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Journal articles on the topic 'Vascular plant names'

Author: Grafiati
Published: 5 June 2025
Last updated: 1 August 2025

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1

Govaerts, Rafaël, Anna Monro, Emma Wrankmore, Jonathan Krieger, and Helen Hartley. "New registration system for vascular plant names." TAXON 71, no. 6 (2022): 1361–64. http://dx.doi.org/10.1002/tax.12833.

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2

Wrankmore, Emma, Jonathan Krieger, Rafaël Govaerts, and Helen Hartley. "Demonstration of the New IPNI (International Plant Names Index) Registration System." Biodiversity Information Science and Standards 6 (August 23, 2022): e91371. https://doi.org/10.3897/biss.6.91371.

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Registration systems have long been in place for names of plant cultivars, fungi, prokaryotes and animals, and more recently for algae (Müller et al. 2022). Yet, despite previous attempts, nothing has become established for vascular plants. The newly released International Plant Names Index (IPNI) registration system aims to address this. We will be demonstrating that this new system can be used to register vascular plant names that are new to science, in addition to names that have been validly published but are not yet in IPNI (The Royal Botanic Gardens, Kew et al. 2022). We will show the di
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3

Turner, Robert, and Rafaël Govaerts. "Challenges of Integrating and Curating Nomenclatural and Taxonomic Data in the World Checklist of Vascular Plants." Biodiversity Information Science and Standards 3 (June 19, 2019): e37226. https://doi.org/10.3897/biss.3.37226.

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The World Checklist of Vascular Plants (WCVP) is the Royal Botanic Gardens (RBG) Kew's global names and taxonomy output. The underlying data sources, the International Plant Names Index (IPNI), the World Checklist of Selected Plant Families (WCSP), and the World Checklist of Selected Plant Families – in Review (WCSP – In Review) are actively curated by a dedicated editorial team, who manage contributions from a wide range of international partners. WCVP is the intersection between IPNI and WCSP/WCSP-In Review and provides the names and taxonomy backbone for Plants of the World Online (POWO) –
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4

Turner, Ian M. "FROM ACACIA TO ZIZIPHUS: PLANT NAMES COMMEMORATING THE BOTANIST WILLIAM ROXBURGH." Edinburgh Journal of Botany 79 (December 14, 2022): 1–102. http://dx.doi.org/10.24823/ejb.2022.1911.

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More than 400 validly published names of vascular plants and Charales honouring William Roxburgh (1751–1815) are listed with the currently accepted names for these taxa and their typification. Some 50 species names commemorating Roxburgh remain in current use. In total, 173 lectotypes and 2 neotypes are designated here to fix the application of the names. A new combination in Centaurium (Gentianaceae) is proposed.
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Ugarte, Eduardo, Francisco Lira, Nicol Fuentes, and Stefan Klotz. "Vascular alien flora, Chile." Check List 7, no. 3 (2011): 365. http://dx.doi.org/10.15560/7.3.365.

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We compiled a list of 737 alien plant species growing in continental Chile. Most names were obtained from herbarium specimens (mainly herbarium CONC at Universidad de Concepción, Chile). More than fifty percent of the species are european in origin. Besides, records also include: traits related to life-cycle and brief coments on origin and history of introduction.
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Ugarte, Eduardo, Francisco Lira, Nicol Fuentes, and Stefan Klotz. "Vascular alien flora, Chile." Check List 7, no. (3) (2011): 365–82. https://doi.org/10.15560/7.3.365.

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We compiled a list of 737 alien plant species growing in continental Chile. Most names were obtained from herbarium specimens (mainly herbarium CONC at Universidad de Concepción, Chile). More than fifty percent of the species are european in origin. Besides, records also include: traits related to life-cycle and brief coments on origin and history of introduction.
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7

FIGUEIREDO, ESTRELA, GIDEON F. SMITH, and RICARDO F. DE LIMA. "Exploring Pico de São Tomé (São Tomé and Príncipe), a hotspot for collecting plant specimens during the colonial period: collectors and itineraries." Phytotaxa 658, no. 2 (2024): 178–90. http://dx.doi.org/10.11646/phytotaxa.658.2.5.

