0000000000814963

AUTHOR

Guido L. B. Wiesenberg

showing 3 related works from this author

Pedogenesis and carbon sequestration in transformed agricultural soils of Sicily

2021

The increasing atmospheric CO2 concentration is a consequence of human activities leading to severe environmental deteriorations. Techniques are thus needed to sequester and reduce atmospheric carbon. One of the proposed techniques is the transformation or construction of new soils into which more organic carbon can be sequestered and CO2 be consumed by increased weathering. By using a chronosequence of new and transformed soils on crushed limestone (0–48 years) in a Mediterranean area (Sicily), we tried to quantify the amount of organic carbon that could be additionally sequestered and to derive the corresponding rates. A further aim was to trace chemical weathering and related CO2 consump…

Total organic carbonCarbon sequestrationMacroporeWeatheringSoil transformationSoil ScienceWeatheringCarbon sequestrationMediterraneanSoil formation; Weathering; Carbon sequestration; Soil transformation; Mediterranean; CO2Soil quality10122 Institute of GeographyPedogenesisSoil formationTotal inorganic carbonEnvironmental chemistrySoil waterEnvironmental scienceCO2910 Geography & travel1111 Soil Science
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From pedologic indications to archaeological reconstruction: deciphering land use in the Islamic period in the Baida district (north-western Sicily)

2013

Abstract The aim of this work was to detect imprints on soil properties from former Islamic land use (9th to 11th century) using a multi-method, soil-chemical approach. Four soil profiles (with buried horizons) found in the vicinities of former Islamic settlements in Sicily were analysed for phosphorus (total, organic and inorganic), nitrogen (total, NO 3 − and NH 4 + ), carbon compounds (δ 13 C, lipids, polycyclic aromatic hydrocarbons (PAH) and functional groups), physical and chemical C-fractions and the state of soil weathering. Two soil profiles contained ceramic sherds from the Islamic period. Inorganic nitrogen forms, phosphorous and the PAH content indicated strong impacts from trad…

ArcheologygeographyIrrigationgeography.geographical_feature_categoryLand useWeatheringIslamic epoch Land use Soil Properties Carbon isotopes Lipids Phosphorus NitrogenSoil carbonArchaeologylaw.invention10122 Institute of GeographySettore AGR/14 - PedologiaPeninsulalawSoil waterPeriod (geology)3302 Archeology1204 Archeology (arts and humanities)Radiocarbon dating910 Geography & travelGeologyJournal of Archaeological Science
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Soil development on sediments and evaporites of the Messinian crisis

2020

Abstract Vast areas in the Mediterranean are characterised by evaporite deposits of the Messinian crises (c. 6–5.3 Ma BP). During this period, large deposits were built up in shallow lagoon-like systems and are now found in southern Italy, Albania, Cyprus and Turkey. So far, soil formation on evaporites has been studied predominantly in subarid to arid environments. Although the formation of soils has received new significance, little is known about the evolutional trajectories on evaporites of the Mediterranean. We therefore studied soil formation in the Caltanissetta basin (Sicily) where evaporites are most widespread. The lithologies included the sequence: marine clay deposits, laminated…

010504 meteorology & atmospheric sciencesEvaporite1904 Earth-Surface ProcessesGeochemistryEarthWeathering04 agricultural and veterinary sciences01 natural sciencesDiagenesis10122 Institute of GeographyPedogenesisSurface ProcessesSettore AGR/14 - PedologiaSoil formation Evaporites Clay mineralogy Weathering Diatomite Stable isotopes CarbonatesLeaching (pedology)Marl040103 agronomy & agriculture0401 agriculture forestry and fisheriesKaoliniteAridisol910 Geography & travelGeology0105 earth and related environmental sciencesEarth-Surface Processes
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