S M I T H S O N I A N C O N T R I B U T I O N S T O B O T A N Y N U M B E R 9 1 Epidermal Features and Spikelet Micromorphology in Oryza and Related Genera (Poaceae: Oryzeae) Edward E. Terrell, Paul M I Peterson, and William P Wergin Smithsonian Institution Press Washington, D.C. 200 1 A B S T R A C T Terrell, Edward E., Paul M. Peterson, and William P. Wergin. Epidermal Features and Spike- let Micromorphology in Oryza and Related Genera (Poaceae: Oryzeae). Smithsonian Contribu- tions to Botany, number 91, 50 pages, 33 figures, 3 tables, appendix, 2001.-Using scanning electron microscopy, this study examines the spikelet morphology of sixteen species of Oryza, one species of Leersia, and one species each of the monotypic genera Porteresia and Rhyn- choryza. A detailed discussion of the spikelet epidermal features and their relationship to the pedicel and cupule is presented. As the pedicel and cupule of species of Oryza are below the point of articulation of the spikelet, have similar epidermal features, and are free from the vas- cular cylinder that proceeds upward (distally) into the spikelet, we conclude that the pedicel cupules are not glumes but are merely expanded apices of the pedicels. An original data set of 14 morphological characters was used to perform parsimony and UPGMA analyses. Of these 14 characters, six describe the lemma, three describe the rachilla, two describe the glumes, two describe the articulation point and callus shape, and one describes the embryo. Our classifica- tion of Oryza recognizes three subgenera: Oryza subg. Oryza; 0. subg. Brachyantha, new combination and status; and 0. subg. Schlechteria, new combination and status. Within subge- nus Oryza we recognize three sections: Oryza sect. Oryza (including 0. ser. Oryza and 0. ser. Latifoliae); 0. sect. Ridleyanae; and 0. sect. Padia. ~ OFFICIAL PUBLICATION DATE is handstamped in a limited number of initial copies and is recorded in the Institution's annual report, Annals of the Smithsonian Institution. SER~ES COVER DESIGN: Leaf clearing from the katsura tree Cercidiphyllum japonicum Siebold and Zuccanni. Library of Congress Cataloging-in-Publication Data Terrell, Edward E. Epidermal features and spikelet micromorphology in Oryza and related genera (Poaceae:Oryzeae / Edward E. Terrell, Paul M. Peterson, and William P. Wergin. p. cm.-(Smithsonian contributions to botany ; no. 91) Includes bibliographical references (p.). 1 . Oryza. 2. Grasses. 1. Peterson, Paul M. 11. Wergin, William P. 111. Title. IV. Series. QKI .S2747 no. 91 [QK495.G4] 580 s4c2I [57 1.3'2491 00-0698 1 1 @ The paper used in this publication meets the minimum requirements of the American National Standard for Permanence of Paper for Printed Library Materials 239.48-1 984. Contents Page Introduction ............................................................ 1 MaterialandMethods .................................................. 2 Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Morphology of Oryza . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Epidermis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Pedicels and Cupules ................................................... 6 Numerical Analyses ..................................................... 10 Spikelets ............................................................ 4 Embryo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Comparative Morphology of Species of Oryza and Related Genera . . . . . . . . . . . . . . . . 7 Characters and Their States . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 UPGMAAnalysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Parsimony Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 ClassificationofOryza .................................................. 11 Appendix : Descriptions of Species Groups of Oryza .......................... 13 Figures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Literature Cited . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 ... 111 Epidermal Features and Spikelet Micromorphology in Oryza and Related Genera (Poaceae: Oryzeae) Edward E. Terrell, Paul M I Peterson, and William P Wergin Introduction The rice genus, Oryza, comprises approximately 22 species distributed in Asia, Africa, Australia, and the Americas. Using scanning electron microscopy this study examines the spikelet morphology of sixteen species of Oryza, one species of Leer- sia, and one species each of the monotypic genera Porteresia and Rhynchoryza. Previous studies have discussed the mor- phology and anatomy of the spikelets of Oryza (von Hohnel, 1875; Van Breda de Haan, 191 1; Akemine, 1913; Graham, 1913; Weatherwax, 1929; Roschevitz, 1931; Santos, 1933; Juliano and Aldama, 1937; Jacques-Felix, 1955; Tateoka, 1962a, 1962b, 1963, 1964, 1965a, 1965b, 196%; Tateoka and Pancho, 1963; Chang and Bardenas, 1965; Nunez, 1968; Roy, 1968; Katayama, 1969). Other papers employed scanning elec- tron microscopy to illustrate parts of the rice spikelet (e.g., Maeda, 1972; Soni and Parry, 1973; Hoagland and Paul, 1978; Zee, 1981) or to describe silica localization in the spikelet tis- sues (Locci and Quaroni, 1975; Yoshida et al., 1962; Garrity et al., 1984). A previous study (Terrell et al., 1983) provided data Edward E. Terrell, research collaboratoc and Paul M. Peterson, De- partment of Botany, National Museum of Natural History, Smithso- nian Institution, Washington, D. C. 20.560-01 66, U.S.A. William R Wergin, Nematology Laboratory, BA RC-East, Beltsville, Maryland 20705, U. S. A. Review Chairman: Dan H. Nicolson. Department of Botany, National Museum of Natural History, Smithsonian Institution, Washington, Reviewers: M. R. Duvall, Department of Biological Sciences. Northern Illinois Universiv, DeKalb. Illinois, 6011.5-2861; S.A. Renvoize, Her- barium, Royal Botanic Gardens, Kew, Richmond, Surrey TW9 2AE. U. K. D.C. 20.560-0166. on the epidermal features of the spikelets of the related genus Leersia. These same features were investigated in the oryzoid genus Zizania by Terrell and Wergin (198 1). Three new species of Oryza were not included in this study because they were unavailable and are thought to be closely re- lated to other species included in this study, so they were not expected to contribute new data. They are Oryza meridionalis N.Q. Ng from Australia (Ng et al., 1981), which appears to be closely related to 0. sativa and 0. rufipogon; 0. rhizomatis Vaughan from Sri Lanka (Vaughan, 1990), said by Vaughan to have the same genome as 0. officinalis and 0. eichingeri A. Peter; and 0. neocaledonica Morat from New Caledonia, ap- parently related to 0. meyeriana (Morat et al., 1994). Other taxa not included in our survey are 0. indandarnanica J.L. Ellis (Ellis, 1985a, 1985b), usually treated as a synonym of 0. meye- riana var. granulata (Vaughan, 1989); 0. glumipatula Steud., usually treated as a synonym of 0. rufipogon (Tateoka, 1963); 0. nivara Sharma & Shastry, considered conspecific with 0. sativa (Duistermaat, 1987); 0. perennis Moench, shown to be a vaguely described name of uncertain application (Tateoka, 1963; Clayton, 1968; Duistermaat, 1987). The purposes of this study are to (1) describe and compare the epidermal features of the spikelets in species of Oryza and related genera, (2) confirm the relative silicon contents of the spikelet structures, (3) investigate the importance of the mor- phological data, using cladistic and phenetic techniques, as suggested by comparative morphology, and (4) determine the taxonomic significance of the comparative morphology of the taxa. In addition, we have provided a provisional classification within Oryza recognizing three subgenera, three sections in subg. Oryza, and two series within sect. Oryza. I 2 MATERIAL AND METHODS The taxa examined in this study include 16 species of Oryza, and species of the following related genera: Porteresia coarc- tata, Rhynchoryza subulata, and Leersia nematostachya (Table 1, which includes authors of scientific names). Specimens were obtained through the United States Department of Agriculture (USDA), Beltsville, Maryland; from the herbarium of the Na- tional Museum of Natural History, Smithsonian Institution (US); from the United States National Arboretum (NA); or from the Royal Botanic Gardens, Kew (K), with the assistance of Stephen A. Renvoize. The designations in Table 1 of IRRI and IITA, refer, respectively, to the International Rice Research Institute, Los Baiios, Philippines, and to the International Insti- tute of Tropical Agriculture, Ibadan, Nigeria. Five accessions of 0. sativa came from the USDA Rice Experiment Station, Crowley, Louisiana. The original source of material, however, was not always known by these institutions. Eight collections of 0. sativa (Table 1) included certain cultivars and other spec- imens designated by USDA P.I. (Plant Introduction) numbers. Two cultivars, ?Blackhull Red? and ?Strawhull Red,? the so- called red rice, considered by rice growers as an unwelcome SMITHSONIAN CONTRIBUTIONS TO BOTANY weed, are herein presumed to be 0. sativa, although they possi- bly include genes from 0. rufipogon. Other examined acces- sions of 0. sativa include the cultivars ?Dawn,? a long-grained rice; ?Nortai,? a short-grained rice; and ?Saturn,? a medium- grained rice. Voucher specimens are deposited in the USDA Seed Collection at Beltsville, Maryland, or in the listed her- baria. All accessions were examined under a dissecting microscope and by scanning electron microscopy (SEM) at the USDA in Beltsville, Maryland. Specimens were air-dried, except for four of the 0. sativa accessions (cv. ?Nortai? and those designated by P.I. numbers). To preserve turgidity in the microhairs of these latter accessions, tissues were chemically fixed in vials containing 3% glutaraldehyde in 0.05M phosphate buffer, pH 6.8 at 22?C. Chemical fixation for 1.5 hr was followed by de- hydration in an ethanol series and critical-point drying from liquid carbon dioxide. Next, the air-dried and the chemically fixed specimens were mounted on stubs, coated with 20 nm of gold-palladium in a Technics Hummer V sputtering device, and viewed in a Hitachi HHS-2R or Hitachi S-530 scanning elec- tron microscope operating at 10-15 kV. Images of all the sam- ples were recorded on Polaroid Type 55 P/N film. TABLE 1 .-Species of Otyza, Porteresia, Rhynchoryza, and Leersiu examined using SEM. The designations IRRl and IITA refer, respectively, to the International Rice Research Institute, Los BaRos, Philippines, and the International Institute of Tropical Agriculture, Ibadan, Nigeria. Species Source Oryza alta Swallen 0. australiensis Domin 0. barthii A. Chev. 0. brachyanfha A. Chev. & Roehr. 0. glaberrima Steud. 