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The peak Pico de São Tomé on the island of São Tomé (São Tomé and Príncipe, Gulf of Guinea) is a locality where many specimens that became types of vascular plant names were collected during colonial times. Determining the routes the collectors took to ascend the peak will help determine some collecting localities. Gustav Mann was the first collector to explore the region; his itinerary is analysed and mapped based on his correspondence. The itineraries of ten further expeditions that ascended the peak are analysed. Collections that became types of vascular plant species names are recorded.
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8

Pelser, P. B., F. Brambach, J. Mansibang, H. Schaefer, R. Kiew, and J. F. Barcelona. "New combinations and names for some Philippine vascular plants." Blumea - Biodiversity, Evolution and Biogeography of Plants 66, no. 1 (2021): 96–100. http://dx.doi.org/10.3767/blumea.2021.66.01.06.

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New names and new combinations are presented for 29 Philippine species in the families Acanthaceae, Aspleniaceae, Cucurbitaceae, Gesneriaceae, Lauraceae, Myrtaceae, Oleaceae, Thelypteridaceae, Urticaceae, and Vitaceae. Seventeen names are lectotypified.
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9

Reveal, James L. "Validation of Ordinal Names of Extant Vascular Plants." Novon 2, no. 3 (1992): 238. http://dx.doi.org/10.2307/3391559.

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10

Wasowicz, Pawel. "Annotated checklist of vascular plants of Iceland." Fjölrit Náttúrufræðistofnunar 57 (April 16, 2020): 1–193. https://doi.org/10.33112/1027-832X.57.

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The present edition of the annotated checklist is a comprehensive catalogue of all vascular plant taxa: native and alien that occur in Iceland. The checklist features nearly 2500 taxa names, including ca. 1000 accepted names and more than 1400 synonyms and encompasses, apart from the updated list of native taxa, a complete and revised list of non-native plants (both naturalized and casual) as well as a number of more important cultivated species. According to the checklist, there are 426 native taxa in the Icelandic flora. Ten taxa have been classified as doubtfully native, ten taxa have been
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11

Turdiboev, Obidjon, Rabiga Esemuratova, Gulayim Serekeeva, Ibragim Yusupov, and Akbar Akhmedov. "Uzbekistan vascular plant novelties 1993 through 2023." BIO Web of Conferences 173 (2025): 01005. https://doi.org/10.1051/bioconf/202517301005.

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This study aimed to determine the number of taxa that will be discovered in Uzbekistan from 1993 to 2023. As a result of the analysis of various scientific journals, monographs, and flora books from 1993 to 2023, it was found that 114 new vascular plant taxa were described for Uzbekistan during this period: 1 new genus, 80 new species, 28 new combinations, 2 new subspecies, 4 new names, and 1 new variety. The process of discovering new vascular plants in Uzbekistan will continue in coming years. In the process of preparing a new national flora of Uzbekistan, it is very important to study the c
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12

Kelly, Daniel L., and Timothy A. Dickinson. "Local names for vascular plants in the John Crow mountains, Jamaica." Economic Botany 39, no. 3 (1985): 346–62. http://dx.doi.org/10.1007/bf02858806.

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13

Murguía-Romero, Miguel, Enrique Ortiz, Bernardo Serrano-Estrada, and José Luis Villaseñor. "Main collectors of Mexico’s vascular plants: a catalogue built from online databases." Revista Mexicana de Biodiversidad 93 (August 8, 2022): e934044. http://dx.doi.org/10.22201/ib.20078706e.2022.93.4044.

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Databases of biological collections contain fundamental information for the study of biodiversity, hence the importance of their quality, which includes the data on collectors. For this purpose, a list of the main vascular plant collectors in Mexico was constructed to improve the quality of this information. A total of 3.7 million records of vascular plant specimens collected in Mexico were analyzed from the National System of Biodiversity Information (Sistema Nacional de Información sobre Biodiversidad; SNIB) of the Mexican National Commission for the Knowledge and Use of Biodiversity (Comisi
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14

Freiberg, Martin, Marten Winter, Alessandro Gentile, et al. "A New and Improved Online Catalogue of all Extant Vascular Plant Names Available." TAXON 70, no. 1 (2021): 223. http://dx.doi.org/10.1002/tax.12441.

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15

Pliszko, Artur, and Waldemar Heise. "Typification of the names and taxonomic status of selected vascular plant taxa described by Max Eugen Heinrich Grütter." Phytotaxa 202, no. 3 (2015): 231–32. https://doi.org/10.11646/phytotaxa.202.3.9.

