Please use this identifier to cite or link to this item: http://hdl.handle.net/11667/156
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dc.contributorVallejo-Marin, Mario-
dc.contributor.otherERASMUS+ 2016-2017en_GB
dc.coverage.spatialUnited Kingdom, Europe, South America, North Americaen_GB
dc.coverage.temporal1950-2014en_GB
dc.creatorDa Re, Daniele-
dc.creatorOlivares, Angel P-
dc.creatorSmith, William-
dc.creatorVallejo-Marin, Mario-
dc.date.accessioned2020-06-16T11:45:13Z-
dc.date.available2020-06-16T11:45:13Z-
dc.date.created2016-
dc.identifier.urihttp://hdl.handle.net/11667/156-
dc.description.abstractThis dataset includes the data necessary to create the webmap as described in: Da Re, D., Olivares, A.P., Smith, W. and Vallejo-Marín, M., 2020. Global analysis of ecological niche conservation and niche shift in exotic populations of monkeyflowers (Mimulus guttatus, M. luteus) and their hybrid (M.× robertsii). Plant Ecology & Diversity, pp.1-14. https://www.tandfonline.com/doi/abs/10.1080/17550874.2020.1750721 For context, the abstract of the paper is reproduced here: Background Hybridisation associated with biological invasions may generate new phenotypic combinations, allowing hybrids to occupy new ecological niches. To date, few studies have assessed niche shifts associated with hybridisation in recently introduced populations while simultaneously characterising the niche of parental species in both native and introduced ranges. Aims Here, we compared (1) the ecological niche of a novel hybrid monkeyflower, M. × robertsii, with the niches of its two parental taxa (M. guttatus, M. luteus), and (2) the ecological niches of native (Americas) and introduced parental populations (Europe and New Zealand). Methods We assembled >13,000 geo-referenced occurrence records and eight environmental variables and conducted an ecological niche model analysis using maximum entropy, principal component and niche dynamics analysis. Results We found no evidence of niche shift in the hybrid, which may result in potential competition between parental and derived taxa in the introduced range. M. guttatus showed niche conservatism in introduced populations in Europe, but a niche shift in New Zealand, while M. luteus showed a niche shift in Europe. Conclusions The comparison of native and non-native populations of parental taxa, suggests that whether invasions result in niche shifts or not depends on both taxon and geographic region, highlighting the idiosyncratic nature of biological invasions.en_GB
dc.description.tableofcontentsThe webmap represents the spatial distribution of Mimulus guttatus's environmental niche in both native and invaded region. Native region: North America (NA) Invaded region: Europe (EU) and New Zealand (NZ) Native and invaded regiona were defined by the area occupied by the outermost occurences plus a buffer of 2 degree (Sobel et al., 2014). The models developed in native areas were reprojected into the invasived ones, and viceversa. The Environmental Niche Model analysis were carried out using Maxent. BIO1 = Annual Mean Temperature BIO4 = Temperature Seasonality (standard deviation *100) BIO5 = Max Temperature of Warmest Month BIO6 = Min Temperature of Coldest Month BIO12 = Annual Precipitation BIO15 = Precipitation Seasonality (Coefficient of Variation) BIO16 = Precipitation of Wettest Quarter BIO17 = Precipitation of Driest Quarteren_GB
dc.language.isoengen_GB
dc.publisherUniversity of Stirling. Faculty of Natural Sciencesen_GB
dc.relationDa Re, D; Olivares, AP; Smith, W; Vallejo-Marin, M (2020): Mimulus webmap for article "Global analysis of ecological niche conservation and niche shift in exotic populations of monkeyflowers (Mimulus guttatus, M. luteus) and their hybrid (M. × robertsii)". Version 0.1. University of Stirling. Faculty of Natural Sciences. Dataset. http://hdl.handle.net/11667/156en_GB
dc.relation.isreferencedbyDa Re, D., Olivares, A.P., Smith, W., Vallejo-Marin, M. (2020) Global analysis of ecological niche conservation and niche shift in exotic populations of monkeyflowers (Mimulus guttatus, M. luteus) and their hybrid (M. × robertsii). Plant Ecology & Diversity, 13 (2), pp. 133-146. https://doi.org/10.1080/17550874.2020.1750721 Available from: http://hdl.handle.net/1893/31350en_GB
dc.rightsRights covered by the standard CC-BY 4.0 licence: https://creativecommons.org/licenses/by/4.0/en_GB
dc.sourceGBIF . 2016. Global biodiversity information facility. [Online]. [accessed 2016 Jul 14]. http://www.gbif.org.en_GB
dc.sourceBotanical Society of Britain and Ireland (BSBI)en_GB
dc.subjectEnvironmental Niche Modelen_GB
dc.subjectMimulusen_GB
dc.subjectInvasive speciesen_GB
dc.subjectHybridsen_GB
dc.subject.classification::Ecology, biodiversity and systematicsen_GB
dc.titleMimulus webmap for article "Global analysis of ecological niche conservation and niche shift in exotic populations of monkeyflowers (Mimulus guttatus, M. luteus) and their hybrid (M. × robertsii)"en_GB
dc.title.alternativeGlobal analysis of ecological niche conservation and niche shift in exotic populations of monkeyflowers (Mimulus guttatus, M. luteus) and their hybrid (M. × robertsii)en_GB
dc.typedataseten_GB
dc.description.version0.1en_GB
dc.contributor.emailmario.vallejo@stir.ac.uken_GB
dc.contributor.affiliationUniversity of Stirling (Biological and Environmental Sciences)en_GB
dc.date.publicationyear2020-
Appears in Collections:University of Stirling Research Data

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