Symbiotic ß-proteobacteria beyond legumes: Burkholderia in RubiaceaeEndophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousiekteBacterial leaf symbiosis in angiosperms: host specificity without co-speciationPhylogeny and evolution of Burmanniaceae (Dioscoreales) based on nuclear and mitochondrial dataEvolutionary history of the Afro-Madagascan Ixora species (Rubiaceae): species diversification and distribution of key morphological traits inferred from dated molecular phylogenetic treesDiversification of myco-heterotrophic angiosperms: evidence from BurmanniaceaeFloral development of Hydrocera and Impatiens reveals evolutionary trends in the most early diverged lineages of the BalsaminaceaeEvolution of fruit and seed characters in the Diervilla and Lonicera clades (Caprifoliaceae, Dipsacales)Pollen development of Rondeletia odorata (Rubiaceae).Long-term experimental warming alters community composition of ascomycetes in Alaskan moist and dry arctic tundra.Conflicting phylogenies of balsaminoid families and the polytomy in Ericales: combining data in a Bayesian framework.Rapid radiation of Impatiens (Balsaminaceae) during Pliocene and Pleistocene: result of a global climate change.Spikelet structure and development in Cyperoideae (Cyperaceae): a monopodial general model based on ontogenetic evidencePhylogeny, evolutionary trends and classification of the Spathelia-Ptaeroxylon clade: morphological and molecular insights.The multiple fuzzy origins of woodiness within Balsaminaceae using an integrated approach. Where do we draw the line?Identification, origin, and evolution of leaf nodulating symbionts of Sericanthe (Rubiaceae).Mycoheterotrophic interactions are not limited to a narrow phylogenetic range of arbuscular mycorrhizal fungi.Identification of the bacterial endosymbionts in leaf nodules of Pavetta (Rubiaceae).Phylogenetic lineages in Vanguerieae (Rubiaceae) associated with Burkholderia bacteria in sub-Saharan Africa.Variation in xylem structure from tropics to tundra: evidence from vestured pitsAluminium accumulation in leaves of 127 species in Melastomataceae, with comments on the order Myrtales.Phylogenetic relationships of the mycoheterotrophic genus Voyria and the implications for the biogeographic history of Gentianaceae.New insights in the long-debated evolutionary history of Triuridaceae (Pandanales).Intraspecific variation in Burkholderia caledonica: Europe vs. Africa and soil vs. endophytic isolates.A plastid DNA phylogeny of tribe Miliuseae: insights into relationships and character evolution in one of the most recalcitrant major clades of Annonaceae.Rate accelerations in nuclear 18S rDNA of mycoheterotrophic and parasitic angiospermsThe need to re-investigate the nature of homoplastic characters: an ontogenetic case study of the 'bracteoles' in Atripliceae (Chenopodiaceae)Summer temperature increase has distinct effects on the ectomycorrhizal fungal communities of moist tussock and dry tundra in Arctic Alaska.Symbiotic diversity, specificity and distribution of rhizobia in native legumes of the Core Cape Subregion (South Africa).Endosymbiont transmission mode in bacterial leaf nodulation as revealed by a population genetic study of Psychotria leptophylla.Woodiness within the Spermacoceae-Knoxieae alliance (Rubiaceae): retention of the basal woody condition in Rubiaceae or recent innovation?The evolution and function of vessel and pit characters with respect to cavitation resistance across 10 Prunus species.Petaloidy and petal identity MADS-box genes in the balsaminoid genera Impatiens and Marcgravia.Taxonomy and phylogenetics of Cuviera (Rubiaceae-Vanguerieae) and reinstatement of Globulostylis with the description of three new speciesImplications of a molecular phylogenetic study of the Malagasy genus Cedrelopsis and its relatives (Ptaeroxylaceae).Experimental design criteria in phylogenetics: where to add taxa.Phylogeny of the Linnaea clade: are Abelia and Zabelia closely related?Bacterial leaf symbiosis in Ardisia (Myrsinoideae, Primulaceae): molecular evidence for host specificity.A comparative ultrastructural study of pit membranes with plasmodesmata associated thickenings in four angiosperm species.Exploring genetic variation in the tomato (Solanum section Lycopersicon) clade by whole-genome sequencing.
