19 July 2021 | The 2019 Raikoke volcanic eruption - Part 1: Dispersion model simulations and satellite retrievals of volcanic sulfur dioxide
| De Leeuw, J; Schmidt, A; Witham, CS; et al. |
7 March 2022 | The 2019 Raikoke volcanic eruption – Part 2: Particle-phase dispersion and concurrent wildfire smoke emissions
| Osborne, M; de Leeuw, J; Witham, C; et al. |
16 November 2014 | Aerosol direct radiative effect of smoke over clouds over the southeast Atlantic Ocean from 2006 to 2009
| de Graaf, M; Bellouin, N; Tilstra, LG; et al. |
28 June 2021 | Assessing Transboundary-Local Aerosols Interaction Over Complex Terrain Using a Doppler LiDAR Network
| Huang, T; Li, Y; Cheng, JCH; et al. |
25 August 2022 | Australian wildfires cause the largest stratospheric warming since Pinatubo and extends the lifetime of the Antarctic ozone hole.
| Damany-Pearce, L; Johnson, B; Wells, A; et al. |
7 June 2016 | Biomass Burning Aerosols in the Amazon Basin, Characterised by Lidar, Optical Particle Counters, and Modelling
| Marenco, F; Johnson, B; Langridge, J; et al. |
23 October 2019 | Black carbon physical and optical properties across northern India during pre-monsoon and monsoon seasons
| Brooks, J; Liu, D; Allan, JD; et al. |
26 August 2019 | Characteristics of Heavy Particulate Matter Pollution Events Over Hong Kong and Their Relationships With Vertical Wind Profiles Using High-Time-Resolution Doppler Lidar Measurements
| Yang, Y; Yim, SHL; Haywood, J; et al. |
16 September 2021 | Characterizing the performance of a POPS miniaturized optical particle counter when operated on a quadcopter drone
| Liu, Z; Osborne, M; Anderson, K; et al. |
12 August 2021 | Climate change modulates the stratospheric volcanic sulfate aerosol lifecycle and radiative forcing from tropical eruptions
| Aubry, TJ; Staunton-Sykes, J; Marshall, LR; et al. |
12 September 2018 | The climate effects of increasing ocean albedo: An idealized representation of solar geoengineering
| Kravitz, B; Rasch, PJ; Wang, H; et al. |
8 October 2021 | Climate models generally underrepresent the warming by Central Africa biomass-burning aerosols over the Southeast Atlantic
| Mallet, M; Nabat, P; Johnson, B; et al. |
18 August 2022 | Cloud processing and weeklong ageing affect biomass burning aerosol properties over the south-eastern Atlantic
| Che, H; Segal-Rozenhaimer, M; Zhang, L; et al. |
27 July 2020 | Cloudy-sky contributions to the direct aerosol effect
| Myhre, G; Samset, BH; Mohr, CW; et al. |
19 March 2021 | Comparing different generations of idealized solar geoengineering simulations in the Geoengineering Model Intercomparison Project (GeoMIP)
| Kravitz, B; MacMartin, DG; Visioni, D; et al. |
22 January 2018 | The contrasting climate response to tropical and extratropical energy perturbations
| Hawcroft, M; Haywood, J; Collins, M; et al. |
13 April 2018 | Dust mass concentrations from the UK volcanic ash lidar network compared with in-situ aircraft measurements
| Osborne, M; Marenco, F; Adam, M; et al. |
30 January 2023 | Future changes in atmospheric rivers over East Asia under stratospheric aerosol intervention
| Liang, J; Haywood, J |
18 November 2014 | Ground-based aerosol characterization during the South American Biomass Burning Analysis (SAMBBA) field experiment
| Brito, J; Rizzo, LV; Morgan, WT; et al. |
13 February 2024 | How well are aerosol–cloud interactions represented in climate models? – Part 1: Understanding the sulfate aerosol production from the 2014–15 Holuhraun eruption
| Jordan, G; Malavelle, F; Chen, Y; et al. |