0000000000589372

AUTHOR

Cristina Abbate

showing 4 related works from this author

Inter-laboratory evaluation of the ISO standard 11063 "Soil quality -- Method to directly extract DNA from soil samples"

2011

International audience; Extracting DNA directly from micro-organisms living in soil is a crucial step for the molecular analysis of soil microbial communities. However, the use of a plethora of different soil DNA extraction protocols, each with its own bias, makes accurate data comparison difficult. To overcome this problem, a method for soil DNA extraction was proposed to the International Organization for Standardization (ISO) in 2006. This method was evaluated by 13 independent European laboratories actively participating in national and international ring tests. The reproducibility of the standardized method for molecular analyses was evaluated by comparing the amount of DNA extracted, …

[ SDE ] Environmental SciencesDNA fingerprint[SDE] Environmental SciencesqPCR[SDE]Environmental SciencesInter-laboratory assaySoil DNA extractionStandardization
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Adsorption of dissolved organic matter on clay minerals as assessed by infra-red, CPMAS 13C NMR spectroscopy and low field T1 NMR relaxometry

2011

Abstract Dissolved organic matter (DOM) is a very important environmental constituent due to its role in controlling factors for soil formation, mineral weathering and pollutant transport in the environment. Prediction of DOM physical–chemical properties is achieved by studying its chemical structure and spatial conformation. In the present study, dissolved organic matter extracted from compost obtained from the organic fraction of urban wastes (DOM-P) has been analysed by FT-IR, CPMAS 13C NMR spectroscopy and 1H T1 NMR relaxometry with fast field cycling (FFC) setup. While the first two spectroscopic techniques revealed the chemical changes of dissolved organic matter after adsorption eith…

T1 NMR relaxometryRelaxometryMineralCompostDOM; CPMAS 13C NMR; T1 NMR relaxometrySettore AGR/13 - Chimica Agrariaengineering.materialFT-IRchemistry.chemical_compoundMontmorilloniteAdsorptionchemistryGeochemistry and PetrologyEnvironmental chemistryDissolved organic carbonCPMAS 13C NMRengineeringOrganic chemistryKaoliniteDissolved organic matterRelaxometryClay mineralsDOMOrganic Geochemistry
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Inter-laboratory evaluation of the ISO standard 11063 "Soil quality - Method to directly extract DNA from soil samples"

2011

International audience; Extracting DNA directly from micro-organisms living in soil is a crucial step for the molecular analysis of soil microbial communities. However, the use of a plethora of different soil DNA extraction protocols, each with its own bias, makes accurate data comparison difficult. To overcome this problem, a method for soil DNA extraction was proposed to the International Organization for Standardization (ISO) in 2006. This method was evaluated by 13 independent European laboratories actively participating in national and international ring tests. The reproducibility of the standardized method for molecular analyses was evaluated by comparing the amount of DNA extracted, …

Microbiology (medical)DNA BacterialMicrobiological TechniquesStandardizationSoil testRibosomal Intergenic Spacer analysis[ SDV.TOX.ECO ] Life Sciences [q-bio]/Toxicology/EcotoxicologyBiologyMicrobiologyDNA Ribosomal[ SDE ] Environmental Sciences03 medical and health sciencesRNA Ribosomal 16SMolecular BiologySoil Microbiology030304 developmental biology2. Zero hungerProtocol (science)0303 health sciences030306 microbiologyEcologybusiness.industryDNA FINGERPRINTReproducibility of ResultsDNAInter-laboratory assay15. Life on landSoil DNA extraction; Standardization; Inter-laboratory assaySoil qualityDNA FingerprintingStandardizationBiotechnologyBacterial Typing TechniquesQPCRDNA profilingSoil water[SDE]Environmental Sciencessoil DNA extraction ; standardization ; inter-laboratory assay ; DNA fingerprint ; qPCR[SDV.TOX.ECO]Life Sciences [q-bio]/Toxicology/EcotoxicologybusinessSoil DNA extractionSoil microbiology
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Studies on the response of soil microflora to the application of the fungicide fenhexamid

2007

The aim of this work was to evaluate the impact of the fungicide fenhexamid (FEX) on the genetic structure of soil bacterial communities using the Ribosomal Intergenic Spacer Analysis molecular technique. Using real-time PCR, we also tried to quantify the pcaH sequences which encode the dioxygenases involved in the degradation process of a variety of aromatic compounds. Soil taken from a vineyard in the Etna Park (Sicily, Italy) was treated with FEX in the ratio 2 µg g-1 soil every 7 days, the process being repeated four times. The analyses were carried out before treatment and 7 days after each further application of FEX. At the same time, the degradation rate was evaluated. The use of FEX…

Soil microfloraEcology[SDV]Life Sciences [q-bio]Health Toxicology and MutagenesisRibosomal Intergenic Spacer analysisRIBOSOMAL INTERGENIC SPACER ANALYSISFenhexamidPublic Health Environmental and Occupational HealthSoil ScienceMolecular TechniqueBiologyPollutionVineyardAnalytical ChemistryFungicideHorticultureRISA[SDE]Environmental SciencesReal-time PCR RISAEnvironmental ChemistryREAL-TIME PCRDegradation processWaste Management and DisposalFenhexamid; Real-time PCR RISA; Soil microfloraWater Science and TechnologyInternational Journal of Environmental Analytical Chemistry
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