Taxon

Papers
(The median citation count of Taxon is 0. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-11-01 to 2024-11-01.)
ArticleCitations
World Flora Online: Placing taxonomists at the heart of a definitive and comprehensive global resource on the world's plants75
Brazilian Flora 2020: Leveraging the power of a collaborative scientific network73
Revised classification of Acanthaceae and worldwide dichotomous keys42
A new subfamily classification of the Citrus family (Rutaceae) based on six nuclear and plastid markers40
Rhodes‐” must fall: Some of the consequences of colonialism for botany and plant nomenclature27
Phylogenetic relationships and sectional delineation within Gentiana (Gentianaceae)25
If “Rhodes‐” must fall, who shall fall next?23
Molecular phylogeny of the Mammilloid clade (Cactaceae) resolves the monophyly of Mammillaria23
(119–122) Proposals to amend Articles 51 and 56 and Division III, to allow the rejection of culturally offensive and inappropriate names22
Molecular phylogenetics of the Dissochaeta alliance (Melastomataceae): Redefining tribe Dissochaeteae20
High genetic and morphological diversification of the Euphorbia verrucosa alliance (Euphorbiaceae) in the Balkan and Iberian peninsulas18
Molecular phylogenetics of Phyllanthus sensu lato (Phyllanthaceae): Towards coherent monophyletic taxa17
(126) Proposal to add a new Article 61.6 to permanently and retroactively eliminate epithets with the root caf[e]r‐ or caff[e]r‐ from the nomenclature of algae, fungi and plants15
Repeated parallel losses of inflexed stamens in Moraceae: Phylogenomics and generic revision of the tribe Moreae and the reinstatement of the tribe Olmedieae (Moraceae)15
Phylogenomics of the tropical plant family Ochnaceae using targeted enrichment of nuclear genes and 250+ taxa15
A revised subfamilial classification of Polypodiaceae based on plastome, nuclear ribosomal, and morphological evidence14
A global phylogeny of Lycopodiaceae (Lycopodiales; lycophytes) with the description of a new genus, Brownseya, from Oceania13
Heyne, Roth, Roemer and Schultes, and the plant names published inNovae plantarum species praesertim Indiae orientalis12
Indigenous Species Names in Algae, Fungi and Plants: A Comment on Gillman & Wright (2020)12
Notes on the nomenclature and taxonomy of Salix fragilis (Salicaceae)12
Different chromosome numbers but slight morphological differentiation and genetic admixture among populations of the Pulmonaria hirta complex (Boraginaceae)11
Sinosasa (Poaceae: Bambusoideae), a new genus from China11
Phylogeny, biogeography and systematics of Dysphanieae (Amaranthaceae)11
Phylogeny of Marsdenieae (Apocynaceae, Asclepiadoideae) based on chloroplast and nuclear loci, with a conspectus of the genera11
Integrative taxonomy of the Selaginella helvetica group based on morphological, molecular and ecological data11
Dealing with inappropriate honorifics in a structured and defensible way is possible11
Montsechia vidalii from the Barremian of Spain, the earliest known submerged aquatic angiosperm, and its systematic relationship to Ceratophyllum11
Biogeography and habitat evolution of Saxifragaceae, with a revision of generic limits and a new tribal system11
Typification and nomenclature of the names in the Santolina chamaecyparissus species complex (Asteraceae)11
One more piece to the puzzle: Diadorimia, a new monotypic genus in the Spermacoceae (Rubiaceae), endemic to the campo rupestre of Minas Gerais, southeastern Brazil10
Taxonomists have an opportunity to rid botanical nomenclature of inappropriate honorifics in a structured and defensible way10
Node ages, relationships, and phylogenomic incongruence in an ancient gymnosperm lineage – Phylogeny of Ephedra revisited10
Phylogenomics and a revised tribal classification of subfamily Dipterocarpoideae (Dipterocarpaceae)10
(2786) Proposal to change the conserved type of Ipomoea, nom. cons. (Convolvulaceae)10
Morphological trait evolution inSolanum(Solanaceae): Evolutionary lability of key taxonomic characters10
