Access the full text.
Sign up today, get DeepDyve free for 14 days.
D. Zannoni, F. Borsetti, J. Harrison, R. Turner (2008)
The bacterial response to the chalcogen metalloids Se and Te.Advances in microbial physiology, 53
M. Filella, N. Belzile, Yuwei Chen (2012)
Human Exposure to Antimony. II. Contents in Some Human Tissues Often Used in Biomonitoring (Hair, Nails, Teeth)Critical Reviews in Environmental Science and Technology, 42
I. Rodushkin, Fredrik Ödman, Rickard Olofsson, E. Burman, M. Axelsson (2001)
Multi-element analysis of body fluids by double-focusing ICP-MS
C. Chery, S. Herremans, V. Lierde, F. Vanhaecke, M. Freitas, R. Jasekera (2008)
Ultra-micro trace element contents in spices from Sri LankaJournal of Radioanalytical and Nuclear Chemistry, 276
S. Taylor, S. McLennan (1985)
The continental crust: Its composition and evolution
S. McLennan (2001)
Relationships between the trace element composition of sedimentary rocks and upper continental crustGeochemistry, 2
H. Lakin, C. Thompson, D. Davidson (1963)
Tellurium Content of Marine Manganese Oxides and Other Manganese OxidesScience, 142
S. Coulibaly, H. Minami, Maho Abe, Tomohiro Hasei, Tadashi Oro, K. Funasaka, Daichi Asakawa, Masanari Watanabe, Naoko Honda, K. Wakabayashi, Tetsushi Watanabe (2015)
Long-range transport of mutagens and other air pollutants from mainland East Asia to western JapanGenes and Environment, 37
I. Rodushkin, Fredrik Ödman, Rickard Olofsson, M. Axelsson (2000)
Determination of 60 elements in whole blood by sector field inductively coupled plasma mass spectrometryJournal of Analytical Atomic Spectrometry, 15
J. Meija, T. Coplen, M. Berglund, W. Brand, P. Biévre, M. Gröning, N. Holden, J. Irrgeher, R. Loss, T. Walczyk, T. Prohaska (2016)
Atomic weights of the elements 2013 (IUPAC Technical Report)Pure and Applied Chemistry, 88
Montserrat Filella, I. Rodushkin (2018)
A concise guide for the determination of less-studied technology-critical elements (Nb, Ta, Ga, In, Ge, Te) by inductively coupled plasma mass spectrometry in environmental samplesSpectrochimica Acta Part B: Atomic Spectroscopy, 141
B. Vriens, A. Voegelin, S. Hug, R. Kaegi, L. Winkel, A. Buser, M. Berg (2017)
Quantification of Element Fluxes in Wastewaters: A Nationwide Survey in Switzerland.Environmental science & technology, 51 19
Y. Sugimura, Yoshimi Suzuki (1981)
Determination of tellurium in sea water.Papers in Meteorology and Geophysics, 32
S. Moune, Pierre-J. Gauthier, S. Gíslason, O. Sigmarsson (2006)
Trace element degassing and enrichment in the eruptive plume of the 2000 eruption of Hekla volcano, IcelandGeochimica et Cosmochimica Acta, 70
Julius Csotonyi, E. Stackebrandt, V. Yurkov (2006)
Anaerobic Respiration on Tellurate and Other Metalloids in Bacteria from Hydrothermal Vent Fields in the Eastern Pacific OceanApplied and Environmental Microbiology, 72
E. Hamilton (1974)
The chemical elements and human morbidity--water, air and places--a study of natural variability.The Science of the total environment, 3 1
N. Pallavicini, F. Ecke, E. Engström, D. Baxter, I. Rodushkin (2013)
A high-throughput method for the determination of Os concentrations and isotope ratio measurements in small-size biological samplesJournal of Analytical Atomic Spectrometry, 28
M. Quinby-Hunt, K. Turehian (1983)
Distribution of elements in sea waterEos, Transactions American Geophysical Union, 64
A. Ure, C. Davidson (1994)
Chemical speciation in the environment
Zaicong Wang, H. Becker (2014)
Abundances of Sulfur, Selenium, Tellurium, Rhenium and Platinum‐Group Elements in Eighteen Reference Materials by Isotope Dilution Sector‐Field ICP‐MS and Negative TIMSGeostandards and Geoanalytical Research, 38
(2018)
A concise guide for the determination of lessstudied technology-critical elements
I. Rodushkin, P. Nordlund, E. Engström, D. Baxter (2005)
Improved multi-elemental analyses by inductively coupled plasma-sector field mass spectrometry through methane addition to the plasmaJournal of Analytical Atomic Spectrometry, 20
P. Ollivier, Andrew Bahrou, Sarah Marcus, Talisha Cox, T. Church, Thomas Hanson (2008)
Volatilization and Precipitation of Tellurium by Aerobic, Tellurite-Resistant Marine MicrobesApplied and Environmental Microbiology, 74
P. Pyykkö (2015)
Additive covalent radii for single-, double-, and triple-bonded molecules and tetrahedrally bonded crystals: a summary.The journal of physical chemistry. A, 119 11
D. Wallschläger, J. Feldmann (2010)
Formation, occurrence, significance, and analysis of organoselenium and organotellurium compounds in the environment.Metal ions in life sciences, 7
H. Harmens, D. Norris, E. Steinnes, E. Kubin, J. Piispanen, R. Alber, Y. Aleksiayenak, O. Blum, M. Coşkun, M. Dam, L. Temmerman, J. Fernández, M. Frolova, M. Frontasyeva, L. González-Miqueo, K. Grodzińska, Z. Jeran, S. Korzekwa, M. Krmar, K. Kvietkus, S. Leblond, S. Liiv, S. Magnusson, B. Maňkovská, R. Pesch, Å. Rühling, J. Santamaría, W. Schröder, Z. Špirić, I. Suchara, L. Thöni, V. Urumov, L. Yurukova, H. Zechmeister (2010)
Mosses as biomonitors of atmospheric heavy metal deposition: spatial patterns and temporal trends in Europe.Environmental pollution, 158 10
M. Biver, F. Quentel, Montserrat Filella (2015)