P50
Q21090802-4D2762C6-2956-4453-89C4-AD6571115D36Q21135470-FF08C121-75C2-41A9-9D26-F87862129252Q21560929-74BC533B-1194-4121-A9E7-E0AFE7E18D6DQ22061770-63465681-E6BF-4F78-A31C-2E9D518A53BCQ28661480-B7D7CDAE-2144-4928-A9A2-469871BBE5ABQ28757534-690F13F7-92CA-4BEB-8394-A772400E6FB3Q28972342-DD6773F7-50F2-480F-90E9-49799885165EQ29026115-8D14B4FD-A0AF-4762-950C-E702CF092C9CQ30650029-52A23E44-B15F-4726-9477-1D99F9F3663DQ30880743-3DB4FAF3-C868-4641-89C7-A456B029978EQ30919244-DD78E0C6-C6C8-4FE8-AD13-992A2B75120DQ33435723-E3380148-C2DC-4653-9B0B-918305C99796Q33774114-8000503B-BD04-4C09-A5D9-E0AC6FC0F7A8Q33910811-6D888918-E172-40AD-8534-BA1A758A1CB4Q34108353-1A9F6B52-44EB-425C-830B-21CEBA99522EQ34112833-B345B94B-7BAB-47C0-9890-A8257B93C3E0Q34152919-C51621E9-C6FE-4E3A-A5C0-E5C676E06A8CQ34168799-0D5E38EF-3618-4379-B2A9-33CADDC3DF65Q34387825-D70FE682-81C3-4A87-8C97-2A5286BA3217Q34516021-7B1F2A04-C9FE-4441-8C87-E01A97B70F06Q34521503-C0C9957A-1AAD-40E7-9ACA-70B5F99B7E92Q34638598-5548B289-6471-48D2-9341-1B45C99EB1DFQ34781174-162CEA6F-B267-441B-84A2-8F1FBE513D7CQ35085552-62B6E7E4-B7EF-4DF7-9499-244E6D7F9E5AQ35136453-A844FEE3-8714-4C25-95C9-52570385C33EQ35175622-6E0EDD6A-99E7-4498-AF3F-213631D0ED8DQ35225325-1A1AFC45-294C-4293-A5E0-F37EFF1FBE1DQ35231555-78EEE046-1DB8-44F5-9FA7-313BFA45DF01Q35575934-EF1AFD9C-7F89-40C1-99E7-7E322C299F9EQ35665278-150B0BD4-8DCD-4213-9456-5EFF22841F63Q37255144-FE965BA9-2324-446D-999A-5C5F927045DBQ39438572-86EB8C0A-1C2A-4F6F-9F1E-F280F7F344EAQ42692173-2C021AC6-5211-49E6-8E47-7104E4266879Q43296473-C834D400-AFEE-45C3-9E11-4D56493CC61FQ43536853-1B855D33-3FCB-406E-A523-8EAA61137017Q43613051-50B9DC42-5E7E-4CE6-BE87-B7EFE133765DQ45374368-44D9E302-DE4B-4A01-92B7-B9BCBFD838B3Q45381592-2173FF5A-9A24-4D58-A797-F152CF310F9AQ45793875-EAF4A6CF-A132-49F1-A09B-3DC9D8C65F31Q46864797-1ED2726E-8BB7-4AA7-BD4E-23BBF206D4EE
P50
description
Belgia botaanik
@et
Belgian botanist
@en
Belgian botanist
@en-ca
Belgian botanist
@en-gb
belga botanikisto
@eo
botaniciste beljes
@lfn
botanicus uit België
@nl
botanist belg
@sq
botanist belgian
@ro
botaniste belge
@fr
name
Erik Smets
@ast
Erik Smets
@ca
Erik Smets
@da
Erik Smets
@de
Erik Smets
@en
Erik Smets
@es
Erik Smets
@fo
Erik Smets
@fr
Erik Smets
@ga
Erik Smets
@is
type
label
Erik Smets
@ast
Erik Smets
@ca
Erik Smets
@da
Erik Smets
@de
Erik Smets
@en
Erik Smets
@es
Erik Smets
@fo
Erik Smets
@fr
Erik Smets
@ga
Erik Smets
@is
altLabel
E. Smets
@nl
prefLabel
Erik Smets
@ast
Erik Smets
@ca
Erik Smets
@da
Erik Smets
@de
Erik Smets
@en
Erik Smets
@es
Erik Smets
@fo
Erik Smets
@fr
Erik Smets
@ga
Erik Smets
@is
P1006
P214
P1006
P1053
A-9875-2011
P21
P213
0000 0003 8833 7371
P214
P27
P2798
P31
P3237
P3829
P496
0000-0002-9416-983X
P569
1957-06-13T00:00:00Z