PMID- 15919539 OWN - NLM STAT- MEDLINE DCOM- 20050826 LR - 20171116 IS - 0048-9697 (Print) IS - 0048-9697 (Linking) VI - 345 IP - 1-3 DP - 2005 Jun 1 TI - Environmental factors determining the trace-level sorption of silver and thallium to soils. PG - 191-205 AB - Silver (Ag) and thallium (Tl) are nonessential elements that can be highly toxic to a number of biota even when present in the environment at trace levels. In spite of that, the literature on the chemistry and fate of Ag and Tl in soils is extremely scanty. In that context, the key objective of this research was to compare the sorption characteristics of trace amounts of Ag and Tl on a range of soils and minerals. A second objective was to determine the extent to which the composition and surface chemistry of the sorbents, as well as other environmental factors (simulated acid rain application and the presence of competing ions like K+ and NH4+) influence the sorption and lability of Ag and Tl. To this end, short-term and long-term sorption isotherms were generated under batch conditions for trace levels of Ag and Tl onto three illite-rich mineral soils from central New York (silt loam and fine sandy loam), a peaty-muck soil drained for agricultural use, and soil minerals (ferrihydrite and birnessite). Silver sorbed more strongly than thallium to all the soils. The peaty-muck soil sorbed Ag more strongly than the mineral soils, confirming that silver sorption to soils is dominated by soil organic matter either through exchange or complexation. The organic matter-rich soil's retention of Tl, however, was similar to that of the sandy soil. Amounts of Ag and Tl sorbed to the mineral soils increased after a 1-year incubation period. Whereas Ag sorption to the peaty-muck soil also increased with time, Tl sorption was unaffected. Short batch studies indicated that high amounts of Tl sorb to birnessite (30% by mass). However, subsequent X-ray diffraction (XRD) analysis of the solid did not detect the presence of any Tl3+ as Tl2O3 on the MnO4. In contrast, TlI was relatively poorly sorbed on noncrystalline ferrihydrite at pH 5.1 (1.5% by mass). Thus, Mn oxides may play a role in Tl retention by soils; whereas, contrary to previous reports, iron oxides do not effectively sorb Tl. Acid rain and addition of potassium (K+) and ammonium (NH4+) as competing ions had no long-term effect on Ag or Tl sorption. Thallium remaining in the all the batch sorption solutions, as determined by flame atomic absorption spectroscopy (FAAS) and differential pulse anodic stripping voltametry (DPASV), was completely labile, which may have important environmental consequences. FAU - Jacobson, Astrid R AU - Jacobson AR AD - Department of Crop and Soil Sciences, Cornell University, Bradfield Hall, Ithaca, NY 14853-1901, USA. arj5@cornell.edu FAU - McBride, Murray B AU - McBride MB FAU - Baveye, Philippe AU - Baveye P FAU - Steenhuis, Tammo S AU - Steenhuis TS LA - eng PT - Journal Article DEP - 20050118 PL - Netherlands TA - Sci Total Environ JT - The Science of the total environment JID - 0330500 RN - 0 (Potassium Compounds) RN - 0 (Quaternary Ammonium Compounds) RN - 0 (Soil) RN - 0 (Soil Pollutants) RN - 3M4G523W1G (Silver) RN - AD84R52XLF (Thallium) SB - IM MH - Adsorption MH - *Environmental Monitoring MH - New York MH - Potassium Compounds/chemistry MH - Quaternary Ammonium Compounds/chemistry MH - Silver/*analysis MH - Soil/*analysis/standards MH - Soil Pollutants/*analysis MH - Thallium/*analysis EDAT- 2005/05/28 09:00 MHDA- 2005/08/27 09:00 CRDT- 2005/05/28 09:00 PHST- 2004/03/22 00:00 [received] PHST- 2004/10/15 00:00 [accepted] PHST- 2005/05/28 09:00 [pubmed] PHST- 2005/08/27 09:00 [medline] PHST- 2005/05/28 09:00 [entrez] AID - S0048-9697(04)00740-5 [pii] AID - 10.1016/j.scitotenv.2004.10.027 [doi] PST - ppublish SO - Sci Total Environ. 2005 Jun 1;345(1-3):191-205. doi: 10.1016/j.scitotenv.2004.10.027. Epub 2005 Jan 18.