0. grandiglumis (DOH) Prod. 0. Iutfolia Desv. 0. longistuminata A. Chev. & Roehr. 0. meyeriana (Zoll. & Moritzi) Baill. 0. meyeriana var. granulata (Nees 0. minuta J. Presl 0. oflcinalis Wall. ex G. Watt 0. punctata Kotschy ex Steud. 0. ridleyi Ho0k.f. 0. rujpogon Griff. 0. satiwa L. cv. Strawhull Red 0. sutiwu L. cv. Blackhull Red 0. sativa L. cv. Dawn 0. satiwa L. cv. Nortai 0. sativa L. cv. Saturn 0. satiwa L. (P.I. 160978) 0. satiwa L. (P.I. 373210) 0. satiwa L. (P.I. 391823) 0. schlechteri Pilg. Porteresia courctata (Roxb.) Tateoka Rhynchoryzu subulata (Nees) Baill. Leersiu nematostuchva Launert &Am. ex G.Watt) Duist. USDA reference collection, Brazil Blake 13641 (K), Queensland IRRI 1001 19, French Sudan; IRRl 100224, Gambia IRRI 101236, Mali; Richard.q 917/ (K), Zambia IITA, TOG5833, unknown source; IITA, TOG7141, unknown Archer 8376 (US), Brazil Standley 89614 (NA), Guatemala IRRI 101199, Cameroun Strain ?1353 (K), N. Borneo, cult., Japan; Meijer 5000/ (US), IRRI 100162, Malaya; Kostermans 1200 (US), Thailand source Sabah; Merrill 7244 (US), Palawan, Philippines IRRI 101 124, Philippines IRRI, CAHUP 17423, Madagascar IRRl 100126, India IRRI 100820, Buwalda 6339 (US), Sumatra Clayton 5933 (US), Sri Lanka USDA,Crowley, LA., U.S.A. USDA, Crowley, LA., U.S.A. USDA, Crowley, LA., U.S.A. USDA, Crowley, LA., U.S.A. USDA, Crowley, LA., U.S.A. USDA, from China IRRI 11481, Japan via USDA lRRl4213, Philippines via USDA Pulle 377 (K), New Guinea IRRI, collected by D. Auch, Bangadesh IRRl 100913, Argentina Simon & Williamson 1987 (K), Zambia NUMBER 91 3 TABLE 2.-Data set for 16 species of Oryza, and three outgroup species. (Character states from page 10; question marks=inapplicable data; - = data missing.) Species 0. sativa 0. barthii 0. glaberrima 0. longistaminata 0. rujpogon 0. alta 0. australiensis 0. grandiglumis 0. latifolia 0. minuta 0. ofJcinalis 0. punctata 0. meyeriana var. meyeriana 0. meyeriana var. granulata 0. ridleyi 0. brachyantha 0. schlechteri Porteresia coarctata Rhynchotyza subulata Leersia nematostachya 2 1 2 2 1 1 1 1 1 1 2 2 1 1 2 1 2 2 1 1 1 1 1 1 2 2 1 1 2 1 2 2 1 1 1 1 1 1 2 2 1 1 2 1 2 2 1 1 1 1 1 1 2 2 1 1 2 1 2 2 1 1 1 1 1 1 2 2 1 1 1 1 1 2 1 2 1 1 1 1 2 2 1 1 1 1 1 2 1 2 1 1 1 1 2 2 1 1 1 1 1 2 1 2 1 1 1 1 2 2 1 1 1 1 1 2 1 2 1 1 1 1 2 2 1 1 1 1 1 2 1 2 1 1 1 1 2 2 1 1 1 1 1 2 1 2 1 1 1 1 2 2 1 1 1 1 1 2 1 2 1 1 1 1 2 2 1 1 1 1 2 1 1 3 2 1 1 3 2 2 2 2 1 1 2 1 1 3 2 1 1 3 2 2 2 2 1 1 2 1 1 3 2 1 1 2 2 2 1 2 2 2 3 1 2 ? ? 1 2 ? 2 2 1 2 1 1 1 2 2 ? ? 3 2 ? 1 2 2 - 1 3 2 1 2 ? ? 1 2 ? 2 1 1 3 1 1 2 3 2 ? ? 2 1 4 2 1 1 1 2 2 ? ? 2 ? ? 1 2 ? 1 2 1 - For energy dispersive X-ray (EDX) analysis, flat specimens, which had been sputter-coated with gold-palladium, were in- serted into the Hitachi HHS-2R scanning electron microscope and tilted to 45 degrees. X-ray mapping and line analysis for silicon were performed at 25 kV with a Kevex 5 100 containing a 30 mm2 Mark V detector. The excitation window was set at 1.62-1.86 KeV. The maps represent X-rays that were collected during a 200 second exposure on Polaroid Type 55 PIN film. A character list and their states, with a discussion and expla- nation, were used in all ensuing numerical analyses (see page 10). The taxa were scored for 14 morphological characters (for data see Table 2). Of these 14 characters, six describe the lemma, three describe the rachilla, two describe the glumes, two describe the articulation point and callus shape, and one describes the embryo. Characters used in the phenetic analysis were incorporated in the cladistic analysis unless they were phylogenetically uninformative. A preliminary unweighted pair-group mathematical average (UPGMA) phenetic evaluation of the morphological variation was made among 16 species of Oryza. The phenetic analysis was carried out with the UPGMA option in phylogenetic analy- sis, using parsimony (PAUP) test version 4d65 (issued 8 April 1999; Swofford, 1993). In the parsimony (PAUP) analyses, files were input in nexus format, using the heuristic search option with tree bisection-re- connection (TBR), mulpars (multiple parsimonious trees) op- tion, and a simple addition sequence. Strict consensus trees were calculated for the overall analysis. Although this tech- nique has been widely criticized (e.g., West and Faith, 1990), it does provide an easy assessment for particular clades within a topology. Only parsimony-informative characters were used in the cladistic analysis. Bootstrap values were calculated using a MaxTrees setting of 100 or more, added sequentially, and are only reported where values are greater than 50% majority rule in the strict consensus tree. Multistate characters were treated as polymorphisms and were scored as unordered. ACKNOWLEDGMENTS We wish to express our thanks to George White, formerly USDA Plant Introduction Officer, Beltsville, Maryland, and to the following persons for providing plant samples: T.T. Chang, N.E. Jodon, A.J. Oakes, and Stephen A. Renvoize. The herbar- ium curators at K and US helpfully provided access to their collections. We thank Christopher Pooley for digitizing the SEM images and for preparing the plates that illustrate this study. Robert H. Miller prepared helphl anatomical sections of 4 SMITHSONIAN CONTRIBUTIONS TO BOTANY lemmas. We especially thank the reviewers of the manuscript for suggesting modifications that improved the manuscript: Melvin R. Duvall, Bao-Rong Lu, Stephen A. Renvoize, and Robert J. Soreng. Morphology of Oryza EPIDERMIS Terminology follows Metcalfe (1960) and Terrell et al. (1983), and we follow Snow (1996) in referring to prickles in- stead of prickle hairs. One of the most conspicuous and common epidermal struc- tures in the spikelets of Oryza are the bicellular microhairs. These have a short basal cell, about one-third to two-fifths as long as the microhair, and a slightly longer apical cell. The lat- ter is especially fragile and frequently breaks off. Microhairs are usually collapsed in air-dried material and are turgid only in critical-point dried material (Figure 2). The living microhairs are filled with fluid, as illustrated for Leersia and Zizania (Ter- rell and Wergin, 1981; Terrell et al., 1983). Although we note differences in the size and shape of microhairs (e.g., Figures 2c, 4c, 16b,d), a much more detailed study of them would be necessary to determine their significance. Prickles are one-celled, rigid, pointed structures that vary greatly in size and shape. They are one of the most abundant and widespread epidermal features of the pedicels and spikelets in Oryza. Prickles are commonly visible with the naked eye where they occur in rows over the nerves and margins of the lemmas and paleas. Under the microscope they are seen to oc- cupy the ridges or the furrows of the lemmas and paleas, and in certain species they may arise from basal plates that are fused with the surrounding tissue (Figure 6) . Silica bodies are siliceous structures firmly embedded in the epidermis. Their shapes vary greatly from 2- to 4-lobed to al- most entire or with irregular sinuses (e.g., Figures 3b, l lb) Sil- ica bodies are primarily found in the rachillas, pedicels, cal- luses, glumes, and lemma apices. Stomata occur in certain parts of the spikelets and in pedicels (e.g., Figure 2 b , 4 but are commonly absent from the main parts of the lemmas and paleas. Papillae occur in all species on most parts of the spikelets. They are usually small rounded structures but can be large (e.g., Figures 2d, 6 , 9 ) , and their apices may have minute pores. Tubercles are specialized, siliceous, 1 - to 4-pronged struc- tures that form the most conspicuous elements of the lemma and palea (e.g., Figure 4). They provide a formidable armor unique to Oryza. The tubercles are further described in the sub- sequent section. We found a few, scattered, large, 3- or 4-celled hairs in 0. sa- liva cultivars ?Nortai? and ?Saturn.? They occurred in the lemma furrows among the usual appressed two-celled micro- hairs, with which they contrasted in being larger and ascending or erect. They were distributed randomly-near or along the lemma margins and appeared to replace microhairs. Jacques- Felix (1955) alluded to the presence of such hairs on the lem- mas of 0. glaberrima, a species closely related to 0. saliva. SPIKELETS Parts of the spikelet examined included the callus, the oryzal rachilla, the paired glumes (sterile lemmas), lemma, palea, api- cular knobs, and awns. Above the point of articulation of the spikelet is a thickened, indurate structure, referred to as the cal- lus. It sometimes bears silica bodies and/or stomata. Within Oryza we define the callus as extending from the point of artic- ulation of the spikelets to the base of the first and second glumes. In species of Oryza, there is considerable variation in the size of the callus, and it is usually fused with the glume bases. In 0. brachyantha and Leersia nematostachya, the un- usually large callus, in the absence of a stipe or rachilla, forms a solid, indurate, homogeneous structure extending from the spikelet base to the base of the lemma (Figures 21, 28). We re- fer to this as a stipitate callus (term suggested by W.D. Clayton in 1983 and communicated to Terrell in correspondence with S.A. Renvoize). The pedicel cupules, sometimes considered to be glumes, are discussed in the subsequent section. We consider the true glumes to be the paired, rigid, often lanceolate structures (?sterile or empty lemmas?) below the lemmas. Each glume has one vascular bundle. These glumes are further differenti- ated from the pedicels and spikelet parts by having few or no epidermal features, usually only prickles, scattered silica bod- ies, or scattered microhairs (e.g., Figures 36, 96, lob) . The glumes differ further from other parts of the spikelet by their position and shape, and they resemble the glumes of other grass tribes and genera because they are opposite each other or, in some species, somewhat offset from or alternate with each other. The structure generally called the rachilla in Oryza (e.g., Graham, 1913; Chang and Bardenas, 1965) is in the same posi- tion relative to the lemma that the rachilla occupies in some other grass tribes. In these other grasses, however, the rachilla is usually very slender or filiform and appears to be pedicel- like or stipoid. In 0. sativa and related species, this structure is somewhat subglobose (e.g., Figure 3 ) , and its surface is densely covered with small projections rather similar to the much larger tubercles on the lemma and palea. We refer to this condition as a muricate rachilla. The projections on the muri- cate rachillas are jumbled and locally coalesced (Figure 