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Pliszko, Artur, Heise, Waldemar (2015): Typification of the names and taxonomic status of selected vascular plant taxa described by Max Eugen Heinrich Grütter. Phytotaxa 202 (3): 231-232, DOI: 10.11646/phytotaxa.202.3.9, URL: http://dx.doi.org/10.11646/phytotaxa.202.3.9
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16

Weakley, Alan S., Derick B. Poindexter, Hannah C. Medford, et al. "Studies in the vascular flora of the southeastern United States. VI." Journal of the Botanical Research Institute of Texas 14, no. 2 (2020): 199–239. http://dx.doi.org/10.17348/jbrit.v14.i2.1004.

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As part of ongoing efforts to understand, document, and conserve the flora of southeastern North America, we propose a number of taxonomic changes, nomenclatural changes, interpretations of nativity, and distributional accounts. Regarding the Asaroideae (Aristolochiaceae), we support continued recognition of Hexastylis (and other segregates of a very broad Asarum s.l.) at generic rank and make the necessary combinations to continue the use of Hexastylis in southeastern North America floras. In Conoclinium (Asteraceae), we present morphological and distributional evidence corroborating the rece
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17

Cuerrier, Alain, Courtenay Clark, and Christian H. Norton. "Inuit plant use in the eastern Subarctic: comparative ethnobotany in Kangiqsualujjuaq, Nunavik, and in Nain, Nunatsiavut." Botany 97, no. 5 (2019): 271–82. http://dx.doi.org/10.1139/cjb-2018-0195.

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Plants are important in traditional Inuit life. They are used for food, tea, medicine, etc. Based on semi-structured interviews with 35 informants, we documented and compared plant names and uses in Kangiqsualujjuaq, Nunavik, and in Nain, Nunatsiavut. Plant names and uses were expected to be similar between communities owing to common boreal–subarctic environments and cultural ties. Both communities reported the same number of taxa, with equivalent proportions of vascular and nonvascular plants, growth forms, use categories, and medicinal uses. Forty-three species were used in each community,
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18

LUGHADHA, EIMEAR NIC, RAFAËL GOVAERTS, IRINA BELYAEVA, et al. "Counting counts: revised estimates of numbers of accepted species of flowering plants, seed plants, vascular plants and land plants with a review of other recent estimates." Phytotaxa 272, no. 1 (2016): 82. http://dx.doi.org/10.11646/phytotaxa.272.1.5.

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We present revised estimates of the numbers of accepted species of flowering plants (369,434), seed plants (370,492), vascular plants (383,671) and land plants (403,911) based on a recently de-duplicated version of the International Plant Names Index and rates of synonymy calculated from the seed plant families published in the World checklist of selected plant families. Alternative approaches to estimating or calculating the number of accepted plant species are discussed and differences between results are highlighted and interpreted.
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19

BARINA, ZOLTÁN, GABRIELLA SOMOGYI, DÁNIEL PIFKÓ, and MARASH RAKAJ. "Checklist of vascular plants of Albania." Phytotaxa 378, no. 1 (2018): 1. http://dx.doi.org/10.11646/phytotaxa.378.1.1.

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This work includes all names of higher plants reported or collected in the present territory of Albania. The records are critically evaluated; the origin of them was tracked down and possible vouchers were searched for, revised and evaluated. Altogether, 6,419 basionyms were identified with 5,480 recently accepted taxa and their nativity status were examined.
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20

Applequist, Wendy L. "Report of the Nomenclature Committee for Vascular Plants: 74." TAXON 72, no. 4 (2023): 908–22. http://dx.doi.org/10.1002/tax.12993.

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SummaryThe following two generic names are recommended for conservation: Eulophia vs. Geodorum and Potentilla with conserved type. The following two generic names are not recommended for conservation: Ailanthus with feminine gender (because the proposal is unnecessary) and Kyphocarpa with that spelling (because the proposal is unnecessary). No recommendation is made regarding proposals to conserve Eriobotrya vs. Rhaphiolepis or Ferulago with conserved type. The following 24 species names are recommended for conservation: Acalypha wilkesiana vs. A. tricolor, Anthurium ×macrolobum vs. A. ×dentat
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21

Senator, Stepan, Alyona Tretyakova, and Dmitry Vorontsov. "Distribution of alien plant species of the Middle Volga Region (South-East of the European part of Russia): a dataset." Biodiversity Data Journal 8 (November 9, 2020): e59125. https://doi.org/10.3897/BDJ.8.e59125.

