a i St£G+ ST'fc-f /, A Study of the Tribe Gesnerieae, with a Revision of Gesneria (Gesneriaceae: Gesnerioideae) LAURENCE E. SKOG SMITHSONIAN CONTRIBUTIONS TO BOTANY • NUMBER 29 ,,V - SERIAL PUBLICATIONS OF THE SMITHSONIAN INSTITUTION The emphasis upon publications as a means of diffusing knowledge was expressed by the first Secretary of the Smithsonian Institution. In his fonnal plan for the Insti- tution. Joseph Henry articulated a program that included the following statement: “It is proposed to publish a series of reports, giving an account of the new discoveries in science, and of the changes made from year to year in all branches of knowledge.” This keynote of basic research has been adhered to over the years in the issuance of thousands of titles in serial publications under the Smithsonian imprint, com- mencing with Smithsonian Contributions to Knowledge in 1848 and continuing with the following active series: Smithsonian Annals of Flight Smithsonian Contributions to Anthropology Smithsonian Contributions to Astrophysics Smithsonian Contributions to Botany Smithsonian Contributions to the Earth Sciences Smithsonian Contributions to Paleobiology Smithsonian Contributions to Zoology Smithsonian Studies in History and Technology In these series, the Institution publishes original articles and monographs dealing with the research and collections of its several museums and offices and of professional colleagues at other institutions of learning. These papers report newly acquired facts, synoptic interpretations of data, or original theory in specialized fields. These pub- lications are distributed by mailing lists to libraries, laboratories, and other interested institutions and specialists throughout the world. Individual copies may be obtained from the Smithsonian Institution Press as long as stocks are available. ■ \ih. > ,? S. Dillon Ripley Secretary Smithsonian Institution SMITHSONIAN CONTRIBUTIONS TO BOTANY • NUMBER 29 A Study of the Tribe Gesnerieae, with a Revision of Gesneria (Gesneriaceae: Gesnerioideae) Laurence E. Skog issoto SMITHSONIAN INSTITUTION PRESS City of Washington 1976 ABSTRACT Skog, Laurence E. A Study of the Tribe Gesnerieae, with a Revision of Gesneria (Gesneriaceae: Gesnerioideae). Smithsonian Contributions to Botany, number 29, 182 pages, 86 figures, 9 tables, 1976. — A study is made of the tribe Gesnerieae of the family Gesneriaceae from the West Indies, giving information on history, anatomy and morphology, pollination and dispersal, and hybridization in the tribe. The tribe comprises 67 species in 3 genera: Rhytidophyllum, Gesneria, and Pheidonocarpa. The last genus is described as new, with a new species com- bination, Pheidonocarpa corymbosa (Swartz) L. Skog, and 2 subspecies. A revi- sion of Gesneria Linnaeus is presented based on field and herbarium studies. Gesneria is divided into 9 sections, 46 species (a new species, Gesneria onycho- calyx L. Skog, is described), 12 subspecies, and 11 varieties. The taxonomic portion includes keys, synonymies, descriptions, typifications, distributions, and ecology, as well as distribution maps and illustrations of the taxa. Also enum- erated in Appendix 1 are many species names once included in Gesnera or Gesneria, but which have been transferred to other genera. Two new combina- tions are made in this portion of the text: Rhytidophyllum cumanense (Han- stein) L. Skog and Rhytidophyllum onacaense (Rusby) L. Skog. Official publication date is handstamped in a limited number of initial copies and is recorded in the Institution’s annual report, Smithsonian Year. SI Press number 6053. Series cover design: Leaf clearing from the Katsura tree Cercidiphyllum japonicum Siebold and Zuccarini. Library of Congress Cataloging in Publication Data Skog, Laurence E. 1943— A study of the tribe Gesnerieae, with a revision of Gesneria (Gesneriaceae: Gesnerioideae) (Smithsonian contributions to Botany ; no. 29) Bibliography: p. Includes index. Supt. of Docs, no.: SI 1.29:29 1. Gesneria. 2. Rhytidophyllum. 3. Pheidonocarpa. 4. Botany — West Indies. I. Title. II. Title: Gesnerieae, with a revision of Gesneria (Gesneriaceae: Gesnerioideae). III. Series: Smithsonian Institution. Smithsonian contributions to Botany ; no. 29. QK1.S2747 no. 29 [QK495.G4] 58T.08s [583'.81] 75-61934 Contents Page Introduction . 1 Historical Review 2 Morphology and Anatomy 6 Pollination and Seed Dispersal 26 Hybridization and Cytology . 33 Systematic Treatment 36 Tribe Gesnerieae 36 Key to the Genera in Tribe Gesnerieae 39 Pheidonocarpa 40 Gesneria 43 Key to the Sections of Gesneria . 45 Section 1. Pentarhaphia 46 Key to the Species of Section Pentarhaphia 46 Section 2. Stenochonanthe 80 Section 3. Lachnoblaste 85 Section 4. Myrmekianthe 86 Section 5. Gesneria 90 Key to the Species of Section Gesneria 91 Section 6. Physcophyllon 100 Key to the Species of Section Physcophyllon 101 Section 7. Dittanthera 121 Key to the Species of Section Dittanthera 123 Section 8. Duchartrea 137 Section 9. Chorisanthera 145 Key to the Species of Section Chorisanthera 145 Appendix 1: Excluded Species 158 Appendix 2: Numerical List of Taxa 165 Appendix 3: List of Exsiccatae 166 Literature Cited 171 Index 176 iii A Study of the Tribe Gesnerieae, with a Revision of Gesneria (Gesneriaceae: Gesnerioideae) Laurence E. Skog Introduction The Gesneriaceae, a member of the Scrophu- lariales in the classification system of Cronquist (1968), are found in tropical and subtropical regions of the world, but rarely occur wild in temperate zones. The family is composed of about 120 genera and about 1800 species; two subfami- lies are recognized, separated by Burtt (1962) on the characters of seedlings into the anisocotylous Cyrtandroideae, primarily Old World, and the isocotylous Gesnerioideae in the New World. The latter subfamily has been tentatively divided into five tribes by Wiehler (1970) using characters of epidermal cell sinuation, node vasculature, shape of the vascular crescent in the petiole, and leaf arrangement. The tribe Gesnerieae, one of the five tribes maintained by Wiehler in the Gesneri- oideae, is apparently restricted geographically to the West Indies and a few localities in northern South America. It is restricted morphologically and anatomically by the occurrence of alternate leaves in most of the members of the tribe, by having the vascular trace of the petiole invaginated or cylin- drical (Wiehler, 1970), by the fruticose or arborescent habit, an inferior or subinferior ovary, and by having a chromosome number of n = 7, 14, or 28. The taxonomy of all known members of the Laurence E. Skog, Department of Botany, National Museum of Natural History, Smithsonian Institution, Washington, D. C. 20560. Gesnerieae has not been attempted since the treatments by Hanstein from 1854 to 1865. Because exploration of the American tropics in the last one hundred years has revealed many species new to science, a study of this group of flowering plants is long overdue. In the study of the systematics of Gesnerieae, perhaps the most difficult problem is generic delimitation, a problem found in other groups in the American Gesneriaceae (Burtt, 1956; Moore and Lee, 1968). The factors above and those following led to the choice of the Ges- nerieae as a taxon for investigation: (1) the pos- sibility of unusual pollination mechanisms in the tribe; and (2) the availability of material of many species of the genera included in the Gesnerieae among the living collections of Gesneriaceae at Cornell University and elsewhere. In the study of the tribe Gesnerieae and the genus Gesneria presented here, three avenues of research were explored: (1) a morphological and anatomical approach to discover or elucidate floral and vegetative characters, using living material where possible to supplement herbarium specimens; (2) a comparison of chromosome analysis with the results of hybridization to suggest the genetic bases for morphological characters; and (3) field studies and investigation of possible pollination mechanisms, which may reveal the interaction of the species of the Gesnerieae with the environment and how the interaction influ- ences speciation and evolution within the group. Acknowledgments. — A substantial part of the 2 SMITHSONIAN CONTRIBUTIONS TO BOTANY work presented here was undertaken at Cornell University and was submitted as a thesis in partial fulfillment for the degree of Doctor of Philosophy (Skog, 1972c). I greatly appreciate the advice and assistance of the members of my special committee at Cornell University: H. E. Moore, Jr., Chairman, for his special knowledge of the Gesneriaceae; H. P. Banks, for help in problems of morphology and anatomy; and G. C. Eickwort, for advice on pol- lination mechanisms. Financial assistance from three sources permit- ted research in new areas: Horticulture Inter- change Fellowship of the Garden Club of America, the English-Speaking Union, and Fison’s Horti- culture, Ltd., allowed research at the Royal Botanic Garden, Edinburgh, during 1968-1969; National Science Foundation Grants GB-6277 and GB-8766, to H. E. Moore, Jr., principal investigator, provided support from 1969 to 1972 and permitted a collecting trip to the West Indies in 1970; and a gift from the American Gloxinia and Gesneriad Society to the L. H. Bailey Hortorium supported the use of a scanning electron microscope to study pollen and seeds. I also am indebted to the curators of the 46 herbaria who allowed me to study their collections, to J. Wurdack and W. Dress for checking the Latin descriptions, to B. L. Burtt for offering his time and aid during my study in Edinburgh, to H. Robinson for reading the manuscript, and gratitude most of all to my wife, Judith E. Skog, for her under- standing support and help. Historical Review Charles Plumier, a French missionary, botanist, and explorer of the West Indies, published in 1703 a work about the plants of the islands he visited. In this work, Plumier named for the Swiss natural- ist Conrad Gesner a group of plants he called Gesnera. Included were three species: Gesnera humilis, flore flavescente; Gesnera arborescens, amplo flore fimbriato Sc maculoso; and Gesnera amplo digitalis folio tomentoso. Presented here is a review of the history of Plumier’s name Gesnera to the present-day genera in the Gesnerieae. During his sojourn on the island of Hispaniola in 1693, Plumier observed, drew, and described some of the plants he published in 1703. His drawings and descriptions were never published in full, although at least three sets of Plumier’s draw- ings were distributed after his