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Journal of Soil Contamination Volume 6, 1997 - Issue 6
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Original Articles

Cr(vi) soil analytical method: A reliable analytical method for extracting and quantifying Cr(vi) in soils

Rock J. Vitale Environmental Standards, Inc., Valley Forge, Pennsylvania
,
George R. Mussoline Environmental Standards, Inc., Valley Forge, Pennsylvania
,
John C. Petura Applied Environmental Management, Inc., Malvem, Pennsylvania
&
Bruce R. James University of Maryland, College Park, Maryland
Pages 581-593 | Published online: 02 Dec 2008

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Mehdi Amouei Torkmahalleh, Lin Lin, ThomasM. Holsen, DonH. Rasmussen & PhilipK. Hopke. (2012) The Impact of Deliquescence and pH on Cr Speciation in Ambient PM Samples. Aerosol Science and Technology 46:6, pages 690-696.
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Articles from other publishers (17)

Chia-Yu Yang, Yan-Lin Tseng & Zeng-Yei Hseu. (2022) Kinetics of Chromium Reduction Associated with Varying Characteristics of Agricultural Soils. Water 14:4, pages 570.
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Richard O. Oruko, Joshua N. Edokpayi, Titus A.M. Msagati, Nikita T. Tavengwa, Henry J.O. Ogola, Grace Ijoma & John O. Odiyo. (2021) Investigating the chromium status, heavy metal contamination, and ecological risk assessment via tannery waste disposal in sub-Saharan Africa (Kenya and South Africa). Environmental Science and Pollution Research 28:31, pages 42135-42149.
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Mehmet Feryat Gülcan, Billur Deniz Karahan & Sebahattin Gürmen. (2020) Leaching of iron and chromium from an indigenous ferro chromium alloy via a rotary evaporator: optimum conditions determination and kinetic analysis. Journal of Materials Research and Technology 9:6, pages 14103-14115.
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Weifang Zhang, Peixuan Zhang, Feng Liu, Weizhen Liu, Jing Zhang & Zhang Lin. (2019) Simultaneous oxidation of Cr(III) and extraction of Cr(VI) from chromite ore processing residue by silicate-assisted hydrothermal treatment. Chemical Engineering Journal 371, pages 565-574.
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Diogenes Meneses, José Guimarães F. Júnior & Paulo Cesar Costa de Oliveira. (2018) FIA-coupled spectrophotometric method for determination of Cr (VI) traces in natural waters: application of in-line dissolution of 1,5-diphenylcarbazide after heat treatment and activated alumina as adsorbent for preconcentration. Environmental Monitoring and Assessment 190:10.
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Christopher T. Mills, Carleton R. Bern, Ruth E. Wolf, Andrea L. Foster, Jean M. Morrison & William M. Benzel. (2017) Modifications to EPA Method 3060A to Improve Extraction of Cr(VI) from Chromium Ore Processing Residue-Contaminated Soils. Environmental Science & Technology 51:19, pages 11235-11243.
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Anushka Upamali Rajapaksha, Meththika Vithanage, Yong Sik Ok & Christopher Oze. (2013) Cr(VI) Formation Related to Cr(III)-Muscovite and Birnessite Interactions in Ultramafic Environments. Environmental Science & Technology 47:17, pages 9722-9729.
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Hossein Tavallali, Gohar Deilamy-Rad & Pegah Peykarimah. (2013) Preconcentration and speciation of Cr(III) and Cr(VI) in water and soil samples by spectrometric detection via use of nanosized alumina-coated magnetite solid phase. Environmental Monitoring and Assessment 185:9, pages 7723-7738.
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Hoe-Jung Noh, Myung-Gyu Lee, Hyeon Seok Lee, Mira Kim, Dongho Kim & Tae Seung Kim. (2012) A Study of Interference Factor of Analysis Method of Hexavalent Chromium in Soil using UV/VIS Spectrometry and Application of Ion Chromatography. Journal of Soil and Groundwater Environment 17:6, pages 33-42.
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Rog-Young Kim, Goo-Bok Jung, Jwa-Kyung Sung, Ju-Young Lee, Byoung-Choon Jang, Hong-Bae Yun, Yee-Jin Lee, You-Seong Song, Won-Il Kim, Jong-Sik Lee & Sang-Keun Ha. (2011) Understanding of a Korean Standard for the Analysis of Hexavalent Chromium in Soils and Interpretation of their Results. Korean Journal of Soil Science and Fertilizer 44:5, pages 727-733.
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Robert A. Whittleston, Douglas I. Stewart, Robert J.G. Mortimer, Zana C. Tilt, Andrew P. Brown, Kalotina Geraki & Ian T. Burke. (2011) Chromate reduction in Fe(II)-containing soil affected by hyperalkaline leachate from chromite ore processing residue. Journal of Hazardous Materials 194, pages 15-23.
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Pablo M. Fernández, Lucía I. C. Figueroa & Julia I. Fariña. (2009) Critical Influence of Culture Medium and Cr(III) Quantification Protocols on the Interpretation of Cr(VI) Bioremediation by Environmental Fungal Isolates. Water, Air, and Soil Pollution 206:1-4, pages 283-293.
Crossref
Sezgin YalčinKahraman Ünlü. (2006) Modeling Chromium Dissolution and Leaching from Chromite Ore-Processing Residue. Environmental Engineering Science 23:1, pages 187-201.
Crossref
Xiangbao Long, Manuel Miró & Elo Harald Hansen. (2006) On-line dynamic extraction and automated determination of readily bioavailable hexavalent chromium in solid substrates using micro-sequential injection bead-injection lab-on-valve hyphenated with electrothermal atomic absorption spectrometry. The Analyst 131:1, pages 132-140.
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N.K. Chandra Babu, K. Asma, A. Raghupathi, R. Venba, R. Ramesh & S. Sadulla. (2005) Screening of leather auxiliaries for their role in toxic hexavalent chromium formation in leather—posing potential health hazards to the users. Journal of Cleaner Production 13:12, pages 1189-1195.
Crossref
Joe B. Dixon & G. Norman White. 2002. Soil Mineralogy with Environmental Applications. Soil Mineralogy with Environmental Applications 367 388 .
Kahraman ünlü & Serkan Haskök. (2016) Treatability of chromite ore processing waste by leaching. Waste Management & Research: The Journal for a Sustainable Circular Economy 19:3, pages 217-228.
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