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The dataset presented in current study contains information regarding alien vascular plant species found in the Middle Volga Region (South-East of the European part of Russia). The dataset overall includes 413 species belonging to 247 genera and 67 families. The described dataset is based on the data published during floristic studies from 1851 to 2019. The dataset does not include alien vascular plant species that have presently disappeared from the territory of the region. It contains a total of 7,782 records of occurrences, extracted from the <em>Salix</em> system of information and analyti
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22

PERUZZI, LORENZO, GABRIELE GALASSO, GIANNIANTONIO DOMINA, et al. "An inventory of the names of native, non-endemic vascular plants described from Italy, their loci classici and types." Phytotaxa 410, no. 1 (2019): 1–215. http://dx.doi.org/10.11646/phytotaxa.410.1.1.

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The census of the loci classici of 1,227 native, non-endemic vascular plants described from Italy is here presented and described. The effective place of publication of accepted names, basionyms and homotypic synonyms were identified and critically verified. The geographic information on the loci classici was excerpted from the protologues, as well as information on typification for the taxa described before 1 January 1958. The names without a holotype are 1,165. For 591 names a lecto- or neo-typification is available in literature, while 572 currently accepted taxa still need a type designati
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23

Jha, Sasinath, Shiva Kumar Rai, Umesh Koirala, et al. "Vascular plant specimens in Tribhuvan University Herbarium (TUH), Biratnagar, Nepal." Nepalese Journal of Biosciences 1 (January 24, 2013): 83–95. http://dx.doi.org/10.3126/njbs.v1i0.7475.

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This report comprises the first list of 1019 specimens of vascular plants (Pteridophytes: 25 families and 106 species; Gymnosperms: 9 families and 19 species; Angiosperms: 136 families and 894 species) reposited in the “Tribhuvan University Herbarium (TUH)”, Department of Botany, Post Graduate Campus, Tribhuvan University, Biratnagar, Nepal. These specimens have been collected by students and teachers of the Department of Botany, Post Graduate Campus from various locations of eastern Nepal (tropical to temperate climates; 60 to 3000 m, msl altitudes) since the year 1992 onwards. For the purpos
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24

FIGUEIREDO, ESTRELA, GIDEON F. SMITH, and LUIS M. P. CERÍACO. "The vascular plant collections of Francisco Newton (1864–1909) in Angola." Phytotaxa 413, no. 3 (2019): 207–24. http://dx.doi.org/10.11646/phytotaxa.413.3.2.

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Francisco Newton (18 May 1864–9 December 1909), who was born in Portugal, travelled to Angola at the age of 16 and during his initial stay, which lasted from 1880 until late-1884 or early-1885, he collected plant specimens. At the time Angola was a Portuguese colony. During a second expedition to Angola that lasted from 1903 to 1905, Newton did not collect any plant specimens. Newton’s plant specimens are kept in several European herbaria, including COI, K, LISU, PO, W, and G, but little is known about collecting activities during his first visit to Africa. We provide an analysis of his work w
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Reveal, JAMES L. "A checklist of familial and suprafamilial names for extant vascular plants." Phytotaxa 6, no. 1 (2013): 1. http://dx.doi.org/10.11646/phytotaxa.6.1.1.

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26

Miller, Chuck, and William Ulate. "Descriptive Data Challenges for the World Flora Online." Biodiversity Information Science and Standards 2 (May 17, 2018): e26731. http://dx.doi.org/10.3897/biss.2.26731.

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The World Flora Online (WFO) is primarily a data management project initiated in 2012 in response to Target 1 of the Global Strategy for Plant Conservation – "To create an online flora of all known plants by 2020". A WFO Consortium has been formed of now 42 international partners with a governing Council and three Working Groups. The World Flora Online Public Portal (www.worldfloraonline.org) was launched at the International Botanical Congress in Shenzhen, China in July, 2017. The baseline Public Portal was primarily populated with a taxonomic backbone of information gathered from The Plant L
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Miller, Chuck, and William Ulate. "Descriptive Data Challenges for the World Flora Online." Biodiversity Information Science and Standards 2 (May 17, 2018): e26731. https://doi.org/10.3897/biss.2.26731.

