Add to ORKGAbstract—129I is a major by-product of nuclear fission that is of concern because of its extremely long half-life (~16 million yrs), perceived toxicity through bioaccumulation, and the increasing inventory of this radionuclide worldwide. Relatively high concentrations of iodate (27.3%) and organo-iodine (23.9%) are present in a 129I-conatminated aquifer at the Savannah River Site (SRS), SC, U.S.A. To determine if microorganisms could influence 129I speciation in this system, iodide oxidizing activity was evaluated in bacteria isolated from SRS sediments. All strains isolated directly from sediment material (n = 325) and from sediment enrichment cultures containing 1 mM iodide (n = 29) tested negative for iodide oxidation on R2A agar plates ...
129I is a fission product with a long half-life (1.57 x 107 yrs) that has important implications as ...
The geochemical transport and fate of radioiodine depends largely on its chemical speciation that is...
Iodate and iodide are the two major species of iodine in seawater. In comparison to iodate, iodide i...
129I is of major concern because of its biophilic nature, excessive inventory, long half-life (~16 m...
The Hanford Site in eastern Washington produced plutonium for several decades and in the process gen...
Iodine is a biophilic element that is important for human health, both as an essential component of ...
Iodine is a biophilic element that is important for human health, both as an essential component of ...
The roles of microorganisms in iodine volatilization from soils were studied. Soils were incubated ...
Radionuclides, like radioiodine (129I), may escape deep geological nuclear waste repositories and mi...
Iodine-129 ({sup 129}I) has not received as much attention in basic and applied research as other co...
Field and laboratory studies were carried out to understand the cause for steady increases in {sup 1...
Microorganisms play crucial roles in the global iodine cycling through iodine oxidation, reduction, ...
It was found that in surface fresh water and in soil water iodine is to a large extent chemically co...
I-129, a long-lived radionuclide, is important in view of geological repository of nuclear waste, an...
Iodine-129 is one of the key risk drivers for several Savannah River Site (SRS) performance assessme...
129I is a fission product with a long half-life (1.57 x 107 yrs) that has important implications as ...
The geochemical transport and fate of radioiodine depends largely on its chemical speciation that is...
Iodate and iodide are the two major species of iodine in seawater. In comparison to iodate, iodide i...
129I is of major concern because of its biophilic nature, excessive inventory, long half-life (~16 m...
The Hanford Site in eastern Washington produced plutonium for several decades and in the process gen...
Iodine is a biophilic element that is important for human health, both as an essential component of ...
Iodine is a biophilic element that is important for human health, both as an essential component of ...
The roles of microorganisms in iodine volatilization from soils were studied. Soils were incubated ...
Radionuclides, like radioiodine (129I), may escape deep geological nuclear waste repositories and mi...
Iodine-129 ({sup 129}I) has not received as much attention in basic and applied research as other co...
Field and laboratory studies were carried out to understand the cause for steady increases in {sup 1...
Microorganisms play crucial roles in the global iodine cycling through iodine oxidation, reduction, ...
It was found that in surface fresh water and in soil water iodine is to a large extent chemically co...
I-129, a long-lived radionuclide, is important in view of geological repository of nuclear waste, an...
Iodine-129 is one of the key risk drivers for several Savannah River Site (SRS) performance assessme...
129I is a fission product with a long half-life (1.57 x 107 yrs) that has important implications as ...
The geochemical transport and fate of radioiodine depends largely on its chemical speciation that is...
Iodate and iodide are the two major species of iodine in seawater. In comparison to iodate, iodide i...