Earth Observation Data Group

Impact of clouds on aerosol scattering as observed by lidar

(2011)

Authors:

AC Povey, RG Grainger, DM Peters, JL Agnew, CL Wrench, D Rees

Quantifying the response of the ORAC aerosol optical depth retrieval for MSG SEVIRI to aerosol model assumptions

JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES 116 (2011) ARTN D05208

Authors:

Claire E Bulgin, Paul I Palmer, Christopher J Merchant, Richard Siddans, Siegfried Gonzi, Caroline A Poulsen, Gareth E Thomas, Andrew M Sayer, Elisa Carboni, Roy G Grainger, Eleanor J Highwood, Claire L Ryder

Reconciling satellite-derived atmospheric properties with fine-resolution land imagery: Insights for atmospheric correction

JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES 116 (2011) ARTN D18308

Authors:

Przemyslaw Zelazowski, Andrew M Sayer, Gareth E Thomas, Roy G Grainger

A global ship track climatology from ATSR-2: January 1999 - January 2001

DLR Deutsches Zentrum fur Luft- und Raumfahrt e.V. - Forschungsberichte (2010) 75-79

Authors:

AM Sayer, RG Grainger, E Campmany

Abstract:

Two years (January 1999 - January 2001) of data from the Along-Track Scanning Radiometer 2 (ATSR-2) aboard the satellite ERS-2 have been processed with an automatic ship track detection algorithm. The distribution of detected tracks shows similar patterns and magnitudes to another satellite-derived dataset and is consistent with locations of shipping lanes. Most tracks are detected in the North Pacific and North Atlantic, between March and August. The derived track masks have been used with ATSR-2 data from the Oxford-RAL Aerosol and Clouds (ORAC) retrieval scheme to reveal differences between track and non-track clouds. Water clouds which are part of a ship track show an approximate 50% increase in optical depth as compared to background cloud conditions (30 km or more from tracks), and a decrease in effective radius of similar magnitude. This is consistent with the first aerosol indirect (Twomey) effect.

Aerosol optical properties

DLR Deutsches Zentrum fur Luft- und Raumfahrt e.V. - Forschungsberichte (2010) 222-226

Authors:

DM Peters, RG Grainger, G Thomas

Abstract:

Traditionally the atmospheric physics department at the University of Oxford has applied optimal estimation techniques for the retrieval of atmospheric properties of gases; temperature, pressure and volume mixing ratio from satellite measurements. This paper describes the latest novel application of these techniques in deriving aerosol optical properties in laboratory experiments. Two examples are given; a spectral resolved technique allows an aerosol refractive index to be derived over a wide wavelength range and a method of deriving single particle refractive index and size from a novel aerosol instrument suitable for in situ aerosol monitoring.