Observations of volcanic ash by lidar and MODIS

Observations of volcanic ash by lidar and MODIS Robin Hogan <r. j. hogan@reading. ac. uk> University of Reading Last updated: 20 April 2010

Thursday 15 th, 1329 Vo lc an i c as h Summary from MODIS images • Icelandic wind from northwest • Further images: www. sat. dundee. ac. uk

Friday 16 th, 1234 • Volcano obscured by clouds Dilute volcanic ash measured over southern England the Netherlands with lidar

Saturday 17 th, 1317 nic lca Vo ash • Wind at Iceland from the north • Volcanic ash heading south behind a cold front Cold f No depolarizing aerosol observed over Chilbolton or Cabauw

Sunday 18 th, 1222 • Northerly winds weakening Is this the ash above the cloud? ing n e k Wea ont fr Not much sign in the MODIS image, but depolarizing aerosol observed at Chilbolton and Cabauw just above the boundary layer

Monday 19 th, 1305 • New ash entering a low pressure system

Observations on Friday 16 th April

16 April: 1044 UTC NASA MODIS radiometer

16 April: 1224 UTC Stationary colours in the sea (sediment and algae) ash c i an c Vol x Chilbolton NASA MODIS radiometer x Cabauw

Chilbolton Doppler lidar: 16 April Background aerosol particles in the boundary layer (0 -1 km) Descending volcanic ash? Mixes into turbulent boundary layer Vertical velocity shows turbulence in boundary layer and also in ash layer

Chilbolton Doppler lidar: 16 April Background aerosol particles in the boundary layer (0 -1 km) Descending volcanic ash? Spherical liquid droplets have very low depolarization Mixes into turbulent boundary layer Ash is non-spherical so strongly depolarizing

Aerosol optical depth: 16 April Background aerosol particles in the boundary layer (0 -1 km) Descending volcanic ash? Mixes into turbulent boundary layer Aerosol optical depth at several wavelengths from the Chilbolton sun photometer, courtesy Charles Wrench of STFC

Chilbolton UV lidar: 16 April Background aerosol particles in the boundary layer (0 -1 km) Descending volcanic ash? Spherical hydrated aerosol with minimal depolarization Ash is non-spherical so strongly depolarizing Mixes into turbulent boundary layer

Chilbolton lidar ceilometer: 16 April • Chilbolton has three routinely operating lidars – 1500 micron Doppler/polarization lidar (previous slides) – 905 nm lidar ceilometer – 355 nm (UV) polarization lidar (previous slide) • Can use the wavelength dependence of the scattering to estimate particle size – The following slides are from Ewan O’Connor and Chris Westbrook, University of Reading. . .

Colour ratios for each combination Note contrast with ordinary boundary layer aerosol Less than 1 Close to 1 Greater than 1

Colour ratios: 355/905 Note contrast with ordinary boundary layer aerosol Calculations for different possible refractive indices: median diameter greater than 800 microns Less than 1

Colour ratios: 905/1500 Note contrast with ordinary boundary layer aerosol Upper bound ~2 microns assuming not liquid water Calculations for different possible refractive indices: median diameter greater than 800 microns Greater than 1

Suggests median diameter is between 0. 8 m and 2 m Further Note analysis contrast will with ordinary boundary layer aerosol narrow this down… Colour ratios Less than 1 Close to 1 Upper bound ~2 microns assuming not liquid water Calculations for different possible refractive indices: median diameter greater than 800 microns Greater than 1

$Just using two colours: 355/1500 nm • Assumed ash refractive index 1. 5 –$

Just using two colours: 355/1500 nm • Assumed ash refractive index 1. 5 – 0. 001 i: volcanic ash is 1. 72 microns in diameter (similar result for more absorbing ash)

Sun photometer derived size distribution • Courtesy of Charles Wrench, STFC • Large-particle mode peaks at 3 microns radius: in good agreement with lidar-derived values

Surface sulphur dioxide http: //www. airquality. co. uk/ Mixing event at Chilbolton: 15. 00, 16 th Apr Are the spikes due to volcanic ash? • Timing is good over London but a bit late at other locations • In fact, the Met Office Unified and NAME models can both reproduce this spike WITHOUT volcanic ash, implying that this is an ordinary boundary layer pollution episode! • The amounts are much less that UK air quality objective (1 hr average exceeds 350 mg m-3 less than 24 times per year)

No convincing sign of ash Aerosol particles (PM 10 s)

Ultraviolet EZ-lidar, Cardington Bedfordshire, 16 th April • • http: //www. metoffice. gov. uk/corporate/pressoffice/2010/volcano/lidar/ This plot was produced by the University of Manchester, NCAS and FGAM.

RIVM Caeli lidar, Netherlands, 16 th April Courtesy of Arnoud Apituley <Arnoud. Apituley@rivm. nl> Volcanic ash just above boundary -layer • This lidar is not operated all the time but has Raman capability • Further images here: http: //cerberus. rivm. nl/lidar/Cabauw/2010/

Cabauw EZ-lidar, Netherlands, 16 th April Courtesy of David Donovan, KNMI <donovan@knmi. nl> Ash appears not to mix into the boundary layer as it did over Chilbolton… As over Chilbolton, ash much more depolarizing than ordinary boundary-layer aerosol

Calipso lidar 16 th April

th swa pso Cali Ash higher at leading (southern) edge, explaining the descending appearance to groundbased lidar ? ash c i can l o V er clouds Boundary-lay Simultaneous MODIS image

Observations on Saturday 17 th April

Chilbolton Doppler lidar: 17 April Normal aerosol particles in the boundary layer: no further sign of volcanic ash… • Further images at http: //www. met. reading. ac. uk/radar/realtime/today. html

Chilbolton UV lidar, 17 April Normal aerosol particles in the boundary layer: no further sign of volcanic ash…

Observations on Sunday 18 th April

Chilbolton Doppler lidar: 18 April Is this volcanic ash? Doppler lidar shows that it sits above the turbulent boundary-layer in the morning, which is why it is not immediately entrained into the boundary layer

Chilbolton UV lidar: 18 th April Depolarization implies it is volcanic ash Entrained into and diluted by existing boundary-layer aerosol when boundary layer grows? Aerosol optical depth at several wavelengths from the Chilbolton sun photometer, courtesy Charles Wrench of STFC

Sun photometer sizes, 18 th April

Cabauw EZ-lidar, Netherlands, 18 th April Courtesy of David Donovan, KNMI <donovan@knmi. nl> Similar signature observed by UV lidar at Cabauw De Bilt radiosonde put midday boundary-layer top at ~1 km

Cabauw EZ-lidar, Netherlands, 18 th April Courtesy of David Donovan, KNMI <donovan@knmi. nl> Another layer coming in? • Further images: http: //www. knmi. nl/~knap/lidar_cabauw/