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The World Flora Online (WFO) is primarily a data management project initiated in 2012 in response to Target 1 of the Global Strategy for Plant Conservation – "<i>To create an online flora of all known plants by 2020</i>". A WFO Consortium has been formed of now 42 international partners with a governing Council and three Working Groups. The World Flora Online Public Portal (www.worldfloraonline.org) was launched at the International Botanical Congress in Shenzhen, China in July, 2017. The baseline Public Portal was primarily populated with a taxonomic backbone of information gathered from The
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28

Miller, Chuck, Walter Berendsohn, and William Ulate. "The World Flora Online: Summary and Status." Biodiversity Information Science and Standards 6 (August 24, 2022): e93898. https://doi.org/10.3897/biss.6.93898.

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The World Flora Online (WFO) project was initiated in 2012 in response to Target 1 of the Global Strategy for Plant Conservation – "To create an online flora of all known plants by 2020" (CBD 2010, Wyse Jackson 2013). A WFO Consortium of 50 international institutions and growing has been formed (see Wyse Jackson and Miller (2015) for a historical overview).The World Flora Online Public Portal (www.worldfloraonline.org) was relaunched in July, 2022. It is populated with a taxonomic backbone of plant taxonomic data, which integrates the International Plant Name Index (IPNI), World Checklist of V
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DOMINA, GIANNIANTONIO, and RIDHA EL MOKNI. "An inventory of the names of vascular plants endemic to C Mediterranean and described from Tunisia." Phytotaxa 409, no. 3 (2019): 105–28. http://dx.doi.org/10.11646/phytotaxa.409.3.1.

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The census of the loci classici of the 98 vascular plants described from Tunisia, endemic to Tunisia or to Tunisia and the surrounding countries, is here presented and described. The effective place of publication of accepted names, basionyms, and homotypic synonyms were identified and critically verified. The geographic information on the loci classici was excerpted from the protologues, as well as information on typification for the taxa described before 1 January 1958. The names without holotype are 48. For 7 of them a lectotypification is already available in literature, 5 are lecotypified
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30

Moro, Marcelo Freire, Eimear Nic Lughadha, Denis L. Filer, Francisca Soares de Araújo, and Fernando Roberto Martins. "A catalogue of the vascular plants of the Caatinga Phytogeographical Domain: a synthesis of floristic and phytosociological surveys." Phytotaxa 160, no. 1 (2014): 1. http://dx.doi.org/10.11646/phytotaxa.160.1.1.

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A catalogue is presented of plant names in use in the Caatinga Phytogeographical Domain (CPD), the largest semiarid ecoregion of South America. We compiled all pubished papers we could locate with floristic and/or phytosociological data relating to the CPD and created a database of all site-based surveys, all names reported in these surveys and the basic ecological data associated with each species. We then mapped the names used in survey reports to those currently accepted in Brazil, consulting specialists to resolve taxonomic and nomenclatural issues before synthesizing the data in order to
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Govaerts, Rafaël, Helen Hartley, Jonathan Krieger, and Emma Wrankmore. "New Developments and Future Vision of the Nomenclatural Database IPNI and the Taxonomic Database WCVP." Biodiversity Information Science and Standards 6 (August 1, 2022): e91060. https://doi.org/10.3897/biss.6.91060.

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IPNI (International Plant Names Index) has been providing nomenclatural data in one form or another for the past 138 years. Over the past decade, great progress has been made in improving the data and making it accessible via a new website. We will be showcasing the new features that have been added to the website, in particular the latest addition, name registration. While obligatory name registration has already been in place for fungi for a decade, we will be highlighting the opportunities it will bring to vascular plant sciences and our ever-increasing pace of data needs. Name registration
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Schmid, Rudolf, Lois Brako, Amy Y. Rossman, and David F. Farr. "Scientific and Common Names of 7,000 Vascular Plants in the United States." Taxon 44, no. 1 (1995): 111. http://dx.doi.org/10.2307/1222692.

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Reveal, James L. "A list of validly published, automatically typified, ordinal names of vascular plants." TAXON 42, no. 4 (1993): 825–44. http://dx.doi.org/10.2307/1223266.

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Pliszko, Artur, and Waldemar Heise. "Typification of the names and taxonomic status of selected vascular plant taxa described by Max Eugen Heinrich Grütter." Phytotaxa 202, no. 3 (2015): 231. http://dx.doi.org/10.11646/phytotaxa.202.3.9.