death. One set was made in 1733 by Claude Aubriet for Herman Boerhaave. After the death of Boerhaave, the Aubriet copies went to Johannes Burman, who later used the drawings in preparation of Plumier’s Plantarum Americanarum Fasciculus Primus (-Deci- mus ), which he edited (1755-1760). Plumier’s original manuscript and 5081 drawings are now at the Bibliotheque Centrale of the Museum Na- tional d’Histoire Naturelle at Paris, whence copies were obtained to clarify the descriptions of Linnaeus. The Aubriet copies are now in the University Library at Groningen, Netherlands, and other sets of copies are in the Herbarium Library of the Royal Botanic Gardens, Kew, and at the Department of Botany, British Museum (Natural History), London. Gesneria humilis, G. tomentosa ( = Rhytidophyllum tomentosum (Lin- naeus) Martius [in part]), and Craniolaria fruticosa ( = Gesneria fruticosa (Linnaeus) O. Kuntze), described by Linnaeus in 1753, were based on Plumier’s account in the Nova Plan- tarum Americanarum Genera, as was the genus Gesneria in Linnaeus’ Genera Plantarum. Another naturalist and explorer, Hans Sloane, a contemporary of Plumier, visited British islands of the West Indies in 1687-1689. He collected speci- mens that were also used by Linnaeus as bases for his names. One of the phrase names Sloane pub- lished in 1696 and 1707 was Digitalis folio oblongo serrato, ad foliorum alas florida later included in Linnaeus’ concept of Gesneria tomentosa. Another of Sloane’s polynomials, Rapunculo affnis ano- mala vasculifera, folio oblongo, serrato, flore coccineo tubuloso, semine minuto, oblongo, luteo, for a plant from Jamaica, was the basis for Gesneria acaulis, published by Linnaeus in 1759. With the publications by Olof Swartz in 1788 and 1797-1806, nine additional species names were joined to Gesneria. By the second decade of the nineteenth century the genus Gesneria had become a repository for many gesneriaceous species from the New World, placed there by authors who inflated the generic limits set by Linnaeus to include plants from South and Central America with those of the West Indies. John Lindley was the first to try to sort out the plants included in Gesneria into more than one NUMBER 29 3 genus. In 1827 (under pi. 1110) he wrote in Edward’s Botanical Register: The genus Gesneria, as it at present stands, contains an assemblage of plants differing so much among each other, both in habit and parts of fructification, that it is probable a careful investigation of the species will lead to the estab- lishment of more than one new genus. Unfortunately, Lindley proceeded to select red, tubular-flowered Brazilian species to be the “most legitimate representatives of the genus” Gesneria , discarding Linnaeus’ concept of the genus and erected two new genera, Pentarhaphia (“ Penta - raphia”) and Codonophora, for the species of Swartz and Linnaeus. Pentarhaphia was typified by P. longiflora Lindley, an illegitimate renaming of Gesneria ventricosa Swartz, in allusion to its long tubular corolla. Into Codonophora he placed two distinct plants: Gesneria prasinata Ker-Gawler, renamed Codonophora grandiflora Lindley, and Gesneria tomentosa Linnaeus, which became Codonophora lanceolata Lindley. Neither species of Codonophora was selected as the type-species by Lindley, which caused Codonophora to be ignored and shifted as a generic synonym from one genus to another, depending on the disposition of the species. The problem was resolved by Hanstein (1854), who removed Gesneria tomentosa to Rhytidophyllum, thus lectotypifying Codonophora on G. prasinata (Morton & Denham, 1972). Gesneria prasinata is actually a species of the older genus Paliavana Vandelli, of which Codonophora Lindley is a generic synonym. While agreeing with Lindley that a large com- plex of species was assigned to Gesneria Linnaeus, Martius (1829) disregarded Lindley ’s generic names and chose three of his own. He established Gesnera (using the spelling of Plumier but ex- cluding the latter’s species as well as those of Linnaeus and Swartz) for a group of species including Codonophora lanceolata and most of Gesneria sensu Lindley. Martius disregarded Pen- tarhaphia Lindley because the name did not honor Conrad Gesner as Plumier had intended. In place of Pentarhaphia, Martius named a new genus, Conradia, to include Gesneria humilis Linnaeus and Gesneria craniolaria, G. scabra , G. ventricosa, G. exserta, G. calycina, and G. pumila of Swartz. Conradia, as well as being illegitimate when named by Martius, was also a later homonym of another generic name, Conradia Rafinesque, published in 1825. Conradia was subsequently chosen illegiti- mately as a generic name by two later authors: Nuttall (1834) and Kufferath (1914). Other species included earlier in the genus Gesneria Linnaeus — G. tomentosa L. and G. grandis Swartz — were placed in a new genus Rhytidophyllum by Martius, which also included a new species R. berteroanum. During the sixty years following the description of the new genera Gesnera, Conradia, and Rhyti- dophyllum by Martius, many additional species of Gesneriaceae from the New World were named. During this time, however, new genera also were described, which absorbed many of the species included in Gesnera Martius. Thus, by 1890, the concept of Gesnera had nearly disappeared except for the occasional usage in horticulture and in popular journals. Appendix 1, a list of excluded species, gives names that have been included in Gesnera Martius ( Gesneria of auct., non Linnaeus) and Gesneria Linnaeus, which now best reside elsewhere. Authors following Martius at first accepted his disposition of the species. George Don (1838: 650-651) divided the species that Martius had included in Conradia into three sections distin- guished by the relative exsertion of the stamens and coherence of the anthers: Sect. I. Synanthera. . . . Stamens enclosed. Anthers all connected into a round head. Sect. II. Dittanthera. . . . Stamens exserted; anthers con- nected by pairs. Sect. III. Chorisanthera. . . . Stamens a little exserted; anthers distinct. Fruit like those of the other species. Don (1838) also erected the tribe Gesnerieae, but included in it many genera later transferred to other tribes. His subtribe Conradieae is now equivalent to the present tribe Gesnerieae. Shortly after the publication by Don of Ges- nerieae, Endlicher (1836-1850) described Euges- nereae, roughly synonymous with Gesnerieae G. Don. Eugesnereae described by Hanstein in 1854 refers to a group of plants distinct from those included by Endlicher. A. P. de Candolle (1839) adopted the name Gesnerieae G. Don, but with a slightly different circumscription. However, de Candolle accepted the sectional alignments of Don and named two new species, Conradia pedunculosa ( = Gesneria pedunculosa (A. P. de Candolle) Fritsch) and C. 4 SMITHSONIAN CONTRIBUTIONS TO BOTANY cuneifolia ( = Gesneria cuneifolia (A. P. de Can- dolle) Fritsch), based on plants collected in Puerto Rico by Sesse and Mocino. He also renamed Gesneria acaulis Linnaeus as Conradia sloanei A. P. de Candolle. In 1846, Decaisne wrote a monograph of the genus Pentarhaphia, adopting Lindley’s generic name for the section Dittanthera G. Don, which, according to de Candolle, included shrubs with flowers having stamens exserted and the anthers coherent in pairs. Decaisne (1846:98) placed 15 species into Pentarhaphia by erecting new species and splitting others, such as Gesneria ventricosa Swartz, because the “meme nom specifique etait assigne a des plantes completement distinctes par la forme et la couleur des fleurs.” He also included the description of a new genus, Duchartrea, based on collections from Cuba by Linden. The separation of the shrubby species of Gesneria Linnaeus into Pentarhaphia Lindley by Decaisne thus forced other authors to consider the remaining species as belonging to Conradia, a practice followed for forty years. The assignment of the species in this manner appears to have caused many botanists to be confused about the generic limits. W. Hooker (1851 :pl. 874) wrote following his description of Conradia neglecta ( = Gesneria pumila subsp. neglecta (W. Hooker) L. Skog): “This plant belongs, I presume, to the true Conradiae, not to the first division or groupe [sic] in De Candolle, which constitutes the genus Pentaraphia of Dr. Lindley; but the distinguishing characters of which I by no means understand.” Decaisne (in Herincq, 1848) described another new genus, Herincquia, in which was placed a species he believed had been assigned incorrectly. He wrote that the species did not belong in Gesneria, where it had been described in October 1846 as Gesneria libanensis by Morren, or in Rhytidophyllum, in which it had been described in December 1846 as R. floribundum by Lemaire. Evidently, Hanstein was not aware of Decaisne’s genus Herincquia, for he published in 1854 another new generic name based on the same species, Ophianthe libanensis (Linden ex Morren) Hanstein. In Centralamericas Gesneraceer, published in 1858 and reprinted in 1861 by Anders 0rsted, two new genera were split off from the Conradia- Pentarhaphia complex. Section Chorisanthera of G. Don was raised to generic rank for the species resembling Gesneria pumila, plants with very short stems and campanulate corollas. 0rsted ap- parently described the new genus based on the description of Conradia pumila (Swartz) Martius in G. Don’s 1838 publication. Included in the genus were three species: Chorisanthera pumila (Swartz) 0rsted; C. hispida (Bentham) 0rsted, transferred from Conradia; and C. tenera 0rsted, described from an 0rsted collection ostensibly from Costa Rica, but which so resembles Gesneria pumila Swartz from the description that one is led to believe that 0rsted collected Gesneria pumila during his 1845 sojourn in Jamaica and then accidentally mixed this material with plants from Costa Rica. There is no known type-specimen of Chorisanthera tenera in the 0rsted herbarium at Copenhagen (C) or elsewhere. 0rsted apparently did not realize that the name Chorisanthera had been used in the generic sense in the Gesneriaceae by Herincq in 1852. Herincq’s use of Chorisanthera for some cultivated plants of uncertain origin is not valid because he did not provide a generic description, and he cited an earlier name as a synonym under the species (Skog, in press). Another genus circumscribed by 0rsted, Codon- oraphia, was to include the species of Pentarhaphia with campanulate corollas, restricting Pentarha- phia to those species with a narrowed tubular corolla. The six combinations 0rsted made in Codonor aphia have not been recognized by many authors nor picked up by the editors of Index Kewensis. 