Species delimitation with distinct methods based on molecular data to elucidate species boundaries in the Cycas taiwaniana complex (Cycadaceae)9
A pragmatic and prudent consensus on the resurrection of extinct plant species using herbarium specimens9
Replacing current nomenclature with pre‐existing indigenous names in algae, fungi and plants9
Phylogenomics of the Caribbean melocacti: Cryptic species and multiple invasions9
Phylogeny of Rubus (Rosaceae): Integrating molecular and morphological evidence into an infrageneric revision9
Report of the Nomenclature Committee for Vascular Plants: 738
Lectotypification of the Linnaean name Dianthus virgineus (Caryophyllaceae) and its taxonomic consequences8
(091–092) Proposals to amend Recommendation 7A on deposition of type material in institutions of countries of origin, and to add a new Recommendation 51A regarding avoiding poten8
Biogeography and systematics ofCarexsubgenusUncinia(Cyperaceae): A unique radiation for the genusCarexin the Southern Hemisphere8
The challenges of classifying big genera such asIpomoea8
Evolution of Impatiens (Balsaminaceae) in the Albertine Rift – The endemic Impatiens purpureoviolacea complex consists of ten species8
DNA sequences as types: A discussion paper from the Special‐purpose Committee established at the XIX International Botanical Congress in Shenzhen, China8
Phylogeny, character evolution and taxonomic revision of Causonis, a segregate genus from Cayratia (Vitaceae)8
A 638‐gene phylogeny supports the recognition of twice as many species in the Malagasy endemic genusCapurodendron(Sapotaceae)7
Reassessment of generic boundaries in Neotropical Chrysophylloideae (Sapotaceae): Eleven reinstated genera and narrowed circumscriptions ofChrysophyllumandPouteria7
DNA barcoding of the German green supralittoral zone indicates the distribution and phenotypic plasticity of Blidingia species and reveals Blidingia cornuta sp. nov.7
Molecular‐based phylogenetic placement and revision of Micrasepalum (Spermacoceae‐Rubiaceae)7
IAPT chromosome data 337
Phylogenetic inferences reveal deep polyphyly of Aongstroemiaceae and Dicranellaceae within the haplolepideous mosses (Dicranidae, Bryophyta)7
Paganuccia icatuensis (Rubiaceae), a new genus and species from Bahia, Brazil, with a key to all the genera of the tribe Spermacoceae in the Americas7
Character evolution and biogeography of Casearia (Salicaceae): Evidence for the South American origin of a pantropical genus and for multiple migrations to the Caribbean islands7
Defending Art. 51 of theCode: Comments on Smith & al. (2022)7
The Wettstein tesseract: A tool for conceptualising species‐rank decisions and illustrating speciation trajectories6
Molecular phylogeny of tribe Myoporeae (Scrophulariaceae) using nuclear ribosomal DNA: Generic relationships and evidence for major clades6
Phylogenomic analysis confirms polyphyly of Leptospermum and delineates five major clades that warrant generic recognition6
Back to the starting point: Revised typifications of Linnaean names based on Plumier's Nova plantarum Americanarum genera6
Biogeography of succulent spurges from Brazilian Seasonally Dry Tropical Forest (SDTF)6
Phenotypic correlates of genetic divergence suggest at least three species in the complex of Dianthus virgineus (Caryophyllaceae)6
Intergeneric relationships within the tribe Alsineae (Caryophyllaceae) as inferred from nrDNA ITS and cpDNArps16 sequences: A step toward a phylogenetically based generic 6
Fixing stray traditions in gingers: The identity and nomenclatural history of Zingiber neesanum and other entwined names6
Uncovering the hidden diversity of the rosette‐forming Selaginella tamariscina group based on morphological and molecular data6
Escaping the voluntary constraints of “tyre‐track” taxonomy6
One species with a disjunct distribution or two with convergent evolution? Taxonomy of two South American garlics6
Phylogeny based generic reclassification of Muscari sensu lato (Asparagaceae) using plastid and genomic DNA6