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Max Eugen Heinrich Grütter (30 March 1865–31 March 1897) was a German botanist interested in floristics and taxonomy of vascular plants and mosses (Abromeit 1897). He conducted intensive floristic studies on the territory of the former West and East Prussia, especially in the former West Prussian Province Schwetz (now north-central Poland) where he lived in the small village of Luschkowko (Grütter 1892, 1895a, 1895b, 1895c, 1897). His numerous findings had been frequently cited in “Flora von Ost‑ und Westpreussen” by Abromeit et al. (1898–1940). In 1890–1891, in the course of the floristic exp
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IAMONICO, DUILIO, and GABRIELE GALASSO. "New nomenclatural changes for hybrids of Amaranthus (Amaranthaceae s. str.)." Phytotaxa 340, no. 2 (2018): 195. http://dx.doi.org/10.11646/phytotaxa.340.2.11.

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As part of the ongoing studies of the genus Amaranthus Linnaeus (1753: 990) and in the course of the preparation of a new checklist of the vascular plants alien to the flora of Italy (see e.g., Iamonico 2015, 2016; Galasso et al. 2016, 2018), following the checklist of vascular plants native to Italy (Bartolucci et al. 2018), we present here a note regarding some names applied to hybrids of Amaranthus.
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Mauz, Kathryn. "Notes on vascular plant type collections of Cyrus G. Pringle in western United States and Mexico, 1881–1884." Journal of the Botanical Research Institute of Texas 11, no. 1 (2017): 117–20. http://dx.doi.org/10.17348/jbrit.v11.i1.1141.

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Botanist Cyrus G. Pringle collected plants in the western United States and northwestern Mexico between 1881 and 1884, and distributed his specimens as ‘Flora of the Pacific Slope’. The majority of the vascular plant type collections resulting from that work have been discussed elsewhere. This note addresses type status for five additional names that were previously overlooked in Pringle’s catalogue for Arizona and California.
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Gilles, Dauby, Rainer Zaiss, Anne Blach-Overgaard, et al. "RAINBIO: a mega-database of tropical African vascular plants distributions." PhytoKeys 74 (November 7, 2016): 1–18. https://doi.org/10.3897/phytokeys.74.9723.

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The tropical vegetation of Africa is characterized by high levels of species diversity but is undergoing important shifts in response to ongoing climate change and increasing anthropogenic pressures. Although our knowledge of plant species distribution patterns in the African tropics has been improving over the years, it remains limited. Here we present RAINBIO, a unique comprehensive mega-database of georeferenced records for vascular plants in continental tropical Africa. The geographic focus of the database is the region south of the Sahel and north of Southern Africa, and the majority of d
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38

Miller, Chuck, Walter Berendsohn, William Ulate, and Roger Hyam. "WFO-IDs: Unique identifiers for all known plants managed by the World Flora Online." Biodiversity Information Science and Standards 7 (August 17, 2023): e111210. https://doi.org/10.3897/biss.7.111210.

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The World Flora Online (WFO) project (Borsch et al. 2020) was initiated in 2012 in response to Target 1 of the Global Strategy for Plant Conservation*1, "To create an online flora of all known plants by 2020" (Wyse Jackson and Kennedy 2009). A WFO Consortium of over 40 international institutions has been formed. The World Flora Online Public Portal*2 is built upon a taxonomic backbone of plant taxonomic data that integrates the International Plant Name Index (IPNI)*3, World Checklist of Vascular Plants (WCVP)*4, Tropicos*5, Angiosperm Phylogeny Group 4*6, Pteridophyte Phylogeny Group (PPG I 20
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Davydov, D., and L. Gomlya. "VASCULAR PLANTS OF POLTAVA TOWN TERRITORIAL COMMUNE: AN ANNOTATED CHECKLIST." BIOLOGY & ECOLOGY 7, no. 1 (2021): 70–81. http://dx.doi.org/10.33989/2021.7.1.243453.

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The paper summarized the data about vascular plant species of Poltava town territorial commune formed in 2020 during decentralization reform within Poltava district of Poltava region. Based on own field research in 2006–2021 authors found on this territory 996 vascular plant species from 105 families. They include 911 species from 432 genera and 101 families which are resident taxa and belong to a stable components of a plant cover on this territory; they grow a long time here and have a regular self-healing ability. The annotated list of resident plant species with main their synonymic Latin
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Cordero, Sebastián, Lucía Abello, and Francisca Gálvez. "Rizoma: a new comprehensive database on traditional uses of Chilean native plants." Biodiversity Data Journal 10 (March 4, 2022): e80002. https://doi.org/10.3897/BDJ.10.e80002.

