Molecular iodine (I2) emission from two Laminaria species (Phaeophyceae) and impact of irradiance and temperature on I2 emission into air and iodide release into seawater from Laminaria digitata |
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| Institution: | 1. Marine Institute, University of Plymouth, Plymouth, Pl48AA, UK;2. University of South Florida, College of Marine Science, St. Petersburg, FL, US;3. Department of Chemistry, University of Otago, Dunedin, NZ and NIWA/University of Otago Research Centre for Oceanography |
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| Abstract: | Kelps of the genus Laminaria accumulate iodine at high concentrations, but the iodine retaining capacity can be affected by emersion and physiological stress. In this study, I2 emission into the atmosphere from Laminaria digitata and Laminaria hyperborea was compared under controlled low irradiances and temperatures. The two species exhibited different I2 emission rates as blades of L. digitata emitted I2 at rates five times higher than those from newly-grown blades (current growth season) of L. hyperborea. I2 emission was not detectable from old blades (previous growth season) of L. hyperborea. Additionally, effects of irradiance and temperature on both I2 emission into air and net I? release into seawater where assessed for L. digitata while monitoring photo-physiological parameters as stress indicators. Irradiances between 30 and 120 μmol photons m?2 s?1 had only marginal effects on both I2 emission and I? release rates, but physiological stress, indicated by photoinhibition, was observed. The results suggest that the irradiances applied here were not stressful enough to impact on the iodine release. By contrast, at elevated temperatures (20 °C), photoinhibition was accompanied by an increase in I2 emission rates, but net I? release rates remained similar at 10–20 °C. High I2 emission rates into air and I? release into seawater observed from L. digitata underpin the fundamental function of this kelp as mediator of coastal iodine fluxes. |
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| Keywords: | Abiotic stress Brown macroalgae Chlorophyll fluorescence Emission Broadband cavity enhanced absorption spectroscopy Iodide Molecular iodine |
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