Search results for " sequestrati."

showing 10 items of 109 documents

The effects of seasonal variability of precipitation and vegetation cycle on enhanced weathering for carbon sequestration

2022

<p>Enhanced weathering (EW) is one of the most promising technologies for sequestering atmospheric carbon. It consists on accelerating the chemical weathering fluxes naturally occurring in soils, by means of the addition of silicate minerals (i.e., <em>forsterite</em>), used as amendments, to the soil. If crushed into micrometer-sized particles, these minerals are characterized by high dissolution rates, that may be further improved under high soil water content and low pH conditions. Before actually applying EW technique at the global scale for carbon sequestration, an in-depth characterization of weathering and carbon sequestration rates, under di…

Carbon sequestrationEnhanced weathering
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Factors Influencing Soil Organic Carbon Stock Variations in Italy During the Last Three Decades

2010

Soils contain about three times the amount of carbon globally available in vegetation, and about twice the amount in the atmosphere. However, soil organic carbon (SOC) has been reduced in many areas, while an increase in atmospheric CO2 has been detected. Recent research works have shown that it is likely that past changes in land use history and land management were the main reasons for the loss of carbon rather than higher temperatures and changes of precipitation resulting from climate change. The primary scope of this work was to estimate soil organic carbon stock (CS) variations in Italy during the last three decades and to relate them to land use changes. The study was also aimed at f…

Carbon sequestrationLand useLand managementSoil scienceLand coverSoil carbonPedogenesisSettore AGR/14 - PedologiaSoil waterFactor of pedogenesiMultiple regressionEnvironmental scienceLand use changeWater contentUSDA soil taxonomy
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Effect of the conversion of mangroves into shrimp farms on carbon stock in the sediment along the southern Red Sea coast, Saudi Arabia

2019

The conservation of coastal ecosystems and specially mangroves ‘‘blue carbon’’ is receiving more attention as consequence of their recognition as high ecosystem carbon stocks and for the fact that these areas are undergoing land conversion. The aim of the present study is to evaluate the impact of land use changes due to conversion of mangroves to shrimp farms on the bulk density (SBD), organic carbon (SOC) concentration, and SOC stock in the sediments along the southern Saudi Arabian Red Sea coast. Shrimp farms and mangrove locations showed significant (P < 0.001) differences in SBD with high mean values in the sediments of shrimp farms. Shrimp farms and mangrove locations showed significa…

Carbon sequestrationSaudi ArabiaAquaculture010501 environmental sciencesCarbon sequestrationRed sea01 natural sciencesBiochemistryShrimp farming03 medical and health sciencesBlue carbonSoil0302 clinical medicineEcosystemLand use land-use change and forestry030212 general & internal medicineIndian OceanLand use changeEcosystem0105 earth and related environmental sciencesGeneral Environmental ScienceTotal organic carbonBlue carbonLand useCoastal wetlandsShrimp aquaculturesCarbonFisheryWetlandsEnvironmental scienceMangrove
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THE ROLE OF HYDROLOGICAL PROCESSES ON ENHANCED WEATHERING FOR SOIL CARBON SEQUESTRATION

2022

Carbon sequestrationSettore ICAR/02 - Costruzioni Idrauliche E Marittime E IdrologiaClimate changeHydrologyEnhanced weathering
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8-Hydroxyquinoline-2-Carboxylic Acid as Possible Molybdophore: A Multi-Technique Approach to Define Its Chemical Speciation, Coordination and Sequest…

2020

8-hydroxyquinoline-2-carboxylic acid (8-HQA) has been found in high concentrations (0.5&ndash

Carboxylic acidInorganic chemistryPotentiometric titrationlcsh:QR1-502metal complexesMolybdate010402 general chemistry01 natural sciencesBiochemistryFerric Compoundschemical speciation; metal complexes; metallophores; molybdate; natural chelants; sequestration; stability constantslcsh:MicrobiologyArticlemetal complexechemistry.chemical_compoundSettore CHIM/01 - Chimica AnaliticaMolecular BiologyVoltammetryDensity Functional TheorySettore CHIM/02 - Chimica Fisicachemistry.chemical_classificationMolybdenumAqueous solutionmetallophore010405 organic chemistryLigandWatersequestrationchemical speciationhumanities0104 chemical sciencesSolutionsmolybdatestability constantsnatural chelantschemistryHydroxyquinolinesnatural chelantTitrationCyclic voltammetrymetallophoresBiomolecules
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The Effect of Metal Cations on the Aqueous Behavior of Dopamine. Thermodynamic Investigation of the Binary and Ternary Interactions with Cd2+, Cu2+ a…

2021

The interactions of dopamine [2-(3,4-Dihydroxyphenyl)ethylamine, (Dop−)] with cadmium(II), copper(II) and uranyl(VI) were studied in NaCl(aq) at different ionic strengths (0 ≤ I/mol dm−3 ≤ 1.0) and temperatures (288.15 ≤ T/K ≤ 318.15). From the elaboration of the experimental data, it was found that the speciation models are featured by species of different stoichiometry and stability. In particular for cadmium, the formation of only MLH, ML and ML2 (M = Cd2+; L = dopamine) species was obtained. For uranyl(VI) (UO22+), the speciation scheme is influenced by the use of UO2(acetate)2 salt as a chemical; in this case, the formation of ML2, MLOH and the ternary MLAc (Ac = acetate) species in a …

