Family: Poaceae |
Jack R. Carlson Plants perennial; usually cespitose, sometimes rhizomatous. Culms 30-100 cm, usually erect, sometimes decumbent or geniculate. Leaves evenly distributed; sheathsopen; auricles well developed; ligules membranous; blades flat to loosely involute. Inflorescences terminal spikes, erect, with 1 spikelet per node; internodes(7)10-20(28) mm at midlength, lower internodes often longer than those at midlength. Spikelets (8)12-25 mm, 1.1-1.5(2) times the length of the internodes, usually appressed, sometimes slightly divergent, with 4-9 florets; disarticulation above the glumes and below the florets. Glumes unequal, from shorter to slightly longer than the lowest lemma in the spikelets, lanceolate to oblanceolate, (3)4-5(7)-veined, usually acute to obtuse, occasionally truncate, narrowing beyond midlength, veins prominent; lemmas inconspicuously 5-veined, unawned or terminally awned, awns straight to strongly bent and divergent; anthers 4-8 mm. x = 7. Haplome St. Name from the Greek pseudo, “false”, and the genus Roegneria, an Asian taxon often included in Elymus. Pseudoroegneria includes 15-20 species, one of which is North American and the remainder either Eurasian or Asian. All species currently included in the genus are obligate outcrossers, and almost all are diploids or autotetraploids (Jensen et al. 1992) containing the St haplome (designation by the International Triticeae Consortium). This genome is the most widely distributed in the Triticeae, being found in all species of Elymus sensu lato as well as some species of Thinopyrum. The limits of Pseudoroegneria are not well established, whether it is treated as a genus, as here, or included in Elytrigia(Tsvelev 1976) or Elymus(Melderis 1980). Two species that were originally included have been transferred to Douglasdeweya C. Yen, J.L. Yang & B.R. Baum(Chen et al. 2005), because specimens grown at agricultural experiment stations were found to be StP allotetraploids (Jensen et al. 1992; Wang et al. 1986; Chen et al. 2005). There are also questions concerning the delimitation of species in Pseudoroegneria. For instance, Jensen et al. (1995) suggested that P. spicata, P. strigosa (M.-Bieb.) . Love, P. geniculata (Trin.). Love, P. elytrigioides (C. Yen & J.L. Yang) Bao-Rong Lu, and Roegneria glaberrima Keng & S.L. Chenshould be considered members of a single transberingian species complex. They presented cytological, but not morphological, analyses supporting their conclusion. SELECTED REFERENCES Assadi, M. and H. Runemark. 1995. Hybridization, genomic constitution and generic delimitation in Elymus s.l. (Poaceae, Triticeae). Pl. Syst. Evol. 194:189-205; Dewey, D.R. 1984. The genomic system of classification as a guide to intergeneric hybridization in the perennial Triticeae. Pp. 209-279 in J.P. Gustafson (ed.). Gene Manipulation in Plant Improvement. Plenum Press, New York, New York, U.S.A. 668 pp.; Daubenmire, R.F. 1939. The taxonomy and ecology of Agropyron spicatum and A. inerme. Bull. Torrey Bot. Club 66:327-329; Daubenmire, R.F. 1960. An experimental study of variation in the Agropyron spicatum - A. inerme complex. Bot. Gaz. 122:104-108; Jensen, K.B, S.L. Hatch, and J. Wipff. 1992. Cytogenetics and morphology of Pseudoroegneria deweyi (Poaceae: Triticeae), a new species from the Soviet Union. Canad. J. Bot. 70:900-909; Jensen, K.B., M. Curto, and K.H. Asay. 1995. Cytogenetics of Eurasian bluebunch wheatgrass and their relationship to North American bluebunch and thickspike wheatgrasses. Crop Sci. 35:1157-1162; Melderis, A. 1980. Elymus. Pp. 192-198 in T.G. Tutin, V.H. Heywood, N.A. Burges, D.M. Moore, D.H. Valentine, S.M. Walters. and D.A. Webb (eds.). Flora Europaea, vol. 5. Cambridge University Press, Cambridge, England. 452 pp.; Tsvelev, N.N. 1976. Zlaki SSSR. Nauka, Leningrad [St. Petersburg], Russia. 788 pp.; Voss, E.G. 1972. Michigan Flora: A Guide to the Identification and Occurrence of the Native and Naturalized Seed-Plants of the State, part 1. University of Michigan, Ann Arbor, Michigan, U.S.A. 488 pp.; Wang, R.R-C., D.R. Dewey, and C. Hsiao. 1986. Genome analysis of the tetraploid Pseudoroegneria tauri. Crop Sci. 26:723-727; Yen, C., J.-L. Yang, and B.R. Baum. 2005. Douglasdeweya: A new genus, with a new species and a new combination (Triticeae: Poaceae). Canad. J. Bot. 83:413-419. |