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We describe Rizoma, a new comprehensive online database on traditional uses of Chilean flora. The Rizoma database was built by reviewing multiple data sources on the uses of native plants and integrating phytogeographic and ecological aspects of plant species. This database attempts to safeguard traditional knowledge by making it available and visible to society, providing 1380 use records from 736 vascular plant species native to Chile. In addition, it contributes to a better understanding of the use patterns of Chilean native plants.The Rizoma database includes 1380 use records from 736 vasc
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41

Redhead, S. A. "A biogeographical overview of the Canadian mushroom flora." Canadian Journal of Botany 67, no. 10 (1989): 3003–62. http://dx.doi.org/10.1139/b89-384.

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Maps showing the North American distributions of 74 species of fleshy fungi, mainly Agaricales, are used to demonstrate variations in fungal ranges. Each map is based on examined specimens or selected literature. The maps are arranged to show North American floristic patterns, while the species in the text are grouped along worldwide patterns. Range patterns resemble those reported for vascular plants, ascolichens, and bryophytes. The names Hypholoma flavifolium (Smith) comb.nov. and Strobilurus trullisatus var. montezumae (Singer) comb. &amp; stat.nov. are proposed.
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42

Villaseñor, José Luis. "Los Géneros de plantas vasculares de la flora de México." Botanical Sciences, no. 75 (June 2, 2017): 105. http://dx.doi.org/10.17129/botsci.1694.

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An updated account of the generic richness of Mexican vascular plants records 2,804 native genera, distributed in 304 families. The flowering plants include the largest number (2,663 genera), 2,117 of them dicotyledons (Magnoliophyta) and 546 monocotyledons (Liliopsida). In addition, 127 genera of ferns and fern allies and 14 of gymnosperms are recorded. A list of generic names is provided, as well as a brief discussion about their richness patterns and their geographical and ecological distribution. Of the total generic richness of Mexico, 7.8% (219 genera) is considered to be endemic to this
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43

Palacios, Sonia, Andrés Juárez, Robin Fernandez-Hilario, et al. "Type specimens in the Herbarium of the Faculty of Forestry Sciences of the National Agrarian University La Molina (MOLF), Peru." Biota Colombiana 26 (July 15, 2025): e1243. https://doi.org/10.21068/2539200x.1243.

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This article presents the catalogue of type specimens held at the Herbarium of the Faculty of Forest Sciences at the National Agrarian University La Molina (MOLF). It provides detailed information on type status, currently accepted names, and conservation status for 84 vascular plant taxa. The MOLF Herbarium houses 38 holotypes, 100 isotypes, one lectotype, and one isolectotype, associated with collections made between 1963 and 2022. The majority of taxa documented belong to the families Orchidaceae, Melastomataceae, and Fabaceae.
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Baasanmunkh, Shukherdorj, Magsar Urgamal, Batlai Oyuntsetseg, et al. "Flora of Mongolia: annotated checklist of native vascular plants." PhytoKeys 192 (March 14, 2022): 63–169. https://doi.org/10.3897/phytokeys.192.79702.

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In this study, we critically revised and updated the checklist of native vascular plants of Mongolia. The checklist comprises 3,041 native vascular plant taxa (2,835 species and 206 infraspecific species) from 653 genera and 111 families, including 7 lycophytes, 41 ferns, 21 gymnosperms, and 2,972 angiosperms. In the angiosperms, we identified the 14 families with the greatest species richness, ranging from 50 to 456 taxa. Species endemism is also noted here; 102 taxa are endemic to Mongolia, and 275 taxa are sub-endemic that co-occur in adjacent countries. Since 2014, a total of 14 taxa have
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45

Szelag, Zbigniew. "Hieracia balcanica XI. Typification of the Josef Rohlena’s Hieracium (Asteraceae) names from Montenegro." Phytotaxa 230, no. 1 (2015): 97. http://dx.doi.org/10.11646/phytotaxa.230.1.11.