A revised delimitation of the species‐rich genus Pilea (Urticaceae) supports the resurrection of Achudemia and a new infrageneric classification6
Indo‐AsianEriolaenaexpanded to include two Malagasy genera, and other generic realignments based on molecular phylogenetics of Dombeyoideae (Malvaceae)6
(329–338) Proposals to permit DNA sequences to serve as types of names in prescribed circumstances5
Taxonomy and nomenclature ofSphenopterisand allied fossil‐genera of Carboniferous seed‐plant fronds5
Phylogenetic analyses and modelling distributions guide conservation of a critically endangered liana species, Eleutharrhena macrocarpa (Menispermaceae)5
Attempts to introduce a system of national, racial and/or ethnocultural discrimination in codes of biological nomenclature should not be tolerated: Comments on some recent proposals (Wright & Gill5
Typification of Sphaeria sinensis to precisely fix the application of the name of the economically important Chinese caterpillar fungus, Ophiocordyceps sinensis5
Integrative species delimitation of Selaginella labordei and closely related species: Uncovering the mysterious identity of S. jugorum and S. tibetica, and description of a new sp5
An integrated morpho‐molecular study of Salicornia (Amaranthaceae‐Chenopodiaceae) in Iran proves Irano‐Turanian region the major center of diversity of annual glasswort sp5
What is Potentilla? A phylogeny‐based taxonomy for Potentillinae (Rosaceae)5
Eriocaulaceae: A new classification system based on morphological evolution and molecular evidence5
Phylogenomics and generic limits of Dypsidinae (Arecaceae), the largest palm radiation in Madagascar5
Tragopogon dubius: Multiple introductions to North America and the formation of the New World tetraploids5
Synopsis of Proposals on Nomenclature – Madrid 2024: A review of the proposals to amend the International Code of Nomenclature for algae, fungi, and plants submitted to the XX Intern5
Morphological and phylogenetic evidence for subtribe Cinninae and two new subtribes, Hookerochloinae and Dupontiinae (Poaceae tribe PoeaePPAMclade)5
Another piece of the puzzle, another brick in the wall: The inevitable fate of Campanula section Quinqueloculares (Campanulaceae: Campanuloideae)5
Home at last: Molecular phylogenetic analyses support subsuming Metastachydium within Phlomoides (Lamiaceae)5
Vellozo's Florae Fluminensis: A new assessment of the São Paulo part of his collecting itinerary, its vegetation, and species list5
Phylogeography of the endangered orchids Cypripedium japonicum and Cypripedium formosanum in East Asia: Deep divergence at infra‐ and interspecific levels4
Phylogenomic analyses support a new infrageneric classification of Pourthiaea (Maleae, Rosaceae) using multiple inference methods and extensive taxon sampling4
(339–348) Proposals to permit DNA sequences to be used for fixing the application of names in prescribed circumstances4
Phylogeny and historical biogeography of the Panama‐hat family (Cyclanthaceae, Pandanales)4
A synopsis of Philippine Cyrtandra (Gesneriaceae)4
Phylogenomics of Brosimum (Moraceae) and allied genera, including a revised subgeneric system4
Botanical history and typification in the Tillandsia ionantha complex4
(093–096) Proposals to permit nuclear DNA sequences as nomenclatural types when preservation of specimens is not feasible4
Molecular and morphological delimitation of species in Strombomonas (Euglenaceae) including a protocol for DNA isolation utilising a chelating resin4
Dipterocarps used India as a raft from Gondwana to Eurasia4
Nomenclature of the Beeswax bracket (Ganoderma pfeifferi), a European wood decay fungus with medicinal properties4
(2845) Proposal to conserve the name Nicotiana benthamiana (N. suaveolens var. cordifolia) (Solanaceae) with a conserved type4
(2820) Proposal to conserve the name Potentilla (Rosaceae: Potentilleae) with a conserved type4
A phylogeny of Emilia (Senecioneae, Asteraceae) – implications for generic and sectional circumscription4
