Presentation is loading. Please wait.

Presentation is loading. Please wait.

A WAIS Analog Found on Mars Polar Cap Weili Wang 1, Jun Li 1 and Jay Zwally 2 1. Raytheon ITSS, NASA/GSFC, Code 971, Greenbelt, MD 20771, USA. 2. Ocean.

Published byAbner Mathews Modified over 8 years ago

Similar presentations

Presentation on theme: "A WAIS Analog Found on Mars Polar Cap Weili Wang 1, Jun Li 1 and Jay Zwally 2 1. Raytheon ITSS, NASA/GSFC, Code 971, Greenbelt, MD 20771, USA. 2. Ocean."— Presentation transcript:

1 A WAIS Analog Found on Mars Polar Cap Weili Wang 1, Jun Li 1 and Jay Zwally 2 1. Raytheon ITSS, NASA/GSFC, Code 971, Greenbelt, MD 20771, USA. 2. Ocean and Ice Branch, NASA/GSFC, Code 971, Greenbelt, MD 20771, USA.

2 North Polar Cap South Polar Cap Mars X 5 km Meter X 5 km Meter (Surface topography) (Maximum thickness: ~ 3000 m at the dome)

3 (meter) Distance (x5 km) North Polar Cap on Mars Chasma Boreale Surface topography and flowlines

4 300 km AB Mars Polar Cap WAIS AB Theoretical (Vialov type) ice-sheet profile Grounding Line Inland Ice Ice Stream Ice Shelf Chasma Boreale

5 Ice-Stream Onset (After Bindschadler et al, 2001, The West Antarctic ice sheet ) The location of the transition between inland ice flow (corresponding to a convex-up shape profile) and ice-streaming flow (corresponding to a concave-up shape profile ).

6 WAIS Surface elevation (m) Surface slope Driving stress (bar) Onset Mars Polar Cap Surface elevation (m) Surface slope Driving stress (bar) Onset

7 Ice-Sheet Modelling A flowline model is applied to examine the basal/surface conditions required for maintaining this ice-stream type surface profile. Model Run I (warm bed) Inputs: Outputs: Flowline geometry Surface mass balance Basal temperature (at pressure melting point) Basal geothermal heat flux Distribution of temperature Distribution of velocity Model Run II (cold bed) Inputs: Outputs: Flowline geometry Surface temperature Basal geothermal heat flux Distribution of temperature Distribution of velocity Surface mass balance

8 Surface mass balance (accumulation rate + ablation/sublimation rate) Basal Melting Rate Emergence Velocity Ice-Sheet Modelling Continuity Equation { { :

9 Model Run I (warm bed) Distance (km) m/a ococ (m) Temperature Horizontal Velocity Vertical Velocity (m) Dynamic Velocity m/a (Glen’s flow law)

10 Distance (km) m/a ococ (m) Temperature Horizontal Velocity Vertical Velocity (m) m/a Dynamic Velocity Onset (Glen’s flow law) -5 -10 Model Run I (warm bed)

11 Model Run II (cold bed) Temperature Horizontal Velocity Vertical Velocity Surface mass balance Distance (km) m/a ococ (m/a) (m)

12 Temperature Horizontal Velocity Vertical Velocity Surface Mass Balance Distance (km) m/a ococ (m/a) (m) -80 -70 Model Run II (cold bed)

13 Distance (km) Surface Mass Balance Basal Temperature   C/m   C/m   C/m Surface Temperature Blue: x 10 -4 Red: x 10 -5 Green: x 10 -6 ( o C) (m/a) Model Run II (cold bed)

14 Summary: The surface topography determined by MOLA data shows an ice-stream type profile through the head of Chasma Boreale. “Onset” (the location of the transition between inland ice flow and ice-stream flow) is clearly detected. Modelling study indicates that basal melting may have been experienced over the bed of Chasma Boreale at various times in Mars’ history.

Download ppt "A WAIS Analog Found on Mars Polar Cap Weili Wang 1, Jun Li 1 and Jay Zwally 2 1. Raytheon ITSS, NASA/GSFC, Code 971, Greenbelt, MD 20771, USA. 2. Ocean."

Similar presentations

Groundwater Flow Equations

Groundwater Flow Equations
Click to edit the title text format Click to edit the outline text format –Second Outline Level Third Outline Level –Fourth Outline Level »Fifth Outline.

Click to edit the title text format Click to edit the outline text format –Second Outline Level Third Outline Level –Fourth Outline Level »Fifth Outline.
Glaciers Chapter 15.1.

