Iodide, iodate & dissolved organic iodine in the temperate coastal ocean

Matthew R. Jones; Rosie Chance; Thomas Bell; Oban Jones; David C. Loades; Rebecca May; Liselotte Tinel; Katherine Weddell; Claire Widdicombe; Lucy J. Carpenter

doi:10.3389/fmars.2024.1277595

Frontiers in Marine Science (Feb 2024)

Iodide, iodate & dissolved organic iodine in the temperate coastal ocean

Matthew R. Jones,
Rosie Chance,
Thomas Bell,
Oban Jones,
David C. Loades,
Rebecca May,
Liselotte Tinel,
Katherine Weddell,
Claire Widdicombe,
Lucy J. Carpenter

Affiliations

Matthew R. Jones: Wolfson Atmospheric Chemistry Laboratory, University of York, York, United Kingdom
Rosie Chance: Wolfson Atmospheric Chemistry Laboratory, University of York, York, United Kingdom
Thomas Bell: Plymouth Marine Laboratory, Prospect Place, Plymouth, United Kingdom
Oban Jones: Plymouth Marine Laboratory, Prospect Place, Plymouth, United Kingdom
David C. Loades: Wolfson Atmospheric Chemistry Laboratory, University of York, York, United Kingdom
Rebecca May: Plymouth Marine Laboratory, Prospect Place, Plymouth, United Kingdom
Liselotte Tinel: Wolfson Atmospheric Chemistry Laboratory, University of York, York, United Kingdom
Katherine Weddell: Wolfson Atmospheric Chemistry Laboratory, University of York, York, United Kingdom
Claire Widdicombe: Plymouth Marine Laboratory, Prospect Place, Plymouth, United Kingdom
Lucy J. Carpenter: Wolfson Atmospheric Chemistry Laboratory, University of York, York, United Kingdom

DOI: https://doi.org/10.3389/fmars.2024.1277595
Journal volume & issue: Vol. 11

Abstract

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The surface ocean is the main source of iodine to the atmosphere, where it plays a crucial role including in the catalytic removal of tropospheric ozone. The availability of surface oceanic iodine is governed by its biogeochemical cycling, the controls of which are poorly constrained. Here we show a near two-year time series of the primary iodine species, iodide, iodate and dissolved organic iodine (DOI) in inner shelf marine surface waters of the Western English Channel (UK). The median ± standard deviation concentrations between November 2019 and September 2021 (n=76) were: iodide 88 ± 17 nM (range 61-149 nM), iodate 293 ± 28 nM (198-382 nM), DOI 16 ± 16 nM (<0.12-75 nM) and total dissolved iodine (dIT) 399 ± 30 nM (314-477 nM). Though lower than inorganic iodine ion concentrations, DOI was a persistent and non-negligible component of dIT, which is consistent with previous studies in coastal waters. Over the time series, dIT was not conserved and the missing pool of iodine accounted for ~6% of the observed concentration suggesting complex mechanisms governing dIT removal and renewal. The contribution of excess iodine (I*) sourced from the coastal margin towards dIT was generally low (3 ± 29 nM) but exceptional events influenced dIT concentrations by up to ±100 nM. The seasonal variability in iodine speciation was asynchronous with the observed phytoplankton primary productivity. Nevertheless, iodate reduction began as light levels and then biomass increased in spring and iodide attained its peak concentration in mid to late autumn during post-bloom conditions. Dissolved organic iodine was present, but variable, throughout the year. During winter, iodate concentrations increased due to the advection of North Atlantic surface waters. The timing of changes in iodine speciation and the magnitude of I* subsumed by seawater processes supports the paradigm that transformations between iodine species are biologically mediated, though not directly linked.

Published in Frontiers in Marine Science

ISSN: 2296-7745 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Natural history (General): General. Including nature conservation, geographical distribution
Website: https://www.frontiersin.org/journals/marine-science

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