3urn:lsid:arphahub.com:pub:F7FCE910-8E78-573F-9C77-7788555F8AADPhytoKeysPK1314-20111314-2003Pensoft Publishers10.3897/phytokeys.56.52255225Research ArticleAngiospermaeNomenclatureAsiaNew nomenclature combinations in the green alder species complex (Betulaceae)CheryJoycechery.joyce@berkeley.edu1University of CaliforniaBerkeleyUnited States of America
2015140820155616B944FFF3-FF9B-8C4B-FFCC-61734D52267C5763030105201510062015Joyce CheryThis is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
The name Alnusviridis (Chaix) DC., based on Betulaviridis Chaix (1785), has traditionally been attributed to green alders although it is based on a later basionym. Alnusalnobetula (Ehrh.) K. Koch based on Betulaalnobetula Ehrh. (1783) is the correct name for green alders. In light of the increasing use and recognition of the name Alnusalnobetula (Ehrh.) K. Koch in the literature. I herein propose new nomenclatural combinations to account for the Japanese and Chinese subspecies respectively: Alnusalnobetulasubsp.maximowiczii (Callier ex C.K. Schneid.) J. Chery and Alnusalnobetulasubsp.mandschurica (Callier ex C.K. Schneid.) J. Chery. Recent phylogenetic analyses place these two taxa in the green alder species complex, suggesting that they should be treated as infraspecific taxa under the polymorphic Alnusalnobetula.
Green aldersAlnusviridisAlnusalnobetulaBetulaceaeCitation
Chery J (2015) New nomenclature combinations in the green alder species complex (Betulaceae). PhytoKeys 56: 1–6. doi: 10.3897/phytokeys.56.5225
Introduction
Characteristic to the genus, Alnusalnobetula (Ehrh.) K. Koch is an anemophilous shrub with carpellate catkins that develop into woody strobili. It has a circumpolar distribution with subspecies in Europe (Greuter and Raab-Straube 2011, Flora Europea [http://rbg-web2.rbge.org.uk/FE/fe.html – accessed 22.07.2015], North America (Furlow 1979, Furlow 1990, Fl. North. Amer. North of Mexico Editorial Committee 1997), and Asia (Löve 1968, Li and Skvortsov 1999, Ohba 2006). A phylogeny using nuclear ribosomal DNA ITS sequences generated a polytomy containing five taxa within the green alder species complex due to low sequence divergence among the individuals (Chen and Li 2004). Ren et al. (2010) found the green alder species complex to be a monophyletic clade with the unique character state of a thymine at position 192 of the ITS region. Banaev and Adel’shin (2009) also found close affinity of green alder species using molecular data.
The name Alnusviridis (Chaix) DC. has long been attributed to green alders; however a closer look at the literature reveals the name Alnusalnobetula (Ehrh.) K. Koch has priority (Pouzar 1982, Holub 1986). Appropriate nomenclatural combinations have recently been published for A.alnobetulasubsp.crispa (Aiton) Raus, A.alnobetulasubsp.sinuata (Aiton) Raus (Greuter and Raab-Straube 2011), and A.alnobetulasubsp.suaveolens (Req.) Lambinon & Kerguélen (Lambinon and Kerguélen 1988). Subspecies names for the Japanese green alder and Chinese green alder are assigned here.
Nomenclature history
The confusion lies in the appropriate basionym of this taxon. The name Betulaviridis Chaix dates from 1785 (unable to access original text; revisited in Perret and Burdet 1981). No type specimen was designated. Two years earlier, Betulaalnobetula Ehrh. was published by Ehrhart (in Gartenkalender 1783) describing a shrub in which “the homeland is unknown to me” (translated from German). In Ehrhart (1788), he republished his work where the name Betulaalnobetula Ehrh. reappeared.
As Betula species were transferred to Alnus, authors were evidently unaware of the original 1783 publication of the name B.alnobetula Ehrh., so B.viridis Chaix was thought to be the older name and was taken to be the basionym for green alders. Alnusalnobetula Ehrh. has consistently been associated with the 1788 reproduced work and thus listed as a later synonym of A.viridis (Chaix) DC.
Major databases such as plantlist.org [accessed 22.07.2015], list the name Alnusviridis (Chaix) DC. as a synonym of A.alnobetula (Ehrh.) K. Koch. Other databases seem to be waiting for formal action to account for all subspecies names. For example, USDA, Germplasm Resources Information Network (GRIN 2015) [http://www.ars-grin.gov/cgi-bin/npgs/html/taxon.pl?2483], states: “the name A.alnobetula (Ehrh.) K. Koch, based on Betulaalnobetula Ehrh. (1783) has priority over A.viridis (Chaix) DC., based on B.viridis Chaix (1786); nevertheless, A.viridis is retained here until all infraspecific taxa are accounted for under A.alnobetula”. Other major databases have incomplete citation list for synonyms such as Fl. North Amer. North of Mexico Editorial Committee [http://www.efloras.org/flora_page.aspx?flora_id=1 – accessed 22.07.2015]. Flora Europea [http://rbg-web2.rbge.org.uk/FE/fe.html – accessed 22.07.2015] omits citations for green alder names.