Glaciers Chapter 15.1.
Abstract Velocity profiles of Byrd glacier show a transition from a parabolic transverse profile upstream to a plug flow transverse velocity profile. A.

Abstract Velocity profiles of Byrd glacier show a transition from a parabolic transverse profile upstream to a plug flow transverse velocity profile. A.
Ten Fifteen Years of Development on UMISM: Application to Advance and Retreat of the Siple Coast Region James L Fastook Jesse V Johnson Sean Birkel We.

Ten Fifteen Years of Development on UMISM: Application to Advance and Retreat of the Siple Coast Region James L Fastook Jesse V Johnson Sean Birkel We.
Flow of Ice Streams Simon Cullen. Outline Basic processes and principles –What is an ice stream? –What is the role of ice streams? –How do ice streams.

Flow of Ice Streams Simon Cullen. Outline Basic processes and principles –What is an ice stream? –What is the role of ice streams? –How do ice streams.
Ice Sheets and Climate Change William H. Lipscomb Los Alamos National Laboratory.

Ice Sheets and Climate Change William H. Lipscomb Los Alamos National Laboratory.
Climate history near the divide between the Ross and Amundsen Seas by H. Conway, Ed Waddington, Tom Neumann, Ginny Catania, Erin Pettit, Felix Ng and Dave.

Climate history near the divide between the Ross and Amundsen Seas by H. Conway, Ed Waddington, Tom Neumann, Ginny Catania, Erin Pettit, Felix Ng and Dave.
WAIS 2005; Slide number 1. Numerical modelling of ocean- ice interactions under Pine Island Bay’s ice shelf Tony Payne 1 Paul Holland 2,3 Adrian Jenkins.

WAIS 2005; Slide number 1. Numerical modelling of ocean- ice interactions under Pine Island Bay’s ice shelf Tony Payne 1 Paul Holland 2,3 Adrian Jenkins.
Earth’s Climate System (part 2) revisiting the radiation budget heat capacity heat transfer circulation of atmosphere (winds) Coriolis Effect circulation.

Earth’s Climate System (part 2) revisiting the radiation budget heat capacity heat transfer circulation of atmosphere (winds) Coriolis Effect circulation.
BIIR Cost Preview Preparatory Materials. BIIR Can Help Answer These Science Questions Refined science questions derived in part from the St. Petersburg.

BIIR Cost Preview Preparatory Materials. BIIR Can Help Answer These Science Questions Refined science questions derived in part from the St. Petersburg.
Inverting for ice crystal orientation fabric Kristin Poinar Inverse theory term project presentation December 7, 2007 The University of Washington.

Inverting for ice crystal orientation fabric Kristin Poinar Inverse theory term project presentation December 7, 2007 The University of Washington.
Ventures Proposal Science Objectives and Requirements.

Ventures Proposal Science Objectives and Requirements.
Topographic Map Vocabulary

Topographic Map Vocabulary
Assessment of OIB 2009 Data over Pine Island and Thwaites Glaciers K. Jezek OIB Science Team Meeting.

Assessment of OIB 2009 Data over Pine Island and Thwaites Glaciers K. Jezek OIB Science Team Meeting.
13.6 Wind and Ocean Currents Science 10. A Little Background … Atmospheric Pressure is the force of the air pressing down on the earth’s surface –Atmospheric.

13.6 Wind and Ocean Currents Science 10. A Little Background … Atmospheric Pressure is the force of the air pressing down on the earth’s surface –Atmospheric.
=(S,,0); 4=(S,,4000).

=(S,,0); 4=(S,,4000).
Topography of the earth’s surface. Depth to the Moho under north america and environs.

Topography of the earth’s surface. Depth to the Moho under north america and environs.
IPY: Collaborative Research: Ocean-Ice Sheet Interaction in the Amundsen Sea: The Keystone of West Antarctic Stability A joint proposal to NSF and NASA.

IPY: Collaborative Research: Ocean-Ice Sheet Interaction in the Amundsen Sea: The Keystone of West Antarctic Stability A joint proposal to NSF and NASA.
Better Physics in Embedded Ice Sheet Models James L Fastook Aitbala Sargent University of Maine We thank the NSF, which has supported the development of.

Better Physics in Embedded Ice Sheet Models James L Fastook Aitbala Sargent University of Maine We thank the NSF, which has supported the development of.

Similar presentations

Ads by Google