3c), in contrast to the orderly rows of tubercles in the lemmas and paleas. A few microhairs occur on the rachilla in certain spe- cies. In species of Oryza not closely related to 0. saliva, the rachilla surface is not muricate and instead has silica bodies or lacks conspicuous epidermal features. These species (espe- cially 0. meyeriana and 0. ridleyi) usually have cylindrical or broadly cylindrical rachillas (Figures 16a. 19c). We herein re- fer to both kinds of rachillas as oryzal rachillas because they are unlike the stipoid rachillas seen in other kinds of grasses. NUMBER 91 5 Whether all of these grass rachillas are homologous remains to be determined. The principal parts of the Oryza spikelet are the lemma and palea that are attached along their overlapping margins. The lemma is always larger, but the lemma and palea are identical in epidermal morphology. The palea has three nerves rather than two, as is usual in grasses, and several authors (e.g., Nunez, 1968) have discussed the origin and homology of the Oryza palea. We have not explored this problem and tentatively con- tinue to use the term palea. The lemma and palea of 0. sativa and closely related species bear large and conspicuous siliceous tubercles arranged in vertical tiers and horizontal rows that al- ternate with longitudinal furrows (e.g., Figure 4), resulting in one of the most remarkably specialized epidermal surfaces in the grasses. The tubercles usually have 1 to 4 conspicuous api- cal prongs. They may be apically shriveled or with terminal pores. Tubercles show considerable variation in size and shape, sometimes are dotted with papillae (e.g., 0. glaberrima; Figure 9 4 , and may have coalescent basal plates that intrude into the adjacent furrows (e.g., 0. meyeriana; Figures 16, 18). The fur- rows are lined with appressed microhairs, with one microhair attached opposite each tubercle (Figure 4). At intervals the mi- crohairs may be replaced by relatively large prickles. The anatomical and morphological features of the lemmas and paleas were briefly described by Kihara and Katayama (1959) and Katayama (1969). They also mentioned differences in the tubercles among four sections of Otyza and credited Ro- shevitz (193 1) with previously recognizing the taxonomic im- portance of lemma surfaces in Oryza. We used energy dispersive X-ray (EDX) analysis to chart the presence of silicon in the tubercles (Figure 5). A line scan shows the highest concentrations of silicon in the apices of the tubercles, whereas a line scan that intercepts the microhairs elsewhere or in the furrows showed less or no silicon. The X- ray map also illustrated the high silicon concentrations in the tubercles. The apices or apiculus of the lemma and palea differ from the main body of the lemma and palea (Graham, 1913; Chang and Bardenas, 1965). The tubercles near the apices are jumbled and coalesced with each other (Figure 6) and occur with micro- hairs, prickles, and stomata (stomata are lacking in the main body of the lemma). Some prickles of the lemma and palea api- ces have large, plate-like bases that fuse or coalesce and the pa- pillae may be numerous. Oryza sativa and related species have two small, knob-like swellings situated on the apiculus of the lemma near the base of the awn (Figures 6, 7). These knobs were described by rice specialists (Chang and Bardenas, 1965) and are said to be the termini of the lateral nerves of the lemma (Launert, 1965). Roy (1 968) found that the nerves of the lemma converge and interconnect in the apicular region and continue into the awn. He proposed the term ?apicular node? to designate the apicular region where interconnection of vascular elements take place (1968: 10). He did not clearly designate a term for the external, knob-like structures, and we herein refer to them as apicular knobs. SEM micrographs show that the api- cular knobs and the adjacent lemma and palea apices have the same surface epidermal features (Figure 6). We found that api- cular knobs occur only in the five species of the 0. sativa group (0. barthii, 0. glaberrima, 0. longistaminata, 0. ruji- pogon, and 0. sativa) and in 0. brachyantha. They were not found and are believed to be absent in the other species of Oryza. This characteristic is sometimes very hard to interpret, however, and because we were unable to make an unambigu- ous determination of presencelabsence in all species of this study, it was omitted from the numerical analyses. Awn anatomy in 0. sativa was described by Juliano and Al- dama ( I 937). SEM views of awns appeared in Maeda (1 972) and in Hoagland and Paul (1 978). Roy (1 968) described and il- lustrated details of awn anatomy in three species of Oryza and found that their awns had a single, ventral, vascular bundle. Otyza sativa and 0. australiensis have two groups of phloem and one of xylem; however, 0. brachyantha has two groups of phloem and two of xylem. Roy (1 968) considered the latter species to have the plesiomorphic state. Awns occur in most of the species of Oryza but are absent in the 0. meyeriana complex and in 0. schlechteri. They may or may not be present in 0. sativa. In the 0. sativa group (0. bar- thii, 0. glaberrima, 0. longistaminata, 0. ru$pogon, and 0. sativa) and in 0. brachyantha, the bases of the awns show a clear demarcation in epidermal features from the adjoining lemma apices (Figure 22c). In the 0. latifolia group (0. alta, 0. australiensis, 0. eichingeri, 0. grandiglumis, 0. latifolia, 0. minuta, 0. oflcinalis, and 0. punctata), there is no such de- marcation other than sometimes a diminution in the density of prickles on the awns. Whether this demarcation in the 0. sativa group is correlated with the presence of apicular knobs remains to be determined. The epidermal features present on awns are listed in the indi- vidual descriptions and are shown in several micrographs (e.g., Figure 7). Commonly, awns have prickles, microhairs, and sometimes silica bodies and stomata. Awns in two cultivars of red rice (0. sativa) have prickles and microhairs only. The api- ces of awns generally vary from smooth (with reduced rounded to truncate swellings) to covered with projecting prickles. EMBRYO Tateoka (1964) investigated the embryo structure of species of Oryza and recognized three types in cross section. In type 1 the epiblast is fused with the lateral parts of the scutellum, and only the uppermost part is free from attachment. This type also has auricles between the epiblast and the coleoptile. Tateoka in- cluded all of the species of the 0. sativa group (0. barthii, 0. glaberrima, 0. longistaminata, 0. rujipogon, and 0. sativa) in type 1. In type 2 there is no auricle and the epiblast is seen as distinct. This type includes 0. brachyantha, 0. meyeriana, and 0. ridleyi. In type 3 there is a cleft between the scutellum and coleorhiza, an auricle is lacking, and the epiblast is very long 6 SMITHSONIAN CONTRIBUTIONS TO BOTANY and separate from the scutellum. This type is found only in Porteresia coarctata, a genus closely related to Oryza. PEDICELS AND CUPULES The apices of Oryza pedicels are expanded to form cupules that are often bilobed (Figures 2c, 12b). The structure of these lobed cupules in Oryza drew the attention of the eminent agros- tologist Otto Stapf, who believed them to be glumes. The op- posing concept considers the glumes to be the distinct paired structures, in the past called sterile or empty lemmas, located above the articulation point and closely resembling the conven- tional glumes of other grasses. J.D. Hooker (?Hook.f.?), contributor of Gramineae to the Flora of British India (1 896), described the pedicels of Oryza as being annular (ring-shaped) at the apex, and ?Glumes I and 11? as being what have since been called the sterile lemmas; thus, Hooker originally had a conventional concept of the glumes. Hooker (1900: 182) later contributed the Gramineae for Tri- men?s work on the flora of Ceylon, but in this case he provided data from Stapf, as follows: ?Dr. Stapf, who has made a careful study of the morphology of the spikelets of Oryza, informs me that it consists theoretically or normally of 5 glumes, of which the two lowest are very minute, are confluent with the tip of the pedicel, and rarely discernible. The spikelet is hence only ap- parently articulate with the pedicel, the real articulation being above these two suppressed glumes. The two following glumes, also empty, are always minute, and one, or rarely both, are sometimes suppressed.? During the same year Stapf (1900) con- tributed the Gramineae to the Flora Capensis. Oryza is absent from the Cape region, but Stapf (1900:659) described the closely related genus Leersia as having ?glumes reduced to an obscure hyaline entire or 2-lobed rim.? Stapf (19 17:22) stated the following in the tribal and generic key to Oryzeae and Oryza in the Flora of Tropical Africa (the Gramineae were never com- pleted beyond genus 101; Oryza was genus 147): ?Glumes very minute or confluent into an annular rim or suppressed.? Subsequently, authors have variously accepted or rejected Stapf?s concept of the glumes in Oryza. Weatherwax (1929:548), in a detailed study of the spikelets of the Oryzeae, considered the glumes of Oryza to be the conventional, glume- like, sterile lemmas. He believed that the lobed sides of the end of the pedicel ?possibly represent bractlets, and they are some- times sufficiently elongated to be mistaken for glumes. The true glumes are above the articulation.? Santos (1 933) provided a detailed study of the morphology of 0. sativa and had a con- cept like that of Weatherwax. The most influential proponent of Stapf?s concept was the eminent botanist Agnes Arber. In her book (Arber, 1934) she diagrammed a cross section of a spikelet of 0. sativa and claimed that Stapf?s concept was correct. She incorrectly cited Stapf?s contribution as the Flora of Tropical Africa in 1898, a listing that has confused a number of later authors. Another in- fluential botanist, the Kew agrostologist C.E. Hubbard (1934), accepted Stapf?s interpretation of the structure of the glumes and sterile lemmas. He described the spikelets of 0. australien- sis as having glumes larger and more distinct than any other species of Oryza. His measurements showed the glumes to be 0.5 to 0.8 mm long, whereas the sterile lemmas were 1.5 to 2.5 mm long. Michaud (1944) described abnormalities in the spikelets of 0. sativa resulting in duplication of fertile lemmas and loss of sterile lemmas. These abnormalities bear mainly on the prob- lem of the origin of the lemma and palea and are open to alter- native interpretations. Backer (1946) opposed Stapf?s theory by claiming that the pedicel