Direct determination of tellurium and its redox speciation at the low nanogram level in natural waters by catalytic cathodic stripping voltammetry.Talanta, 144
J. Schulze (2016)
The Nature Of The Chemical Bond
A. Vogel (1961)
A text-book of quantitative inorganic analysis : including elementary instrumental analysis
N. Belzile, Yuwei Chen (2015)
Thallium in the environment: A critical review focused on natural waters, soils, sediments and airborne particles☆Applied Geochemistry, 84
J. Gómez, J. Lillo, B. Sahún (2006)
Naturally occurring arsenic in groundwater and identification of the geochemical sources in the Duero Cenozoic Basin, SpainEnvironmental Geology, 50
C. Nogueira, G. Zeni, J. Rocha (2004)
Organoselenium and organotellurium compounds: toxicology and pharmacology.Chemical reviews, 104 12
K. Chiou, O. Manuel (1984)
Determination of Tellurium and Selenium in Atmospheric Aerosol Samples by Graphite Furnace Atomic Absorption SpectrometryAnalytical Chemistry, 56
R. Reynolds, Jessica Mordecai, J. Rosenbaum, M. Ketterer, M. Walsh, K. Moser (2010)
Compositional changes in sediments of subalpine lakes, Uinta Mountains (Utah): evidence for the effects of human activity on atmospheric dust inputsJournal of Paleolimnology, 44
M. Zelenski, Tobias Fischer, J. Moor, B. Marty, L. Zimmermann, D. Ayalew, Aleksey Nekrasov, V. Karandashev (2013)
Trace elements in the gas emissions from the Erta Ale volcano, Afar, EthiopiaChemical Geology, 357
I. Rodushkin, M. Axelsson (2000)
Application of double focusing sector field ICP-MS for multielemental characterization of human hair and nails. Part I. Analytical methodology.The Science of the total environment, 250 1-3
L. Ba, Mandy Döring, V. Jamier, C. Jacob (2010)
Tellurium: an element with great biological potency and potential.Organic & biomolecular chemistry, 8 19
M. Andersson, C. Reimann, B. Flem, P. Englmaier, K. Fabian (2018)
Element distribution in Lactarius rufus in comparison to the underlying substrate along a transect in southern NorwayApplied Geochemistry
M. Filella, N. Belzile, Yuwei Chen (2013)
Human Exposure to Antimony. IV. Contents in Human BloodCritical Reviews in Environmental Science and Technology, 43
G. Baturin (2007)
Tellurium and thallium in ferromanganese crusts and phosphates on oceanic seamountsDoklady Earth Sciences, 413
Keiko Fujiwara, Tomoyuki Takahashi, T. Kinouchi, S. Fukutani, Sentaro Takahashi, Tetsuhiro Watanabe, Shinya Funakawa (2017)
Transfer Factors of Tellurium and Cesium from Soil to Radish (Raphanus sativus var. sativus) and Komatsuna (Brassica rapa var. perviridis)Japanese Journal of Health Physics, 52
G. Gibbs, N. Ross, D. Cox, K. Rosso, B. Iversen, M. Spackman (2013)
Bonded radii and the contraction of the electron density of the oxygen atom by bonded interactions.The journal of physical chemistry. A, 117 7
Kristýna Urbánková, Martin Moos, J. Machát, L. Sommer (2011)
Simultaneous determination of inorganic arsenic, antimony, selenium and tellurium by ICP-MS in environmental waters using SPE preconcentration on modified silicaInternational Journal of Environmental Analytical Chemistry, 91
R. Turner, R. Borghese, D. Zannoni (2012)
Microbial processing of tellurium as a tool in biotechnology.Biotechnology advances, 30 5
Y. Ogra (2009)
Toxicometallomics for Research on the Toxicology of Exotic Metalloids Based on Speciation StudiesAnalytical Sciences, 25
(2009)
COMMUNICATION FROM THE COMMISSION TO THE EUROPEAN PARLIAMENT, THE COUNCIL, THE EUROPEAN ECONOMIC AND SOCIAL COMMITTEE AND THE COMMITTEE OF THE REGIONS
J. Halamić (2006)
Geochemical Atlas of Europe, 43
W. Holak (1980)
Determination of arsenic by cathodic stripping voltammetry with a hanging mercury drop electrodeAnalytical Chemistry, 52
Y. Wang, T. Gu, X. Wang, Y. Gao, K. Jochum, W. Müller (2013)
Practical Handbook of Reference Materials for Geoanalysis, 2nd edition (Chinese-English)
H. Harmens, D. Norris, Katrina Sharps, G. Mills, R. Alber, Y. Aleksiayenak, O. Blum, S. Cucu-Man, M. Dam, L. Temmerman, A. Ene, J. Fernández, J. Martínez-Abaigar, M. Frontasyeva, B. Godzik, Z. Jeran, P. Lazo, S. Leblond, S. Liiv, S. Magnusson, B. Maňkovská, G. Karlsson, J. Piispanen, J. Poikolainen, J. Santamaría, M. Skudnik, Z. Špirić, T. Stafilov, E. Steinnes, C. Stihi, I. Suchara, L. Thöni, R. Todoran, L. Yurukova, H. Zechmeister (2015)
Heavy metal and nitrogen concentrations in mosses are declining across Europe whilst some "hotspots" remain in 2010.Environmental pollution, 200
C. Xiong, Bin Hu (2010)
Headspace trapping of the hydrides on a Pd(II)-coated graphite adsorptive bar as a microextraction method for ETV-ICP-MS determination of Se, Te and Bi in seawater and human hair samples.Talanta, 81 1-2
Zhaochu Hu, Shan Gao (2007)
Upper crustal abundances of trace elements: A revision and updateChemical Geology, 253
T. Moreno, A. Oldroyd, I. McDonald, W. Gibbons (2007)
Preferential Fractionation of Trace Metals–Metalloids into PM10 Resuspended from Contaminated Gold Mine Tailings at Rodalquilar, SpainWater, Air, and Soil Pollution, 179
E. Norton, R. Stoenner, A. Medalia (1953)
POLAROGRAPHY OF TELLURIUM (VI)Journal of the American Chemical Society, 75
Xiaodan Wu, Jinming Song, Xuegang Li (2014)
