Atmospheric dust transport to high-elevation Dronning Maud Land, Antarctica, over the satellite era and implications for centennial scale ice core records of dust deposition
Deposition of aeolian mineral dust recorded in Antarctic ice cores is strongly tied to large-scale atmospheric circulation variability. This natural archive can be used to extend knowledge about atmospheric circulation variability in the Southern Hemisphere (SH) prior to the satellite era (1979-2017...
| Main Author: | |
|---|---|
| Format: | Thesis |
| Language: | unknown |
| Published: |
2022
|
| Subjects: | |
| Online Access: | https://doi.org/10.26686/wgtn.20399592 https://figshare.com/articles/thesis/Atmospheric_dust_transport_to_high-elevation_Dronning_Maud_Land_Antarctica_over_the_satellite_era_and_implications_for_centennial_scale_ice_core_records_of_dust_deposition/20399592 |
| Summary: | Deposition of aeolian mineral dust recorded in Antarctic ice cores is strongly tied to large-scale atmospheric circulation variability. This natural archive can be used to extend knowledge about atmospheric circulation variability in the Southern Hemisphere (SH) prior to the satellite era (1979-2017). Additionally, dust plays an important role in the climate system through cloud formation processes, the radiation budget, and as a micronutrient source for biological productivity in the Southern Ocean. Hence, investigating the drivers of Antarctic dust variability is useful for better understanding past and future changes to SH climate. This thesis investigates present-day dust transport to a high elevation ice core site in Dronning Maud Land (DML; 74°60′S, 0°6′E), Antarctica, where an anomalous increase in dust deposition is observed over the past century in a 1300-year ice core recently drilled as part of the Isotopic Constraints on Past Ozone Layer in Polar Ice (ISOL-ICE) program. This study aims to determine the potential source area (PSA) and atmospheric transport mechanism of dust deposited to high-elevation DML over the satellite era. Additionally, the implications of the findings for ice core dust records spanning the last millennium are also discussed. The specific objectives of this study are: 1) identify dominant atmospheric dust transport pathways to DML over the satellite era, 2) determine regional climatic controls of particle size distribution (PSD) at DML over the satellite era, and 3) contextualise the recent increase in dust deposition at DML relative to the last millennium. To achieve these three objectives, dust deposition to the ISOL-ICE ice core site over the satellite era is examined using dust dispersion modeling (Flexpart model; Pisso et al., 2019) and correlation analysis with a range of climate parameters, such as geopotential height, zonal and meridional winds, and precipitation, using the ERA-interim atmospheric reanalysis dataset (Dee et al., 2011). Flexpart is configured to run ... |
|---|