0rsted (1858) also proposed new tribal and subtribal names. Part of his tribe Rhytidophylleae subtribe Eurhytidophylleae is now assignable to the present-day concept of Gesnerieae. Grisebach maintained Conradia and Penta- rhaphia in his works (1860-1862, 1866) dealing with the collections of Charles Wright from Cuba. But in his Flora of the British West Indian Is- lands, published 1859-1864, Grisebach described another genus, Vaupellia, for a single species formerly placed in Gesneria by Swartz and Conradia by Martius, Vaupellia calycina (Swartz) Grisebach. Hanstein (1854-1865) was the first author to treat all of the species in Conradia and Penta- rhapia, as well as in the restricted genera Duchartrea, Herincquia, Ophianthe, and Choris- NUMBER 29 5 anthera as members of one genus. In his monu- mental study of the Gesneriaceae, Hanstein (1865: 292-305) submerged all of the names under Pentarhaphia Lindley, which he divided into four unnamed sections, and a group of “Species inter Pentarhaphiam et Rhytidophyllum dubiae.’’ The sections were defined on the basis of the presence or absence of costae on the calyx (or more cor- rectly, floral tube) and on the shape of the corolla: Sectio 1. Calyx vix costatus, Corolla elongata-tubulosa. An- nulus quinquelobus. Sectio 2. Calyx costatus. Corolla tubulosa. Annulus integer. Sectio 3. Calyx costatus. Corolla oblique subcampanulata v. cyathomorpha. Sectio 4. Calyx non costatus. Corolla oblique cyathomorpha. Bentham (1876) in his treatment of the Ges- neriaceae followed Hanstein in combining the complex into one genus. Although Bentham real- ized that the generic name Gesneria Linnaeus was an older name, he (1876:1005) wrote: “Nomen Linneanum Gesneriae stricto jure prioritatis ad hoc genus retinendum foret, sed nomen Gesnerae, Mart., ab omnibus botanicis et hortulanis ad genus Brasilianum addictum, hodie non nisi maximo in- commodo mutaretur.” Bentham (p. 1005) proceeded to divide the genus Pentarhaphia into five sections in the man- ner of Hanstein, but supplied names to these sections: 1. Eupentarhaphia. Frutices glabri, ramosi, resinosi. Pedun- culi axillares, elongati, 1-flori v. 3-chotome -flori. Corolla incurvo-tubulosa, parum ventricosa. Stamina exserta. This section was based on the concept of Penta- rhaphia used by Grisebach, but for plants mostly from Cuba. 2. Duchartrea. Frutex glaber, rigidus. Pedunculi axillares, elongati, apice oo-flori. Calyces ecostati, insigniter verrucoso- rugosi. This section was based on the genus Duchartrea Decaisne. 3. Codonoraphia. Frutex glaber. Pedunculi axillares, elongati, 1-flori. Corolla late campanulata, staminibus ex- sertis. Section Codonoraphia was based on 0rsted’s genus of the same name. 4. Vaupellia. Habitus fere Synantherae. Corolla et stamina Codonoraphiae. Calycis limbus amplus, lobis latis base con- natis. Vaupellia calycina (Swartz) Grisebach was the basis for this section. 5. Synanthera, Don. Caulis humilis, simplex v. decumbens, subramosus, rarius elongatus. Pedicelli breves, fasciculati, rarius elongati 1-flori. Corolla tubulosa rarius campanulata v. ventricosa, staminibus inclusis v. corollam non super- antibus. This section comprised most of the species known at that time. The concept of the section Synanthera equals Conradia Martius as used by Grisebach in Flora of the British West Indian Islands ( 1 859— 1864) and included Ophianthe Hanstein and Herincquia Decaisne (misspelled Henrincquia by Bentham). Chorisanthera 0rsted was included in Pentarhaphia, but not placed in a particular sec- tion. Bentham (1876) also described a new sub- tribe, Pentarhaphieae, equivalent to the present tribe Gesnerieae. Otto Kuntze (1891:473) criticized Bentham’s decision to maintain Gesnera Martius and Penta- rhaphia Lindley: BHgp. [Bentham in Bentham & Hooker’s Genera Plantarum ] sind sich dariiber auch klar gewesen, stellten aber den rechtmassigen Namen aus Bequemlichkeit nicht wieder her, liessen also Gesnera Martius gelten, wahrend sie doch incon- sequenterweise den friiher (cfr. DC. prodr.) ebenso gebrauch- lichen Namen Conradia Martius durch den von Lindley gegebenen Pentaraphia ersetzen. Kuntze (1891) resurrected Gesneria Linnaeus, but preferred the spelling Gesnera as proposed by Plumier. Under Gesnera Linnaeus he submerged Pentarhaphia Lindley, Conradia Martius, and even included Rhytidophyllum Martius. Rhy- tidophyllum Martius was embraced because Kuntze (1891:473) believed and wrote: “Die letzteren 2 Gattungen [Conradia Martius and Rhytidophyl- lum Martius] sind so schwach getrennt, dass BHgp. [Bentham in Bentham & Hooker’s Genera Plan- tarum] selbst meinen, es sei besser, sie zu vereinigen.” Kuntze listed and transferred many names to Gesnera Linnaeus. Three years later, in 1894, Fritsch completed the account of the Gesneriaceae for Engler & Prantl’s Die natiirlichen Pflanzenfamilien. He used the name Gesneria Linnaeus, but excluded from it Rhytidophyllum, which Fritsch con- sidered a distinct genus. His comments (1894:184) provide a good summary of the state of the tribe Gesnerieae at his time: 6 SMITHSONIAN CONTRIBUTIONS TO BOTANY Die ganze Gruppe der Gesnerieae ist, namentlich in Bezug auf die Ausbildung der Bl. [Bliite], sehr formenreich, und es sind daher mehrere Gattungen innerhalb derselben unter- schieden worden. Die beste derselben ist die Gattung Rhytid- ophyllum, welche auch habituell gut charakterisiert ist; die iibrigen miissen, so auffallend sie in typischen Arten sind, wegen der zahlreichen Mittel formen als Sectionen von Gesneria aufgefasst werden. Fritsch divided Gesneria into five sections follow- ing Bentham (1876). His “Section I” was called Pentarhaphia, differing slightly from Bentham’s Eupentarhaphia, and Fritsch’s fifth section was Conradia, apparently rejecting the earlier and validly published sectional names Synanthera and Chorisanthera of G. Don (1838). The tribe Gesnerieae was again erected by Fritsch (1894), although he does not attribute the name to G. Don, who proposed it in 1838. Fritsch’s circumscription of the tribe included only Gesneria Linnaeus and Rhytidophyllum Martius. In January of 1900, there appeared the first mention of Gesneria by Ignatz Urban, who in the next 30 years was to describe more new species of Gesneria than any other botanist. In the second volume of Urban’s Symbolae Antillanae (1901), the chapter entitled “Enumeratio Gesneriacearum” contained an account of all the species known at that time to grow in West Indies. Urban did not divide the genus into sections, but in his enumera- tion and discussion of the species he followed the sequence set by Bentham (1876) and Fritsch (1894). Urban described several new species based on collections of Fuertes, Harris, Shafer, and others in subsequent volumes of Symbolae Antil- lanae (1898-1928). Beginning in 1914, Urban began a collaboration with Erik Ekman, the Swedish plant collector who made extensive collections on the islands of Cuba and Hispaniola. Urban based many new species of Gesneria on Ekman collections. Fortunately for later students of West Indian botany, the Ekman collections selected as holotypes were deposited in the Natur- historiska Riksmuseum in Stockholm instead of at Berlin. Because much of the herbarium at Berlin was destroyed during the Second World War, many of Urban’s names typified by collections at Berlin must now be interpreted on the basis of other material. The most recent works were papers by C. V. Morton (1957a, 1957b), who wrote the account of Gesneriaceae for the Flora de Cuba; Alain Liogier, who described a number of new species of Gesneria from the Dominican Republic (1968, 1971a, 1971b, 1973); Wiehler (1971), who trans- ferred species from Cuba and Jamaica formerly in Heppiella to Gesneria; and Skog (1972a), who published new species of Gesneria from Haiti and Jamaica. The species transferred by Wiehler in the writer’s opinion represent a distinct genus Pheidonocarpa, described later. Throughout the history of the tribe Gesnerieae, most of the works have been taxonomic. Papers dealing with anatomy and morphology (e.g., Sachs, 1915) have included some details of the plants in this tribe. Cytological results have been reported in many papers by Lee (1962, 1964, 1966a, 1966b, 1968) and others. Pollination studies by Vogel (1969a, 1969b) have revealed new mechanisms possible in the tribe. An elaboration of these topics will follow later in this paper. Morphology and Anatomy The morphology and anatomy of the tribe Gesnerieae have been examined by several investi- gators. Wiehler (1970) dealt with many of the characters in comparing the tribes of the subfamily Gesnerioideae. Sachs (1915) investigated system- atically the leaf anatomy of many members of the Gesnerieae in her report on the subfamily. The anatomical works by Solereder (1908) and Met- calfe and Chalk (1950) included characters useful in defining taxa. Some aspects of the morphology and anatomy of the tribe Gesnerieae, primarily the genus Gesneria, examined in the field and in the laboratory, are considered in an attempt to relate and interpret the anatomy and morphology to the systematics of the group. Observations Habit and Habitat. — Plants in the tribe Ges- nerieae are perennial, producing flushes of growth and flowers at various times of the year. Depending on the species, plants can be (1) acaulescent herbs, e.g., Gesneria reticulata (Figure lg), G. pumila subsp. neglecta (Figure le); (2) suffruticose with short erect or decumbent woody stems, e.g., NUMBER 29 7 Pheidonocarpa corymbosa (Figure Id); (3) tall spreading shrubs, e.g., G. alpina; or (4) arbores- cent up to 10 m tall, e.g., Rhytidophylhim grande. The stems may or may not branch from axillary buds, resulting in a columnar growth in un- branched species, e.g., Rhytidophyllum grande (Figure 1c), Gesneria viridiflora subsp. quis- queyana. The taller species — Gesneria exserta, G. calycosa, among others — frequently branch at ground level. Acaulescent herbs occur often on ledges in cliff faces; these same species when grow- ing on sloping banks or cliff faces become pendent or decumbent, e.g., G. citrina. The habitats of the species may affect the gross morphology, particularly height, size and shape of leaves, and size and color of flower in a single population. Populations of two species, G. humilis (Figure la) and G. pauciflora , growing in open exposed, drier areas, appear morphologically simi- lar to those frequently inundated for short periods of time in streams swollen