Occurrence and distribution of dissolved tellurium in Changjiang River estuaryChinese Journal of Oceanology and Limnology, 32
Y. Shimoishi (1976)
The gas-chromatographic determination of selenium(VI) and total selenium in milk, milk products and albumin with 1,2-diamino-4-nitrobenzene.The Analyst, 101 1201
Kiyotaka Watanabe, Koichiro Yumoto, T. Koyama, Y. Sekine, Y. Hashimoto (1989)
Relationship of Tellurium and Selenium Concentrations in Airborne Particulates to Major Emission Sources, 24
T. Chasteen, R. Bentley (2003)
Biomethylation of selenium and tellurium: microorganisms and plants.Chemical reviews, 103 1
A. D’Ulivo (1997)
Determination of selenium and tellurium in environmental samplesAnalyst, 122
P. Pinel-Raffaitin, C. Pécheyran, D. Amouroux (2008)
New volatile selenium and tellurium species in fermentation gases produced by composting duck manureAtmospheric Environment, 42
K. Chiou, O. Manuel (1986)
Tellurium and selenium in aerosols.Environmental science & technology, 20 10
Zhang-wan Li, N. Zhe-ming, S. Xiao-quan (1989)
In situ concentration of metallic hydride in a graphite furnace coated with palladium-determination of bismuth, germanium and telluriumSpectrochimica Acta Part B: Atomic Spectroscopy, 44
C. Kuo, Shiuh-Jen Jiang (2008)
Determination of selenium and tellurium compounds in biological samples by ion chromatography dynamic reaction cell inductively coupled plasma mass spectrometry.Journal of chromatography. A, 1181 1-2
C. Reimann, M. Birke, A. Demetriades, P. Filzmoser, P. O'Connor, G. Akinfiev, S. Albanese, Y. Amashukeli, M. Andersson, A. Arnoldussen, Y. Artamonov, A. Audion, M. Baritz, K. Barker, M. Batista, A. Lan, V. Belougushev, I. Bitz, M. Branellec, M. Campesino, D. Cicchella, M. Chamorro, B. Vivo, W. Vos, M. Dinelli, R. Dohrmann, P. Dobek, B. Dokic, M. Dominguez, A. Dobek, M. Ďuriš, O. Eggen, P. Eilu, M. Eklund, V. Ernstsen, C. Fabian, C. Fibiger, B. Flem, S. Forrester, D. Flight, M. Fuchs, U. Fugedi, A. Cortés, V. Gallagher, M. Geichenko, A. Gilucis, T. Gliwicz, L. Godbersen, A. Goldmann, M. Gonzales, M. Gosar, V. Gregorauskienė, W. Groot, L. Gudmundsson, S. Guignat, A. Gulan, H. Haas, J. Halamić, R. Harazim, E. Haslinger, P. Hayoz, R. Hoffmann, J. Holák, J. Hoogewerff, H. Hrvatović, N. Jaganjac, F. Jahne, L. Janik, A. Jankauskas, M. Jartun, J. Jarva, J. Jégou, H. Jensen, G. Jordan, M. Jovanović, M. Kaminari, C. Kamphuis, P. Kaszycki, B. Keilert, J. Kirby, J. Kivisilla, V. Klos, F. Korte, C. Kriete, F. Krone, L. Kuti, P. Kwecko, A. Landerberger, K. Lax, A. Lima, J. Locutura, G. Longin, P. Lučivjanský, D. Machaeras, D. Mackových, F. Mairtin, O. Maksymenko, B. Malyuk, R. Maquil, J. Martinez, P. Mcdonnell, M. Mclaughlin, A. Melleton, R. Meuli, G. Mol, G. Morris, P. Négrel, D. Nikolic, A. Nortdomme, H. Olmanns, K. Oorts, R. Ottesen, E. Palvadeau, A. Pasieczna, W. Petersell, S. Pfeiderer, M. Poňavič, L. Pöpel, S. Pramuka, C. Prazeres, P. Prince, P. Putys, S. Radusinović, U. Rauch, H. Reitner, D. Requard, M. Sadeghi, I. Salpeteur, N. Samardžić, R. Scanlon, P. Šefčík, E. Sellersjö, A. Schedl, A. Scheib, I. Schoeters, P. Schwab, D. Schwenger, F. Skopljak, I. Slaninka, J. Disla, A. Šorša, T. Stafilov, M. Strutt, R. Svrkota, J. Kaszycka, T. Tarvainen, H. Tiarks, V. Trendafilov, N. Turner, J. Uhlback, J. Utermann, P. Valera, V. Verougstraete, D. Vidojević, E. Wargenau, T. Volden, D. Žižek, Z. Zomeni (2014)
CHEMISTRY OF EUROPE’S AGRICULTURAL SOILS – PART A: METHODOLOGY AND INTERPRETATION OF THE GEMAS DATA SET
E. Donaldson, Maureen Leaver (1990)
Determination of tellurium in ores, concentrates and related materials by graphite-furnace atomic-absorption spectrometry after separations by iron collection and xanthate extraction.Talanta, 37 2
K. Condie (1993)
Chemical composition and evolution of the upper continental crust: Contrasting results from surface samples and shalesChemical Geology, 104
Clemens Reimann, P. Englmaier, Karl Fabian, L. Gough, P. Lamothe, David Smith (2015)
Biogeochemical plant-soil interaction: variable element composition in leaves of four plant species collected along a south-north transect at the southern tip of Norway.The Science of the total environment, 506-507
Geo. Clark (1887)
TelluriumThe Homoeopathic Physician, 7
S. Muangnoicharoen, K. Chiou, O. Manuel (1986)
Determination of selenium and tellurium in the gas phase using specific columns and atomic absorption spectrometryAnalytical Chemistry, 58
S. Terashima, N. Imai, M. Taniguchi, Takashi Okai, A. Nishimura (2002)
The Preparation and Preliminary Characterisation of Four New Geological Survey of Japan Geochemical Reference Materials: Soils, JSO-1 and JSO-2; and Marine Sediments, JMS-1 and JMS-2Geostandards and Geoanalytical Research, 26
T. Schirmer, A. Koschinsky, M. Bau (2014)
The ratio of tellurium and selenium in geological material as a possible paleo-redox proxyChemical Geology, 376
Andrew Taylor (1996)
Biochemistry of telluriumBiological Trace Element Research, 55
M. Filella, N. Belzile, Yuwei Chen (2013)
Human Exposure to Antimony. III. Contents in Some Human Excreted Biofluids (Urine, Milk, Saliva)Critical Reviews in Environmental Science and Technology, 43
M. Reyes, M. Cervera, M. Guardia (2009)
Determination of total Sb, Se, Te, and Bi and evaluation of their inorganic species in garlic by hydride-generation–atomic-fluorescence spectrometryAnalytical and Bioanalytical Chemistry, 394
