History of atmospheric lead deposition since 12,370 (14)C yr BP from a peat bog, jura mountains, switzerland
about
Recent Advances in the Fabrication and Application of Screen-Printed Electrochemical (Bio)Sensors Based on Carbon Materials for Biomedical, Agri-Food and Environmental AnalysesNew insight into the effects of lead modulation on antioxidant defense mechanism and trace element concentration in rat boneEmissions from pre-Hispanic metallurgy in the South American atmosphereGlobal analysis of river systems: from Earth system controls to Anthropocene syndromesNew isotopic evidence for chronic lead contamination in the San Francisco Bay estuary system: implications for the persistence of past industrial lead emissions in the biosphere.Atmospheric deposition of silver and thallium since 12 370 14C years BP recorded by a Swiss peat bog profile, and comparison with lead and cadmium.A 300 year history of lead contamination in northern French Alps reconstructed from distant lake sediment records.Suggested protocol for collecting, handling and preparing peat cores and peat samples for physical, chemical, mineralogical and isotopic analyses.Using Carbon, Oxygen, Strontium, and Lead Isotopes in Modern Human Teeth for Forensic Investigations: A Critical Overview Based on Data from Bulgaria.Natural and anthropogenic enrichments of molybdenum, thorium, and uranium in a complete peat bog profile, Jura Mountains, Switzerland.Vertical Distribution of Lead and Mercury in the Wetland Argialbolls of the Sanjiang Plain in Northeastern China.Pb pollution from leaded gasoline in South America in the context of a 2000-year metallurgical historyMineral surfaces and bioavailability of heavy metals: a molecular-scale perspectiveHighly anomalous accumulation rates of C and N recorded by a relic, free-floating peatland in Central Italy.Early metal pollution in southwestern Europe: the former littoral lagoon of El Almarjal (Cartagena mining district, S.E. Spain).A sedimentary archive more than 8000 years old.Anthropogenic- and natural sources of dust in peatland during the Anthropocene.Contaminated lead environments of man: reviewing the lead isotopic evidence in sediments, peat, and soils for the temporal and spatial patterns of atmospheric lead pollution in Sweden.Pollution and Oral Bioaccessibility of Pb in Soils of Villages and Cities with a Long Habitation History.Variations of lead isotopes and airborne particulate concentrations from the Kozani basin, West Macedonia, Greece.Remanence of lead pollution in an urban river system: a multi-scale temporal and spatial study in the Seine River basin, France.Cryoconite as a temporary sink for anthropogenic species stored in glaciers.Size-resolved Pb distribution in the Athabasca River shows snowmelt in the bituminous sands region an insignificant source of dissolved Pb.Predominant anthropogenic sources and rates of atmospheric mercury accumulation in southern Ontario recorded by peat cores from three bogs: comparison with natural "background" values (past 8000 years).Scottish peat bog records of atmospheric vanadium deposition over the past 150 years: comparison with other records and emission trends.Identifying the sources and timing of ancient and medieval atmospheric lead pollution in England using a peat profile from Lindow bog, Manchester.Posidonia oceanica (L.) based compost as substrate for potted basil production.Distribution and ecotoxicological significance of trace element contamination in a ~150 yr record of sediments in Lake Chaohu, Eastern China.Quantitative assessment of Pb sources in isotopic mixtures using a Bayesian mixing model.Detection and calibration of anthropogenic lead emission in coastal sediments of China during the past 250 years.Geochemical characterization and biomonitoring of reclaimed soils in the Po River Delta (Northern Italy): implications for the agricultural activities.In search of Roman economic growthExceptionally high levels of lead pollution in the Balkans from