cupules were nothing more than the expanded ends of the pedicel. He pointed out the existence of an andropogona- ceous grass, Asthenochloa Buse, that has a cup-shaped termi- nus on each branch, with a structure similar to that of species of Oryza. Backer (1946) mentioned other grasses with cup-shaped pedicel tips: Rhynchelytrum Nees (Paniceae), Garnotia Brongn. (Arundinelleae), and Cyathopus Stapf (Aveneae). Chatterjee (1948), on the other hand, reviewed the previous literature and accepted Stapf?s concept as correct. De Winter (1 95 1) in treating the oryzaceous genus Potamophila R. Br. also accepted Stapf?s concept. In the South African species I! prehensilis (Nees) Benth., De Winter described reduced glumes forming a small entire or bilobed hyaline cup. Schweickerdt and Marais ( I 956) presented an extensive study of abnormal spikelets in 0. barthii, including abnormalities in the pedicel apices as well as in the spikelets. Like the work of Michaud (1944), this study of abnormalities is subject to more than one interpretation and involves the origin of the oryzal lemma and palea. Pyrah ( 1 969), in a revision of Leersia, tentatively ac- cepted Stapf?s concept, but stated that more evidence was needed. In connection with aberrant spikelets, we call attention to 0. grandiglumis (Figure 14), a South American species having two extra bracts below the lemma and palea and lacking ?ster- ile lemmas.? The two extra bracts bear tubercles, so they are considered to be extra lemmas. This species needs further study. Our study of three species (0. sativa, 0. grandiglumis, and 0. meyeriana) shows that the epidermal features present on their pedicels and cupules are microhairs, prickles, silica bod- ies, stomata, and papillae (Figures 2, 12). The relative abun- dance of a particular epidermal feature may vary locally; thus, the sides of cupules may have aggregations of microhairs (Fig- ure 2). The cupules and their pedicels possess essentially the same features and differ only in the relative abundance of fea- tures. End views of the cupules show a thin cup of tissue sur- rounding, but free from, a central cylinder of vascular tissue (Figure 12b). Because the vascular cylinder is free from the surrounding cupule and prior to abscission passes upward into the spikelet, we conclude that the cupule, whether lobed or not, may function only as part of the support for the spikelet. We suspect that there are no separate, small, vascular bundles in the cupule. The diagram of Arber (1934: 185, fig. 88, D2) des- ignates the outer empty glume 1 (one of the two cupule lobes) NUMBER 91 as ?non-vascular except for small bundle at side of base.? It is difficult, however, to see where this bundle is located in the di- agram. It is clear, however, that each sterile lemma has one vas- cular bundle. We also examined the cupules of 0. australiensis and found them to be slightly larger than in other species (as noted by Hubbard, 1934) and bent or somewhat reflexed. We consider this a difference in degree, which does not change our conclu- sions based on other data. In previous investigations of the spikelets in Leersia (Terrell et al., 1983), the expanded end of the pedicel was considered as merely a cup-shaped pedicel apex. Recent examinations (in 1998) of several species of Leersia show that the cupules are often about 0.15 to 0.3 mm wide, with rims rounded or trun- cate, and sometimes slightly undulate. Leersia lenticularis Michx. cupules are more flattened and expanded and are ob- scurely bilobed. Other observations show that Leersia cupules are like those of Oryza, where the surrounding cupule is free from the central vascular cylinder. Leersia lacks sterile lemmas (true glumes). We found minute knobs on the calluses of the spikelet in Leersia as well; whether these are rudimentary rem- nants of the glumes remains to be determined. In the oryza- ceous genus, Zizania L., glumes are lacking, and the cupules of the pedicels are conspicuously expanded, unlobed, and larger than in Oryza and Leersia. In the pistillate branches the pedicel apices are as wide as 1.2 mm (Terrell et al., 1997). Expanded cupules are known to occur in other grass tribes, as noted by Backer (1 946, see above). The following four points summarize our view of the nature of glumes in the Oryzeae: (1) the pedicel and its cupule are be- low the point of articulation of the spikelet and are therefore not part of the spikelet at all; (2) the pedicels and their cupules have the same kinds of epidermal features, and the cupules are not sufficiently differentiated from the contiguous pedicels to be a distinct structural entity; (3) the cupules, whether lobed or not, are free from the vascular cylinder that proceeds upward (distally) into the spikelet, and therefore serve only as part of the support of the spikelet; (4) Leersia, Zizania, and Potamo- phifa (de Winter, 195 1) also have expanded pedicel apices, al- though rarely lobed. If cupules are sometimes lobed, this sug- gests to us that they are simply following the basic tendency of stems/pedicels to branch dichotomously. We therefore con- clude that in Oryza the pedicel cupules are not glumes but are merely the expanded apices of the pedicels, and all subsequent references to glumes are based on these conclusions. Comparative Morphology of Species of Oryza and Related Genera The Oryza sativa group includes about 13 species native to Asia, Africa, Australia, or South America. The main part of the 0. sativa group includes the type species, 0. sativa, which is also the best-known species because of its worldwide cultiva- tion as one of the three most important crops. We recognize four other species in this main part, 0. barthii, 0. glaberrima, 0. longistaminata, and 0. rufipogon. Oryza barthii includes 0. breviligulata A. Chev. & Roehr. (Clayton, 1968) and 0. stapfii Roshev. (Tateoka, 1963). As noted by Vaughan (1989), the tax- onomic relationships among these species need further study. The epidermal features and spikelet structure of 0. sativa are illustrated in Figures 1-7, and the remaining four species of this group are illustrated in Figures 8-1 1. The five species have a general basic morphology that provides a standard of com- parison for the remaining species of the genus. They have the 0. sativa type of spikelets showing a characteristic array of characters: large globose rachillas bearing muricate projec- tions; furrowed lemmas and paleas with 1- to 4-pronged tuber- cles arranged in an orderly pattern of tiers and rows on the ridges of the lemmas; lateral articulation points (scars); lan- ceolate glumes; and type 1 embryos, as recognized by Tateoka (1 964). The second part of the 0. sativa group is designated as the 0. latifolia group, and includes 0. alta, 0. australiensis, 0. eich- ingeri, 0. grandiglumis, 0. latifolia, 0. minuta, 0. officinalis, and 0. punctata (Figures 12-1 5 ) . Tateoka (1 962a,b, 1964, 1965a,b) intensively investigated this group. The African spe- cies, 0. eichingeri, was not included in our study, but it is clearly closely related to 0. punctata and 0. officinalis (Tateoka, 1965). Oryza officinalis was included in our study, although it is sometimes placed in synonymy under 0. minuta (Duistermaat, 1987). Oryza australiensis appears to belong to this group because it has similar morphological characteristics. The 0. latifolia group is generally very similar to the main part of the 0. sativa group in the features of the lemma and other spikelet parts and differs only in having the following characteristics: (1) although muricate, the rachillas are small to rudimentary compared to the large globose ones in the 0. sa- tiva group; (2) the point of articulation is horizontal or slightly oblique and the glumes are more or less opposite each other; and (3) the apicular knobs are absent or rudimentary. Oryza meyeriana (Figures 16-18) was placed in section Granulatae by Roshevitz ( 1 93 l), but this has been superseded by the earlier section Padia. Sectional ranking appears fully justified because of the distinctive morphological differences. Oryza meyeriana includes two varieties (Duistermaat, 1987), var. meyeriana (from Malesia) and var. granulata (from India, Thailand, Malesia, Southeast Asia). Duistermaat (1 987) distin- guished these varieties by the lengthlwidth ratios of the spike- lets and caryopsis size. Tateoka (1962b) treated these as sub- species and also recognized 0. meyeriana subsp. abromeitiana (Prod.) Tateoka, treated by Duistermaat (1987) as a synonym of 0. meyeriana var. meyeriana. Our sampling of this taxon includes two collections of each variety (Figures 16-18) and a fifth collection, which appears to be intermediate between the two varieties. The collections of 0. meyeriana var. meyeriana have thick, indurate rachillas, whereas the collections of 0. meyeriana var. granulata have non-indurate rachillas that appear wrinkled and somewhat 8 SMITHSONIAN CONTRIBUTIONS TO BOTANY compressed. These characters were not described by Duister- maat, and whether the presence or absence of indurate rachilla bases has taxonomic significance is a question beyond the scope of this paper. The most conspicuous feature of the lemmas of 0. meyeri- ana is the presence (in both varieties) of numerous complex tu- bercles centered over the furrows (Figures 16, 18). These tu- bercles are complex in having a sharply pointed, sometimes oblique or bent spine or prong, completely fused with the densely papillate or tuberculate adjacent base tissue. The tuber- cles are fused from one furrow to the next. The over-furrow po- sition of the central spine suggests that a well-developed prickle forms the central part of the complex tubercles. These tubercles differ from those of the Otyza sativa group in having an over-furrow position and a more complex fused structure. They render the lemma of 0. meyeriana (especially 0. rneyeri- ana var. granulosa) even more spiny than the lemmas of the 0. sativa group. Oryza meyeriana is characterized by glumes that are linear or subulate and only slightly longer than the rachilla (Figures 16, 17). Also, the glumes are somewhat offset from each other. Below the glumes is the base, including the callus, that bears stomata. Above the glumes are the short, broad, indurate or wrinkled rachillas bearing rounded silica bodies. The lemma and narrower palea lack awns and have merely short obtusely pointed apices that seem to lack apicular knobs. In summary, the spikelets of 0. meyeriana differ strongly from those of the Otyza sativa group as follows: (1) glumes are short and linear or subulate, not lanceolate; (2) the rachillas are not muricate and bear silica bodies; (3) the tubercles are