Search results for "SIMULATION APPROACH"

showing 2 items of 2 documents

Holocene land-cover reconstructions for studies on land cover-climate feedbacks

2010

The major objectives of this paper are: (1) to review the pros and cons of the scenarios of past anthropogenic land cover change (ALCC) developed during the last ten years, (2) to discuss issues related to pollen-based reconstruction of the past land-cover and introduce a new method, REVEALS (Regional Estimates of VEgetation Abundance from Large Sites), to infer long-term records of past land-cover from pollen data, (3) to present a new project (LANDCLIM: LAND cover – CLIMate interactions in NW Europe during the Holocene) currently underway, and show preliminary results of REVEALS reconstructions of the regional land-cover in the Czech Republic for five selected time windows of the Holocene…

010504 meteorology & atmospheric sciencesStratigraphyREGIONAL VEGETATION01 natural sciencesAgricultural landAbundance (ecology)ddc:551new project LANDCLIMddc:550land-cover changelcsh:TD169-171.8GLACIAL-MAXIMUMHolocenelcsh:Environmental scienceslcsh:GE1-350ClimatologyGlobal and Planetary ChangeSOUTHERN SWEDENGeologyLast Glacial MaximumVegetation[SHS.GEO]Humanities and Social Sciences/GeographyPOLLEN-REPRESENTATIONClimatologyLANDCLIMlcsh:TD172-193.5GeologiTerrestrial ecosystemCARBON-CYCLEland cover-climate feedbacks010506 paleontology117 Geography Environmental scienceslcsh:Environmental protectioneducationAnnan geovetenskap och miljövetenskapLand coverLand cover changelcsh:Environmental pollutionREVEALSSIMULATION APPROACH0105 earth and related environmental sciencesEUROPEAN CLIMATEHolocenePaleontology15. Life on landQUANTITATIVE RECONSTRUCTIONPAST VEGETATIONNW EuropeTERRESTRIAL ECOSYSTEMSEarth sciences13. Climate actionPaleoecologyOther Earth and Related Environmental Sciences
researchProduct

Characterization of spatial porosity and mineral distribution of crystalline rock using X-ray micro computed tomography, C-14-PMMA autoradiography an…

2019

The spatial porosity and mineral distribution of geological materials strongly affects transport processes in them. X-ray micro computed tomography (X-mu CT) has proven to be a powerful tool for characterizing the spatial mineral distribution of geological samples in 3-D. However, limitations in resolution prevent an accurate characterization of pore space especially for tight crystalline rock samples and 2-D methods such as C-14-polymethylmethacrylate (C-14-PMMA) autoradiography and scanning electron microscopy (SEM) are needed. The spatial porosity and mineral distributions of tight crystalline rock samples from Aspo, Sweden, and Olkiluoto, Finland, were studied here. The X-mu CT were use…

crystalline rocksScanning electron microscopeFracture (mineralogy)pore structure116 Chemical sciences010501 environmental sciences010502 geochemistry & geophysics01 natural scienceshuokoisuusmineraalittietokonetomografiaSCALEX-ray micro computed tomographyMineralcrystalline rockResolution (electron density)PollutionheterogeenisuusCharacterization (materials science)INTERFACEMICROTOMOGRAPHYPore structurePorosityScanning electron microscopyscanning electron microscopyCrystalline rock1171 GeosciencesMaterials scienceC-14-PMMA autoradiographyEnergy-dispersive X-ray spectroscopyMineralogyelektronimikroskopiaSpatial distributionFRACTURESGeochemistry and Petrologyenergy dispersive X-ray spectroscopyEnvironmental ChemistryOLKILUOTOPorosityIMPREGNATIONSIMULATION APPROACHkivi0105 earth and related environmental sciencesEnergy dispersive X-ray spectroscopyta114röntgentutkimusDIFFUSION EXPERIMENTRESOLUTIONHeterogeneityCrystalline rocksCONNECTED POROSITY
researchProduct