How to trace the origins of short-lived atmospheric species in the Arctic - INSU - Institut national des sciences de l'Univers
Pré-Publication, Document De Travail Année : 2024

How to trace the origins of short-lived atmospheric species in the Arctic

Résumé

The origins of particles and trace gases involved in the rapidly changing polar climates remain unclear, limiting the reliability of climate models. This is especially true for particles involved in aerosol-cloud interactions with polar clouds. As detailed chemical fingerprinting measurements are difficult and expensive in polar regions, backtrajectory modeling is often used to identify the sources of observed atmospheric compounds. However, the accuracy of these methods is not well quantified.This study provides a first evaluation of these analysis protocols, by combining backtrajectories from the FLEXible PARTicle dispersion model (FLEXPART) with simulations of tracers from the Weather Research and Forecast model including chemistry (WRF-Chem). Knowing the exact modeled tracer emission sources in WRF-Chem enables precise quantification of the source detection accuracy. The results show that commonly used backtrajectory analysis are unreliable in identifying emissions sources. After exploring parameter sensitivities thanks to our simulation framework, we present an updated and rigorously evaluated backtrajectory analysis protocol for tracing the origins of atmospheric species from measurement data. Two tests of the improved protocol on actual aerosol data from Arctic campaigns demonstrate its ability to correctly identify known sources of methane sulfonic acid and black carbon. Our results reveal that traditional backtrajectory methods often misidentify emission source regions. Therefore, we recommend using the method described in this study for future efforts to trace the origins of measured atmospheric species.

Introduction

The warming rate of the Arctic is almost four times higher than the global average rate (Rantanen et al., 2022). In the austral hemisphere, the Antarctic ice sheet raises concern while its melting accelerates (Bronselaer et al., 2018). This polar amplification of warming raises concern across the entire climate sciences community due to its possible impacts on the atmospheric and ocean circulations (Serreze and Barry, 2011). Studying the rapidly changing polar climates is therefore a research priority. Short-lived climate forcers, such as aerosols and ozone, play an important role for global and polar climates (IPCC, 2021).

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Dates et versions

insu-04733712 , version 1 (12-10-2024)

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Anderson Da Silva, Louis Marelle, Jean-Christophe Raut, Yvette Gramlich, Karolina Siegel, et al.. How to trace the origins of short-lived atmospheric species in the Arctic. 2024. ⟨insu-04733712⟩
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