posi- tioned over the furrows instead of between the furrows; (4) the tubercles are larger and more complexly fused; (5) lemma api- ces lack apicular knobs; (6) the lemma and palea lack awns; and (7) the shape of the spikelet is more or less elliptical, with a blunt apex, which is quite unlike that of the 0. sativa group. Oryza ridleyi (Figures 19, 20) is native to Southeast Asia, Malesia, and New Guinea (Duistermaat, 1987). Oryza longi- glumis Jansen (from Papua New Guinea) was not included in our study because of its similarity and close relationship to 0. ridleyi. The shape of the spikelets in 0. ridleyi is somewhat similar to that of the Otyza sativa group and differs from the el- liptical spikelets in 0. meyeriana. Oryza ridleyi lemmas also have conspicuous awns (Figure 19), whereas 0. meyerianu has none. The linear or subulate glumes are somewhat offset from each other (Figure 19) and are unequal in length, with the longer one being as much as four-fifths as long as the spikelet. This species and 0. longiglumis have the longest glumes in the genus (except possibly for 0. sativa cultivated varieties and 0. glaberrima). Above the glumes is a subcylindrical and indurate rachilla sometimes thickly beset with silica bodies. One sample of this species had an attached pedicel with a bilobed cupule, as is typical of other species of Otyza. The lemma and somewhat narrower palea are beset with tu- bercles (Figure 20), which, like those of 0. meyeriana, are po- sitioned over the furrows. The tubercles differ, however, from those of 0. meyeriana because they are simple and not com- plex. Prickles in rows also may occur on the lemmas and paleas and sometimes are modified to resemble the tubercles. Some of the papillae on the long cells may be enlarged and have apical pores (Figure 20b). The lemma and palea margins in our sam- ples are ciliate with stiff prickles. The lemmas end in an awn, and the palea has only a short, awn-like point. The awn bases and palea tip bear prickles, stomata, and microhairs, but the ends of awns are so thickly beset with prickles that little else is visible. Tateoka (1 964) found that both 0. meyeriana and 0. ridleyi have type 2 embryos, but the several differences noted herein outweigh these similarities between the two species. Roshevitz (1 93 1) placed 0. ridleyi with 0. coarctata Roxb., 0. brachyan- tha, and 0. fongigfurnis. Tateoka (1 964) and subsequent au- thors have accepted the recognition of 0. coarctata as a distinct genus, Porteresia. Tateoka (1 964) placed 0. ridleyi, 0. brachy- antha, and 0. longiglumis in a new section, Ridleyianae. Otyza brachyantha (Figures 2 1, 22) is native to West Africa, Congo, Sudan, and Zambia (Clayton, 1968). I t has narrow spikelets with very long (to 17 cm) awns that differ from con- ventional awns in having two groups of xylem instead of one (Roy, 1968). The stipitate callus is very large, indurate, and ho- mogeneous and is h sed with the glume bases and extends from the spikelet base to the lemma base (Figure 21a). Its surface has silica bodies. The glumes are strongly offset from each other, one arising near the spikelet base, the other from the up- per part of the callus. Just below the second glume is a lateral articulation point. A rachilla is lacking. The glumes are linear, quite unequal in length, and less than one-half as long as the lemma. Our samples did not have any conspicuous epidermal features. The lemma is much wider than the linear palea, lacks tubercles, and has microhairs, prickle hairs, and sometimes nu- merous papillae. There are large apicular knobs. Although Tateoka (1964) included 0. brachyantha with 0. ridleyi in section Ridleyianae. comparison of 0. brachyantha with other species of the genus show the following important characteristics: (1) strongly offset glumes; (2) very large, stipi- tate callus; (3) lemmas that lack tubercles, (4) absence of a rachilla; and (5) the presence of very long awns. These charac- teristics distinguish 0. brachyantha as forming a distinct sub- genus in Oryza. The resemblance and relationships of 0. brachyantha and Leersia nematostachya are discussed under the latter taxon. Oryza schlechteri (Figure 23) is native to northeastern New Guinea. The species is rare and is represented by very few her- barium specimens (Vaughan, 1989). It is a tufted perennial less than one meter tall, with a short panicle and muticous spikelets only about 1.75 to 2.15 mm long (Duistermaat, 1987; Vaughan, 1989). The base of the spikelet is small, fused with the glumes, and bears silica bodies. The two glumes (sometimes only one) are subopposite, lanceolate, short, unequal, and bear papillae, prickles, and silica bodies. A rachilla is lacking. The palea is much smaller than'the lemma but is similar to it in texture. The distal half of the lemma has conspicuous furrows with micro- hairs and prickles (along the distal midnerve) but lacks silica bodies or tubercles. The basal one-fourth to one-half of the NUMBER 91 9 lemma lacks furrows, is entirely smooth, and bears conspicu- ous silica bodies. The apices of the lemma and palea are ob- tuse, and with coalesced stomata, microhairs, and reduced prickles. Apicular knobs and awns are lacking. The small ovate spikelets of 0. schlechteri resemble those of Leersia in their shape and small size but differ in having a pair of glumes. Spe- cies of Leersia, besides lacking glumes, have lemmas with sili- ceous triads consisting of a central silica body flanked by a tu- bercle on each side (Terrell et al., 1983). One species, Leersia lenticularis Michx., has silica bodies but lacks lateral tubercles; in all other characters it is typical of Leersia. In 0. schlechteri the ?upper? (distal) furrowed parts of the lemma entirely lack silica bodies and tubercles, but the more basal smooth parts of the lemma have silica bodies without accompanying tubercles (Figure 23c). Thus, the lemma of 0. schlechteri exhibits char- acters of both Leersia and Oryza. After comparing 0. schlechteri to species of Leersia and Oryza, Naredo et al. (1 993) concluded that the presence of a glume (their material had only one) and the absence of triads on the lemma indicated that the species belonged in Oryza. We agree with this conclusion, although we point out the occur- rence of silica bodies on the basal parts of the lemma in 0. schlechteri. Oryza schlechteri may represent an evolutionary stage some- what intermediate between Leersia and Oryza, but with a pre- ponderance of Oryza characters. We suggest its placement in a distinct subgenus of Oryza. Porteresia is a monotypic genus and is represented by Porter- esia coarctata, a species native to southern Asia. Porteresia co- arctata, originally described as an Oryza. was shown by Tateoka (1964, 196%) to be distinct from Oryza in having a large caryopsis with a bent apex, a large embryo, and short, pet- iolar, basal attachments. He described unusual characters in the leaf blades, such as the occurrence of two superposed bundles in each rib, air spaces within the mesophyll, and papillae with bifurcate tips (see also Clayton and Renvoize, 1986). Cope (1982) described I? coarctata as having extensive rhizomes and culms to two meters tall. He also noted that it forms dense mats at the mouth of the tidal Indus River in Pakistan and that it also occurs in India and Burma. Other authors have provided addi- tional general data for this unique taxon (Dikshit et al., 1993). The spikelets (Figures 24, 25) are narrowly oblong to nar- rowly ovate, 12 to 15 mm long (including the awn), and ob- liquely articulated with the pedicel. Our observations indicated that the unique callus is expanded as a rigid, transversely nar- rowed disk bearing silica bodies. The glumes are somewhat offset, linear, subequal, one-third as long as the spikelet, and lack apparent epidermal features. A rachilla is lacking. The lemma has a thin, wing-like portion. The palea is linear and al- most as long as the lemma. The lemma has prominent long cells and lacks furrows. Tubercles also are lacking, but the lemma has small microhairs, stomata, and papillae. The lemma apex bears a rigid awn about 4 mm long, with microhairs and stomata. Apicular knobs are lacking. These distinctive spikelet features, along with other unique characteristics, lend support to recognition of this taxon as a separate genus. Rhynchoryza is a monotypic genus that is represented by R. subulata. The species (Figures 26, 27) is native to Argentina, Brazil, Paraguay, and Uruguay. Its spikelets have several mor- phological features that set it apart from the Oryza species. The large spikelets are long and narrow, about 3.5 to 5 cm long, in- cluding the long awns. The base below the glumes has a solid, rounded, small callus bearing silica bodies. There is a horizon- tal or slightly oblique articulation point. The glumes (only 1 to 3 mm long) are opposite, somewhat ovate, and with two to a few acutely pointed lobes with conspicuously large marginal prickle hairs. The surface of the glumes has microhairs, papil- lae, and silica bodies. A rachilla is lacking. The lemma and palea are markedly unequal in size and shape. The palea is lin- ear, shorter than the lemma, and with smaller tubercles. The long, narrow lemma has two sections. The basal half is coria- ceous and lacks furrows, but it bears rows of rounded mammi- form tubercles with pointed, withered apices. Also present are few and scattered microhairs and prickle hairs, along with pa- pillae. The distal half of the lemma is chartaceous or somewhat soft and lacks tubercles but has microhairs, papillae, prickles, silica bodies, and unusual stomata conspicuously bordered by four papillae (Figure 27). The lemma tapers gradually into an awn (-2.5 cm long) bearing microhairs and prickles. Apicular knobs are lacking. Clayton and Renvoize (1986:72) described the distal section of the lemma as a ?conical herbaceous beak composed of aerenchyma with transverse septa.? This consti- tuted a ?flotation device built into the spikelet.? Rhynchoryza subulata is so distinctive in relation to other species of Oryza that no one is likely to question its generic status. Launert (1 965) surveyed the African species of Leersia and noted that three of the species were difficult to assign to either Leersia or Oryza. These were Leersia perrieri (A. Camus) Launert, L . tisserantii (A. Chev.) Launert, and L. nemato- stachya Launert (formerly L. angustifolia C.E. Hubb.). The first two of these were found later to have siliceous triads like all other species of Leersia and were similar in other character- istics with Leersia (Terrell et al., 1983). The third species, how- ever, lacks siliceous triads. Hubbard (1 95 1) and