by tropical rains; the latter populations are characterized by apparently stunted stems, reduced leaves and inflorescences. They may be functional xerophytes. Roots. — Fibrous roots, which may become quite large and woody with age, are found in all species of this tribe. Adventitious roots may be formed from nodes on intact plants growing in the very humid atmosphere of a greenhouse or on stream banks or in the spray of waterfalls — e.g., G. humilis, G. reticulata, G. pauciflora, G. viridiflora subsp. quisqueyana. The acaulescent species and those with short stems develop roots from cuttings in a short time. The taller species — e.g., G. caly- cosa, G. exserta, Rhytidophyllum tomentosum — do not root easily from green cuttings. Even when dusted with rooting hormone, two to four months may be required before a callus forms and roots appear. Stems. — All members of the tribe have woody stems, at least at the base of the plant. The bark on older stems is rugose, verrucose, or smooth. Lenticels are commonly very elongated and erumpent. The sapwood is green to white, or occasionally pink; the heartwood and pith are usually pink to red. The red color is probably due to the presence of 3-desoxyanthocyanidins found also in the leaves and flowers of most members of the subfamily Gesnerioideae (Harborne, 1966). In Gesneria three types of 3-desoxyanthocyanidins have been identified: gesnerin and luteolinidin 5-glucoside in Gesneria cuneifolia and pelargoni- din 3-rutinoside in G. ventricosa (Harborne, 1966). The pith of young stems is composed of thin- walled parenchyma cells usually containing chloro- plasts. Here, too, are found crystals, which may be calcium oxalate. Sachs (1915) stated that, until the time of her studies, raphides were unknown in the Gesneriaceae; she found them subsequently . in many genera. The needle-shaped raphides are found in nearly all the species of Gesneria investi- gated. One exception is G. pauciflora, which has prismatic styloid crystals like those common in Rhytidophyllum and Pheidonocarpa. The stems of Gesneria ventricosa (as Penta- rhaphia longiflora — -Solereder, 1908) and Rhytido- phyllum tomentosum (Pomrencke, 1892) show the following characters: (1) the wood with vascular rays of varying widths; (2) vessels of different diameters with the maximum between 0.03 and 0.108 mm; (3) vessel perforations simple, walls with bordered pits; (4) lumina of the vessel ele- ments septate; (5) cork cells with thin walls; (6) outer portion of the primary cortex collenchyma- tous; (7) outer phloem with groups of elongated and pitted, yellow-walled, sclerenchymatous cells resembling sclereids; and (8) the phloem strength- ened by layers of suberized cells formed externally to the phloem from the primary cortical paren- chyma. Douliot (1889) found that the cork develops internally to the sclerenchyma of the outer phloem in Gesneria (as Pcntarhaphia) and Rhytidophyllum plumerianum. Metcalfe and Chalk (1950) report that vessels are formed in groups of four or more cells and produce a radial pattern. The investigation of nodal anatomy by Wiehler (1970) has shown that nodes in the members of the tribe Gesnerieae are unilacunar with one trace leading to the leaf. A reexamination showed this to be true. Leaves. — The dorsiventral leaves are spirally arranged in a 2/5 phyllotaxy in all members of the tribe, except for an aberrant form of G. fruti- cosa (L. H. Bailey Hortorium, Cornell University accession number G-1035) grown from seed in the greenhouse. These latter plants have the leaves arranged in an opposite decussate pattern, rather than alternate. Comparison of the nodal structure of the aberrant form of G. fruticosa (Figure 2b) with that of Pheidonocarpa corymbosa was one of 8 SMITHSONIAN CONTRIBUTIONS TO BOTANY NUMBER 29 9 the points of evidence used by Wiehler (1971) to unite this latter taxon, formerly in the South American genus Heppiella, with Gesneria. Siblings of the aberrant plant, however, have alternate leaves (R. Katzenberger, in litt.), although speci- mens of the seed parent show an opposite arrange- ment ( Talpey 71, BH). Collections of Gesneria fruticosa from the same locality in the Dominican Republic by Ekman in 1929 ( Ekman HI 1334) show examples of opposite leaves. Efforts to locate the plants in the wild in 1970 failed to turn up the aberrant form. All other collections of G. fruticosa observed in the wild or as specimens from many herbaria have alternate leaves (Figures 2a, 75a). The alternate arrangement of leaves in Gesneria and Rhytidophyllum is not common among other members of the Gesneriaceae. In other genera of the family where the arrangement is found, it is believed that alternate leaves are the result of reduction of one of the pairs of opposite leaves (Fritsch, 1893-4) based on the occurrence of an intermediate stage in which the opposite leaves are unequal. Since leaves of Gesneria and Rhytid- ophyllum are occasionally approximate in slowly growing plants, an alternative suggestion may be that the alternate leaf arrangement is due to suc- cessive plastochrons of unequal duration in periods of rapid growth (Esau, 1965). Even though the arrangement of leaves in the aberrant Gesneria fruticosa appear opposite, a transverse section at the node (Figure 2b) shows the leaves in not exactly the same stage of development. If Pheidon- ocarpa corymbosa is truly a member of this tribe, as I believe, it may considered more primi- tive in leaf arrangement than Gesneria or Rhytidophyllum. Figure 1. — a. Habitat and presumed type locality of Gesneria humilis at Fond de Baudin, Haiti (arrow = plants at water level); b, habitat of Rhytidophyllum leucomallon in Haiti; c, habitat of R. grande in Jamaica (peduncles ca 0.5 m long); d, habitat of Pheidonocarpa corymbosa in Jamaica; e, habit of Gesneria pumila subsp. neglecta, G-875; f, habitat of G. pedicellaris on limestone cliff face in the Dominican Republic (arrow indicates horizontally oriented flower); g, habitat of G. reticulata near waterfall in Puerto Rico; h, flower of G. fruticosa , G-1035 (scale line = 1 cm); i, inflorescences of G. pedunculosa (scale line = 5 cm); j, flowers of putative natural hybrid and presumed parent species (scale line = 1 cm); top, G. acaulis, G-876; middle, putative natural hybrid of G. acaulis and Rhytidophyllum tomentosum, G-1371; bottom, R. tomentosum, G-841. Stipules have never been reported in any mem- bers of the Gesneriaceae. Cronquist (1968) wrote that the Gesneriaceae as others in the Scrophu- lariales “uniformly lack stipules.” Stipule-like structures, however, are evident on many plants of Rhytidophyllum, and have been discussed by Weber (1973). These “pseudo-stipules” or “vagi- nalen Ohrchen” in the sense of Weberling appear in Rhytidophyllum tomentosum as reniform or auriculate flaps of tissue on the stem at each side of the petiole base or, in some examples in R. auriculatum, as lobes laterally adnate to the petiole and resembling segments of a compound leaf. The development of the “pseudo-stipules” can be observed on Rhytidophyllum auriculatum in the greenhouse. A series of leaves borne on one axis shows the following stages (Figure 3); a petiolate leaf lacking stipules, a leaf with a narrowly decurrent base, an auriculate leaf decur- rent on one side of the petiole, and a leaf with “pseudo-stipules” and a petiole. Apparently the Figure 2. — Nodes of Gesneria fruticosa: a, plant G-1379, indi- cating usual alternate leaf arrangement; b, plant G-1035, showing aberrant opposite leaf arrangement (after Wiehler, 1970, 1971). 10 SMITHSONIAN CONTRIBUTIONS TO BOTANY “pseudo-stipules” are remnants of the auriculate leaf, which has regained a definite petiole by loss of the decurrent leaf margins. “Pseudo-stipules” may appear seasonally in response to differing ecological conditions or growth rates. In any one species, however, not all populations show the stipule-like structures. In Gesneria no such elaborate structures as “pseudo-stipules” have been found, but ridges may be present in some species, which may continue up the stem for a short distance from the petiole base (e.g., G. humilis), or protuberances may be present on the stem at either side of the petiole bases (e.g., G. calycosa ). In Pheidonocarpa the opposite leaves appear to be joined across the stem by an interpetiolar ridge that develops during matura- tion of the stem. Howard (1959, 1962) considered the vascular anatomy of the petiole to be important as a taxo- nomic character in many groups. The vascular Figure 3. — Leaf bases from one plant of Rhytidophyllum auriculatum: a, petiolate leaf lacking “pseudo-stipules”; b, auriculate leaf with decurrent base; c, auriculate leaf with decurrent base on one side of petiole only; d, petiolate leaf with "pseudo-stipules.” trace in the petioles of Gesneria and Rhytido- phyllum has been shown to be a ring or a nearly closed U in cross section (Wiehler, 1970). Wiehler concluded that specific differences may be found if all species were investigated. Attempts to dupli- cate his results showed that the tribe has a distinc- tive petiolar trace pattern; however, the structure of the trace may vary somewhat among the leaves of a single plant depending on age or arrangement on the plant and may not be completely reliable as a specific character. Of the surface characters of leaf blades, the most obvious are the texture and the pubescence. In Figure 4. — Trichomes of Rhytidophyllum: a,b, glandular, R. auriculatum; c, glandular, R. tomentosum; d, nonglandular, R. tomentosum. NUMBER 29 Gesneria the adaxial surface is plane, smooth or scabrous, glossy or dull with a thin or thick cuticle, occasionally with large bullae and scattered tri- chomes. Leaves of Rhytidophyllum are areolate; each areole bears a single trichome or a group of trichomes, except in R. berteroanum in which the areolae are usually glabrescent. The trichomes on the leaves, similar to those found on the stems and inflorescences, are of two types: glandular and nonglandular. The glandular trichomes are of three forms. The first (Figure 4 a) is short-stalked and at the apex bears cells that have divided anticlinally to the stalk cell into two or more cells (“facherformig,” Sachs, 1915). These glandular hairs probably produce the abundant resinous secretions at the apices of stems and branches. The second type of glandular trichome is a uniseriate hair of two or more cells with a spherical yellow gland at the apex (Figure 46), found occasionally along the leaf midveins or on the corolla of many species usually in a ciliate row at the margins of