Plant poaching in southern Africa is aided by taxonomy: Is a return to Caput bonae spei inevitable?4
Revised phylogenetic position of Nephrocytium Nägeli (Sphaeropleales, Chlorophyceae), with the description of Nephrocytiaceae fam. nov. and Nephrocytium vieirae sp. nov.4
Photosynthesis metabolism in the Compositae: Current knowledge and future directions4
Khaya revisited: Genetic markers and morphological analysis reveal six species in the widespread taxon K. anthotheca4
Target‐enrichment sequencing reveals for the first time a well‐resolved phylogeny of the core Bromelioideae (family Bromeliaceae)4
Integrative species delimitation of the Selaginella sanguinolenta (Selaginellaceae) group with description of a new species, S. baodongii4
Confirmed polyphyly, generic recircumscription and typification of Dysoxylum (Meliaceae), with revised disposition of currently accepted species4
Back to the future: A refined single‐user photostation for massively scaling herbarium digitization4
(258–260) Proposals to eliminate contradiction between Articles 11.7 and 11.8 and to equate non‐fossil with fossil names of dinophytes for purposes of priority4
Typification of fourteen Linnaean names in the genus Hieracium (Compositae)3
Phylogenetics of Piresia (Poaceae: Bambusoideae) reveals unexpected generic relationships within Olyreae with taxonomic and biogeographic implications3
(2874–2877) Proposals to conserve the names Typhula with a conserved type, Macrotyphula against Sclerotium, and Phyllotopsidaceae against Sclerotiaceae, and to rejec3
(177) Proposal to amend Recommendation 23A.3 with the advice not to dedicate species to persons quite unconnected with botany, mycology, phycology, or natural science in general3
Atacamallium minutiflorum (Amaryllidaceae, Allioideae), new genus and species from the coastal desert of northern Chile3
Unearthing a lectotype for Polytrichum commune Hedw. (Bryophyta, Polytrichaceae)3
Neotypification ofPandanus odorifer, the correct name forP. odoratissimus(Pandanaceae)3
Integrative taxonomy of the model liverwort Riella helicophylla (Riellaceae, Sphaerocarpales) reveals its extreme rarity and an overlooked widespread new species, R. macrocarpa3
The type and correct authorship of the name Muscari neglectum (Asparagaceae)3
(127–135) Proposals to add new Provisions and Recommendations to Division III of the International Code of Nomenclature for algae, fungi, and plants related to virtual participation 3
(2892) Proposal to conserve the name Dennstaedtia (Dennstaedtiaceae) with a conserved type3
Testing species relationships and delimitation in the Amazonian hyperdominantAstrocaryumsectionHuicungo(Arecaceae) using chloroplast data from genome skimming3
Phylogeny of Anisopappus with species circumscriptions revisited (Asteraceae: Athroismeae)3
Global phylogeny and taxonomic reassessment of the lichen genusDendriscosticta(Ascomycota: Peltigerales)3
Tragopogon pratensis: Multiple introductions to North America, circumscription, and the formation of the allotetraploid T. miscellus3
(2803) Proposal to change the conserved type of Podospora, nom. cons. (Ascomycota)3
Phylogenomic data reveal four major clades of Australian Gnaphalieae (Asteraceae)3
(2797) Proposal to reject the name Chenopodium pallidum (Chenopodiaceae / Amaranthaceae sensu APG)3
(2943) Proposal to conserve Selaginella, nom. cons., (Selaginellaceae) with a conserved type3
(2957) Proposal to conserve the name Dryopteris affinis (Lowe) Fraser‐Jenk. against D. affinis Kinahan (Pteridophyta: Dryopteridaceae)3
World Flora Online gets a New Look, a major data update, and launches the WFO plant list3
Growing a Community: The Inaugural #Blackbotanistsweek Recap and Looking Forward3
(2864) Proposal to conserve the name Microsphaera alphitoides (Erysiphe alphitoides) (Ascomycota: Erysiphaceae) with a conserved type3
(2834) Proposal to conserve the name Sarcogyne (Acarosporaceae, lichenised Ascomycota) with a conserved type3
(195) Proposal to amend the Preamble by adding a “potentially sensitive content disclaimer and limitation of liability”3
