Zunli Lu scite author profile

Iodine was discovered as a novel element in 1811 during the Napoleonic Wars. To celebrate the bicentennial anniversary of this event we reflect on the history and highlight the many facets of iodine research that have evolved since its discovery. Iodine has an impact on many aspects of life on Earth as well as on human civilization. It is accumulated in high concentrations by marine algae, which are the origin of strong iodine fluxes into the coastal atmosphere which influence climatic processes, and dissolved iodine is considered a biophilic element in marine sediments. Iodine is central to thyroid function in vertebrates, with paramount implications for human health. Iodine can exist in a wide range of oxidation states and it features a diverse supramolecular chemistry. Iodine is amenable to several analytical techniques, and iodine compounds have found widespread use in organic synthesis. Elemental iodine is produced on an industrial scale and has found a wide range of applications in innovative materials, including semiconductors--in particular, in solar cells.

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Perspectives on Proterozoic surface ocean redox from iodine contents in ancient and recent carbonate

Hardisty

Bekker

et al. 2017

Earth and Planetary Science Letters

193

166

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23The Proterozoic Eon hosted the emergence and initial recorded diversification of 24 eukaryotes. Oxygen levels in the shallow marine settings critical to these events were lower than 25 today's, although how much lower is debated. Here, we use concentrations of iodate (the oxidized 26 iodine species) in shallow-marine limestones and dolostones to generate the first comprehensive 27 record of Proterozoic near-surface marine redox conditions. The iodine proxy is sensitive to both 28 local oxygen availability and the relative proximity to anoxic waters. To assess the validity of 43

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Oxygen depletion recorded in upper waters of the glacial Southern Ocean

et al. 2016

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Oxygen depletion in the upper ocean is commonly associated with poor ventilation and storage of respired carbon, potentially linked to atmospheric CO2 levels. Iodine to calcium ratios (I/Ca) in recent planktonic foraminifera suggest that values less than ∼2.5 μmol mol−1 indicate the presence of O2-depleted water. Here we apply this proxy to estimate past dissolved oxygen concentrations in the near surface waters of the currently well-oxygenated Southern Ocean, which played a critical role in carbon sequestration during glacial times. A down-core planktonic I/Ca record from south of the Antarctic Polar Front (APF) suggests that minimum O2 concentrations in the upper ocean fell below 70 μmol kg−1 during the last two glacial periods, indicating persistent glacial O2 depletion at the heart of the carbon engine of the Earth's climate system. These new estimates of past ocean oxygenation variability may assist in resolving mechanisms responsible for the much-debated ice-age atmospheric CO2 decline.

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Late inception of a resiliently oxygenated upper ocean

Ridgwell

Thomas

et al. 2018

Science

161

126

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Rising oceanic and atmospheric oxygen levels through time have been crucial to enhanced habitability of surface Earth environments. Few redox proxies can track secular variations in dissolved oxygen concentrations around threshold levels for metazoan survival in the upper ocean. We present an extensive compilation of iodine-to-calcium ratios (I/Ca) in marine carbonates. Our record supports a major rise in the partial pressure of oxygen in the atmosphere at ~400 million years (Ma) ago and reveals a step change in the oxygenation of the upper ocean to relatively sustainable near-modern conditions at ~200 Ma ago. An Earth system model demonstrates that a shift in organic matter remineralization to greater depths, which may have been due to increasing size and biomineralization of eukaryotic plankton, likely drove the I/Ca signals at ~200 Ma ago.

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Zunli Lu

Iodine to calcium ratios in marine carbonate as a paleo-redox proxy during oceanic anoxic events

Commemorating Two Centuries of Iodine Research: An Interdisciplinary Overview of Current Research

Perspectives on Proterozoic surface ocean redox from iodine contents in ancient and recent carbonate

Oxygen depletion recorded in upper waters of the glacial Southern Ocean

Late inception of a resiliently oxygenated upper ocean

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