I. Sen, B. Peucker‐Ehrenbrink (2012)
Anthropogenic disturbance of element cycles at the Earth's surface.Environmental science & technology, 46 16
A. Misund, B. Frengstad, U. Siewers, C. Reimann (1999)
Variation of 66 elements in European bottled mineral waters.The Science of the total environment, 243-244
L. Peiró, G. Méndez, R. Ayres (2013)
Material flow analysis of scarce metals: sources, functions, end-uses and aspects for future supply.Environmental science & technology, 47 6
W. Perkins (2011)
Extreme selenium and tellurium contamination in soils--an eighty year-old industrial legacy surrounding a Ni refinery in the Swansea Valley.The Science of the total environment, 412-413
C. Reimann, M. Äyräs, V. Chekushin (2010)
Environmental Geochemical Atlas of the Central Barents Region
T. Hinkley, P. Lamothe, S. Wilson, D. Finnegan, T. Gerlach (1999)
Metal emissions from Kilauea, and a suggested revision of the estimated worldwide metal output by quiescent degassing of volcanoesEarth and Planetary Science Letters, 170
S. Terashima (2001)
Determination of Indium and Tellurium in Fifty Nine Geological Reference Materials by Solvent Extraction and Graphite Furnace Atomic Absorption SpectrometryGeostandards and Geoanalytical Research, 25
V. Dressler, D. Pozebon, A. Curtius (2001)
Determination of Ag, Te, U and Au in waters and in biological samples by FI–ICP-MS following on-line preconcentrationAnalytica Chimica Acta, 438
G. Hall, J. Pelchat (1997)
Analysis of geological materials for bismuth, antimony, selenium and tellurium by continuous flow hydride generation inductively coupled plasma mass spectrometry. Part 1. Mutual hydride interferencesJournal of Analytical Atomic Spectrometry, 12
R. Cunha, I. Gouvea, L. Juliano (2009)
A glimpse on biological activities of tellurium compounds.Anais da Academia Brasileira de Ciencias, 81 3
M. Andreae (1984)
Determination of inorganic tellurium species in natural waters.Analytical chemistry, 56 12
N. Imai, S. Terashima, S. Itoh, A. Ando (1996)
1996 COMPILATION OF ANALYTICAL DATA ON NINE GSJ GEOCHEMICAL REFERENCE SAMPLES, “SEDIMENTARY ROCK SERIES”Geostandards and Geoanalytical Research, 20
C. Rathgeber, N. Yurkova, E. Stackebrandt, J. Beatty, V. Yurkov (2002)
Isolation of Tellurite- and Selenite-Resistant Bacteria from Hydrothermal Vents of the Juan de Fuca Ridge in the Pacific OceanApplied and Environmental Microbiology, 68
J. Slater (1964)
Atomic Radii in CrystalsJournal of Chemical Physics, 41
M. Axelsson, I. Rodushkin, J. Ingri, B. Ohlander (2002)
Multielemental analysis of Mn-Fe nodules by ICP-MS: optimisation of analytical method.The Analyst, 127 1
R. Dams (1992)
A critical review of nuclear activation techniques for the determination of trace elements in atmospheric aerosols, particulates and sludge samples (Technical Report)Pure and Applied Chemistry, 64
K. Govindaraju (1994)
1994 compilation of working values and sample description for 383 geostandards
G. Audi, F. Kondev, Mei Wang, Mei Wang, B. Pfeiffer, X. Sun, J. Blachot, M. Maccormick (2012)
The NUBASE2016 evaluation of nuclear propertiesChinese Physics C, 41
M. Yu, G. Liu, Q. Jin (1983)
Determination of trace arsenic, antimony, selenium and tellurium in various oxidation states in water by hydride generation and atomic-absorption spectrophotometry after enrichment and separation with thiol cotton.Talanta, 30 4
E. Anders, N. Grevesse (1989)
Abundances of the elements: Meteoritic and solarGeochimica et Cosmochimica Acta, 53
I. Rodushkin, Fredrik Ödman, H. Holmström (1999)
Multi-element analysis of wild berries from northern Sweden by ICP techniquesScience of The Total Environment, 231
M. Xi, Rui Liu, Peng Wu, Kailai Xu, X. Hou, Yi Lv (2010)
Atomic absorption spectrometric determination of trace tellurium after hydride trapping on platinum-coated tungsten coilMicrochemical Journal, 95
T. Kashiwabara, Y. Oishi, A. Sakaguchi, T. Sugiyama, A. Usui, Y. Takahashi (2014)
Chemical processes for the extreme enrichment of tellurium into marine ferromanganese oxidesGeochimica et Cosmochimica Acta, 131
S. Taylor, S. McLennan (1995)
The geochemical evolution of the continental crustReviews of Geophysics, 33
R. Rudnick, Shan Gao (2014)
Composition of the Continental CrustTreatise on Geochemistry, 4
Chaozhang Huang, Bin Hu (2008)
Speciation of inorganic tellurium from seawater by ICP-MS following magnetic SPE separation and preconcentration.Journal of separation science, 31 4
D. Ji, Junke Zhang, Jun He, Xiaoju Wang, B. Pang, Zirui Liu, Lili Wang, Yuesi Wang (2016)
Characteristics of atmospheric organic and elemental carbon aerosols in urban Beijing, ChinaAtmospheric Environment, 125
G. Mattsson, Leif Nyholm, Åke Olin, Ulf Örnemark (1995)
Determination of selenium in freshwaters by cathodic stripping voltammetry after UV irradiation.Talanta, 42 6
I. Nazarenko, A. Ermakov (1973)
Analytical Chemistry of Selenium and Tellurium
I. Rodushkin, E. Engström, A. Stenberg, D. Baxter (2004)
Determination of low-abundance elements at ultra-trace levels in urine and serum by inductively coupled plasma–sector field mass spectrometryAnalytical and Bioanalytical Chemistry, 380
R. Shannon (1976)
Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenidesActa Crystallographica Section A, 32
J. Watterson, G. Neuerburg (1975)
Analysis for tellurium in rocks to 5 parts per billionJournal research U. S. geological survey, 3
D. Lee, J. Edmond (1985)
Tellurium species in seawaterNature, 313
M. Krachler, W. Shotyk (2009)
Trace and ultratrace metals in bottled waters: survey of sources worldwide and comparison with refillable metal bottles.The Science of the total environment, 407 3
G. Hall, J. Pelchat (1997)
Analysis of Geological Materials for Bismuth, Antimony, Selnium andTellurium by Continuous Flow Hydride Generation Inductively Coupled PlasmaMass SpectrometryJournal of Analytical Atomic Spectrometry, 12
B. Frengstad, K. Lax, T. Tarvainen, Øystein Jæger, B. Wigum (2010)
The chemistry of bottled mineral and spring waters from Norway, Sweden, Finland and IcelandJournal of Geochemical Exploration, 107
J. Hoffmann, M. King, S. Carapella, J. Oldfield, R. Putnam (2001)
Tellurium and Tellurium Compounds
M. Kolpakova (2017)
RELATIONSHIPS BETWEEN THE TRACE ELEMENT COMPOSITION OF WATER AND BOTTOM SEDIMENTS OF RUSSIAN ENDORHEIC SALINE LAKES (ALTAI REGION)
(1987)
The role of particles in regulating the composition of seawater
O. Fujino, Kunita Hara, Satoru Ikejima, S. Goda (1997)
Determination of tellurium in lake water by ICP-MS.Bunseki Kagaku, 46
Josef Jankovský, O. Kšír (1960)
Photometric determination of tellurium with bismuthiol IITalanta, 5
Goksin Kavlak, T. Graedel (2013)
Global anthropogenic tellurium cycles for 1940–2010Resources Conservation and Recycling, 73
R. Zeisler, K. Murphy, D. Becker, W. Davis, W. Kelly, S. Long, J. Sieber (2006)
Standard Reference Materials® (SRMs) for measurement of inorganic environmental contaminantsAnalytical and Bioanalytical Chemistry, 386
H. Qin, Y. Takeichi, H. Nitani, Y. Terada, Y. Takahashi (2017)
Tellurium Distribution and Speciation in Contaminated Soils from Abandoned Mine Tailings: Comparison with Selenium.Environmental science & technology, 51 11
Björn Andersson (2000)
Materials availability for large-scale thin-film photovoltaicsProgress in Photovoltaics, 8
JinKazuo, TagaMitsuhiko, YoshidaHitoshi, HikimeSeiichiro (1979)
Differential Determination of Tellurium(IV) and Telluriiim(VI) by Atomic Absorption Spectrophotometry after Hydride Generation. Combined Use of Titanium(III) Chloride as a Prereductant and Sodium Borohydride SolutionBulletin of the Chemical Society of Japan, 52
S. Fortier, N. Nassar, G. Lederer, J. Brainard, Joseph Gambogi, E. McCullough (2018)
Draft critical mineral list—Summary of methodology and background information—U.S. Geological Survey technical input document in response to Secretarial Order No. 3359
J. Wiklund, J. Kirk, D. Muir, J. Carrier, A. Gleason, Fan Yang, M. Evans, J. Keating (2018)
Widespread Atmospheric Tellurium Contamination in Industrial and Remote Regions of Canada.Environmental science & technology, 52 11
I. Rodushkin, E. Engström, D. Sörlin, D. Baxter (2008)
Levels of inorganic constituents in raw nuts and seeds on the Swedish market.The Science of the total environment, 392 2-3
R. Byrne (2007)
Speciation in Seawater
J. Zieman, J. Holmes, D. Connor, C. Jensen, W. Zoller, Diane Hermann, J. Parrington, G. Gordon (1995)
Atmospheric aerosol trace element chemistry at Mauna Loa Observatory: 1. 1979–1985Journal of Geophysical Research, 100
R. Loss, K. Rosman, J. Laeter (1990)
The isotopic composition of zinc, palladium, silver, cadmium, tin, and tellurium in acid-etched residues of the Allende meteoriteGeochimica et Cosmochimica Acta, 54
A. Šorša, Z. Peh, J. Halamić (2017)
Geochemical mapping the urban and industrial legacy of Sisak, Croatia, using discriminant function analysis of topsoil chemical dataJournal of Geochemical Exploration, 187
L. Ciacci, B. Reck, N. Nassar, T. Graedel (2015)
Lost by Design.Environmental science & technology, 49 16
R. Jacimovic, A. Lazaru, D. Mihajlovi, R. Ili (2002)
Determination of major and trace elements in some minerals by k0-instrumental neutron activation analysisJournal of Radioanalytical and Nuclear Chemistry, 253
I. Rodushkin, T. Bergman, G. Douglas, E. Engström, D. Sörlin, D. Baxter (2007)
Authentication of Kalix (N.E. Sweden) vendace caviar using inductively coupled plasma-based analytical techniques: evaluation of different approaches.Analytica chimica acta, 583 2
M. Filella, P. May (2019)
The aqueous chemistry of tellurium: critically-selected equilibrium constants for the low-molecular-weight inorganic speciesEnvironmental Chemistry
Ying Liu, M. He, Beibei Chen, Bin Hu (2015)
Simultaneous speciation of inorganic arsenic, selenium and tellurium in environmental water samples by dispersive liquid liquid microextraction combined with electrothermal vaporization inductively coupled plasma mass spectrometry.Talanta, 142
Guosheng Yang, Jian Zheng, K. Tagami, S. Uchida (2013)
Rapid and sensitive determination of tellurium in soil and plant samples by sector-field inductively coupled plasma mass spectrometry.Talanta, 116
C. Reimann, K. Bjorvatn, B. Frengstad, Z. Melaku, R. Tekle-Haimanot, U. Siewers (2003)
Drinking water quality in the Ethiopian section of the East African Rift Valley I--data and health aspects.The Science of the total environment, 311 1-3