A phylogeny of Cereus (Cactaceae) and the placement and description of two new species3
(2813) Proposal to conserve the name Hedyotis diffusa (Oldenlandia diffusa, Scleromitrion diffusum) (Rubiaceae) with a conserved type3
Report of the Special‐purpose Committee on DNA Sequences as Types, established at the XIX International Botanical Congress in Shenzhen, China3
One in, one out: Generic circumscription within subtribe Manilkarinae (Sapotaceae)3
Evolution of flower morphology and a natural re‐arrangement of Calyceraceae3
(221) Proposal to add a new Recommendation after Article 38, with the advice to report local/indigenous vernacular names (if available) of new taxa and to use such names, if appropriate, in scientific3
Origin of the apogamous Japanese fern Dryopteris yakusilvicola (Dryopteridaceae)3
Genotyping‐by‐sequencing resolves relationships in Polygonaceae tribe Eriogoneae3
(2782) Proposal to conserve Calanthe, nom. cons., against the additional names Phaius, Cyanorkis, and Gastorkis (Orchidaceae, Collabieae)3
A plea to DNA barcode type specimens: An example fromMicropholis(Sapotaceae)3
Phylogenetic analyses of Phaseolinae (Leguminosae) reveal a new genus endemic to limestone outcrops in Seasonally Dry Forests of Bahia, Brazil3
Cryptic species of pondweeds (Potamogetonaceae) at an intercontinental scale revealed by molecular phylogenetic analyses3
(2789) Proposal to conserve the name Pomaderris kumarahou (Rhamnaceae) with that spelling2
Report of the Nomenclature Committee for Fungi: 242
The effectiveness and limitations of digital images for taxonomic research2
Report of the Special‐purpose Committee on Virtual Participation in the Nomenclature Section2
Report of the Nomenclature Committee for Vascular Plants: 742
Lectotypification of Banisteriopsis caapi and B. quitensis (Malpighiaceae), names associated with an important ingredient of Ayahuasca2
Phylogenetic position and reinstatement ofGayella(Sapotaceae), a monotypic genus endemic to Chile with an Eocene origin in continental Australia2
Rebuttal to “(2786) Proposal to change the conserved type of Ipomoea, nom. cons. (Convolvulaceae)”2
(2831) Proposal to conserve the name Exostema against Coutarea (Rubiaceae)2
Results of the preliminary guiding vote (“mail vote”) on proposals to amend the International Code of Nomenclature for algae, fungi, and plants submitted to the XX International Bota2
Species delimitation and biogeography of Cyphostemma (Vitaceae), emphasizing diversification and ecological adaptation in Madagascar2
A new sectional classification of Lachenalia (Asparagaceae) based on a multilocus DNA phylogeny2
Phylogenetic revision of Dennstaedtioideae (Dennstaedtiaceae: Polypodiales) with description of Mucura, gen. nov.2
Critique of Proposals 258–260 to eliminate contradiction between Articles 11.7 and 11.8 and to equate non‐fossil with fossil names of dinophytes for purposes of priority, by Elbrächter & al. (20232
Corrigendum to: Evolutionary radiations of cushion plants on the Qinghai‐Tibet Plateau: Insights from molecular phylogenetic analysis of two subgenera of Arenaria and Thylacosperm2
Hiding in plain sight: Integrative analyses uncover a cryptic Salvia species in Europe2
Genetic diversity, population structure, and ancestry estimation in the Antennaria rosea (Asteraceae: Gnaphalieae) polyploid agamic complex2
(2979) Proposal to conserve the name Ranunculus isthmicus against R. schowii (Ranunculaceae)2
Report of the Nomenclature Committee for Vascular Plants: 722
(193) Proposal to democratize aspects of the governance of the International Code of Nomenclature for algae, fungi, and plants2
(2940–2941) Proposals to conserve the name Amanita fulva with a conserved type against Agaricus badius and Agaricus trilobus, and the name Amanita spadicea with a conserved2
Molecular and morphological data support the recognition of a new species of Otatea (Poaceae: Bambusoideae: Guaduinae) from Durango, Mexico2
Integrating comparative morphology and development into evolutionary research2