Conclusions
The close relatedness of the green alder species complex members is supported by recent phylogenetic anaylses. The use of a single nrDNA marker, ITS, generated a weakly supported clade of A.mandshurica, A.firma, A.pendula and A.sieboldiana embedded within a greater polytomy that includes all other green alders (see strict consensus parsimony tree by Chen and Li 2004). In more recent phylogenetic analysis, A.maximowiczii and A.mandshurica always form a monophyletic clade with the rest of the green alders (Ren et al. 2010, Banaev and Adel’shin 2009). Given this evidence, it is appropriate to change the rank of these taxa to subspecies of the green alders. The proposed nomenclature changes utilize the correct species epithet and recognize their phylogenetic placement as lineages of a polymorphic Alnusalnobetula.
Infraspecific rankings of plants, specifically subspecies and variety, have been used rather interchangeably (Hamilton and Reichard 1992). The green alder species complex has historically been separated into subspecies due to geographic and morphological distinctiveness. I here agree with this subspecies concept and propose two new nomenclatural combinations to account for the Japanese and Chinese green alder subspecies. This change provides the proper nomenclature for future taxonomic and phylogenetic studies in the green alder species complex.
PlantaeFagalesBetulaceae9F75A896-BFE4-57F3-9B93-7454136B4752Alnusalnobetulasubsp.maximowicziiurn:lsid:ipni.org:names:77149153-1(Callier ex C.K. Schneid.) Cherycomb. n.Alnusmaximowiczii Callier ex C.K. Schneid., Illustr. Handb. Laubholzk. 1: 122. 1904: typified by the plate accompanying the protologue (Basionym).Alnuscrispasubsp.maximowiczii (Callier ex C.K. Schneid.) Hultén, Acta Univ. Lund. Avd. 2. 40(1): 590. 1944.Alnastermaximowiczii (Callier) Czerep., Bot. Mater. Gerb. Bot. Inst. Komarova Akad. Nauk. S.S.S.R. 17: 97. 1955.Alnastercrispussubsp.maximowiczii (Callier ex C.K. Schneid.) Murai, Bull. Gov. Forest Exp.Sta.154: 62. 1963.Duschekiamaximowiczii (Callier ex C.K. Schneid.) Pouzar, Preslia 36: 339. 1964.Alnastermaximowiczii (Callier) Czerep., Fl. Arct. URSS Fasc. 5, 133 in obs. 1966.Alnusviridissubsp.maximoviczii (Callier ex C.K. Schneid.) D. Löve, Taxon 17: 89. 1968.Alnusviridissubsp.maximowiczii (Callier ex C.K. Schneid.) H. Ohba, Fl. Japan 2a: 27. 2006.Distribution.
Temperate Asia: Russian Federation - Khabarovsk, Kurile Islands, Primorye, Sakhalin; Japan - Hokkaido, Honshu; Korea
Alnusalnobetulasubsp.maximowiczii – images (taken by Jordan Wood) from Arnold Arboretum 1462-77*E a) developing infructescenes; b) old infructescences.
https://binary.pensoft.net/fig/49902PlantaeFagalesBetulaceaeA78BD126-BF21-5DCF-8029-18820CD28FF0Alnusalnobetulasubsp.mandschuricaurn:lsid:ipni.org:names:77149155-1(Callier ex C.K. Schneid.) Cherycomb. n.Alnusfruticosavar.mandschurica Callier ex C.K. Schneid., Illustr. Handb. Laubholzk. 1:121. 1904: Lectotype: Nadelholzzone des Tschangpei-schan, immer vereinzelt, 1600–1800 m (Fenze 262); designated by Hand.-Mazz., not seen) (Basionym).Alnusfruticosavar.mandschurica Callier ex Kom., Acta Hort. Petr. 22: 59. 1903.Alnusfruticosavar.mandschuricaf.normalis Callier, Fedde, Rep. Spec. Nov. 10: 227. 1911.Alnusfruticosavar.mandschuricaf.grandifolia Callier, Fedde, Rep. Spec. Nov. 10: 227.1911.Alnusmandschurica (Callier ex C.K. Schneid.) Hand.-Mazz., Oesterr. Bot. Z. 81: 306–307.1932.Alnuscrispa(Aiton)Purshsubsp.mandshurica (Callier) Hara, J. Fac. Sci. Univ. Tokyo III, -6, (2): 32. 1952.Alnusmandschuricavar.pubescens Baranov, in T. N. Liou, Illustrated Flora of Ligneous plants of N. E. China 206, t. 75, fig. 112, t. 76, figs 1–4. 1955.Duschekiamandschurica (Callier ex C.K. Schneid.) Pouzar, Preslia 36(4): 339. 1964.Alnastercrispa(Aiton)ssp.mandshurica (Callier) Murai, Bull. Gov. For. Expt. Sta. Jap. 171: 34. 1964.Distribution.
Russian Federation: Khabarovsk, Primorye; China: Heilongjiang, Jilin, Liaoning, Nei Monggol; Korea
Acknowledgement
Shoutout to the Curation and Library staff at the Arnold Arboretum of Harvard University: Kathryn Richardson, Kyle Port, Michael Dosmann, Jordan Wood, Irina Kadis and Larissa Glasser.
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