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TitleCharacterization, interpretation, and modelling of multikinetic apatite fission-track data using elemental data
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AuthorIssler, D R; Lane, L S; O'Sullivan, P B
SourceGeological Survey of Canada, Scientific Presentation 94, 2018, 1 sheet, https://doi.org/10.4095/311302 (Open Access)
Year2018
PublisherNatural Resources Canada
MeetingThermo 2018 - 16th International Conference on Thermochronology; Quedlinburg; DE; September 16-21, 2018
Documentserial
Lang.English
Mediaon-line; digital
RelatedThis publication is related to Issler, D R; (2018). Characterisation, interpretation and modelling of multi-kinetic apatite fission track data using elemental data, Thermo 2018: 16th International Conference on Thermochronology, conference abstracts
File formatpdf
Subjectsgeochronology; fission-track dates; apatite; modelling; thermal analyses; thermal history; temperature; provenance; methodology; apatite fission track (AFT) dating; apatite fission track annealing; kinetic analyses; apatite fission track annealing; effective chlorine; Phanerozoic; Cenozoic; Tertiary; Mesozoic; Paleozoic
Illustrationsplots; frequency distribution diagrams; time series
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Location
 
Natural Resources Canada Library - Ottawa (Earth Sciences)
 
ProgramMackenzie Corridor, Shield to Selwyn, GEM2: Geo-mapping for Energy and Minerals
Released2018 12 24
Summary(Plain Language Summary, not published)
Apatite fission track (AFT) thermochronology can be used for reconstructing the thermal history of rock samples at temperatures below 200°C. This comprehensive report contains supplementary detailed data and model results that support a manuscript for external journal publication. The journal manuscript presents a new multi-kinetic AFT interpretation and modelling method that is used to analyse the thermal history of the Richardson Mountains in northern Yukon.
GEOSCAN ID311302