Launert (1 965) noted the resemblance between Leersia nematostachya and Oryza brachyantha. Both species have very long slender awns (to 18 cm) and narrow spikelets with large indurate stipitate calluses (bearing numer- ous silica bodies) extending from the base of the spikelet to the base of the lemma. We contrasted other characters in this spe- cies with those of 0. brachyantha. Laersia nematostachya grows in Zambia and Angola ?in shallow laterite pans? and has delicate growth and convolute filiform leaves (Launert, 1965:131); in these respects it is uncharacteristic of species of Oryza. Leersia nematostachya (Figures 28,29) lacks glumes, has silica bodies in the lemmata1 furrows, lacks apicular knobs, and has chartaceous, irregularly angular awns (termed pseudo- awns by Launert, 197 1) with three vascular bundles. In con- 10 SMITHSONIAN CONTRIBUTIONS TO BOTANY trast, 0. brachyantha has two glumes, lemmata1 furrows lack- ing silica bodies, large apicular knobs, and coriaceous terete awns with one vascular bundle. Launert (1 965) noted that three nerves entered the awn in those Leersia species having awns or awn-like extensions, whereas in Otyza species two of the lat- eral nerves end in the apical region, and only one nerve enters the awn. In addition, Launert found that the anatomical charac- ters of the leaves in L. nematostachya were similar to those in other species of Leersia. Thus, the characters of L. nema- tostachya are predominantly those common to other species of Leersia, despite some resemblance to 0. brachyantha. Within Leersia the closest relatives to L. nematostachya are L. perrieri and L. tisserantii. Numerical Analyses CHARACTERS AND THEIR STATES.-l. Spikelet articulation position: 1 =horizontal or slightly oblique; 2=lateral. The point of articulation is located just below the glumes. In the lat- eral state (2) the articulation point is off to one side but still be- low the upper glume. 2. Callus shape: 1 =rounded; 2=stipitate; 3=discoid. In Oryza the callus extends from the point of articulation of the spikelets to the base of the first and second glume, sometimes fused with the glume bases. At the base of the spikelet the small and rounded shape (1) is common in the 0. Iatifolia group. In 0. brachyantha and Leersia nematostachya the stipi- tate callus (2) forms a solid, indurate, homogeneous structure extending from the spikelet base to the base of the lemma. The callus here is extended and massive. The discoid callus (3) is a laterally expanded disk found only in Porteresia. 1 =opposite; 2=slightly or somewhat offset (alternate); 3=strongly offset. In state three the glumes are separated by a considerable distance seen only in 0. brachyantha. Although somewhat subjective, position of the glumes is consistent and useful in separating the species. 1 =linear or subulate; 2=lanceolate or narrowly lanceolate; 3=irregularly hastate or broadly ovate. State two is defined herein as widest near the base. 1 =present; 2=absent. The Oryza type of rachilla is of three types (see character 6) and not slender, fili- form, pedicel-like, or stipoid as in most other grasses. The presence of a rachilla is found in members of subg. Oryza. 1 =subglobose (large, 0.5-2 mm long); 2=subglobose/rudimentary (small, 0.1-0.4 mm long); 3=cy- lindrical or broadly cylindrical. The 0. sativa group is charac- terized by a large subglobose rachilla (1) whereas the 0. latifo- lia group has a smaller subglobose/rudimentary rachilla (2). In 0. ridleyi and 0. meyeriana the rachilla is elongated, either cy- lindrical or broadly cylindrical (3). This character is inapplica- ble in 0. brachyantha, 0. schlechteri, and all outgroups be- cause a rachilla is absent. 7 . Rachilla muricate: 1 =present; 2=absent. These small, numerous projections are pointed, rounded or somewhat obtuse 3. Glume position: 4. Glume shape: 5 . Rachilla: 6 . Rachilla shape; and are considerably smaller than lemma tubercles. Tubercles are larger and more prominent on the lemma and palea. The presence of a muricate rachilla is seen only in sect. Oryza. 1 =present; 2=absent; 3=absent only on the basal portion. Lemma furrows are folds in the epider- mis/cuticle that run parallel with the keel and veins. Character state three is retained here to emphasize the unique feature of 0. schlechteri where the furrows are absent on the basal one- fourth to one-half of the lemma. 1 =present; 2=absent. These irregu- larly shaped structures have been found to contain high levels of silica. The tubercles are arranged in distinct rows in four major shapes (see character 10). This is an important character found in all members of subg. Oryza. 1 = 1 - to 4-pronged on ridges; 2 = 1 -pronged on furrows; 3 =complex on furrows; 4=scattered mammiform. A pronged tubercle comes to a point above the surface; they can have up to four prongs. The important distinc- tion is whether these tubercles are arranged on a ridge or a fur- row. Complex tubercles are found in 0. meyeriana where the tubercles are fused over the furrow. Mammiform tubercles are found in Rhynchoryza. This character is inapplicable in 0. brachyantha, 0. schlechteri, Porteresia coarctata, and Leersia nematostachya because tubercles are absent. I =present on lower three-fourths; 2=absent on lower three-fourths. These siliceous structures are firmly embedded in the epidermis and vary in shape from being 2- to 4-lobed to almost entire or with irregular sinuses. l=present; 2=ab- sent. Porteresia and Rhynchoryza are the only taxa that have stomata. Therefore, this character is of little value. l=present; 2=absent. Lemma awns are absent in 0. meyeriana and 0. schlechteri. l=type 1; 2=type 2; 3=type 3. In type 1 the epiblast is fused with the lateral parts of the scutellum and only the uppermost part is free from attachment with auricles between the epiblast and the coleoptile. In type 2 there is no au- ricle and the epiblast is seen as distinct. In type 3 there is a cleft between the scutellum and coleorhiza, no auricle, and the epi- blast is very long and separate from the scutellum. This latter type is found only in the outgroup Porteresia coarctata. This character is undetermined for 0. schlechteri and Leersia nema- tostachya . UPGMA ANALYSIS.-using the 14 morphological charac- ters above as scored in Table 2, six (A-F) major groups in Oryza are shown in the phenogram (Figure 30). These are as follows: (A) 0. sativa, 0. barthii, 0. glaberrima, 0. longi- staminata, 0. rufipogon; (B) 0. alta, 0. australiensis, 0. gran- diglumis, 0. latifolia, 0. minuta, 0. officinalis, 0. punctata; (C) 0. meyeriana var. meyeriana, 0. meyeriana var. granulata; (D) 0. ridleyi; (E) 0. brachyantha; (F) 0. schlechteri. Group A is characterized by having lateral spikelet articulation (charac- ter l), slightly or somewhat offset glumes (character 3), and large subglobose muricate rachillas (character 6). Groups A and 8 . Lemma furrows: 9. Lemma tubercles: 10. Lemma tubercle shape: 1 1. Lemma silica bodies: 12. Lemma body (below apex) stomata: 13. Lemma awns: 14. Embryo types: NUMBER 91 11 B form a cluster that is supported by having muricate rachillas (character 7) and type 1 embryos (character 14). Group B is supported by having opposite glume insertion (character 3) and small, subglobose/rudimentary rachillas (character 6). Mem- bers of group C lack lemma awns (character 13) and share tu- bercle complexes on the furrows of the lemmas (character 10). Oryza ridleyi (D) has 1 -pronged tubercles on the furrows of the lemma (character 10). Groups C and D form a cluster that is supported by cylindrical or broadly cylindrical rachillas (char- acter 6) and 1-pronged lemma tubercles located on the ridges (character 10). Species that could not be grouped or showed weak assemblages in the phenetic analysis were 0. brachyan- tha and 0. schlechteri. Oryza brachyantha (E) has a stipitate callus (character 2) and strongly offset glumes (character 3), and 0. schlechteri (F) lacks furrows on the basal portion of the lemma (character 8), has silica bodies on the basal three-fourths of the lemma (character 1 l), and lacks lemma awns (character 13). PARSIMONY ANALYSIS.-A consensus tree of the 11 5 possi- ble trees indicates that there are four clades within the species of Oryza that have a bootstrap value greater than 50% (Figure 3 1). These are group A ( bootstrap value 71%, as above); group B (bootstrap value 54%, as above); group C (bootstrap value 70%, as above); and group E (bootstrap value 69%), which in- cludes 0. brachyantha and Leersia nematostachya. All other taxa included in this study form an unresolved network. The 11 5 trees differ primarily in placement of 0. ridleyi-0. meyeri- ana, 0. schlechteri, and 0. brachyantha-Leersia nemato- stachya. The 17 taxa of Oryza consistently occur as a clade when using either Porteresia or Rhynchoryza as an outgroup without inclusion of Leersia. Whenever Leersia nematostachya is included in the analysis it forms a clade with Oryza brachy- antha, thereby suggesting that Oryza is para or polyphyletic (see consensus tree in Figure 3 1). Most notably, Oryza brachy- antha and Leersia nematostachya have a stipitate callus (char- acter 2). This state is unique to these two taxa, whereas all oth- ers species of Oryza have a rounded callus. Leersia nema- tostachya lacks glumes, like other species in the genus, and has a pseudo-awn, unlike any species of Oryza. Because only a sin- gle species (L. nematostachya) is used to represent Leersia, and we are using only 14 characters, it seems a bit premature to place much confidence in this result. Based on our morpholog- ical observations, Leersia is the closest sister to Oryza because the shortest trees (21 steps) are formed when Leersia is used as the sole outgroup (Figure 32). The highest consistency index (CIzO.78) is obtained when Porteresia is the sole outgroup (Figure 33). The cladogram shown in Figure 32 was chosen to illustrate one possible phylogeny within the ingroup. The genus Oryza is characterized by a single synapomorphy: absence of silica bod- ies on the lower three-fourths of the lemma (character 11). In this cladogram Leersia does not have any apomorphies be- cause, as discussed previously, it shares characteristics with 0. brachyantha, the most basal member of the Oryza clade with a single apomorphy of strongly offset glumes (character 3). The remaining species share two synapomorphies: horizontal or slightly oblique spikelet articulation (character 1) and a rounded callus (character 2) with 0. schlechteri, the sister to a trichotomy containing three clades (0. ridleyi, two varieties of 0. meyeriana, and groups A and B, see consensus tree, Figure 3 1). This trichotomy is