Size Distribution of Swiss Cheese Features (SCFs) on Mars
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Transcript of Size Distribution of Swiss Cheese Features (SCFs) on Mars
![Page 1: Size Distribution of Swiss Cheese Features (SCFs) on Mars](https://reader035.fdocuments.net/reader035/viewer/2022062514/55865f1ed8b42aa3308b4639/html5/thumbnails/1.jpg)
Size Distribution of Swiss Cheese Features (SCFs) on Mars
Melissa J. StrausbergDivision of Geological and Planetary Sciences
California Institute of Technology
Pasadena, CA
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Outline
• What are SCFs? Where, when and how do we find them?
• How do we think that they formed?
• Size measurement and distribution
• Age distribution
• Implications for initiating phenomenon
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What are SCFs?
• Small circular or quasi-circular pits in the permanent CO2 layer on the Martian south polar cap
• First discussed in 2000 (Thomas et al., Nature 2000) with return of high-resolution MOC images
• Cause of formation still debated– postulated to be due to spatially varying dust cover, which gives rise to spatially varying albedo (Byrne & Ingersoll)
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Characteristics of SCFs
Different shapes
Different sizes
Different separation distances
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Area of Study
Latitude: 87º S
Longitude: 3.3º to 8.3º W
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Methods
• Measured SCF diameters using Matlab (1089 features); analyzed data using CurveFit
• Assumed error of 2 pixels on each measurement (regardless of pixel width)
• Reduced 2 between 0.5 and 5 for all measurements, indicating appropriate error estimation
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Size Distribution
• Distribution ~same for all images in region, so reasonable to combine results
• Could be normal, linear with extra “tail”, quadratic with extra “tail”– all of these fits have reduced 2 < 5
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Age Distribution
• Most studies assume linear growth of 0.5 – 2.5 m/Martian year (Malin et al., Byrne & Ingersoll)
• Applying those hypotheses to this size data:
Growth rate 0.5 m/year 2.5 m/year
Mean age 177.3 Mars years
35.5 Mars years
Standard Deviation
42.7 Mars years
8.5 Mars years
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Comparison to Other Studies
• Byrne & Ingersoll (2003) found average size of 217 m, standard deviation of 35 m (tight normal distribution) in same area of residual cap
• Their study encompassed a contiguous region centered near 87º S, 5º W. This study included geographically dispersed images at 87º S between 3.3º W and 8.3º W
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Conclusions
• Must consider how to reconcile discrepancy between this study and Byrne & Ingersoll (2003):– Process that induced formation of SCFs was spatially
variable on short length scales; or– Albedo of substrate below CO2 layer is highly variable,
giving rise to different growth rates even in proximate regions
• The wider distribution of sizes found in this study may indicate longer duration of “initiating event” and/or temporally variable strength
• Open question: is growth rate size-dependent?