E. Avigliano, N. Schenone, A. Volpedo, W. Goessler, A. Cirelli (2015)
Heavy metals and trace elements in muscle of silverside (Odontesthes bonariensis) and water from different environments (Argentina): aquatic pollution and consumption effect approach.The Science of the total environment, 506-507
G. Haeffler, A. Klinkmüller, J. Rangell, U. Berzinsh, D. Hanstorp (1996)
The electron affinity of telluriumZeitschrift für Physik D Atoms, Molecules and Clusters, 38
M. Berglund, M. Wieser (2011)
Isotopic compositions of the elements 2009 (IUPAC Technical Report)Pure and Applied Chemistry, 83
J. Dědina, D. Tsalev (1995)
Hydride Generation Atomic Absorption Spectrometry
G. Baturin, V. Dubinchuk, L. Azarnova, M. Mel’nikov (2007)
Species of molybdenum, thallium, and tellurium in ferromanganese crusts of oceanic SeamountsOceanology, 47
Clemens Reimann, Gwendy Hall, U. Siewers, Kjell Bjorvatn, G. Morland, H. Skarphagen, T. Strand (1996)
Radon, fluoride and 62 elements as determined by ICP-MS in 145 Norwegian hard rock groundwater samples.The Science of the total environment, 192 1
T. Chasteen, D. Fuentes, J. Tantaleán, C. Vásquez (2009)
Tellurite: history, oxidative stress, and molecular mechanisms of resistance.FEMS microbiology reviews, 33 4
Y. Hashimoto, Kiyotaka Watanabe, Koichiro Yumoto, Y. Sekine, Hui-Kang Kim, T. Otoshi (1989)
Tellurium as a Possible Tracer of Coal Combustion Effluent, 24
(2009)
THE APPLICATION OF THREE-PHASE LIQUID-LIQUID EXTRACTION TO THE ANALYSIS OF BISMUTH AND TELLURIUM IN SULPHIDE CONCENTRATES
Beatriz Cordero, V. Gómez, Ana Platero‐Prats, M. Reves, J. Echeverría, E. Cremades, F. Barragán, S. Alvarez (2008)
Covalent radii revisited.Dalton transactions, 21
K. Stetzenbach, Megumi Amano, D. Kreamer, V. Hodge (1994)
Testing the Limits of ICP‐MS: Determination of Trace Elements in Ground Water at the Part‐Per‐Trillion LevelGround Water, 32
L. Ottosson, Katarina Logg, Sebastian Ibstedt, P. Sunnerhagen, M. Käll, A. Blomberg, J. Warringer (2010)
Sulfate Assimilation Mediates Tellurite Reduction and Toxicity in Saccharomyces cerevisiaeEukaryotic Cell, 9
R. Johnson, D. Fredrickson (1952)
Titration of Quadrivalent Tellurium with ThiosulfateAnalytical Chemistry, 24
T. Tarvainen, A. Ladenberger, J. Snöälv, J. Jarva, M. Andersson, M. Eklund (2017)
Urban soil geochemistry of two Nordic towns: Hämeenlinna and KarlstadJournal of Geochemical Exploration, 187
Jörg Meyer, A. Schmidt, K. Michalke, R. Hensel (2007)
Volatilisation of metals and metalloids by the microbial population of an alluvial soil.Systematic and applied microbiology, 30 3
(2010)
Geochemistry of European Bottled Water’ (Borntraeger Science Publishers: Stuttgart) 268 pp
E. Kontas, H. Niskavaara, J. Virtasalo (1990)
Gold, Palladium and Tellurium in South African, Chinese and Japanese Geological Reference SamplesGeostandards and Geoanalytical Research, 14
A. Olis (1988)
Aquatic Surface Chemistry: Chemical Processes at the Particle-Water Interface
R. Sadana (1983)
Determination of arsenic in the presence of copper by differential pulse cathodic stripping voltammetry at a hanging mercury drop electrodeAnalytical Chemistry, 55
Rickard Olofsson, I. Rodushkin, M. Axelsson (2000)
Performance characteristics of a tandem spray chamber arrangement in double focusing sector field ICP-MSJournal of Analytical Atomic Spectrometry, 15
S. Muangnoicharoen, K. Chiou, O. Manuel (1988)
Determination of selenium and tellurium in air by atomic-absorption spectrometry.Talanta, 35 9
Shan Gao, Ting-Chuan Luo, Ben-ren Zhang, Hongfei Zhang, Yin-wen Han, Zi-Dan Zhao, Yi-Ken Hu (1998)
Chemical composition of the continental crust as revealed by studies in East ChinaGeochimica et Cosmochimica Acta, 62
T. Ferri, S. Rossi, P. Sangiorgio (1998)
Simultaneous determination of the speciation of selenium and tellurium in geological matrices by use of an iron(III)-modified chelating resin and cathodic stripping voltammetryAnalytica Chimica Acta, 361
B. Yoon, S. Shim, H. Pyun, D. Lee (1990)
Hydride Generation Atomic Absorption Determination of Tellurium Species in Environmental Samples with in Situ Concentration in a Graphite FurnaceAnalytical Sciences, 6
M. Kaplan, S. Cerutti, S. Moyano, R. Olsina, L. Martínez, J. Gásquez (2004)
On‐Line Preconcentration System by Coprecipitation with Lanthanum Hydroxide Using Packed‐Bed Filter for the Determination of Tellurium in Water by ICP‐OES with USNInstrumentation Science & Technology, 32
Y. Ralchenko (2000)
NIST Atomic Spectra Database, 8
Yuwei Chen, Ali Alzahrani, T. Deng, N. Belzile (2016)
Valence properties of tellurium in different chemical systems and its determination in refractory environmental samples using hydride generation - Atomic fluorescence spectroscopy.Analytica chimica acta, 905
K. Lodders, H. Palme, H. Gail (2009)
Abundances of the elements in the solar systemarXiv: Earth and Planetary Astrophysics
J. Pedro, Jorge Stripekis, A. Bonivardi, M. Tudino (2008)
Determination of tellurium at ultra-trace levels in drinking water by on-line solid phase extraction coupled to graphite furnace atomic absorption spectrometerSpectrochimica Acta Part B: Atomic Spectroscopy, 63
E. Engström, A. Stenberg, Svetlana Senioukh, Roland Edelbro, D. Baxter, I. Rodushkin (2004)