Catechol; Chemical speciation; Metal complexes; Sequestration; Stability constantsMolecular Structurechemical speciation; metal complexes; catechol; sequestration; stability constantsDopaminePharmaceutical ScienceOrganic chemistrysequestrationmetal complexesSodium Chloridecatecholchemical speciationUranium CompoundsAnalytical Chemistrystability constantsQD241-441Chemistry (miscellaneous)CationsDrug DiscoveryMolecular MedicineThermodynamicsSettore CHIM/01 - Chimica AnaliticaPhysical and Theoretical ChemistryCopperCadmiumMolecules
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Speciation of chitosan with low and high molecular weight carboxylates in aqueous solution

2009

Quantitative data on the speciation of chitosan (310 kDa) with low and high molecular weight carboxylates in aqueous solution are reported. The following carboxylic ligands were considered: monocarboxylate (butyrate); dicarboxylates (malonate, succinate, azelate); tricarboxylate (1,2,3-propa- netricarboxylate); tetracarboxylate (1,2,3,4-butanetetracarboxylate); polyacrylates (2.0 and 20 kDa); polymethacrylate (5.4 kDa). The investigation was performed by potentiometry at t 1/4 25 C, at low ionic strength (without addition of supporting electrolyte) and at I 1/4 0:15 mol L 1 (NaCl). For all the systems the formation of (chitosan)LHi species was found (L 1/4 carboxylic ligand; i 1/4 1 to 4 de…

Chemical Health and SafetyAqueous solutionpolyammonium-polycarboxylate interactionsSupporting electrolyteLigandHealth Toxicology and MutagenesisInorganic chemistrychitosan; polyammonium-polycarboxylate interactions; Chemical speciation; sequestration; effect of ionic strength on sequestrationsequestrationToxicologyTricarboxylateMedicinal chemistrychitosan polyammonium polycarboxylate speciation sequestration ionic strenght.Chitosanchemistry.chemical_compoundMalonatechemistryIonic strengthChemical speciationSettore CHIM/01 - Chimica Analiticaeffect of ionic strength on sequestrationCarboxylatechitosanChemical Speciation &amp; Bioavailability
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Sequestration of organomettalic compounds by synthetic and naturally occuring polycarboxylate ligands. Binding of monomethylmercury(II) by polyacryli…

2007

The sequestering capacity of synthetic and naturally occurring polycarboxylate ligands towards mono- methylmercury(II) was evaluated by stability quantitative data on the interaction of CH3Hgþ with different molecular weight synthetic polyacrylates (2 and 20 kDa average M.wt) and alginate (70– 100 kDa) extracted from brown algae Macrocystis pyrifera. The influence of ionic medium was evaluated by measurements on the CH3Hgþ-polyacrylate systems in NaNO3 medium at different ionic strengths (0.10, 0.25, 0.50 and 0.75mol Lÿ1), and a Debye–Hu¨ ckel type equation was used for the dependence of complex formation constants on ionic strength. Measurements on the CH3Hgþ - alginate system were carried…

Chemical Health and SafetybiologyChemistryHealth Toxicology and MutagenesisComplex formationIonic bondingmonomethylmercury; sequestration by organic matter; polyacrylic and alginic acidsToxicologybiology.organism_classificationBrown algaemonomethylmercuryBinding abilityType equationpolyacrylic and alginic acidsmonomethylmercury sequestration by organic matter polyacrylic and alginic acids speciation equilibrium analysis complex species formationIonic strengthOrganic chemistrySettore CHIM/01 - Chimica Analiticasequestration by organic matterNuclear chemistryGroup 2 organometallic chemistry
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Fighting carbon loss of degraded peatlands by jump-starting ecosystem functioning with ecological restoration

2015

Degradation of ecosystems is a great concern on the maintenance of biodiversity and ecosystem services. Ecological restoration fights degradation aiming at the recovery of ecosystem functions such as carbon (C) sequestration and ecosystem structures like plant communities responsible for the C sequestration function. We selected 38 pristine, drained and restored boreal peatland sites in Finland and asked i) what is the long-term effect of drainage on the peatland surface layer C storage, ii) can restoration recover ecosystem functioning (surface layer growth) and structure (plant community composition) and iii) is the recovery of the original structure needed for the recovery of ecosystem f…

Conservation of Natural ResourcesEnvironmental EngineeringPeatecosystem structure–function relationshipta1172BiodiversityWetlandCarbon sequestrationplant community compositionEcosystem servicesturveEnvironmental ChemistryEcosystemecosystem recoveryWaste Management and DisposalRestoration ecologyta116EcosystemEnvironmental Restoration and RemediationFinlandgeographygeography.geographical_feature_categoryEcologyPlant communityhiilensidontaBiodiversityPollutioncarbon sequestrationCarbonWetlandspeatEnvironmental scienceta1181ecosystem degradationScience of the Total Environment
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Soil Carbon Budget Account for the Sustainability Improvement of a Mediterranean Vineyard Area

2020

Sustainable viticulture is suggested as an interesting strategy for achieving the objectives of global greenhouse gas (GHG) emission reduction in terms of mitigation and adaptation. However, knowledge and quantification of the contribution of sustainable vineyard management on climate change impact are needed. Although it is widely assessed by several authors that the agricultural stage has a great impact in the wine chain, very few studies have evaluated the greenhouse gas emission in this phase including the ability of soil to sequester carbon (C) or the off-farm C loss by erosion. This work aimed to provide a vineyard carbon budget (vCB) tool to quantify the impact of grape production on…

Conventional tillageAgroforestrylcsh:S04 agricultural and veterinary sciencesSoil carboncover crop010501 environmental sciencesCarbon sequestrationvineyard01 natural sciencesVineyardlcsh:AgricultureSoil managementcarbon budgetGreenhouse gasSustainability040103 agronomy & agriculture0401 agriculture forestry and fisheriesEnvironmental scienceCover cropsoil managementAgronomy and Crop Science0105 earth and related environmental sciencesAgronomy
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