2003
DOI: 10.1016/s0045-6535(03)00198-x
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Formation of volatile iodinated alkanes in soil: results from laboratory studies

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Cited by 36 publications
(39 citation statements)
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“…The likely mechanisms for iodocarbon production in the aggregate incubations are alkylation of inorganic iodine (Urhahn and Ballschmiter 1998) or the breakdown of higher molecular mass organohalogens (Fenical 1982). Formation of monoiodinated organics has been observed via various pathways, including those involving alkylating enzymes or agents such as methylcobalamin (Manley 1994) and an abiotic reaction induced by the oxidation of organic matter by Fe 3+ (Keppler et al 2003). As in natural detrital particles (Simon et al 2002), the aggregates incubated here are characterized by high rates of bacterial heterotrophic production (up to 386 mg C L 21 d 21 ) compared with the surrounding seawater (,13 mg C L 21 d 21 ).…”
Section: Discussionmentioning
confidence: 99%
“…The likely mechanisms for iodocarbon production in the aggregate incubations are alkylation of inorganic iodine (Urhahn and Ballschmiter 1998) or the breakdown of higher molecular mass organohalogens (Fenical 1982). Formation of monoiodinated organics has been observed via various pathways, including those involving alkylating enzymes or agents such as methylcobalamin (Manley 1994) and an abiotic reaction induced by the oxidation of organic matter by Fe 3+ (Keppler et al 2003). As in natural detrital particles (Simon et al 2002), the aggregates incubated here are characterized by high rates of bacterial heterotrophic production (up to 386 mg C L 21 d 21 ) compared with the surrounding seawater (,13 mg C L 21 d 21 ).…”
Section: Discussionmentioning
confidence: 99%
“…Volatile iodine compounds (as organoiodides) can be released from terrestrial environments, such as rice fields (Redeker et al 2000), peat bogs (Dimmer et al 2001). The production of volatile organoiodides from soil is thought to be ultimately dependent on the amounts of iodide in soils (Keppler et al 2000(Keppler et al , 2003.…”
Section: Discussionmentioning
confidence: 99%
“…Se atribuyen en parte a la sustancial volatilización del yodo del sistema planta-suelo hacia la atmósfera mediada por diferentes microorganismos (Muramatsu et al, 1995;Fuge, 1996). Sin embargo, se tiene evidencia que la síntesis de las formas volátiles de yodo, llamadas organoyodados, provienen principalmente de la forma química yoduro (Keppler et al, 2003) este hecho pudiera crops (Yuita, 1992) normally grown in field. In the soil can coexist various chemical forms of iodine, among the most abundant are iodate (IO 3 ) and iodide (I -) (Borst Pauwels, 1962).…”
Section: Fertilization With Iodine For Crop Biofortification In Soilunclassified
“…They are attributed in part to the substantial volatilization of Iodine from the plant-soil system to the atmosphere mediated by different microorganisms (Muramatsu et al, 1995;Fuge, 1996). However, there is evidence that the synthesis of volatile forms of iodine, called organoiodine, mainly from the chemical form iodide (Keppler et al, 2003) this fact might seem contradictory since iodide is the chemical form that plants absorb more easily from the soil. Iodine content in irrigation water can be a source of this element for plants; however it is unlikely that water contains adequate levels of iodine in regions where the soil has low concentrations of the element.…”
Section: Fertilization With Iodine For Crop Biofortification In Soilmentioning
confidence: 99%