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Data from: Evolution of niche preference in Sphagnum peat mosses

dc.contributor.authorJohnson, Matthew G. (Duke University)
dc.contributor.authorGranath, Gustaf (Swedish University of Agricultural Sciences)
dc.contributor.authorTahvanainen, Teemu (University of Eastern Finland)
dc.contributor.authorPouliot, Remy (Uppsala University)
dc.contributor.authorStenøien, Hans K. (Norwegian University of Science and Technology)
dc.contributor.authorRochefort, Line (Duke University)
dc.contributor.authorRydin, Håkan (Uppsala University)
dc.contributor.authorShaw, A. Jonathan (Duke University)
dc.date.accessioned2020-11-19T10:48:39Z
dc.date.available2020-11-19T10:48:39Z
dc.date.issued2014-09-30
dc.identifier.urihttps://erepo.uef.fi/handle/123456789/23755
dc.description.abstractPeat mosses (Sphagnum) are ecosystem engineers— species in boreal peatlands simultaneously create and inhabit narrow habitat preferences along two microhabitat gradients: an ionic gradient and a hydrological hummock-hollow gradient. In this paper we demonstrate the connections between microhabitat preference and phylogeny in Sphagnum. Using a dataset of 39 species of Sphagnum, with an 18-locus DNA alignment and an ecological dataset encompassing three large published studies, we tested for phylogenetic signal and within-genus changes in evolutionary rate of eight niche descriptors and two multivariate niche gradients. We find little to no evidence for phylogenetic signal in most component descriptors of the ionic gradient, but interspecific variation along the hummock-hollow gradient shows considerable phylogenetic signal. We find support for a change in the rate of niche evolution within the genus— the hummock-forming subgenus Acutifolia has evolved along the multivariate hummock-hollow gradient faster than the hollow-inhabiting subgenus Cuspidata. Because peat mosses themselves create some of the ecological gradients constituting their own habitats, the classic microtopography of Sphagnum-dominated peatlands is maintained by evolutionary constraints and the biological properties of related Sphagnum species. The patterns of phylogenetic signal observed here will instruct future study on the role of functional traits in peatland growth and reconstruction.
dc.relation.urihttps://datadryad.org/stash/share/nEaPqNHUiZToxRJK1pQtOZrYxiMUfsQWttc54uD1Sy4
dc.rightshttps://creativecommons.org/publicdomain/zero/1.0/
dc.subjectSphagnum balticum
dc.subjectSphagnum subfulvum
dc.subjectSphagnum tenellum
dc.subjectbryophyte
dc.subjectSphagnum capillifolium
dc.subjectSphagnum wulfianum
dc.subjectSphagnum angermanicum
dc.subjectSphagnum obtusum
dc.subjectSphagnum teres
dc.subjectSphagnum aongstroemii
dc.subjectSphagnum pulchrum
dc.subjectSphagnum russowii
dc.subjectSphagnum
dc.subjectSphagnum flavicomans
dc.subjectSphagnum squarrosum
dc.subjectSphagnum lindbergii
dc.subjectSphagnum warnstorfii
dc.subjectSphagnum jensenii
dc.subjectSphagnum riparium
dc.subjectSphagnum rubellum
dc.subjectpeatland ecology
dc.subjectSphagnum girgensohnii
dc.subjectSphagnum compactum
dc.subjectSphagnum affine
dc.subjectSphagnum flexuosum
dc.subjectSphagnum subsecundum
dc.subjectSphagnum magellanicum
dc.subjectSphagnum pacificum
dc.subjectSphagnum fuscum
dc.subjectSphagnum cuspidatum
dc.subjectSphagnum majus
dc.subjectSphagnum fallax
dc.subjectSphagnum annulatum
dc.subjectSphagnum austinii
dc.subjectSphagnum centrale
dc.subjectSphagnum fimbriatum
dc.subjectSphagnum contortum
dc.subjectSphagnum platyphyllum
dc.subjectSphagnum lenense
dc.subjectphylogenetic signal
dc.titleData from: Evolution of niche preference in Sphagnum peat mosses
dc.relation.doidoi:10.5061/dryad.0p36h
dc.description.datasetversion1


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