the limbs or scattered at the mouth of the tube. Glandular hairs of a third type were illustrated by Wiehler (1970). These tri- chomes produce mucilage, giving the sticky char- acter to the leaf and stem surfaces in Rhytido- phyllum. The glands are in a column of two or more cells, with a pointed thick-walled apical cell (Figure Ad). Nonglandular trichomes are similar in form to the third type of glandular trichome but arise from a basal ring of large epidermal cells (Figure 4c). The basal cells often contain deposits of calcium carbonate or calcium silicate (Sachs, 1915), the former detected by evolution of gas bubbles when a weak solution of hydrochloric acid is applied to the leaf. The mineral-impregnated epidermal cells remain after the trichome is lost and give the surface a scabrous or asperate texture as in Gesneria shaferi subsp. depressa. The stalk cells may continue to divide during ontogeny and produce up to thirty cells in a uniseriate column. These usually colorless cells appear white and matted, giving an arachnoid appearance to the surface of leaves of Rhytidophyllum acuhae, R. lanatum, R. leucomallon, and R. tomentosum. The matted trichomes may decrease water loss (Cutter, 1969). All types of trichomes appear to contain chloro- plasts, at least when immature. The presence of chloroplasts, except in guard cells, is an unusual character for epidermal cells (Esau, 1960). Tri- chomes often contain anthocyanin as well, giving a reddish or purplish color as in some plants of Rhytidophyllum leucomallon. Another useful feature of surface morphology is the undulation of the anticlinal walls of epidermal cells. Since the undulation is apparently a geneti- cally determined trait, its characters may have taxonomic value (Linsbauer, 1930). Wiehler (1970) pointed out that the absence or presence and degree of sinuation follows closely the tradi- tional generic lines between Gesneria and Rhytid- ophyllum. He reports that sixteen species of Gesneria show no sinuation of the abaxial cell walls, four show shallow undulation. All species of Rhytidophyllum have deep undulations of the cell wall, except for four species which have no sinua- tion. Examination of some species not available to Wiehler gave results that compare favorably with his results (examples of nonundulating epidermal cell walls can be seen in Figure 5). Stomata, found only on the abaxial surface of leaves, are of the cruciferous or anisocytic type (Esau, 1965) with three or four epidermal cells subsidiary to the guard cells. Arrangement of stomata in groups has been discussed by Sachs (1915), illustrated by Wiehler (1970), and found to vary according to species. Some species not available to Wiehler are illustrated in Figure 5. Gesneria harrisii (Figure 56) and G. humilis (Figure 5/) show tendencies toward grouping of stomata; the other illustrated species appear to have stomata well spaced. Stomata in Gesneria are usually on a level with surrounding epidermal cells, but those in Rhytid- ophyllum and Pheidonocarpa are elevated to the apex of substomatal domes (Figure 6) outside the spongy parenchyma. Among the examined species of Gesneria, only G. acaulis, G. christii, G. pedi- cellaris, and G. pedunculosa show slight develop- ments of the stomatal domes; these species also tend to have bullate leaves. There may also be a correlation between the development of the stoma- tal domes and the areolate abaxial surface in Rhytidophyllum. The correlation between the presence of the stomatal domes and the tomentose surface of the leaves of Rhytidophyllum was noted by Wiehler (1970). Haberlandt (1914) suggests that raised 12 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 5. — Abaxial leaf epidermis in species of Gesneria: a, G. clandestina; b, G. harrisii; c, G. ventricosa (from Dominica); d, G. haitiensis; e, G. fruticosa; f, G. humilis (from Haiti). NUMBER 29 13 stomata usually occur in plants growing in shady habitats, and because the stomata are elevated, transpiration probably increases due to a freer flow of air over and around the stomata. Biebl and Germ (1950) also suggest this reason for the presence of stomatal domes in plants in humid environments. Since Rhytidophyllum grows in dry exposed areas on banks (Figure 16) or in clearings, this reasoning is unlikely. It is likely, though, that because of the dense trichome covering of these plants, the microclimate at the leaf surface is hu- mid, and the stomata, raised on stomatal domes, may allow more efficient transpiration in the microclimate. The internal anatomy of the laminae of mem- bers of this tribe has not been studied since the investigations published in 1915 by Sachs. An attempt has been made to examine some of the species she studied as well as others not available to her. The adaxial epidermis appears one-cell thick in investigated species of Rhytidophyllum auricu- latum, R. berteroanum, R. leucomallon, R. tomentosum, Gesneria acaulis, G. christii, G. citrina, G. libanensis, and Pheidonocarpa corym- bosa. Gesneria pedicellaris, however, a close relative of G. acaulis and G. christii, has some leaves with a uniseriate row of cells and others with two or more layers in an apparent multiple epidermis. Although detailed developmental studies have not been done to determine the true identity of the subepidermal tissues, layers of cells resembling a multiple epidermis, which may decrease water loss from the mesophyll (Cutter, 1969), are distinctive features observed in cross sections of leaves of Figure 6. — Stomatal domes on the abaxial leaf surface of Rhytidophyllum tomentosum. many species of Gesneria. This adaxial tissue of large thin-walled water-storage cells was termed a hypodermis by Sachs (1915), but because of its dissimilarity to the mesophyll below and similarity to the epidermal layer and occasional alignment in radial rows, which may reveal the origin of the cells by periclinal divisions from the epidermis, the layers of multiple epidermis appear to have been derived from the protoderm. According to Esau (1965) the periclinal divisions that produce multiple epidermis may occur at different stages of leaf growth but usually when a leaf is several inter- nodes below the apex. Thus, leaves taken in dif- ferent stages of maturity may differ in amount of the subepidermal tissue. Light intensity may determine the relative size and number of rows of cells or layers in the meso- phyll. Gesneria exserta, which grows in nearly full sun, has a thick palisade layer of one to three rows of elongated cells. The lower layers are more loosely joined and become more isodiametric in apparent transition to the spongy parenchyma. Spongy mesophyll cells near the lower epidermis have lateral extensions allowing contact between the cells and spaces which may allow gas exchange. Gesneria reticulata, a species that does poorly in full sun, has a single layer of palisade parenchyma and only one or two layers of spongy mesophyll. In this latter species, however, beneath the spongy cells is a region of abaxial multiple epidermal cells, differing from the spongy mesophyll cells in being larger and lacking chloroplasts, but like them in being bounded by air spaces. Scattered among the cells of spongy mesophyll in Gesneria pedicellaris, at least, are crystals or mineral deposits as large as the cells (this observa- tion is in contrast to Sachs’ statement that large crystals do not occur in this family). These differ in shape and size from the usual calcium oxalate druses and may be calcium carbonate or calcium oxalate as found in trichomes. Other cells, par- ticularly near the veins, contain raphides similar to those found in the pith of this species (and reported from other species by Sachs). The minor veins in the leaf are composed of a few xylem elements subtended by phloem, all surrounded by a sclerenchymatous bundle sheath. In Gesneria pulverulenta the bundle sheath pro- jects like a pillar to the base of the adaxial multi- ple epidermis. In Rhytidophyllum the minor 14 SMITHSONIAN CONTRIBUTIONS TO BOTANY veins have a cortical sheath causing a prominent bulge in the leaf surface. The vascular pattern of the midveins is similar to the patterns in petioles. Main veins of most species are U-shaped rows of xylem vessels with an abaxial layer of phloem. Within the U-shaped strand are scattered arcs or bundles of xylem vessels and abaxial phloem layers. Exceptions are found in Gesneria viridiflora subsp. quisqueyana, which has three concentric U-shaped strands with intervening layers of parenchyma, in G. pedicel- laris with a nearly closed cylinder, and in Rhytidophyllum species where the vascular trace was shaped like an inverted capital omega: Q. The cortex surrounding the vascular strands is composed of parenchyma, with scattered sclerotized cells revealing large pit-pairs. Sclerotized cells also form a large area at the apex of the main veins, — _ ~ b O O O (O) (O) (O) ((O o) • w(o O)) o ~ O o o Figure 7. — a, Schematic drawing of inflorescence; b, inflores- cence diagram. (Terminal flower = solid circle; lateral flowers = open circles; bracts = curved lines; internode be- tween bracts at base of terminal flower and bracts at apex of primary peduncle = X.) and form a one- to three-celled ring around the outer margin of the vein. Layers of thick-walled cells occurred on the abaxial side of the phloem in Rhytidophyllum auriculatum. Inflorescences. — Inflorescences in the tribe Ges- nerieae are basically similar; those in each species can be shown to be examples of a stage in a reduction series from a compound dichasium to a single flower. The simplest inflorescence is a single flower borne on an axis with two lateral bracts (Figure 15), all arising from a leaf axil. The most complex inflorescence is that shown in Figure 7, a com- pound dichasium with a terminal flower on a central axis, which bears two sets of bracts: one set at the apex of the primary peduncle in whose axils are borne lateral axes, which simulate the central axis; the other set of bracts are at the base of the terminal flower. One of the latter bracts is fertile and bears a branch system of flowers similar to o o (O) (O) ( (Olo) • (o:oj (O) (O) o O o Figure 8. — a, Schematic drawing of inflorescence; b, inflorescence diagram. NUMBER 29 15 that of the lower lateral branch axes. The other bract is apparently sterile, but in the putative natural hybrid between Gesneria acaulis and Rhytidophyllum tomentosum a flower is produced whose pedicel is adnate to the pedicel of the terminal flower for a distance up to 6 mm; how- ever, this adnate flower is