWRF and Cassini Results at the End of the Cassini Prime Mission Claire E. Newman, Mark I. Richardson, Anthony D. Toigo and Christopher Lee.
Dust uplift and transport observed during the GERBILS campaign John Marsham 1, Doug Parker 1, Christian Grams 2, Qian Huang 1,3, Sarah Jones 2, Jim Haywood.

Dust uplift and transport observed during the GERBILS campaign John Marsham 1, Doug Parker 1, Christian Grams 2, Qian Huang 1,3, Sarah Jones 2, Jim Haywood.
1 Dynamical Polar Warming Amplification and a New Climate Feedback Analysis Framework Ming Cai Florida State University Tallahassee, FL 32306

1 Dynamical Polar Warming Amplification and a New Climate Feedback Analysis Framework Ming Cai Florida State University Tallahassee, FL 32306
A New Titan GCM and Stratospheric Superrotation Yuan Lian, Claire Newman, Mark Richardson and Chris Lee Work funded through the OPR program, and simulations.

A New Titan GCM and Stratospheric Superrotation Yuan Lian, Claire Newman, Mark Richardson and Chris Lee Work funded through the OPR program, and simulations.
Principal Component Analysis of MGS-TES Data and Comparison with Modeling Guo, Xin October 7 th 2004 Advisor: Yung, Yuk L.

Principal Component Analysis of MGS-TES Data and Comparison with Modeling Guo, Xin October 7 th 2004 Advisor: Yung, Yuk L.
Seasonal and Diurnal Variability of Detached Dust Layers in the Tropical Martian Atmosphere Dr. Nicholas G. Heavens (Hampton University,

Seasonal and Diurnal Variability of Detached Dust Layers in the Tropical Martian Atmosphere Dr. Nicholas G. Heavens (Hampton University,
Fourth International workshop on the Mars Atmosphere: modelling and Observations François Forget LMD, Paris, france Picture : SOAR project - D. Goods –

Fourth International workshop on the Mars Atmosphere: modelling and Observations François Forget LMD, Paris, france Picture : SOAR project - D. Goods –
Preliminary results on Formation and variability of North Atlantic sea surface salinity maximum in a global GCM Tangdong Qu International Pacific Research.

Preliminary results on Formation and variability of North Atlantic sea surface salinity maximum in a global GCM Tangdong Qu International Pacific Research.
Planetary Atmospheres, the Environment and Life (ExCos2Y) Topic 8: Storm Systems Chris Parkes Rm 455 Kelvin Building.

Planetary Atmospheres, the Environment and Life (ExCos2Y) Topic 8: Storm Systems Chris Parkes Rm 455 Kelvin Building.
Mars’ North and South Polar Hood Clouds Jennifer L. Benson Jet Propulsion Laboratory, California Institute of Technology July 22, 2010 Copyright 2010 California.

Mars’ North and South Polar Hood Clouds Jennifer L. Benson Jet Propulsion Laboratory, California Institute of Technology July 22, 2010 Copyright 2010 California.
Mars Atmospheric Research Meeting in Hokkaido Univ.

Mars Atmospheric Research Meeting in Hokkaido Univ.
The influence of extra-tropical, atmospheric zonal wave three on the regional variation of Antarctic sea ice Marilyn Raphael UCLA Department of Geography.

The influence of extra-tropical, atmospheric zonal wave three on the regional variation of Antarctic sea ice Marilyn Raphael UCLA Department of Geography.
General Circulation of the Martian Atmosphere: Dynamics and Dust Melissa J. Strausberg 25 August 2005.

General Circulation of the Martian Atmosphere: Dynamics and Dust Melissa J. Strausberg 25 August 2005.
Weather in the Northern Hemisphere of Mars: Dust Storms and Baroclinic Eddies David Hinson 1 and Helen Wang 2 1 SETI Institute / Stanford University 2.

Weather in the Northern Hemisphere of Mars: Dust Storms and Baroclinic Eddies David Hinson 1 and Helen Wang 2 1 SETI Institute / Stanford University 2.
Last time… Key questions 1.Why does air move? 2.Are movements of winds random across Earth’s surface, or do they follow regular patterns? 3.Implications.

Last time… Key questions 1.Why does air move? 2.Are movements of winds random across Earth’s surface, or do they follow regular patterns? 3.Implications.
Menglin Jin Department of Atmospheric & Oceanic Science University of Maryland, College park Observed Land Impacts on Clouds, Water Vapor, and Rainfall.

Menglin Jin Department of Atmospheric & Oceanic Science University of Maryland, College park Observed Land Impacts on Clouds, Water Vapor, and Rainfall.
An introduction to the Inter-tropical Convergence Zone (ITCZ) Chia-chi Wang Dept. Atmospheric Sciences Chinese Culture University Acknowledgment: Prof.

An introduction to the Inter-tropical Convergence Zone (ITCZ) Chia-chi Wang Dept. Atmospheric Sciences Chinese Culture University Acknowledgment: Prof.
MGCM & group: AFCB, Sept SJSU 1 The Mars General Circulation Modeling Group Alison F.C. Bridger SJSU.

MGCM & group: AFCB, Sept SJSU 1 The Mars General Circulation Modeling Group Alison F.C. Bridger SJSU.
Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.

Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.

Similar presentations

Ads by Google