supported by three synapomorphies: slightly or somewhat offset glume position (character 3), pres- ence of an Oryza rachilla (character 5), and the presence of lemma tubercles (character 9). The clade containing groups A and B is supported by four apomorphies, of which two are non- homoplasious: subglobose rachillas (character 6) with muricate projections (character 7). Group B is supported with two apo- morphies: subglobose/rudimentary rachillas (character 6) and opposite glumes (character 3), and group A is supported by the reversal of character 1 (to lateral spikelet articulation). The cladogram rooted with Porteresia coarctata (Figure 33) is very similar to the one discussed in the previous paragraph because both share an identical trichotomy containing three clades (0. ridleyi, two varieties of 0. meyeriana, and groups A and B). In this cladogram (Figure 33) the trichotomy is sup- ported by only two (three in Figure 32) synapomorphies: the presence of a rachilla (character 5) and the presence of lemma tubercles (character 9). Porteresia and Rhynchoryza are charac- terized by a single symplesiomorphy: stomata on the lemma body (character 12). Another trichotomy is depicted just after this initial node or hypothesized speciation event in Oryza where 0. schlechteri is supported by five apomorphies, two of these are non-homoplasious characters: lemma furrows absent only on basal portion (character 8) and lemma silica bodies present on the lower three-fourths (character 11); 0. brachyan- tha is supported by three apomorphies, two of these are non- homoplasious characters: stipitate callus (character 2) and strongly offset glume position (character 3); the clade contain- ing groups A and B is as discussed above. Even though our data represent only a very few characters and would benefit greatly from investigations on a molecular level, we have considered many other morphological charac- ters for our newly hypothesized classification. The topology of Figure 33 closely follows our hypothesized classification within Oryza where we recognize three subgenera (Table 3). Classification of Oryza The earliest classifications of Oryza that created formal ranks were those of Baillon (1 894) and Roshevitz (193 1). The classification of Roshevitz was part of an intensive study of the morphology and taxonomy of Oryza. He recognized four sec- tions, three of which we list in our Table 3; the fourth section was Coarctatae, which included primarily Oryza coarctata Roxb. (later removed to a separate genus as Porteresia coarc- tata), and secondarily 0. ridleyi, 0. brachyantha, and 0. schlechteri. Important additions and adjustments were made by Tateoka (1964) and Sharma and Shastry (1965). These classifi- cations were discussed by others, notably by Nayar (1 973) and 12 SMITHSONIAN CONTRIBUTIONS TO BOTANY TABLE 3.-Inhgeneric classification of O v a with literature citations. Oryza subgenus Oryza. Oryza section Oryza (section Euoryza, Baillon, 1894; section Sutiva, Roshevitz, 193 1). Type: 0. saliva L. 0. series Oryza [ser. Salivae Sharma & Shastry (1965)l. Type: 0. saliva L. Including 0. barthii, 0. glaberrima. 0. longistaminata, 0. rujpogon, and 0. saliva. 0. series Latifoliae Tateoka ex Sharma & Shastry (1965) [ser. Ausrralienses Tateoka ex Sharma & Shastry (1965)l. Type: 0. Iatifolia Desv. Including 0. alia. 0. australiensis. 0. eichingeri, 0. grundiglumis, 0. latifolia, 0. minula, 0. oflci- 0. section Padia (Zoll. & Moritzi) Baill. (1894), based on Padiu Zoll. & Moritzi, Syst. Verz. Zoll. 103 nalis. 0. punciata. (1846); sect. Granufatae Roshev. (193 I); ser. Meyerianae Sharma & Shastry 1965. Type: 0. meyeriana (Zoll. & Moritzi) Baill. Including 0. meyeriana var. meyeriana, 0. meyeriana var. grunula1u. and 0. meyeriana var. abro- meitiuna. 0. section Ridleyanae Tateoka (1964) [ser. Ridleyanae Sharma & Shastry (1965)l. Type: 0. ridleyi Ho0k.f. Including 0. ridleyi and 0. longiglumis. 0. subgenus Brachyanthu (Sharma & Shastry) Terrell, P.M. Peterson, & Wergin [based on 0. ser. Brachyanthae S. Sampath ex Sharma & Shastry (1965)l. Type: 0. brachyanthu A. Chev. & Roehr. 0. subgenus Schlechteria (Sharma & Shastry) Zxrell, P.M. Peterson, & Wergin [based on 0. ser. Schfechterianae Sharma & Shastry (1965)l. Type: 0. schlechteri Pilg. Tucker (1 988). We also consulted Yaughan?s (1989) extensive review of Oryza. In Table 3 we present further adjustments in classification, primarily on the basis of spikelet characters (which are fundamental reproductive characters). We recognize 0. ridleyi as a distinct section, and 0. brachyantha and 0. schlechteri as separate subgenera (spellings of subgeneric names follows Greuter et al. (1994), particularly Articles 21 and 22). The other three genera examined herein are distinct Oryza subg. Brachyantha (S. Sampath ex Sharma & Shastry) Terrell, P.M. Peterson, & Wergin, comb. et stat. nov. Basionym: 0. ser. Brachyanthae Sharma & Shastry, Indian J. Genet. P1. Breed. 25:175. 1965.-Type: Oqza brachyantha A. Chev. & Roehr. Oryza subg. Schlechteria (Sharma & Shastry) Terrell, P.M. Peterson, & Wergin, comb. et stat. nov. Basionym: 0. ser. Schlechterianae Sharma & Shastry, Indian J. Genet. P1. Breed. genera and need no further reclassification. 25: 174. 1965.-Type: Oryza schlechteri Pilg. Appendix Descriptions of Species Groups of Oiyza Oryza sect. Sutiva ser. Sutiva.-Spikelet with articulation point lateral; callus rounded at base, fused with glume bases; glumes slightly or somewhat offset, subequal, lanceolate or lance-ovate, extending to middle of lemma or rarely to top of lemma, lacking epidermal features or sometimes bearing prickles or silica bodies; rachillas large, subglo- bose, located above (distal to) both glumes, covered with muricate projections visible macroscopically, sometimes with microhairs, prickles; lemmas furrowed, tubercles large, with 1 to 4 sharp points, located on the ridges, with appressed microhairs and prickles in the furrows, papillae common; palea similar to lemma, narrower; lemma and palea apices with tubercles, microhairs, prickles, papillae; apicular knobs conspicuous at lemma tip; awns present or absent, with microhairs, prickles. Oryza ser. Latifoiiae.-Spikelet with articulation point hori- zontal or slightly oblique; callus small or somewhat larger, sometimes hardly visible below glume bases, flattish or rounded at base, horizontal or oblique, fused with glume bases; glumes appearing opposite, subequal, lanceolate or lance-ovate, very short to one-fourth or one-third as long as lemma, lacking epidermal features or sometimes bear- ing microhairs, prickles, papillae, silica bodies; rachillas small or rudimentary, a triangular area or barely discern- ible, located above (distal to) both glumes, covered with muricate projections visible macroscopically; lemmas fur- rowed, tubercles large, with l to 4 sharp points, located on the ridges, with appressed microhairs and prickles in the furrows, papillae common; palea similar to lemma, nar- rower; lemma and palea apices with tubercles, microhairs, prickles, papillae; apicular knobs none; awns present, with microhairs, prickles, silica bodies. Oryzu sect. Pudiu.-Spikelet obtuse or blunt; articulation point horizontal or slightly oblique; callus short, broad, fused with glume bases, bearing silica bodies and stomata; glumes slightly or somewhat offset, subequal, short, linear or subulate, with microhairs, prickles, silica bodies; rachil- las cylindrical or broadly cylindrical, indurate or wrinkled, fused below with the glume bases; lemmas furrowed, tu- bercles large, complex, fused with prickles and papillae, on the furrows, usually with one short sharp point, with microhairs, prickles, papillae, tubercles smaller in 0. mey- eriana var. meyeriana; palea similar to lemma, narrower; lemma and palea apices with microhairs, stomata, prickles, papillae; apicular knobs none; awns none. Oryza sect. RidIeyanue.-Spikelet with articulation point hori- zontal or slightly oblique; callus small, indurate, fused with glume bases; glumes slightly or somewhat offset, quite unequal, extending past mid-lemma, linear or subu- late, with microhairs, prickles, silica bodies; rachillas cy- lindrical, fused below with glume bases; lemmas furrowed with 1 -pronged tubercles on the furrows, with sharp or ob- tuse apices, microhairs, prickles, papillae numerous; lemma and palea apices with microhairs, prickles, stomata; palea as for lemma; apicular knobs none; awns with micro- hairs, prickles, stomata. Oryza subg. Brachyantha.-Spikelet narrowly oblong; articu- lation point lateral; stipitate callus long and wide, extend- ing to base of lemma, indurate, fused with glume bases, with silica bodies; glumes strongly offset, unequal, less than one-half as long as lemma, linear, lacking epidermal features; rachillas absent; lemma much wider than palea; lemma furrowed, lacking tubercles, with microhairs, prickles in furrows or prickles grouped in lines, with or without papillae; palea linear, muticous; lemma and palea apices with microhairs, prickles, papillae, some coales- cence; apicular knobs large; awns very long, to 17 cm, with microhairs, prickles. Oryza subg. Schfechteria.-Spikelet small, resembling Leersia spikelets in shape and size; articulation point horizontal or slightly oblique; callus very small, fused with glume bases, with silica bodies; glumes two, or sometimes only one, ap- pearing opposite, unequal, small, shortly lanceolate, bear- ing silica bodies, prickles, papillae; rachillas absent; lem- mas with distal section (two-thirds more or less of lemma) with conspicuous furrows, lacking tubercles, with micro- hairs, prickles, papillae; basal section of lemmas more or less smooth, lacking furrows, with conspicuous silica bod- ies; lemma and palea apices obtuse, with coalesced sto- mata, microhairs, reduced prickles; palea much narrower than lemma; more or less similar to lemma in epidermal features; apicular knobs none; awns none. 13 Figures 16 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 1 .-Spikelets of Otym .saliva (a ,h Walkins s. n., I7 Oct 1945, Upper Burma (US-2 I 1 5904); c,d, Chase 8550. 20 Feb 1925, Brazil (US-1257171)): u and dwith pedicels removed; b with glumes scarcely visible. (Scale = I mm.) NUMBER 91 FIGURE 2.-Bilobed cupule and pedicel of Oryza sativa (P.I. 3732 10): a, cupule with microhairs, papillae; glume above left and globose rachilla to upper left; b. pedicel with large prickle, microhair, stomata, papillae; c, base of cupule with microhairs and silica bodies; d, cupule with microhairs and stomata. (MT=turgid microhairs; PA= papilla; S=stomate.) 17 18 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 3.