about
Increased bioavailability of mercury in the lagoons of Lomb, Togo: the possible role of dredgingLinking sedimentary sulfur and iron biogeochemistry to growth patterns of a cold-water coral mound in the Porcupine Basin, S.W. Ireland (IODP Expedition 307).Impacts of coal ash on methylmercury production and the methylating microbial community in anaerobic sediment slurries.Natural stressors in uncontaminated sediments of shallow freshwaters: the prevalence of sulfide, ammonia, and reduced iron.Activity of zero-valent sulfur in sulfidic natural waters.Reduced inorganic sulfur in surface sediment and its impact on benthic environments in offshore areas of NE China.Macroinvertebrate responses to nickel in multisystem exposures.The use of the core-shell structure of zero-valent iron nanoparticles (NZVI) for long-term removal of sulphide in sludge during anaerobic digestion.Speciation of mercury in the strongly polluted sediments of the Deûle River (France).Spatial variation of acid-volatile sulfide and simultaneously extracted metals in Egyptian Mediterranean Sea lagoon sediments.Patterns of metal distribution in hypersaline microbialites during early diagenesis: Implications for the fossil record.Aqueous Fe2S2 cluster: structure, magnetic coupling, and hydration behaviour from Hubbard U density functional theory.Evaluating the Effects of Metals on Microorganisms in Flooded Paddy Soils Using the SEM/AVS-Based Approach and Measurements of Exchangeable Metal Concentrations.Iron and sulfur geochemistry in semi-arid mangrove soils (Ceará, Brazil) in relation to seasonal changes and shrimp farming effluents.Potential bioavailability and chemical forms of Co and Ni in the biogas process-An evaluation based on sequential and acid volatile sulfide extractionsChemical Speciation of Mercury in Soil and SedimentFeS-Induced Radical Formation and Its Effect on Plasmid DNAManganese and iron reduction dominate organic carbon oxidation in surface sediments of the deep Ulleung Basin, East SeaResearch and Monitoring on Conservation State and Preservation Conditions in Unsaturated Archaeological Deposits of a Medieval Farm Mound in Troms and a Late Stone Age Midden in Finnmark, Northern NorwayIron and Trace Metals in Microbial Mats and Underlying Sediments: Results From Guerrero Negro Saltern, Baja California Sur, MexicoResponse to Comment on "Abiotic Pyrite Formation Produces a Large Fe Isotope Fractionation"The In Situ Preservation in the Unsaturated Zone: Results from Environmental Investigations at the ‘Schultz Gate’ Case Study in the Medieval Town of Trondheim, NorwayAn Assessment of the Status and Condition of Archaeological Remains PreservedIn Situin the Medieval Town of Trondheim Based on Archeochemical Investigations Conducted During the Period 2007–2010Research on Conservation State and Preservation Conditions in Unsaturated Archaeological Deposits in OsloFe Isotopic Compositions of Modern Seafloor Hydrothermal Systems and Their Influence FactorsThe mineralogy of suspended matter, fresh and Cenozoic sediments in the fluvio-deltaic Rhine–Meuse–Scheldt–Ems area, the Netherlands: An overview and review
P2860
Q28729806-01F056C4-3318-452F-8665-6CBCC2FCBCA6Q35658917-5155EA53-007D-462A-ADCA-BBAF4546E628Q36158909-A73AFB93-F832-4AE6-AA27-EAC59AF46940Q38265751-9F744983-6855-4F75-95A7-9AED11FAB35EQ40329213-6720B963-C8D0-4C17-AE6C-FB3D0CB3CE83Q40630910-FDB361B1-75B2-40D9-8F36-9253AAA245ABQ40732695-0AD6F879-5555-4F57-91DC-637B3721C9F9Q43341238-BECBC479-1C29-4AF3-B2B7-05283263C163Q45731292-1F0BF63A-39C1-4195-9A02-C2638ADF7ADBQ46344172-90FC8051-F9C8-4A3F-A14A-7B4DFD5A97D2Q46448225-DEE1751C-FBC7-4985-AEEA-80155D2E4A64Q46890242-462C1091-31E2-439D-B27B-E38EBF85E19AQ48147329-B2246C4F-4CF7-47EA-8B63-4605A6969FB0Q53105606-282FB0DD-7E68-4419-96A0-DF2E43A7E03CQ57251159-11DA0E10-1AFB-4B9D-8C18-1F3820AC0F7AQ57251170-312FF8FC-BD9F-4C17-8B71-7E9B474C2BC1Q57781582-08A9EFFA-1B37-417E-B8EF-67AC2B8A40B2Q57890637-6AD7A624-DF81-42DB-8536-4A22F095887AQ58384852-84892952-E0BB-4063-A211-4B948A0767BBQ58407046-719DC93D-8CE6-499A-80F1-95FB3108A831Q58419768-378ABC5C-1367-42ED-ACD3-012AA03CA5FEQ58510171-786ADA89-C784-4983-949A-1E3816D2FDEFQ58562158-30320604-9144-4EA1-BD36-4B13A1A5B1CDQ58562379-C843263E-56EE-4C6C-BD2C-3B3D55383232Q59145721-A0B815B7-CE38-4E23-9C34-F79B879F3060Q59200832-CEAEABFF-1686-4B16-B483-9A1BBE3708B1
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Acid volatile sulfide (AVS)
@ast
Acid volatile sulfide (AVS)
@en
type
label
Acid volatile sulfide (AVS)
@ast
Acid volatile sulfide (AVS)
@en
prefLabel
Acid volatile sulfide (AVS)
@ast
Acid volatile sulfide (AVS)
@en
P1433
P1476
Acid volatile sulfide (AVS)
@en
P2093
John W. Morse
P304
P356
10.1016/J.MARCHEM.2005.08.004
P577
2005-12-01T00:00:00Z