Comparative wood anatomy and origin of woodiness in subfamilies Secamonoideae and Asclepiadoideae (Apocynaceae)2
Revised taxonomy of the tribe Leptospermeae (Myrtaceae) based on morphological and DNA data2
(2816) Proposal to conserve the name Echinocactus williamsii Lem. ex Salm‐Dyck (Lophophora williamsii) against E. williamsianus Lem. (Cactaceae)2
Phylogeny and revised classification of New World Ruellia2
The Latin name for Assam tea revisited and the further nomenclatural significance of the three editions of Julius Bosse's Vollständiges Handbuch der Blumengärtnerei – and contemporary compendia2
Report of the Nomenclature Committee for Algae: 252
Documenting the flora of a diversity hotspot: Richard Thomas Lowe (1802–1874) and his botanical exploration of Madeira island2
Advancing Pyrus phylogeny: Deep genome skimming‐based inference coupled with paralogy analysis yields a robust phylogenetic backbone and an updated infrageneric classification of the pear genus2
Cathaya vanderburghii, a misnomer for European Neogene fossil cones2
Lihengia: A new genus of Asteraceae distinct from Dubyaea2
(2894) Proposal to conserve Dendrobium officinale, nom. cons., against the additional name D. catenatum (Orchidaceae)2
IAPT chromosome data 342
Report of the General Committee: 252
New registration system for vascular plant names2
Phylogeny and biogeography of the Cryptocaryeae (Lauraceae)2
Divergence time estimation and mapping of morphological and cytogenetical data in the southern South American geophyte genus Pterocactus (Cactaceae)2
Molecular systematics of the tribe Prismatomerideae (Rubiaceae) and its taxonomic consequences, with notes on the importance of the inflorescence morphology for species‐group recognition in Rennell2
Bahiana, a new Euphorbiaceae (Acalyphoideae) genus from seasonally dry forest in northeastern Brazil, corroborated by molecular and morphological evidence2
Report of the General Committee: 272
A global phylogeny of grammitid ferns (Polypodiaceae) and its systematic implications2
IAPT chromosome data 382
Molecular insights on the conflicting generic boundaries in the Carduncellus‐Carthamus complex (Compositae)2
(349) Proposal to amend the Preamble by adding a “Non‐Discrimination Statement”2
Report of the Nomenclature Committee for Fungi: 232
LiDAR sensors in smartphones can enrich herbarium specimens with 3D models of habitat at high precision and little cost2
(2878) Proposal to conserve the name Nephridiophaga (Chytridiomycota) with a conserved type1
(2888) Proposal to conserve the name Osmelia against Stachycrater (Samydaceae / Salicaceae s.l.)1
(306–314) Proposals to address subsequent type designations (Articles 9.14, 9.19 and Recommendation 9A.4)1
A classification of the aquatic Podostemaceae subfamily Tristichoideae, with a new genus based on ITS and matK phylogeny and morphological characters1
(2886) Proposal to conserve the name Aria against Chamaemespilus and Torminalis (Rosaceae)1
Lectotypification of the Linnaean plant name Durio zibethinus (Malvaceae), based on Rumphius's illustration1
Assessing the nomenclatural history of the sucupira‐branca trees: Friedrich Sellow's (1789–1831) collections, typification and checklist of the Neotropical legume genus Pterodon1
(2959–2960) Proposals to conserve the name Abelmoschus against Laguna, and Pavonia, nom. cons., against the additional names Malvaviscus and Malachra (Malvaceae1
In defense of the primacy of the Nomenclature Section in decision‐making in botanical nomenclature: A reply to the Rapporteurs’ comment on Proposal 193 to amend the Shenzhen Code1
Report of the General Committee: 241
(2872) Proposal to conserve the name Huea (Ascomycota: Teloschistales) with a conserved type1
Status, typification, and synonymy of some early names for South Asian and Oceanian plants proposed in Urtica or in other genera now in the Urticaceae1
(2861) Proposal to conserve the name Rubus ulmifolius against R. creticus, R. vulgaris, and R. inermis (Rosaceae)1