-Spikelets of Oryza saliva (a,c. P.I. 391823; b,d, P.I. 373210): a, lower part of spikelet showing cupule, glumes (offset), globose rachilla, base of lemma, and palea; b, glume with lobed silica bodies; c, globose muricate rachilla; d, same, projections enlarged. (B=silica body; G=glume; R=rachilla.) NUMBER 91 FIGURE 4.--Lemmas ofOtyzu.rurivu (u.c. P.I. 391823; b, cv. Strawhull Red; d, P.1. 373210): cr, lemma (left) and palea with vertical tiers and horizontal rows of tubercles, scattered prickles; kf, tubercles enlarged, microhairs in furrows. (M =microhair; P=prickles; T=tubercles.) 19 20 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 5.-Lemmas of Oryu sativa cv. Saturn by EDX analysis: a-c. line scan shows high silicon content in tubercles, low content in microhairs and furrows; d. X-ray mapping shows silicon in tubercles. NUMBER 91 FIGURE 6.-Apices of spikelets of Oryza sativa (a, cv. Nortai; b, P.I. 391 823; c.d, P.I. 160978): a, lemma apex with apicular knob opposite to palea apex; 6, detail of lemma apex and apicular knob; c, same with microhairs, papillae, and prickles; d. same, enlarged, showing indurate fused base of a prickle. (A=apicular knob; P=prickles.) 21 22 SMITHSONIAN CONTRIBUTIONS T O BOTANY FIGURE 7.-Awns o f Oryza sariva (a,b, cv. Blackhull Red; c,d, cv. Strawhull Red): a. palea apex (left) and lemma (right) with apicular knob and transition to awn base; b. awn base showing microhairs and prickles; c, median pan o f awn; d. awn tip showing bases of aborted prickles. NUMBER 91 23 FIGURE 8.-Otyzu barthii (u.6, IRRI 100224; c,d, IRRI I001 19): a, lower part of spikelet showing callus at base, lateral articulation scar, glumes, globose rachilla, lemma, and palea bases; b, lemma with tubercles; c, palea tip (left) and lemma tip (right) with apicular knob and awn base; d, median part of awn showing microhairs and prickle. 24 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 9.-0ryza glaberrima (a, TOG7141; b 4 , TOG5833): a, lower part of spikelet showing pedicel and lobed cupule, glumes (offset), globose rachilla, lemma, and palea bases; b, glume with large papillae; c. lemma and palea (left) apices, apicular knob, and base of awn; d, lemma showing tubercles, microhairs in furrows, and scattered papillae. NUMBER 91 FIGURE IO.-Otyza longistominufa: a, lower part of spikelet showing callus at base with lateral articulation scar, globose rachilla, one glume broken off, lemma, and palea bases; 6, glume with two prickles; c,d, lemma with tubercles, microhairs in furrows. 25 26 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 1I .--Oryza rufipogont a, lower part of spikelet showing callus with lateral articulation scar, glumes (off- set), globose rachilla, lemma, and palea bases; 6, giume with silica bodies; c, lemma and palea with exserted stig- mas; d. lemma with tubercles, microhairs, and prickles. NUMBER 91 27 FIGURE 12.--Oryza grandiglumis: a. lower part of spikelet showing small callus at base, glumes absent, extra pair of lemmas (outer), small rachilla, inner lemma, and palea; b, pedicel with cupule surrounding vascular cylin- der but free distally from it; c, lemma showing tubercles and microhairs; d, pedicel showing microhairs, stomata, and prickle. 28 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 13.--Oryza aha (a,b), Oryza Ialifoliu (c): a. spikelet showing small callus at base, glumes, very small rachilla, lemma, palea, marginal prickles, and base of awns; b. lemma showing tubercles and microhairs, c, small muricate rachilla. NUMBER 91 FIGURE I.l.-Oryzu aus/ra/ic.nsis (a.c), Oryzapuncra/a (b .4: a,h, lower parts of spikelets showing callus at base with oblique articulation scar, glumes, small muricate rachilla, lemma, and palea; c.d. lemmas with tubercles, microhairs in furrows, and scattered papillae. 29 30 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 15.-Oryza minufa (a,c), Oryza oflcinalis (b,d): a, lower part of spikelet showing callus at base with basal articulation scar, glumes, very small rachilla, lemma, and palea; 6, palea (left), lemma apex, and awn base; c. lemma with tubercles, microhairs, and prickle; d, lower part ofspikelet, parts as in (a). NUMBER 91 FIGURE 16.--Oryza meyerianu var. meyerianu (Sfrain W1353): a, lower part of spikelet showing callus at base with oblique articulation scar, offset glumes, broad indurate rachilla, bases of lemma, and palea; M, lemmas showing complex tubercles over furrows and very small microhairs in furrows. 31 32 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 17.-Oryzu meyerianu var. grunulutu (u, Kostermans 1200; b,c, IRRl 100162): a, spikelet showing cal- lus, small glumes, wrinkled cylindrical rachilla, lemma, and palea, awn lacking; b, pedicel with microhairs, silica bodies, and stomata; c, cupule with prominent silica bodies. NUMBER 91 FIGURE 18.--Oryzu meyerianu var. grunulutu (u,c, Kostermuns 1200; b,d. IRRI 100162): a. callus surface with silica bodies and stomata; b, glume lacking apparent epidermal features; c,d. lemmas with complex tubercles over furrows, numerous free and fused papillae. 33 34 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE I9.--Oryzu ridleyi (a, Buwuldu 6339; M, IRRI 100820): a, apices of palea and lemma, lower part of awn; b. callus with silica bodies; c, spikelet with callus at base, offset glumes, cylindrical rachilla, lemma, and palea; d, g l u m with microhairs and prickles. NUMBER 91 FIGURE 2O.-Oryza ridkyi (a,b.d, IRRI 100820; c. Buwulda 6339): a-c, lemma with tubercles, microhairs, and prickles; d. awn tip. 35 36 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 21.-Otyza brachyantha ( a d lRR1 101236; b,c, Richard7 9 / 7 / ) : a, lower part of spikelet showing large stipitate callus extending to lemma base, strongly offset glumes, upper glume located just above lateral articula- tion scar, palea (narrow) to right, rachilla lacking; b, glume base (right), callus (left) with silica bodies; c, lemma with prickles, glume tip, and papillae; d, lemma, enlarged, lacking tubercles. NUMBER 91 FIGURE 22.--Oryza brachyantha ( a x , IRRI 101236; d, Richards 9171): a, palea tip (right) and lemma with api- cular knob and transition to awn; 6, lemma apex showing coalesced papillae and microhairs; c, transition between lemma and awn; d, awn with microhairs and prickles. 37 38 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 23.-Oryza schlechferi: a, spikelet showing very small callus, small glumes, lemma and palea smooth toward their bases; b, glume with silica body; c, lower smooth part of lemma with silica bodies; d, upper fur- rowed part of lemma with microhairs in furrows, lacking tubercles. NUMBER 9 I 39 FIGURE 24.-Porteresiu courctutu: a, lower part of spikelet showing callus expanded and disk-like, rachilla lack- ing, with glumes, lemma, and palea; b, callus below, apparently lacking features; c, left side of lemma; d, lemma, near its apex. 40 SMlTHSONlAN CONTRIBUTIONS TO BOTANY FIGURE 25.-Portrresia coarctata: o,h, lemma with stomata, tubercles lacking; c, awn base with stomata; d, awn tip. NUMBER 91 FIGURE 26.-Rh,vnchotyzu suhuluru: a, lower part of spikelet showing rounded callus, ovate glumes with prick- les on margin, lemma, and palea, rachilla lacking; h, callus with silica bodies; c, lemma with mammiform tuber- cles and prickles; d, marnmifonn tubercles enlarged. 41 42 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 27.-Rhynchoryza suhulufu: a. upper (distal) part of lemma showing microhairs, prickles, and silica bodies; h,c, lemma showing stomata, each with four bordering papillae; d, awn with microhairs and prickles. NUMBER 91 FIGURE 2R.-Leersiu nematostachya: a, lower part of spikelet showing stipitate callus with lateral articulation scar (right), lemma, and palea, rachilla lacking; b, upper part of callus with silica bodies; c. lemma showing silica bodies, microhairs, and prickles, tubercles lacking; d, palea, same as preceding. 43 44 SMITHSONIAN CONTRIBUTIONS TO BOTANY FIGURE 29.-Leersia nemotostacbya: a, h, transition, lemma apex, and awn base showing coalesced papillae, microhairs, and prickles; c,d, awns showing microhairs, stomata, and prickles. - O ry za s at iv a -0 ry za ba rf hi i O ry za g la be rr im a - O ry za lo ng is ta m in at a A -0 ry za al ta - O ry za a us tr al ie ns is - O ry za g ra nd ig lu m is O ry za la tif ol ia -0 ry za rn in ut a - O ry za o ff ic in al is - O ry za p un ct at a B I F O ry za s ch le ch fe ri z C rn 7J 5 FI G U R E 30 .-U P G M A cl us te r ph en og ra m o f 16 s pe ci es o f O ry za . ( R ef er to T ab le 2 fo r da ta s et a nd te xt fo r de sc ri pt io n of ch ar ac te rs . G ro up s A , B , C , D , E , a nd F d isc us se d in te xt .) R 46 SMITHSONIAN CONTRIBUTIONS TO BOTANY Oryza ridle yi Oryza schlechteri Oryza sativa Oryza barthii Oryza glaberrima P-+ Or yza longistaminata Oryza rufipogon A .I Oryza me yeriana var me yeriana Oryza meyeriana var granulata 69 Y L e e r s i a nematostach ya %Or yza brach yantha Oryza alta Oryza australiensis Oryza grandiglumis Oryza latifolia Oryza minuta Or yza officinalis Oryza punctata 54 I? B FIGURE 3 1 .-Strict consensus tree based on parsimony analysis of 16 species of Oryzu, using 14 characters described in text and Table 2 (data set). (Bootstrap values indicated where greater than 50% majority rule. Groups A, B, C, D, E, and F discussed in text.) NUMBER 91 3 5 9 2 1 1 1 ++ 2 47 -0ryza sativa -0ryza barthii -0ryza glaberrima -0ryza longis tamina ta -0ryza rufpogon 2 1 1 1 3 6 ++ 1 2 FIGURE 3 2 . 4 n e of 15 equally parsimonious trees (length=2 1 steps, CI excluding uninformative characters = 0.75; R1=0.86) analyzing 16 species of O v a with Leersiu as an outgroup. (Solid bars=unique origin of states (synapornorphies) and hollow bars=reversals or parallel states.) -0ryza aka -0ryza aus traliensis -0ryza grandiglumis -0ryza la tifoia -0ryza minuta -0ryza officinalis -0ryza punctata 48 SMITHSONIAN CONTRIBUTIONS TO BOTANY 2. 14 +Porteresia coarctata 3 3 3 4 8 11 13 -0ryza schlechteri -MI)-cOryza brach yantha 1 2 3 1 1 1 2 3 2 2 3 Oryza ridle yi Or yza me yeriana var me yeriana Oryza me yeriana var granulata 12 2 L, 1 1 Oryza sativa Oryza barthii Oryza glaberrima Oryza longistaminata Oryza rufipogon ""I Oryza alta Oryza aus traliensis F Oryza grandiglumis Oryza latifolia Oryza minuta Oryza officinalis Oryza punctata FIGURE 3 3 . 4 n e of 16 equally parsimonious trees (length=23 steps, CI excluding uninformative characten=0.78; RI=0.88) analyzing 16 species of Otyzo with Porteresia as an outgroup. (Solid bars=unique origin of states (synapomorphies) and hollow bars=reversals or parallel states.) Literature Akemine, M. 1913. Arber, A. 1934. 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