placed between the terminal flower and the branch system rather than on the side opposite the branch. One or both bracts at the base of the terminal flower may be lacking, or one may be adnate to the branch. The branch at the base of the terminal flower may be reduced to a simple dichasium. The internode between the bracts at the base of the terminal flower and the bracts at the apex of the primary peduncle (labeled “X” in Figure 7) is usually reduced so that a terminal flower, its bracts and branch system, as well as the lower branches appear to arise from the same point. This internode re- duction is common and persistent in all stages of the series. The inflorescence just described and illustrated in Figure 7 is found in nearly all species of Rhytidophyllum but is known only in a variety of Gesneria, G. scabra var. sphaerocarpa. A slight reduction is found in Rhytidophyllum onacaense (Figure 8). The bracts of the terminal flowers of the main and lateral axes are occasion- ally fertile, but bear single flowers and never branch systems at that point. Abortion of the bracts at many points is common (their presence is Figure 9. — a, Schematic drawing of inflorescence; b, inflorescence diagram. sometimes seen as vestigial bumps or swellings), but always a pair is present at the base of the lowest lateral axes. From the next stage of the reduction series to the final single- flowered inflorescence, the inter- node “X” is lacking, as is one lateral flower in the terminal dichasium. The remaining two flowers are decussate to the lateral branch axes. The order of flowering follows the pattern one might expect in a dichasial system: the terminal flower of the central axis opens first, followed by the remaining flowers in the terminal set of bracts, then the terminal flowers of the secondary branch axes and their subsidiary flowers, then the four terminal flowers of the tertiary axes, and so on to the limit of the development of the inflorescence. In many b ^ ° 2. • ° ° ) o w Figure 10. — a, Schematic drawing of inflorescence; b, inflorescence diagram. 16 SMITHSONIAN CONTRIBUTIONS TO BOTANY species, particularly Rhytidophyllum berteroanum, the inflorescence ceases further growth and devel- opment when a flower is fertilized. Gesneria fruticosa (Figure 9) has four bracts at the base of the terminal flower and its subsidiary flower where it joins the lateral axes. The number of bracts is reduced to two in Figure 10, the struc- ture is found in many species, including Gesneria acaulis, G. humilis, and G. viridiflora subsp. quisqueyana. By reduction of the lateral branch axes in Fig- ure 9 to single flowers and maintenance of the four bracts, the inflorescence found in Gesneria pedicellaris (Figure 11) can be derived, a structure of two pairs of decussate bracts with flowers in their axils. The inflorescence in Figure 12 could result either by reduction of lateral branch axes shown b (° • o) o Figure 11. — a, Schematic drawing of inflorescence; b, inflorescence diagram. in Figure 9 to single flowers or by reduction in the number of bracts from the inflorescence shown in Figure 11. Gesneria ventricosa displays this type of inflorescence in the typical subspecies. Further reduction in number of flowers is obvious in Gesneria pedunculosa (Figure 13) or G. pnmila subsp. mimuloides. The usual number of flowers is two; the terminal flower and its sub- sidiary. The lateral flowers are seldom present though the bracts persist. Reduction to a single flower is through loss of the subsidiary flower. In Gesneria cuneifolia (Fig- ure 14) the reduction probably parallels and sur- passes Gesneria pedicellaris (Figure 11). The lateral and subsidiary flowers have aborted, leaving the terminal flower with four bracts at its base. In Gesneria calycosa the reduction to a single flower presumably occurs after the abortion of the bracts at the base of the terminal flower (Figure 15). The bracts that remain on the flower stalk b (O • o) o Figure 12. — a, Schematic drawing of inflorescence; b, inflorescence diagram. NUMBER 29 17 probably subtended the lost lateral axes. This last inflorescence example may be considered most ad- vanced in the genus, for it is usually found in those species which have the, presumably, more-recently evolved bat-pollination mechanism. Flowers. — All species in this tribe have flowers similar in structure — i.e., a floral tube in the sense of Wilson (19746) composed of the adnate bases of the calyx, corolla, and stamens fused into a cup surrounding and adnate to the inferior or half- inferior 2-carpellate unilocular ovary. Above the attachment to ovary, the flower parts making up the floral tube become distinct. The calyx has five lobes sometimes connate briefly at the base. The five petals of the corolla are fused into a tube with a five-lobed limb at the apex. Adnate, at least briefly, to the base of the corolla tube are four stamens and a staminode. The free calyx lobes may be sulcate at base and awned above (e.g., Gesneria onychocalyx), flat- b (° • o) O Figure 13. — a. Schematic drawing of inflorescence; b, inflorescence diagram. tened as in G. pedunculosa, or terete (e.g., G. duchartreoides), glabrous or pubescent, but usually green. One to three veins in each persistent lobe may become prominent in the fruit. The calyx occasionally surpasses the corolla, as in G. calycosa, or may be reduced to less than 1 mm long in G. cubensis var. truncata. In those species where resin is abundant on the young leaves, the calyx is also very resinous. The shape of the corolla tube may be an adap- tation to the pollination mechanism — i.e., large and campanulate in suspected bat-pollinated species (Figures 1 h-i, \bb-c,m, 22), or narrow and tubu- lar in the hummingbird-visited species (Figures 16 d-k, 21a). One collection of Rhytidophyllum auriculatum (G-1066) bore at the same time corollas of both shapes, exhibiting a peloric trait found also in some species of Columnea, Rech- steineria, and Sinningia (H. E. Moore, pers. comm.). Green corollas, due to chloroplasts in the ^ b (•) O Figure 14. — a. Schematic drawing of inflorescence; b, inflorescence diagram. 18 SMITHSONIAN CONTRIBUTIONS TO BOTANY mesophyll cells, are common and probably are due to nondevelopment of anthocyanins. Protogyny and protandry both occur among the species of the Gesnerieae. The dehiscence of the anthers and the receptivity of the stigma are usually separated by a day, but environmental conditions may cause an overlap, allowing the possibility of self-pollination. The adnation of the filaments to the base of the corolla has been used by many authors as the main distinguishing character between Gesneria and Rhytidophyllum. Unfortunately, the trait is not always definite, but seen in combination with characters of the fruit, habit, and foliage, filament adnation is still a valuable marker. Filaments are nearly straight in the tubular species and curved or geniculate in the species with campanulate corollas. Often the base of the filament is invested with pilose colorless trichomes. Filaments and anthers may be white, green, yellow, or reddish depending on the species. The filament or con- b <•) Ficure 15. — a, Schematic drawing of inflorescence; b, inflorescence diagram. nective may be prolonged in some species beyond the anther; the connective appears to be quite variable and may not be as diagnostic here as it is in some species of Codonanthe (Moore, 1973a). Anthers are usually coherent in two pairs by their apices, arranged in a row of four side by side, or separate. The coherence is tenuous in some species and anthers may become free after anthesis. Dehiscence of the anthers is longitudinal, and occurs soon after anthesis in protandrous species (e.g., Gesneria peduncidosa), or about a day later in the protogynous species (e.g., G. viridiflora subsp. quisqueyana ). Exsertion of the stamens seems to be a detail of the pollination mechanism and may effect a reproductive barrier that may prevent cross- pollination among sympatric species. There ap- pears to be evidence of coevolution and adapta- tion in some species (see Pollination and Seed Dispersal). In Gesneria section Duchartrea, sus- pected as being bat pollinated, the stamens are included, e. g., Gesneria viridiflora subsp. quis- queyana (Figure 16m); if a bat probed the flower for nectar, pollen would be deposited on the fore- head of the animal. In some species of Gesneria section Dittanthera, where the stamens are long- exserted, e.g., G. pedunculosa (Figure li) or G. calycosa (Figure 22a), a probing bat would receive a coating of pollen at the back of the head. In the plants believed to be pollinated by hum- mingbirds, a similar state exists: flowers of Ges- neria section Gesneria have included stamens from which pollen may be shaken or brushed onto the top of the base of the bill of a hummingbird visitor; Gesneria section Pentarhaphia includes plants with exserted stamens from which pollen may be shaken or brushed onto the top of a bird’s head (Figure 16d). The styles of all these plants appear to be approximately the same length as the stamens and terminate in stigmas so oriented that pollen from an animal’s head may adhere to them. Early pollen studies in the Gesneriaceae were executed using light microscopy and were devoted either to development (Goldmann, 1848) or to casual observations of surface features (Schnizlein, 1843-1870). The only critical study of the pollen morphology of the Gesneriaceae since a brief sur- vey in 1952 by Erdtman has been the unpublished investigation by Pauline Woods at the Royal NUMBER 29 19 Botanic Garden, Edinburgh. To determine if a closer look would reveal additional information, I examined 27 examples of pollen from the tribe Gesnerieae with a scanning electron microscope. Pollen among the species of the tribe Ges- nerieae is relatively uniform as seen under the scanning electron microscope. Although surface topography did display some variation among species, obvious differences in size and shape were not seen; the size limits in this group are well within the limits of the family as observed by Erdtman (1952). Pollen grains are isopolar with a nearly circu- lar amb, tricolpate with three mesocolpia and two truncate or rounded apocolpia, prolate; size is small to medium (18.5-27.0 pm long at the polar axis, 8. 