On the relationship between relative humidity and particle backscattering coefficient in the marine boundary layer determined with differential absorption lidar

Abstract

A ground‐based water‐vapor differential absorption lidar (DIAL) has been applied to investigate aerosol properties in the convective marine boundary layer. The high resolution and accuracy of this instrument enables measurement of the particle backscattering coefficient β_par and the absolute humidity under a single boundary layer cloud, so the hygroscopic growth of the aerosol can be investigated in a single profile over a large range of the relative humidity RH. Arguing that the convective boundary layer was adiabatic and using the DIAL absolute humidity measurements, the relation β_par(RH) has been determined. This relation is compared with a simple aerosol model. Assuming that the simplifications are valid, it follows that β_par(RH) is mainly sensitive to variations in the mass fraction of soluble material ε of an internally mixed aerosol. Applying this model to the experimental data, we found ε was in the range of 0.05–0.27 during the measurements. These values are consistent with those from in situ particle analyses at other anthropogenically influenced sites. These rather low soluble mass fractions have strong implications for the magnitude of both aerosol direct and indirect effects.