Publikationer
-
Selaginella in Cretaceous amber from Myanmar.
(2022). Willdenowia, . vol. 52, ss. 179-245 DOI -
Selaginella was hyperdiverse already in the Cretaceous.
(2020). New Phytologist, vol. 228, ss. 1176-1182 DOI -
One thousand plant transcriptomes and the phylogenomics of green plants.
(2019). Nature, vol. 574, ss. 679-+ DOI -
Phylogeny of the Neotropical legume genera Zygia and Marmaroxylon and close relatives.
(2019). Taxon, . vol. 68, ss. 661-672 DOI -
(2594) Proposal to conserve Selaginella nom. cons. against the additional name Didiclis (Selaginellaceae).
(2018). Taxon, vol. 67, ss. 442-442 DOI -
A community-derived classification for extant lycophytes and ferns.
(2017). Journal of Systematics and Evolution, vol. 4, ss. 563-603 -
A community-derived classification for extant lycophytes and ferns.
(2016). Journal of Systematics and Evolution, vol. 54, ss. 563-603 DOI -
Systematik – en nyckel till att förstå biologisk mångfald.
(2016). Biodiverse, ss. 6-7 -
The first large-scale historical biogeographical study of spikemosses reveals surprising patterns.
(2016). I -
Spikemoss patterns: Systematics and historical biogeography of Selaginellaceae.
Ladda ner fulltext -
Historical biogeography of the heterosporous Selaginellaceae: A tale of pre-Pangean diversifications, Gondwanan vicariance, and Cenozoic long-distance dispersals.
-
A subgeneric classification of Selaginella (Selaginellaceae).
(2016). American Journal of Botany, vol. 103, ss. 2160-2169 DOI -
Phylogeny of Selaginellaceae: There is value in morphology after all!.
(2016). American Journal of Botany, vol. 103, ss. 2136-2159 DOI -
Selaginella pectinata resurrected: The correct name for an unusual endemic spikemoss from Madagascar.
(2016). American Fern Journal, vol. 106, ss. 131-134 DOI -
Origins of the Endemic Scaly Tree Ferns on the Galapagos and Cocos Islands.
(2015). International journal of plant sciences, vol. 176, ss. 869-879 DOI -
The evolutionary history of ferns inferred from 25 low-copy nuclear genes.
(2015). American Journal of Botany, vol. 102, ss. 1089-1107 DOI -
There seems to be some morphology there after all!: Interpreting morphology in Selaginella in the context of phylogeny.
(2015). I -
Aktiva studenter under laborationer i biologi: Att gå ifrån "kokbokslaborationerna".
(2014). I Geir Gunnlaugsson (red.) I stort och smått, . ss. 7-29 -
Selaginellaceae and its historical biogeography: How can the disjunct distributions seen today be explained?.
(2014). I -
Horizontal transfer of an adaptive chimeric photoreceptor from bryophytes to ferns.
(2014). Proceedings of the National Academy of Sciences of the United States of America, vol. 111, ss. 6672-6677 DOI -
Molecular phylogenetic relationships of Cibotium and origin of the Hawaiian endemics.
(2013). American Fern Journal, vol. 103, ss. 141-152 DOI -
Global biogeography of scaly tree ferns (Cyatheaceae): evidence for Gondwanan vicariance and limited transoceanic dispersal.
(2014). Journal of Biogeography, . vol. 41, ss. 402-413 DOI -
"Var hör hällebräken, ekbräken och svartbräknar hemma? - Äntligen en fylogeni över Eupolypods II".
(2010). I -
Omfattande hybridisering inom ormbunkssläktet Hällebräken (Woodsia).
(2012). I -
Extensive polyploid hybridization within the fern genus Woodsia.
(2013). I -
Transcriptome-Mining for Single-Copy Nuclear Markers in Ferns.
(2013). PLOS ONE, vol. 8, ss. e76957- DOI -
På jakt efter mosslumrarnas historia.
(2013). Svensk Botanisk Tidskrift, vol. 107, ss. 95-99 -
Did terrestrial diversification of amoebas (Amoebozoa) occur in synchrony with land plants?.
(2013). PLOS ONE, vol. 8, ss. e74374- DOI -
What have the spikemosses been up to during the last 350 million years?.
(2013). I -
What can a new large-scale phylogeny of Selaginellaceae tell us?.
(2012). I -
Overcoming Deep Roots, Fast Rates, and Short Internodes to Resolve the Ancient Rapid Radiation of Eupolypod II Ferns.
(2012). Systematic Biology, vol. 61, ss. 490-509 DOI -
The root of the dictyostelid tree.
(2011). I -
Biogeography lacks some spores. Spikemosses don't: Phylogeny, historical biogeography and phylogeography of Selaginella.
(2011). I -
Megaspore morphology in the Selaginellaceae in a phylogenetic context: A study of the megaspore surface and wall structure using scanning electron microscopy.
(2006). Grana, vol. 45, ss. 22-60 -
On the Phylogenetic Position of Cystodium: It’s Not a Tree Fern – It’s a Polypod!.
(2006). American Fern Journal, vol. 96, ss. 45-53 -
The phylogenetic history of Selaginellaceae based on DNA sequences from the plastid and nucleus: extreme substitution rates and rate heterogeneity.
(2004). Molecular Phylogenetics and Evolution, vol. 31, ss. 852-864 -
PHYLOGENETIC RELATIONSHIPS IN SELAGINELLACEAE BASED ON RBCL SEQUENCES.
(2002). American Journal of Botany, vol. 89, ss. 506-517 -
On the typification of Selaginella novae-hollandiae (Selaginellaceae).
(2001). Taxon, vol. 50, ss. 841-844 DOI -
Phylogeny of selaginellaceae: Evaluation of generic subgeneric relationships based on rbcL gene sequences.
(1999). International journal of plant sciences, vol. 160, ss. 585-594 DOI -
A molecular phylogeny of scaly tree ferns (Cyatheaceae).
(2007). American Journal of Botany, vol. 94, ss. 873-886 DOI -
Plastid atpA data provide improved support for deep relationships among ferns.
(2006). Taxon, vol. 55, ss. 897-906 -
A classification for extant ferns.
(2006). Taxon, vol. 55, ss. 705-731 -
Tree ferns: Monophyletic groups and their relationships as revealed by four protein-coding plastid loci.
(2006). Molecular Phylogenetics and Evolution, vol. 39, ss. 830-845 DOI -
Abrupt deceleration of molecular evolution linked to the origin of arborescence in ferns.
(2010). Evolution, vol. 64, ss. 2786-2792 DOI -
Evolutionary relationships in Ephedra (Gnetales), with implications for seed plant phylogeny.
(2009). International journal of plant sciences, vol. 170, ss. 1031-1043 DOI