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dc.contributor.authorFinch, Kristen N.
dc.contributor.authorCronn, Richard C.
dc.contributor.authorAyala Richter, Marianella C.
dc.contributor.authorBlanc-Jolivet, Céline
dc.contributor.authorCorrea Guerrero, Mónica C.
dc.contributor.authorDe Stefano Beltrán, Luis
dc.contributor.authorGarcía-Dávila, Carmen R.
dc.contributor.authorHonorio Coronado, Eurídice N.
dc.contributor.authorPalacios-Ramos, Sonia
dc.contributor.authorParedes-Villanueva, Kathelyn
dc.contributor.authorJones, F. Andrew
dc.identifier.citationFinch , K N , Cronn , R C , Ayala Richter , M C , Blanc-Jolivet , C , Correa Guerrero , M C , De Stefano Beltrán , L , García-Dávila , C R , Honorio Coronado , E N , Palacios-Ramos , S , Paredes-Villanueva , K & Jones , F A 2020 , ' Predicting the geographic origin of Spanish cedar ( Cedrela odorata L.) based on DNA variation ' , Conservation Genetics , vol. 21 , no. 4 , pp. 625-639 .
dc.identifier.otherORCID: /0000-0003-2314-590X/work/102330814
dc.descriptionFunding for this study was provided by U. S. Agency for International Development (Award 19318814Y0010-140001) to the U.S. Forest Service International Programs, the U.S.D.A. Forest Service Pacific Northwest Research Station, and the Moldenke Endowment (Botany and Plant Pathology Department, Oregon State University).en
dc.description.abstractThe legality of wood products often depends on their origin, creating a need for forensic tools that verify claims of provenance for wood products. The neotropical tree species Cedrela odorata (Spanish cedar) is economically valuable for its wood and faces threats of overexploitation. We developed a 140 SNP assay for geographic localization of C. odorata specimens. Target capture and short-read sequencing of 46 C. odorata specimens allowed us to identify 140 spatially informative SNPs that differentiate C. odorata specimens by latitude, temperature, and precipitation. We assessed the broad applicability of these SNPs on 356 specimens from eight Cedrela species, three tissue types, and a range of DNA mass inputs. Origin prediction error was evaluated with discrete and continuous spatial assignment methods focusing on C. odorata specimens. Discrete classification with random forests readily differentiated specimens originating in Central America versus South America (5.8% error), while uncertainty increased as specimens were divided into smaller regions. Continuous spatial prediction with SPASIBA showed a median prediction error of 188.7 km. Our results demonstrate that array SNPs and resulting genotypes accurately validate C. odorata geographic origin at the continental scale and show promise for country-level verification, but that finer-scale assignment likely requires denser spatial sampling. Our study underscores the important role of herbaria for developing genomic resources, and joins a growing list of studies that highlight the role of genomic tools for conservation of threatened species.
dc.relation.ispartofConservation Geneticsen
dc.subjectHerbarium genomicsen
dc.subjectIllegal loggingen
dc.subjectQH426 Geneticsen
dc.subjectQK Botanyen
dc.subjectEcology, Evolution, Behavior and Systematicsen
dc.titlePredicting the geographic origin of Spanish cedar (Cedrela odorata L.) based on DNA variationen
dc.typeJournal articleen
dc.contributor.institutionUniversity of St Andrews. School of Geography & Sustainable Developmenten
dc.description.statusPeer revieweden

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