the Early Bronze Age to the Industrial Revolution.Human-affected disturbances in vegetation cover and peatland development in the late Holocene recorded in shallow mountain peatlands (Central Sudetes, SW Poland)The Ecological Impact of Conquest and Colonization on a Medieval Frontier Landscape: Combined Palynological and Geochemical Analysis of Lake Sediments from Radzyń Chełminski, Northern PolandElectrothermal Atomic Absorption Spectrometry to Determine As, Cd, Cr, Cu, Hg, and Pb in Soils and Sediments: A Review and PerspectivesLichen biomonitoring near Karabash smelter town, ural mountains, Russia, one of the most polluted areas in the worldBeryllium-7 as a natural tracer for short-term downwash in peatAtmospheric Pb pollution in N Iberia during the late Iron Age/Roman times reconstructed using the high-resolution record of La Molina mire (Asturias, Spain)Establishing natural sediment reference conditions for metals and the legacy of long-range and local pollution on lakes in EuropeDoes within-bog spatial variability of mercury and lead constrain reconstructions of absolute deposition rates from single peat records? The example of Store Mosse, Sweden
P2860
Q28076783-12148951-557E-45CE-A923-2BE99C3ED9E2Q28384595-82C41E00-0676-4C2D-A911-EB275BD05E4AQ28654227-2FDCA454-2782-4450-ADCB-9C3955593B65Q30398657-ECBA4669-DB7D-4088-9A64-67067E5F3C5CQ30612488-C7C853FB-230F-4F38-93A1-89B9C65AB179Q30932761-3D87CA49-2418-4792-A73D-E3CD649DACA5Q31063287-2A0EEABA-7664-4A02-8FC9-C9F353CB48DBQ31063363-A29CAF33-34BE-415B-88DB-234FDDFBF8E9Q31165129-A8FDA2CF-1FA4-4A6D-A47B-34DBB6AEC1AEQ33203059-800A603A-93D7-4093-BC28-4B176D846189Q35495507-4E50166A-8411-4968-A53B-B27AE1159EBFQ35851125-6E439F79-2290-4A26-94C5-8867F22D6150Q36189981-E61E1728-D8F3-4009-B76D-73C299440804Q36288097-0B0DD299-5FBF-49CB-AC1C-ED934F9D80A0Q36305000-76C34503-B7ED-4709-8640-442696D07CBAQ37518757-BC793393-FEB7-4B3F-A48A-2755B1227A27Q37855673-9D873946-EB33-45E4-8878-1CC9F14642C8Q38690018-702ACC3B-6894-4589-8C71-2B2A849DBBD5Q39221509-6486CC0F-7E73-4EE7-AA39-70AE68570C14Q40150617-1DF1E817-DD50-4779-A01A-81A4132F0315Q41548458-A95EC0C6-2872-4B70-9EF8-D6803BEB27D9Q41887555-380EEA0E-A4E5-4C44-A673-4BE01FAC9781Q43307322-CD68B3EB-38D7-4DB4-854B-046BD2C4CDBEQ46710338-B7E650B4-6F69-4D24-89BB-72E04695925FQ47308246-FFC76464-653B-46A1-B9DD-336C33438B7FQ50449496-07880C63-A3F8-4222-8A68-8745EB133EC0Q51607262-CE5FD2E1-ACF1-4DD4-84CF-91E21B1E56F1Q52535364-E53A8EB2-7F8E-42E1-B309-D792C996C76DQ53091465-C4F4EF1B-4ACE-4B36-8DAD-D622CDC1CE06Q54389580-04DCBC03-7751-4E8E-9689-60BF6C580C45Q55079685-61359B27-D779-4098-A604-EBC9A2DF3B45Q55407680-F77B886C-1B0E-412F-9D6B-70715779C6E2Q56066241-C89CB70C-2416-44AA-BD00-9F7344AD2B6BQ56086816-C0B03CB3-9369-4D8E-B01B-3F5E74407D87Q56991184-9C5355F0-CBA7-4852-AE5A-A57B43DA4EBEQ57108751-A37668FB-EFD5-4EA5-BAAC-A3111796D650Q57250277-009679BA-C4FE-47AC-BACE-CD2CDDD1BBDAQ57250283-BE373058-D90A-4C4F-9B91-999567F0241EQ57250295-75D1B2D4-5234-446C-90CB-85EA241D6AD8Q57250326-454C27A8-FE7E-41EA-9EFE-894AE17A8D63
P2860
History of atmospheric lead deposition since 12,370 (14)C yr BP from a peat bog, jura mountains, switzerland
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年学术文章
@wuu
1998年学术文章
@zh
1998年学术文章
@zh-cn
1998年学术文章
@zh-hans
1998年学术文章
@zh-my
1998年学术文章
@zh-sg
1998年學術文章
@yue
1998年學術文章
@zh-hant
name
History of atmospheric lead de ...... g, jura mountains, switzerland
@en
History of atmospheric lead de ...... g, jura mountains, switzerland
@nl
type
label
History of atmospheric lead de ...... g, jura mountains, switzerland
@en
History of atmospheric lead de ...... g, jura mountains, switzerland
@nl
prefLabel
History of atmospheric lead de ...... g, jura mountains, switzerland
@en
History of atmospheric lead de ...... g, jura mountains, switzerland
@nl
P2093
P1433
P1476
History of atmospheric lead de ...... g, jura mountains, switzerland
@en
P2093
Appleby PG
Cheburkin AK
Kramers JD
Van Der Knaap WO
P304
P356
10.1126/SCIENCE.281.5383.1635
P407
P577
1998-09-01T00:00:00Z