5-6.0 pm wide at the equatorial axis); sexine is usually reticulate with lumina heterobro- chate or rarely homobrochate, about 1 pm across, muri about 1 pm wide, seldom nearly smooth or verrucose; colpi are long and narrow. The exceptions to the typically reticulate sexine surface among the 27 examples investigated were found in Gesneria scabra var. sphaerocarpa, with a sexine that appeared to be nonreticulate and nearly smooth (Figure 17/), and in Gesneria clandestina (Figure 18a) and G. fruticosa, both of which had a verrucose or warty sexine. Gesneria viridiflora subsp. sintenisii (Figure 17a) had a rugose outer surface that appeared intermediate between the verrucose type and the typical reticu- late forms. The latter three species have apparently become modified morphologically in corolla char- acters related to bat pollination. Perhaps the verrucose or warty surface is a modification in the pollen associated with the more recent bat pol- Figure 16. — Flowers of Gesneria and Rhytidophyllum: a, artificial intergeneric hybrid Rhytido- phyllum leucomallon X Gesneria pedunculosa, G-1232; b, R. auriculatum, G-905; c, R. leucomal- lon, G-1010; d, Gesneria ventricosa subsp. ventricosa, G-940; e, G. christii, G-1008; /, G. pedicel- laris, G-898; g, G. acaulis var. glabrata, G-876; h, G. cuneifolia, G-869; i, G. citrina, G-888; j, G. pulverulenta G-1034; k, G. pauciflora, G-769; l, G. humilis, G-1365; m, G. viridiflora subsp. quisqueyana, G-903. 20 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 17. Pollen grains of tribe Gesnerieae as seen with scanning electron microscope, scale indicated by ruled line: a, Gesneria viridifiora subsp. sintenisii (Talpey 23), scale = 5 pm; b, G. pedicellaris (G-898), scale = 5 pm; c, G. acaulis var. glabrata (G-876), scale = 10 pm; d, G. acaulis var. acaulis (G-877), scale = 10 pm; e, Rhytidophyllum tomentosum (G-841), scale 10 Pm; f, Gesneria scabra var. sphaerocarpa (G-881), scale = 10 pm; g, G. ventricosa subsp. ventricosa (G-940), scale = 10 pm; h, G. humilis ( Alain Liogier 4434), scale = 5 pm. NUMBER 29 21 Figure 18. — Pollen grains of tribe Gesnerieae as seen with scanning electron microscope, scale indicated by ruled line: a, Gesneria clandestina ( Harris & Britton 10679), scale = 10 pm; b, G. viridiflora subsp. viridiflora ( Clemente 5089), scale = 2 pm; c, G. pulverulenta (G-1034), scale = 20 pm; d, G. cuneifolia (G-763), scale = 10 pm; e, G. pauciflora (G-769), scale = 10 pm; f, G. humilis (G-1365), scale = 3 pm; g, putative natural hybrid Gesneria acaulis X Rhytidophyl- lum tomentosum (G-1371), scale = 10 pm; h, Pheidonocarpa corymbosa subsp. corymbosa (G-1367), scale = 10 pm; i, Gesneria pedunculosa (G-767), scale = 10 pm; j, G. calycosa (G-1037), scale = 10 pm; k, G. pumila subsp. pumila (G-874), scale = 10 pm. 22 SMITHSONIAN CONTRIBUTIONS TO BOTANY lination; warts may allow the grains to adhere to the fur of the flying mammal. Other species probably modified for bat visitation, Rhytido- phyllum tomentosum (Figure 17 e), Gesneria calycosa (Figure 18;), and G. viridiflora subsp. viridiflora (Figure 185), have not developed this surface topography, but have grains with the reticulate surface typical for the tribe. The startling appearance of the pollen of hybrid forms added evidence of their origin. Pollen of two natural intergeneric hybrids, Rhytidophyllum to- mentosum X Gesneria scabra var. sphaerocarpa and Rhytidophyllum tomentosum X Gesneria acaulis var. glabrata (Figure 18g), showed distor- tion and general collapse of the grains. A hybrid between two species of Gesneria, G. pedicellaris X G. pedunculosa, did not show this collapse. Pollen of Gesneria humilis from Haiti also showed collapse and distortion similar to .the hybrids (Figure 18/); however, pollen from the same species from Cuba appeared to be normal (Figure \lh). The remainder of the pollen ex- amined appeared to be relatively uniform in struc- ture but differed somewhat in size. The half-inferior to inferior bicarpellate, uni- locular ovary is hemiparacarpous according to Ivanina (1965). According to Wilson (1974a) the two carpels are arranged as in the closely related Scrophulariaceae and “lie in an anterior-posterior position with relation to the floral axis and not, as stated by Hutchinson (1959), to the right and left of the floral axis.” Earlier authors (e.g., Lawrence, 1951) have written that the placentation in the Gesneriaceae is parietal with placentas bearing numerous anatropous ovules. Weber (1971), how- ever, has shown that in Gesneria libanensis the ovules are borne only on the surfaces of the in- truded placental lamellae and not on the outside walls of the carpels. In Pheidonocarpa corymbosa the apex of the half-inferior ovary protrudes be- yond the disc and becomes accrescent to form a beak in the fruit, an obvious character that sep- arates this species from Gesneria. The disc of all species is apparently a ring of fused glands, be- coming five-lobed, sinuate, or unlobed. According to Brown (1938) the disc in the Gesneriaceae is nectarial. In plants like those in the tribe Ges- nerieae, Brown suggests that the inferior ovary, but not the nectariferous tissue, has been sur- rounded by the torus or receptable; Moore and Lee (1968) suggest the possibility that the disc in some genera may be a reduced inner whorl of stamens and call attention to the need for de- tailed study. However, the disc in Gesneria bears glandular trichomes that exude abundant nectar in many species and may testify to its nectarial origin. Wilson (1974a, 1974b), after extensive study of nectarial tissues in the Gesneriaceae, con- cluded that the disc “is an enation; there is no evidence that it is a modification of any pre- existing cycle of floral parts.” In Gesneria pedunculosa, a protandrous species, the style is patent during the first day after an- thesis, but becomes erect during the second day. In protogynous species, e.g., Gesneria viridiflora subsp. quisqueyana, the style is exserted while the corolla is opening and before the anthers dehisce. The papillate stigma is capitate and enlarged in Gesneria humilis, slightly enlarged in most species of Rhytidophyllum, stomatomorphic in most spe- cies of Gesneria, but in Pheidonocarpa the stigma is prominently bilobed. Fruit. — Capsules are elongated and linear in Gesneria calycina, turbinate in most other species of Gesneria, or nearly spherical as in most species of Rhytidophyllum. The rostrate apex appears only in Pheidonocarpa. Dehiscence occurs usually through the median radial splitting of the carpels into two or four valves from the apex. An unusual fruit referred to here as a splash cup develops in some species of Gesneria (see Pollination and Seed Dispersal). In Gesneria citrina, G. cuneifolia, G. humilis, and others the apex of the capsule splits or withers to form a round opening and exposes seeds, which may be ejected by rain or waterfall splash. In many species of Rhytidophyllum, the capsule is inverted during maturation allowing seeds to fall out when the fruit opens. The veins of the floral tube surrounding the ovary in species of Gesneria usually enlarge to form prominent costae on the capsules; Pheidono- carpa and Rhytidophyllum species do not show this character. Seeds. — The seeds develop from anatropous unitegmic ovules (Davis, 1966). Seeds of all speci- mens investigated were similar in size, averaging about 800 pm long and 250 pm wide, but ranging from 1300 pm long in Gesneria calycosa (Figure 19g) to 500 pm long in G. pumila subsp. neglecta, from NUMBER 29 23 Figure 19. — Seeds of Gesnerieae as seen under a light microscope: a, Gesneria heterochroa (Ekman 8741)-, b, G. acaulis var. acaulis (G-877); c, G. christii (G-1008); d, Rhytidophyl- lum grande ( Proctor 18312); e, Gesneria acaulis var. g labrata (G-876); f, G. calycina ( Proctor 22125); g, G. calycosa ( Proctor 21517); h, Rhytidophyllum tomentosum (G-841); i, Gesneria ventricosa subsp. ventricosa (G-940); j, G. humilis (G-1365); k, G. cuneifolia (G-857); l, Rhytido- phyllum grande ( Proctor 16645); m, Gesneria alpina ( Proctor 9616); n, G. duchartreoides ( Alain Liogier & Lopez F. 7318). 24 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 20. — Seeds of Gesnerieae as seen with scanning electron microscope (scale = 100 pm): a, Gesneria christii (G-1008); b, G. humilis (G-1365); c, Rhytidophyllum tomentosum (G-841); d, Gesneria cuneifolia (G-857). 450 p.m wide in G. acaulis (Figure 19 b,e) to 150 [tm wide in G. scabra var. fawcettii. Seeds are spindle-shaped (Figure 1 9a,d,h,i,k-n), linear (Figure 19/-g), rhombic (Figures 19/, 20c), or oblong (Figures \9b-c, 20 d). All appear twisted or bear spiral lines, which are apparently the remnants of the cell walls of the integument. At maturity the seeds probably twist upon drying. The walls of the outer cells appear inflated in species of Gesneria (Figure 20 a-b,d) but sunken and less twisted in Rhytidophyllum (Figure 20c). Ges- neria ventricosa, however, appears intermediate in this character. Upon germination, the seedlings are isocotylous, consistent with the division by Burtt (1962) of the Gesneriaceae into two subfamilies based on seed- ling characters. Conclusions The main purpose for examining the species of the tribe Gesnerieae was to determine whether there are differences that could distinguish the genera Gesneria and Rhytidophyllum consistently. Plants in these genera have been considered con- generic by many authors, e.g., Linneaus (1753), Baillon (1888), Kuntze (1891), and more recently a union was proposed by Wiehler (1970). In recent floras of the West Indian region (Adams, 1972; Morton, 1957b), these genera have been separated by the length of the adnation of the filaments to the corolla tube, a distinction noted by Fritsch (1894). Other characters may now be added. Table 1 gives the characters that distinguish Gesneria, Rhytidophyllum, and Pheidonocarpa. Consideration of these characters and observations of the plants in the field have led to the conclusion that Gesneria and Rhytidophyllum should be maintained as separate genera. There is overlap in many characters, and no single character may distinguish all taxa in one genus from all taxa in NUMBER 29 25 Table 1. — Comparison of characters of genera in the Gesnerieae Pharar Po«no,-ia Rfc +4 An h n„m pwh™, 1 iL-1 E_ Habit usually protected exposed marginal exposed limestone cliffs Crystals raphides3 styloid styloid alternate0 alternate opposite, decussate glandular muci- laginous hairs plane, smooth & areolate scabrous occas! bullate few-celled up to 30 cells few-celled uniseriate hairs arachnoid surface cell wallPundulation minor veins none or shallow usually deepC none no cortical sheath cortical sheath unknown seldomd always always Flowers filament adnation ovary (Figures 7-8) (Figure 8) of filament base of filament base of filament