30 years of African dust: From emission to deposition Using GEOS-Chem and MERRA to determine the causes of variability and trends David A. Ridley, Colette.

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Presentation transcript:

30 years of African dust: From emission to deposition Using GEOS-Chem and MERRA to determine the causes of variability and trends David A. Ridley, Colette L. Heald Acknowledgements: R. Lucchesi, M. Karki (NASA GMAO), J. Marsham and M. Hobby (U. of Leeds) This work is supported by internal funding at MIT Toward resolution-independent dust emissions in global models: Impacts on the seasonal and spatial distribution of dust D. A. Ridley, C. L. Heald, J. R. Pierce and M. J. Evans Geophysical Research Letters, Vol 40, 1-5, doi: /grl.50409, 2013

Motivation African dust accounts for half of global emissions (Huneeus et al., 2011) Wintertime dust emission and transport highly variable (Propero et al., 2013; Doherty et al., 2012; Ben-Ami et al., 2012) Land-use changes often cited as possible cause of change in dust emission over recent decades (Chiapello et al., 2005; Evan et al., 2011; Mulitza et al., 2010) Annual Dust AOD (2012)

Two Questions: 1.Can GEOS-Chem capture the emission and long-range transport of African dust over decadal timescales? 2.What drives the inter-annual variability in winter African dust emissions? Are land-use changes important??

Modelling Dust Emission Wind Speed Clay Fraction Erodible Area Soil Moisture Vegetation DEAD dust scheme (Zender et al., 2003) TOMS AI dust source map (Ginoux et al., 2001, Prospero et al., 2002) Ridley et al. (2013) 4 ° x 5 ° 2 ° x 2.5 ° March 2012 Weibull PDF used to represent sub-grid winds in GEOS-Chem Dust emission proportional to 10m-wind cubed Wind threshold must be exceeded for emission Reduction in resolution-dependence of emissions Solving the resolution issue…

Winter (DJFM) Dust AOD GEOS-ChemMODIS Comparison with observations (AERONET, MODIS, MISR & surface concentration at Barbados) shows seasonality is captured. (Ridley et al., 2012) Daily comparison ( ) with AERONET and MODIS yields good spatial and temporal correlation in winter. Most events captured, however model underestimates peak AOD (R = 0.60 – 0.80 at key AERONET sites) (MODIS dust AOD derived using Eq. A3 from Kaufman et al., 2005)

Inter-annual variability downwind Using 26 years of dust AOD (DAOD) derived from AVHRR & MODIS satellite data (Evan & Mukhopadhyay, 2010) Significant decrease in dustiness of 11-20% per decade in both observations and model

Is Land-Use Change Important? A greening of the Sahel over the past 30 years observed from AVHRR Varying vegetation alters emissions by only 1-5% Accounting for dynamic vegetation may be more important in other regions Using a relaxed source map modulated by surface bareness from AVHRR NDVI (Koven et al., 2006; Kim et al., 2013) Sahel

What causes the variability? Large scale changes in source wind account for a 30% of the variance in AOD downwind Cause of variance in winter dust AOD RegionSource 10-m wind speed Coastal Africa31% Barbados32% Cayenne26% North Atlantic Oscillation (NAO) shown to correlate with Atlantic dust AOD and concentration (Moulin et al., 1997; Ginoux et al., 2004) GEOS-Chem coastal Africa dust AOD correlates with NAO (R=0.63)

Two Answers: 1.GEOS-Chem captures the trend and variability in wintertime AOD downwind 2.Land use changes do not seem to drive changes in dust (dust variability is primarily controlled by meteorology)

What about summer? Days AERONET Model > <0.25 Days AERONET Model > <0.25 Winter Summer AOD