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Mercury isotope evidence for Arctic summertime re-emission of mercury from the cryosphere

Beatriz Ferreira Araújo, Stefan Osterwalder, Natalie Szponar, Domenica Lee, Mariia V. Petrova, Jakob Boyd Pernov, Shaddy Ahmed, Lars‐Éric Heimbürger‐Boavida, Laure Laffont, Roman Teisserenc, Nikita Tananaev, Claus Nordstrøm, Olivier Magand, Geoff W. Stupple, Henrik Skov, A. Steffen, Bridget A. Bergquist, Katrine Aspmo Pfaffhuber, Jennie L. Thomas, Simon Scheper, Tuukka Petäjä, Aurélien Dommergue, Jeroen E. Sonke

2022Nature Communications48 citationsDOIOpen Access PDF

Abstract

Abstract During Arctic springtime, halogen radicals oxidize atmospheric elemental mercury (Hg 0 ), which deposits to the cryosphere. This is followed by a summertime atmospheric Hg 0 peak that is thought to result mostly from terrestrial Hg inputs to the Arctic Ocean, followed by photoreduction and emission to air. The large terrestrial Hg contribution to the Arctic Ocean and global atmosphere has raised concern over the potential release of permafrost Hg, via rivers and coastal erosion, with Arctic warming. Here we investigate Hg isotope variability of Arctic atmospheric, marine, and terrestrial Hg. We observe highly characteristic Hg isotope signatures during the summertime peak that reflect re-emission of Hg deposited to the cryosphere during spring. Air mass back trajectories support a cryospheric Hg emission source but no major terrestrial source. This implies that terrestrial Hg inputs to the Arctic Ocean remain in the marine ecosystem, without substantial loss to the global atmosphere, but with possible effects on food webs.

Topics & Concepts

Mercury (programming language)CryosphereEnvironmental scienceArcticEnvironmental chemistryIsotopeThe arcticMERCUREOceanographyChemistryGeologySea icePhysicsProgramming languageComputer scienceAnalytical Chemistry (journal)Quantum mechanicsMercury impact and mitigation studiesIsotope Analysis in EcologyToxic Organic Pollutants Impact