MICROSNOW 2015 COMPARISON OF GROUND-BASED … · MICROSNOW 2015. William Maslanka | MicroSnow2...
Transcript of MICROSNOW 2015 COMPARISON OF GROUND-BASED … · MICROSNOW 2015. William Maslanka | MicroSnow2...
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William Maslanka | MicroSnow2Copyright University of Reading
COMPARISON OF GROUND-BASED OBSERVATIONS OF SNOW SLABS WITH EMISSION MODELS
William Maslanka
Mel Sandells, Robert Gurney (University of Reading)
Juha Lemmetyinen, Leena Leppänen (Finnish Meteorological Institute)1
MICROSNOW 2015
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William Maslanka | MicroSnow2
OUTLINE
Motivation
Two semi-empirical snow emission models
• MEMLS
• HUT Snow Emission Model
Arctic Snow Microstructure Experiment
• Setup
• Preliminary Results
Future Work
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William Maslanka | MicroSnow2
MOTIVATION
Observations of snow by Microwaves are essential in polar regions
• Polar Nights, Clouds
Remote sensing methods are favoured over traditional methods for snow observations, as traditional methods:
• Are limited by resolution
• Are limited by time
• Have difficulties with polar conditions
• Can be subjective (due to the observer)
In order to extract information from remote sensing techniques, emission models can be used
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William Maslanka | MicroSnow2
MEMLS
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Wiesmann and Mätzler 1999.
Microwave Emission Model of Layered Snowpacks
Semi-empirical model, based on Radiative Transfer Theory
• Empirical scattering / absorption coefficients
• Uses two flux framework (Tb-up / Tb-down) to model radiation intensity, via coupled differential equations
Wiesmann and Mätzler 1999
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William Maslanka | MicroSnow2
HUT SNOW EMISSION MODEL
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Pulliainen et al 1999
Semi-empirical model based on Radiative Transfer Theory
• Primary assumption is that scattering is predominantly in the forward direction (q=0.96)
TskyTB,obs
T1,↑
Tn,↓
TGND
rGND
rs
dn
Tphys, ρ, ε, S, mv, D
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William Maslanka | MicroSnow2
MICROWAVE EMISSION FROM SNOW
Both models simulate microwave emission from two separate contributions:
• Emission from the snowpack
• Emission from the underlying ground
Snow crystals act as scattering centres for radiation:
• Deeper snow leads to more scattering
• Larger grains lead to more scattering
• Higher frequencies lead to more scattering
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William Maslanka | MicroSnow2
EXTINCTION OF MICROWAVES IN SNOW
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Solid: Hallikainen et al 1998, 𝑘𝑒 = 0.0018𝑓2.8𝑑2
Dashed: Roy et al 2004, 𝑘𝑒 = 𝛾(𝑓4𝑑6)𝛿
36.5 GHz18.7 GHz
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William Maslanka | MicroSnow2
WHAT DO I PLAN TO DO?
The aims of my PhD are:
• Take natural snow samples over 2 winter periods
• Arctic Snow Microstructure Experiment (ASMEx)
• Develop a revised model for the amount of extinction within the snowpack
• Use the revised extinction model with the HUT snow emission model to improve its accuracy
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William Maslanka | MicroSnow2
WHAT DO I PLAN TO DO?
The aims of my PhD are:
• Take natural snow samples over 2 winter periods.
• Arctic Snow Microstructure Experiment (ASMEx)
• Develop a revised model for the amount of extinction within the snowpack
• Use the revised extinction model with the HUT snow emission model to improve its accuracy
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William Maslanka | MicroSnow2
ASMEX: LOCATION
FMI Arctic Research Centre, Sodankylä
• January – April 2014/2015
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William Maslanka | MicroSnow2
ASMEX: SET UP
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Radiometric measurements of extracted snow slabs
5 Microwave frequenies (H/V Pol)• 18.7 GHz• 21.0 GHz• 36.5 GHz• 89.0 GHz• 150.0 GHz
Physical and Stratigraphic measurements
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William Maslanka | MicroSnow2
ASMEX
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William Maslanka | MicroSnow2
ASMEX
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William Maslanka | MicroSnow2
ASMEX: PHYSICAL RESULTS (1)
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In total, 14 slabs extracted and measured (7 in 2014, 7 in 2015)• 13 dry slabs• 9 homogeneous slabs (SMP)
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William Maslanka | MicroSnow2
ASMEX: PHYSICAL RESULTS (2)
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In total, 14 slabs extracted and measured (7 in 2014, 7 in 2015)• 13 dry slabs• 9 homogeneous slabs (SMP)
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William Maslanka | MicroSnow2
ASMEX: HOMOGENEOUS SLABS (ABS)
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William Maslanka | MicroSnow2
ASMEX: HOMOGENEOUS SLABS (REF)
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William Maslanka | MicroSnow2
FUTURE WORK
The aims of my PhD are:
• Take natural snow samples over 2 winter periods
• Arctic Snow Microstructure Experiment (ASMEx)
• Develop a revised model for the amount of extinction within the snowpack
• Use the revised extinction model with the HUT snow emission model to improve its accuracy
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William Maslanka | MicroSnow2
FUTURE WORK: EXTINCTION
Currently aiming to calculate the scattering and absorption coefficients via method laid out by Wiesmann et al. 1998
• Calculating the reflectivities of the slab upon an absorbing and reflecting base
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𝑟𝑚𝑒𝑡 =𝑇𝐵𝑀 − 𝑇𝑝ℎ𝑦𝑠
𝑇𝐵𝑆𝐾𝑌 − 𝑇𝑝ℎ𝑦𝑠𝑟𝑎𝑏𝑠 =
𝑇𝐵𝐴 − 𝑇𝑝ℎ𝑦𝑠
𝑇𝐵𝑆𝐾𝑌 − 𝑇𝑝ℎ𝑦𝑠
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William Maslanka | MicroSnow2
FUTURE WORK: EXTINCTION
Currently aiming to calculate the scattering and absorption coefficients via method laid out by Wiesmann et al. 1998
• Simplified two-flux method (radiation up and down)
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Tdown Tup
𝑑𝑇𝑢𝑝
𝑑𝑧= 𝛾𝑎
′ 𝑇𝑝ℎ𝑦𝑠 − 𝑇𝑢𝑝 + 𝛾𝑏′(𝑇𝑑𝑜𝑤𝑛 − 𝑇𝑢𝑝)
−𝑑𝑇𝑑𝑜𝑤𝑛𝑑𝑧
= 𝛾𝑎′ 𝑇𝑝ℎ𝑦𝑠 − 𝑇𝑑𝑜𝑤𝑛 + 𝛾𝑏′(𝑇𝑢𝑝 − 𝑇𝑑𝑜𝑤𝑛)
Where 𝛾𝑎′is the 2 flux absorption coefficient, and 𝛾𝑏′ is the 2 flux scattering coefficient
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William Maslanka | MicroSnow2
FUTURE WORK: SMP /MICRO CT
Stratigraphy Analysis from each slab:
• 12 SMP Profiles
• 2-4 Micro-CT samples
Use stratigraphic data within HUT and MEMLS to repeat comparison of slab data
Use SMP/Micro-CT data within coefficient calculations
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SMP
Micro-CT sample
Density profile
SSA and grain size macrophotography
Temperature profile
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William Maslanka | MicroSnow2
SUMMARY
• Observations at microwave frequencies vital for snow remote sensing
• Semi-empirical models: HUT and MEMLS
• Introduced ASMEx: Set-up and Physical results
• Preliminary results
• Future work
• Scattering and Absorption coefficients
• SMP/Micro CT data
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