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You are here: Home > Journals > EN > ENV16N4_FO
RESEARCH FRONT
Contents Vol 16(4)

Foreword to the Research Front on ‘Tellurium in Biological and Environmental Systems: After Fukushima’

Montserrat Filella
+ Author Affiliations
- Author Affiliations

Department F.-A. Forel, University of Geneva, Boulevard Carl-Vogt 66, CH-1205 Geneva, Switzerland. Email: montserrat.filella@unige.ch

Environmental Chemistry 16(4) 213-214 https://doi.org/10.1071/ENv16n4_FO
Published: 2 July 2019


References

Filella M, May PM (2019). The aqueous chemistry of tellurium: critically-selected equilibrium constants for the low-molecular-weight inorganic species. Environmental Chemistry 16, 289–295.
The aqueous chemistry of tellurium: critically-selected equilibrium constants for the low-molecular-weight inorganic speciesCrossref | GoogleScholarGoogle Scholar |

Filella M, Reimann C, Biver M, Rodushkin I, Rodushkina K (2019). Tellurium in the environment: current knowledge and identification of gaps. Environmental Chemistry 16, 215–228.
Tellurium in the environment: current knowledge and identification of gapsCrossref | GoogleScholarGoogle Scholar |

Gil-Díaz T (2019). Tellurium radionuclides produced by major accidental events in nuclear power plants. Environmental Chemistry 16, 296–302.
Tellurium radionuclides produced by major accidental events in nuclear power plantsCrossref | GoogleScholarGoogle Scholar |

Gil-Díaz T, Schäfer J, Dutruch L, Bossy C, Pougnet F, Abdou M, Lerat-Hardy A, Pereto C, Derriennic H, Briant N, Sireau T, Knoery J, Blanc G (2019). Tellurium behaviour in a major European fluvial-estuarine system (Gironde, France): fluxes, solid/liquid partitioning, and bioaccumulation in wild oysters. Environmental Chemistry 16, 229–242.
Tellurium behaviour in a major European fluvial-estuarine system (Gironde, France): fluxes, solid/liquid partitioning, and bioaccumulation in wild oystersCrossref | GoogleScholarGoogle Scholar |

Hayes SM, Ramos NA (2019). Surficial geochemistry and bioaccessibility of tellurium in semi-arid mine tailings. Environmental Chemistry 16, 251–265.
Surficial geochemistry and bioaccessibility of tellurium in semi-arid mine tailingsCrossref | GoogleScholarGoogle Scholar |

Nuss P (2019). Losses and environmental aspects of a byproduct metal: tellurium. Environmental Chemistry 16, 243–250.
Losses and environmental aspects of a byproduct metal: telluriumCrossref | GoogleScholarGoogle Scholar |

Presentato A, Turner RJ, Vásquez CC, Yurkov V, Zannoni D (2019). Tellurite-dependent blackening of bacteria emerges from the dark ages. Environmental Chemistry 16, 266–288.
Tellurite-dependent blackening of bacteria emerges from the dark agesCrossref | GoogleScholarGoogle Scholar |