Journal ArticleDOI
The volatilisation, from soils and mixtures of soil components, of iodine added as potassium iodide
TLDR
Iodine, as potassium iodide in solution, was added to samples of 24 surface soils, 15 subsoils and 16 mixtures of sand with other materials representing soil components, at 10 μg iodine/g soil.Abstract:
Summary
Iodine, as potassium iodide in solution, was added to samples of 24 surface soils, 15 subsoils and 16 mixtures of sand with other materials representing soil components, at 10 μg iodine/g soil. The extent of volatilisation of the added iodine was measured after 30 days' exposure in a well-ventilated room. With many of the surface soils volatilisation was negligible although with an acid sandy podsol it amounted to 57 per cent of the iodine added. Eleven of the subsoils induced volatilisation amounting to > 10 per cent of that added. With sand alone, having a pH of 5.7, volatilisation amounted to 100 per cent, and with the mixtures it ranged from nil to 100 per cent. Organic matter reduced volatilisation, probably by retaining the iodine in bound form. Montmorillonite, kaolinite and ferric oxide also reduced volatilisation in comparison with sand alone, but had less effect than did organic matter. Calcium carbonate, although in general reducing volatilisation, probably through its influence on pH and hence on retention by other materials, caused no reduction when added to sand alone.read more
Citations
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Journal ArticleDOI
The geochemistry of iodine - a review.
TL;DR: Consideration of the geochemical cycle of iodine reveals that its transfer from the oceans to the atmosphere is probably the most important process in its geochemistry.
Journal ArticleDOI
The distribution and transformations of iodine in the environment
TL;DR: Iodine in the atmosphere is derived largely from seawater as discussed by the authors, and it is probable that the biological production of methyl iodide is important in this transfer, but the magnitude of these processes is difficult to assess.
Journal ArticleDOI
Iodine and human health, the role of environmental geochemistry and diet, a review
TL;DR: Iodine is an essential element in the human diet and a deficiency can lead to a number of health outcomes collectively termed iodine deficiency disorders (IDD) as mentioned in this paper, however, the major zone of marine influence generally stretches to only 50-80 km inland and terrestrial sources of volatilised iodine, from wetlands, soils and plants are also an important aspect of its global geochemical cycle.
Journal ArticleDOI
Soil versus foliar iodine fertilization as a biofortification strategy for field-grown vegetables
TL;DR: The results indicate that a sufficient spreading of iodine applied on the edible plant parts is crucial for the efficiency of the foliar approach and leafy vegetables are the more suitable target crops.
Journal ArticleDOI
Volatilization of methyl iodide from the soil-plant system
TL;DR: Iodine volatilization from the soil-plant system has been studied by radiotracer experiments and gas chromatography as mentioned in this paper, and it was assumed that iodine in the flooded soil was methylated by the action of roots or microorganisms.
References
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Journal ArticleDOI
A comparative study of titrimetric and gravimetric methods for the determination of organic carbon in soil
TL;DR: In this paper, two gravimetric procedures for determining carbon in soil, one a dry combustion method and the other a wet oxidation method, were compared with seven variants of the titrimetric method, all based on titricetric determination of the dichromate consumed when soil is heated with dichromates and acid.
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The sorption of iodide by soil components
TL;DR: In this paper, the sorption of iodide by several soil component materials was examined over a range of pH values and compared with sorption by a surface soil A compost, prepared from grass roots which had been allowed to decompose for 24 weeks, showed changes in sorption, due to pH and drying, similar to those shown by the soil.
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Studies on iodine in british soils
TL;DR: In this paper, a method for the determination of iodine in soils and other agricultural materials was developed on the basis of an existing Auto-analyser procedure for iodine in blood.
Journal ArticleDOI
Iodine in soil profiles in relation to iron and aluminium oxides and organic matter
TL;DR: In this paper, the iodine content in successive 10 cm horizons of eighteen soil profiles from England and Wales was determined and correlated with contents of free aluminium and iron oxides (oxalate-soluble) and organic matter.
Journal ArticleDOI
The sorption of iodate and iodide by riverine sediments: its implications to dilution gauging and hydrochemistry of iodine
Colin Neal,Victor W. Truesdale +1 more
TL;DR: A study of the sorption of iodate and iodide from solution (40 μg 1 −1 - I) onto fourteen natural river sediments, peat and twelve sediment components showed that in rivers where the suspended sediment load is less than 0.1 gl − 1 significant sorption (> 0.5 μ g 1 − 1 ) of iodide is unlikely to occur as discussed by the authors.