Multi-elemental characterization of soft biological tissues by inductively coupled plasma–sector field mass spectrometryAnalytica Chimica Acta, 521
A. Albeck, H. Weitman, B. Sredni, M. Albeck (1998)
Tellurium Compounds: Selective Inhibition of Cysteine Proteases and Model Reaction with ThiolsInorganic Chemistry, 37
M. Dolor, G. Helz, W. McDonough (2009)
Sediment profiles of less commonly determined elements measured by Laser Ablation ICP-MS.Marine pollution bulletin, 59 4-7
J. An, Zhang Qing (1983)
An analytical method of ultra-trace tellurium for samples of sea- and environmental-water.International journal of environmental analytical chemistry, 14 1
Liao Yan-hua (2010)
Determination of Rare and Rare Earth Elements in Black Shales by Inductively Couple Plasma-Mass Spectrometry with Microwave DigestionRock and Mineral Analysis
J. Ivanova, R. Djingova, S. Korhammer, B. Markert (2001)
On the microwave digestion of soils and sediments for determination of lanthanides and some toxic and essential elements by inductively coupled plasma source mass spectrometry.Talanta, 54 4
C. Reimann, M. Birke, B. Flem, O. Eggen, D. Gasser (2018)
Background values of gold, potentially toxic elements and emerging high-tech critical elements in surface water collected in a remote northern European environmentGeochemistry: Exploration, Environment, Analysis, 18
Montserrat Filella, J. Rodríguez-Murillo (2017)
Less-studied TCE: are their environmental concentrations increasing due to their use in new technologies?Chemosphere, 182
S. Baesman, John Stolz, T. Kulp, R. Oremland (2009)
Enrichment and isolation of Bacillus beveridgei sp. nov., a facultative anaerobic haloalkaliphile from Mono Lake, California, that respires oxyanions of tellurium, selenium, and arsenicExtremophiles, 13
D. Scott, W. Loseke, L. Holboke, R. Thompson (1976)
Analysis of Atmospheric Particulates for Trace Elements by Optical Emission SpectrometryApplied Spectroscopy, 30
Karl Yang, K. Swami, L. Husain (2009)
Sensitive Measurement of Se and Te in Cloud Water and Ambient Particulate MatterSpectroscopy Letters, 42
(2011)
London Earth Surface Soil G-BASE Dataset (British Geological Survey: Keyworth)
Geerke Floor, G. Román-Ross (2012)
Selenium in volcanic environments: A reviewApplied Geochemistry, 27
E. Andersson, O. Lindqvist, T. Yamaguchi, E. Naesaekkaelae, O. Wahlberg (1982)
AN X-RAY DIFFRACTION STUDY ON THE STRUCTURE OF TELLURIC ACID TE(OH)6 IN AQUEOUS SOLUTIONActa Chemica Scandinavica, 13
P. Enghag (2007)
Selenium and Tellurium
R. Caminiti, G. Licheri, G. Piccaluga, G. Pinna (1977)
X-ray diffraction study of a
N. Najafi, H. Tavakoli, R. Alizadeh, Shahram Seidi (2010)
Speciation and determination of ultra trace amounts of inorganic tellurium in environmental water samples by dispersive liquid-liquid microextraction and electrothermal atomic absorption spectrometry.Analytica chimica acta, 670 1-2
K. Michalke, A. Schmidt, Britta Huber, Jörg Meyer, M. Sulkowski, A. Hirner, J. Boertz, F. Mosel, P. Dammann, G. Hilken, H. Hedrich, M. Dorsch, A. Rettenmeier, R. Hensel (2008)
Role of Intestinal Microbiota in Transformation of Bismuth and Other Metals and Metalloids into Volatile Methyl and Hydride Derivatives in Humans and MiceApplied and Environmental Microbiology, 74
M. Siwulski, M. Mleczek, P. Rzymski, Anna Budka, A. Jasińska, P. Niedzielski, P. Kalač, M. Gąsecka, S. Budzyńska, Patrycja Mikołajczak (2017)
Screening the Multi-Element Content of Pleurotus Mushroom Species Using inductively Coupled Plasma Optical Emission Spectrometer (ICP-OES)Food Analytical Methods, 10
Li-qin Duan, Jinming Song, Huamao Yuan, Xuegang Li, Ning Li, Ji-Kun Ma (2014)
Selenium and tellurium fractionation, enrichment, sources and chronological reconstruction in the East China SeaEstuarine Coastal and Shelf Science, 143
Y. Nozaki (1997)
A fresh look at element distribution in the North Pacific OceanEos, Transactions American Geophysical Union
I. Rodushkin, C. Paulukat, S. Pontér, E. Engström, D. Baxter, D. Sörlin, N. Pallavicini, Katerina Rodushkina (2018)
Application of double-focusing sector field ICP-MS for determination of ultratrace constituents in samples characterized by complex composition of the matrix.The Science of the total environment, 622-623
T. Harada, Y. Takahashi (2008)
Origin of the difference in the distribution behavior of tellurium and selenium in a soil–water systemGeochimica et Cosmochimica Acta, 72
S. Dindi, V. Reddy (1993)
Direct cerimetric determination of tellurium(IV)Analytica Chimica Acta, 276
G. Hall, J. Pelchat (1997)
1Determination of As, Bi, Sb, Se and Te in Fifty Five Reference Materials by Hydride Generation ICP‐MSGeostandards and Geoanalytical Research, 21
S. Baesman, T. Bullen, J. Dewald, Donghui Zhang, S. Curran, F. Islam, T. Beveridge, R. Oremland (2007)
Formation of Tellurium Nanocrystals during Anaerobic Growth of Bacteria That Use Te Oxyanions as Respiratory Electron AcceptorsApplied and Environmental Microbiology, 73
António Ferreira, C. Johnson, J. Appleton, D. Flight, T. Lister, K. Knights, Louise Ander, C. Scheib, A. Scheib, M. Cave, J. Wragg, F. Fordyce, R. Lawley (2017)
London region atlas of topsoil geochemistry
W. Cooper (1971)
ANALYTICAL CHEMISTRY OF TELLURIUM.