Phylogenetic relationships and biogeography in Hedysarum (Hedysareae, Fabaceae) with a focus on Central Asian taxa1
Piperaceae Raddianae: A taxonomic and nomenclatural study of Giuseppe Raddi's Brazilian Piperaceae1
From Megamexico to the Amazon: Phylogeny, systematics and macroevolution of Clowesia (Orchidaceae: Catasetinae)1
(2840) Proposal to conserve the name Lilium dauricum against L. pensylvanicum1
Typification of Dactylis ibizensis (Poaceae) and inference of the ploidy level of the type specimen1
(379–382) Proposals to amend the International Code of Nomenclature for algae, fungi, and plants to ensure that the names of algae and fungi are not subject to uncertainty on the applicability 1
(2819) Proposal to reject the name Callitriche plena (Plantaginaceae)1
(2887) Proposal to conserve the name Prunus maackii against P. glandulifolia (Rosaceae)1
Typification of the Linnaean name Illecebrum paronychia (Caryophyllaceae)1
A nomenclatural study of Plumeria (Apocynaceae: Plumerieae) in the Caribbean Islands1
(2925) Proposal to conserve the name Citrus reticulata (Rutaceae) with a conserved type1
Two new Dryopteris taxa originated from distantly related congeners in China1
Aenigmanu, a new genus of Picramniaceae from Western Amazonia1
(2833) Proposal to conserve the name Phalacroma (Dinophysales: Dinophyceae)1
IAPT chromosome data 411
(136–137) Proposals to clarify the definition of “illustration”1
Phylogeny and classification of the coffee family (Rubiaceae, Gentianales): Overview and outlook1
Report of the General Committee: 221
Epitypification of the Linnaean name Crepis bursifolia (Asteraceae)1
(2923) Proposal to reject the name Eriostemon trinervis (Myrtaceae: Leptospermeae)1
Diploids and tetraploids of Acorus (Acoraceae) in temperate Asia are pseudocryptic species with clear differences in micromorphology, DNA sequences and distribution patterns, but sha1
Nomenclatural remarks on Linnaean names of aquatic plants1
Lectotypification of the threatened endemic Appalachian lichen Alectoria fallacina1
(2787) Proposal to conserve the name Graffenrieda against Centronia (Melastomataceae: Merianieae)1
A new concept of Leptadenia (Apocynaceae)1
(2821) Proposal to conserve Ailanthus, nom. cons., (Simaroubaceae) as being of feminine gender1
IAPT chromosome data 371
(2863) Proposal to conserve the name Golovinomyces against Euoidium (Ascomycota: Erysiphaceae)1
(142–148) Proposals to improve the definition, utility, and curation of (type) specimens of fossil algae, fungi, and plants1
Report of the General Committee: 301
Phylogeny and re‐circumscription of Cheniella (Leguminosae: Cercidoideae) based on plastome data and morphology, with description of three new species1
(286–289) Proposals on institutional votes, especially to reduce geographical imbalance1
(2838) Proposal to conserve the name Pancratium flavum (Stenomesson flavum) against P. croceum (S. croceum, Clinanthus croceus) (Amaryllidaceae)1
Description and systematic affinity of flower and seed fossils of Erica sect. Chlorocodon (Ericaceae) from the early Pleistocene of Madeira Island, Portugal1
(2858) Proposal to conserve the name Rhododendron myrtifolium Schott & Kotschy against R. ×myrtifolium G. Lodd. ex Bosse (Ericaceae)1
(3036) Proposal to conserve the name Chamaemelum Mill. against Chamaemelum Daubenton (Asteraceae)1
(2853) Proposal to conserve Steinhauera C. Presl (fossil Spermatophyta) against Steinhauera Göpp. (fossil Monilophyta)1
(374) Proposal to amend Article 38.3 to clarify what local, indigenous or traditional information is to be accepted in a validating description or diagnosis1
Species boundaries within the recently diverged South American monocot‐like Eryngium (Apiaceae, Saniculoideae) based on biogeographic, climatic, morphological, and molecular data: E. cerrade1
Is Solanum fructu‐tecto validly published? Article 23 and epithets in the ablative case1
Clusia suborbicularis is not a synonym of Clusia flava: Molecular and metabolomic evidence1
On presenting nomenclatural status1
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