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Josef Rohlena (1874–1944) was one of the most renowned Czech botanists of his time. For more than 40 years he carried out floristic research in the territory of Montenegro, in the central part of the Balkan Peninsula (Pulević 2005). In 1942, Rohlena published his Conspectus florae Montenegrinae, where he summarized 2817 vascular plant taxa (including 2623 species) (Pulević &amp; Karaman 1996), among them 44 Hieracium (Linnaeus 1753: 799) taxa described earlier from Montenegro together with Karl Hermann Zahn (1909), monographer of the genus Hieracium. The major part of Rohlena’s collection is s
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46

Iliana Alexandrova Ilieva. "Specific botanical epithets meaning likeness." World Journal of Biology Pharmacy and Health Sciences 15, no. 3 (2023): 110–26. http://dx.doi.org/10.30574/wjbphs.2023.15.3.0392.

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The topic of the present article is a linguistic analysis of specific botanical epithets meaning likeness, mainly those expressed by adjectives or participles. The types of adjectives and the different word-formation patterns are examined through which is represented similarity of the plant as a whole or its singular parts with the characteristics of another plant species or object. The article is based on the "Conspectus of the Bulgarian vascular flora", Sofia, 2012. Besides the particular epithet, are considered the binomial names that contain it. Each Latin name is followed by its standard
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Iliana, Alexandrova Ilieva. "Specific botanical epithets meaning likeness." World Journal of Biology Pharmacy and Health Sciences 15, no. 3 (2023): 110–26. https://doi.org/10.5281/zenodo.10714402.

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The topic of the present article is a linguistic analysis of specific botanical epithets meaning likeness, mainly those expressed by adjectives or participles. The types of adjectives and the different word-formation patterns are examined through which is represented similarity of the plant as a whole or its singular parts with the characteristics of another plant species or object. The article is based on the "Conspectus of the Bulgarian vascular flora", Sofia, 2012. Besides the particular epithet, are considered the binomial names that contain it. Each Latin name is followed by its standard
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48

Vynokurov, Denys, Dariia Borovyk, Olha Chusova, et al. "Ukrainian Plant Trait Database: UkrTrait v. 1.0." Biodiversity Data Journal 12 (February 13, 2024): e118128. https://doi.org/10.3897/BDJ.12.e118128.

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Considering the growing demand for plant trait data and taking into account the lack of trait data from Eastern Europe, especially from its steppic region, we launched a new Ukrainian Plant Trait Database (UkrTrait v. 1.0) aiming at collecting all the available plant trait data from Ukraine.To facilitate further use of this database, we linked the trait terminology to the TRY Plant Trait Database, Thesaurus of Plant Characteristics (TOP) and Plant Trait Ontology (TO). For taxa names, we provide the crosswalks between the Ukrainian checklist and international sources, i.e. GBIF Backbone Taxonom
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Bizecki Robson, Diana, and Jackie Krindle. "Nomenclatural updating of the Manitoba Museum Herbarium." Botany 103 (January 1, 2025): 1–11. https://doi.org/10.1139/cjb-2025-0015.

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Data from herbaria are used to assess the extinction risk of plants, and subsequently, create conservation plans. However, some research suggests that identification errors, including misidentification and use of outdated nomenclature, in herbaria are widespread. At the Manitoba Museum, nomenclatural updating of vascular plant specimens occurred from 1999 to 2001. However, due to staff time limitations, close examination of specimens did not occur. As a result, some misidentified specimens were not detected. In the 2010s, we began a second updating project, but this one both verified the ident
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50

Baasanmunkh, Shukherdorj, Magsar Urgamal, Batlai Oyuntsetseg, et al. "Flora of Mongolia: annotated checklist of native vascular plants." PhytoKeys 192 (March 14, 2022): 63–169. http://dx.doi.org/10.3897/phytokeys.192.79702.

Full text
Abstract:
In this study, we critically revised and updated the checklist of native vascular plants of Mongolia. The checklist comprises 3,041 native vascular plant taxa (2,835 species and 206 infraspecific species) from 653 genera and 111 families, including 7 lycophytes, 41 ferns, 21 gymnosperms, and 2,972 angiosperms. In the angiosperms, we identified the 14 families with the greatest species richness, ranging from 50 to 456 taxa. Species endemism is also noted here; 102 taxa are endemic to Mongolia, and 275 taxa are sub-endemic that co-occur in adjacent countries. Since 2014, a total of 14 taxa have
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