D. Wray (1998)
The impact of unconfined mine tailings and anthropogenic pollution on a semi-arid environment – an initial study of the Rodalquilar mining district, south east SpainEnvironmental Geochemistry and Health, 20
M. Mleczek, M. Siwulski, P. Rzymski, P. Niedzielski, M. Gąsecka, A. Jasińska, S. Budzyńska, Anna Budka (2017)
Multi-elemental analysis of Lentinula edodes mushrooms available in tradeJournal of Environmental Science and Health, Part B, 52
C. Reimann, K. Fabian, B. Flem, M. Andersson, P. Filzmoser, P. Englmaier (2018)
Geosphere-biosphere circulation of chemical elements in soil and plant systems from a 100 km transect from southern central Norway.The Science of the total environment, 639
A. Allred, E. Rochow (1958)
A scale of electronegativity based on electrostatic forceJournal of Inorganic and Nuclear Chemistry, 5
A. Gutbier (1902)
Beiträge zur Kenntnis der TellursäureZeitschrift für anorganische und allgemeine Chemie, 29
J. Hein, A. Koschinsky, A. Halliday (2003)
Global occurrence of tellurium-rich ferromanganese crusts and a model for the enrichment of telluriumGeochimica et Cosmochimica Acta, 67
S. Fadda, A. Rivoldini, Ignazio Cau (1995)
ICP‐MS DETERMINATION OF 45 TRACE ELEMENTS IN WHOLE COAL USING MICROWAVE OVEN ACID DIGESTION FOR SAMPLE PREPARATIONGeostandards and Geoanalytical Research, 19
W. Latimer (1938)
The oxidation states of the elements and their potentials in aqueous solutions
Z. Xiangchun, L. Guang-han, W. Fang, L. Yanhua (1997)
A New Polarographic Adsorptive Catalytic Wave for the Determination of Trace Tellurium in Smog Dust and Wheat FlourMicrochemical Journal, 57
K. Jin, M. Taga, H. Yoshida, S. Hikime (1979)
DIFFERENTIAL DETERMINATION OF TELLURIUM(IV) AND TELLURIUM(VI) BY ATOMIC ABSORPTION SPECTROPHOTOMETRY AFTER HYDRIDE GENERATION. COMBINED USE OF TITANIUM(III) CHLORIDE AS A PREREDUCTANT AND SODIUM BOROHYDRIDE SOLUTIONChemInform, 10
T. Plank, C. Langmuir (1998)
The chemical composition of subducting sediment and its consequences for the crust and mantleChemical Geology, 145
G. Hall, A. MacLaurin, J. Pelchat, G. Gauthier (1997)
Comparison of the techniques of atomic absorption spectrometry and inductively coupled plasma mass spectrometry in the determination of Bi, Se and Te by hydride generation☆Chemical Geology, 137
Y. Sekine, Y. Hashimoto, Tomomi Nakamura, Z. Chen, S. Mitsuzawa (1992)
Characterization of Atmospheric Aerosol Components at Beijing, China, 27
A. kumar, P. Riyazuddin (2007)
Non-chromatographic hydride generation atomic spectrometric techniques for the speciation analysis of arsenic, antimony, selenium, and tellurium in water samples—a reviewInternational Journal of Environmental Analytical Chemistry, 87
S. Cerutti, M. Kaplan, S. Moyano, J. Gásquez, L. Martínez (2005)
Determination of tellurium by ETAAS with preconcentration by coprecipitation with lanthanum hydroxideAtomic Spectroscopy, 26
H. Schroeder, H. Schroeder, Jeffrey Buckman, Jeffrey Buckman, J. Balassa, J. Balassa (1967)
Abnormal trace elements in man: tellurium.Journal of chronic diseases, 20 3
K. Michalke, E. Wickenheiser, M. Mehring, A. Hirner, Reinhard Hensel (2000)
Production of Volatile Derivatives of Metal(loid)s by Microflora Involved in Anaerobic Digestion of Sewage SludgeApplied and Environmental Microbiology, 66
M. Poňavič, Z. Wittlingerová, P. Čoupek, Jan Buda (2017)
Soil geochemical mapping of the central part of Prague, Czech RepublicJournal of Geochemical Exploration, 187
K. Chiou, O. Manuel (1988)
Chalcogen elements in snow: relation to emission sourceEnvironmental Science & Technology, 22
Wang Hai-ying (2010)
Determination of Cr,Ga,In,Te and Tl in Geological Samples by Inductively Coupled Plasma-Mass SpectrometryRock and Mineral Analysis
C. Reimann, A. Arnoldussen, P. Englmaier, P. Filzmoser, T. Finne, R. Garrett, F. Koller, Ø. Nordgulen (2007)
Element concentrations and variations along a 120-km transect in southern Norway – Anthropogenic vs. geogenic vs. biogenic element sources and cyclesApplied Geochemistry, 22
Environmental contextTellurium, a chemical element increasingly being used in new technologies, is an emerging contaminant. Our understanding of telluriums environmental behaviour, however, is poor, with critical knowledge gaps such as its distribution in the various environmental compartments and the environmental fluxes associated with mining, usage and disposal. Significant progress in these areas requires the development of robust analytical methods that are sufficiently sensitive to provide data at environmentally relevant concentrations.AbstractTellurium has recently become a technology-critical element increasingly used in new applications. Thus, potential environmental impacts need to be evaluated. This, in turn, requires knowledge of its typical concentrations in the environment along with better understanding of the chemical processes governing its environmental behaviour. We evaluate the current situation of our understanding of tellurium in the environment and identify the areas where improvements in measurement technology are most needed. The comprehensive evaluation of published data described in this study shows that values for tellurium concentrations in the different environmental compartments are scarce, particularly in the case of natural waters where reliable estimates of tellurium concentrations in seawater and freshwater cannot even be produced. Data in air are even less abundant than for natural water. Concentration data do exist for soils suggesting a predominant geological origin. Some urban soil surveys and lake sediment data close to tellurium contamination sources point to possible effects on the elements distribution as a result of human activity; long-range atmospheric transport remains to be proved. Current knowledge about tellurium behaviour in the environment is strongly hindered by analytical difficulties, with insufficiently low analytical detection limits being the main limitation. For instance, dissolved concentrations are well below current analytical capabilities in natural water and often require pre-concentration procedures that, for the moment, do not provide consistent results; solid samples require complex mineralisation procedures that often exclude tellurium from routine multielement studies. In general, the use of available measuring techniques is far from straightforward and needs particular expertise. Overcoming the current analytical limitations is essential to be able to progress in the field.
Environmental Chemistry – CSIRO Publishing
Published: Apr 2, 2019
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.