base inferior inferior half-inferior linear, turbinate usually spherical turbinate, long costae rarely spherxcal curved beak seed walls verrucosa the other. Evidence of their distinctness may be found also in pollen characters of intergeneric hybrids: collapse of pollen grains observed in scanning electron microscopy, and the low pollen stainability, compared to noncollapse of pollen grains in an interspecific hybrid in Gesneria, which has high pollen stainability. Gesneria corymbosa and G. mortonii should be removed from Gesneria, based on field observa- tions and laboratory investigation, also sum- marized in Table 1. Three solutions are suggested for the disposition of the two species: (1) reunion with Heppiella, disqualified for the reasons de- tailed by Wiehler (1971); (2) transfer to Rhytido- phyllum with which many of the characters appear to correlate more closely than with Gesneria, but the species would still remain an anomalous group within that genus, and this solution is therefore rejected; (3) erection of a new genus in the tribe Gesnerieae. The chromosome number, structures of inflorescence and flowers, and leaf anatomy all point to a closer relationship to Gesneria and Rhytidophyllum than to other genera. This action, however, would destroy the traditional tribal 26 SMITHSONIAN CONTRIBUTIONS TO BOTANY character of alternate leaf arrangement. Emenda- tion of the tribal circumscription is therefore necessary to account for the addition of the new genus, Pheidonocarpa. This third course of action is taken herein. Pollination and Seed Dispersal The evolution of flowering plants has probably been largely the result of adaptive pressure toward efficient methods of dissemination of pollen and seeds. This section deals with these aspects of dis- semination in the Gesnerieae, primarily in the genus Gesneria ; (1) the pollination biology and probable coevolution of Gesneria species and vertebrates, and (2) seed dispersal and its primary reliance on water and winds. Materials and Methods To correlate the sizes and shapes of flowers to possible hummingbird and bat pollinators, meas- urements of suspected animal visitors were taken from specimens in the collections of Cornell University, and in the Divisions of Birds and Mammals at the National Museum of Natural History, Smithsonian Institution, Washington, D. C. Table 2. — Measurements of hummingbirds Anthracothorax dominicus Anthracothorax mango Anthracothorax viridis Archilochus colubris Calypte helenae Chlorostilbon maugaeus Chlorostilbon ricordii Chlorostilbon swainsonii Cyanophaia bicolor Eulampis jugularis Glaucis hirsuta Mellisuga minima Qrthorhyncus cristatus Sericotes holosericeus Trochilus polytmus Domini can Republic Jamaica Puerto Rico U. S . &. West Indies Cuba Puerto Rioo Cuba Hispaniola West Indies Jamaica Lesser Antilles B = i For hummingbirds, the following data were collected: (1) the name of the species, (2) the collection location, (3) the accession number, (4) the length of the bill measured in cm, and (5) the width of the bill (in mm) at the base. Averages of these measurements are shown in Table 2. Selected specimens were photographed for a record. Because of the varied shape of heads among the species of bats, more extensive data were collected: (1) the species name, (2) the collection location, (3) the accession number, (4) dorsal-ventral width in mm of head at middle of eye, (5) length along dorsal rostrum from level of middle of eye to nose leaf, (6) depth in mm of nose from base of nose leaf to bottom of lower jaws, (7) width in mm across skull at center of eyes, (8) width in mm across anterior tip of nose, (9) depth in mm ver- tically from crown of head to lower jaws, and (10) distance in mm from tip of nose leaf to bottom of lower jaws. For comparison with corolla length and width, it was found that meas- urements 4 and 5 were critical. Averages of all of these measurements are shown in Table 3. Again, selected specimens were photographed. Pollination Biology By far the greatest part of the literature on co- evolution of plants and animals has been devoted to the field of study known variously as pollination biology, pollination ecology, or anthecology. This field of study began over 200 years ago with the work of Kolreuter (1761), was expanded by Sprengel (1793), Muller (1883), and Knuth (1906-1909), but only in the last few decades has yielded information to show the effects of adapta- tion and selection resulting in speciation. The works by Faegri and van der Pijl (1966, 1971) summarized the recent work in pollination biology. Current studies of pollination biology rest on a concept of coevolution or development of mutual- istic relationships between flowering plants and animals. According to Baker and Hurd (1968), coevolution or reciprocal evolution among plants and animals occurs in a series of steps, a result of natural selection toward the most efficient model for reproduction in both partners. An animal that can derive food or energy from a plant with a smaller expenditure of energy than another animal NUMBER 29 27 is more likely to survive to pass on its hereditary characters. Likewise, a plant that is more attractive to potential pollinators or seed dispersers is more likely to have its hereditary characters appear in the next generation. Because of their “tremendous evolutionary plasticity” and coevolution with animals, “angiosperms have attained the highest level of organization in the plant kingdom” (Takhtajan, 1969). Since pollination by abiotic means, such as wind or water, is neither known nor suspected in Ges- neria, only biotic pollination will be discussed. Three methods of biotic pollination are suggested and will be considered: transfer of pollen via insects, birds, or bats. Self-pollination may be im- portant in some species and will be mentioned in relation to distribution patterns. Flowers may have a combination of characters to attract more than one pollinator, as well as a capacity for self-pollination. Baker, Cruden &: Baker (1971:1127) recently wrote: “very few plants have only one kind of visitor capable of effective pollination . . . and practically none have only one kind of visitor capable of gaining sustenance from the floral parts or the nectar.” Thus, while flowers of many species of Gesneria may be pollinated by bats, these same flowers may be visited by hum- mingbirds or insects. Figure 21 b is a photograph of a hummingbird ( Anthracothorax dominicus) visiting Rhytidophyllum auriculatum, a species probably adapted for bat pollination. Among the invertebrates, only insects may be considered as possible visitors to Gesneria flowers. The interactions of many plants and insects have been thoroughly studied: extensive observations are detailed in the early works by Muller (1883) and Knuth (1906-1909), and a summary discussion of coevolution of plants and insects has recently been published by Macior (1971) along with an extensive bibliography on the subject. Insect pollinators are usually members of the orders of Coleoptera, Diptera, Hymenoptera, and Lepidoptera. The characters of the flowers at- tracted by insects have been listed by Faegri & van der Pijl (1966, 1971). Flowers specialized for visitation by one insect taxon are likely to be less attractive to other groups of insects, i.e., flowers attractive to bees may differ from flowers attractive to flies, butterflies, or moths. There are no previously documented reports of insects visiting flowers of Gesneria. A comparison of the characteristics of Gesneria flowers with those of insect-pollinated flowers given by Faegri and van der Pijl (1966, 1971) shows that Gesneria is not likely to be pollinated by insects. The genus lacks blue or pure yellow flowers especially attrac- tive to bees, ultra-violet reflecting nectar guides used by bees and flies to locate nectar or pollen, a strong fruity odor attractive to beetles or moths, radial erect flowers with a landing area attractive to butterflies, regular simple flowers visited by flies, and the versatile anthers of moth-pollinated flowers. The tubular or campanulate flowers dis- courage beetles. However, while collecting in the Dominican Republic, I saw honeybees ( Apis mellifera) enter flowers of Rhytidophyllum ber- teroanum in the field; the honeybees that visited the flowers of this species could not be the original pollinators, for they are recent immigrants to the New World. The tubular, red flowers of R. berteroanum appear to be adapted to humming- bird pollination. In species of Gesneria with tubu- lar, red corollas, bees may occasionally be attracted to the nectar, which is usually available in abundance. Because the anthers are positioned on the upper side of the corolla tube, as in the campanulate-flowered species, and from observa- tions of Apis mellifera entering the tubular corolla Table 3. — Measurements of bats Brachyphylla cavernarum Brachyphylla nana Brachyphylla pumila Erophylla bombifrons bombifrons Erophylla bombifrons santacristobalensis Erophylla sezekorni sezekorni Erophylla sezekorni syops Puerto Ri Jamaica origin Republic Measurements (cm ) 1 2 3 4 5 6 7 1.3 1.2 1.0 1.5 0.9 * 1.0 1.1 1.1 1.3 0.9 1.6 * 1.2 1.0 0.3 1.3 0.8 1.8 * 0.8 0.8 0.5 0.8 0.6 1.2 0.7 0.8 0.8 0.6 0.8 0.6 1.3 0.8 0.8 0.9 0.6 0.8 0.5 1.4 * 0.8 0.9 0.6 0.8 0.5 1.3 0.7 Glossophaga soricina antillarum Monophyllus redmani clinedaphus Monophyllus redmani portoricensiE Monophyllus redmani redmani Phyllonycteris aphylla Phyllonycteris poeyi Jamaica Cuba, H Jamaica Cuba 0.9 0.8 0.6 0.9 0.6 1.6 1.0 0.8 0.9 0.5 0.8 0.4 1.1 0.8 0.6 0.8 0.4 0.8 0.4 1.0 0.7 0.8 0.9 0.5 0.9 0.5 1.3 0.9 (X) 1.3 1.1 1.0 0.8 0.6 0.8 0.5 1.3 0.7 1 = dorsal-ventral width of head at middle of eye; 2 = length along dorsal of rostrum from level of middle of eye to nose leaf; 3= depth of nose from base of nose leaf to bottom of lower jaws; 4= width across skull at center of eyes; 5 = width across anterior tip of nose; 6= depth vertically from crown of head to lower jaws; 7 = distance from tip of nose leaf to bottom of lower jaws; * = not measured; (X) = preserved specimens not available; measurements derived from skull. 28 SMITHSONIAN CONTRIBUTIONS TO BOTANY of Rhytidophyllum berteroanum from the lower side, it appears that bees would seldom contact the anthers and stigma to transfer pollen. Therefore, bees are not likely to be important pollinators. If insects are eliminated from the likely princi- pal pollinators of Gesneria, one must search among the vertebrates to find the probable pollinators. According to Allen (1939) and Faegri and van der Pijl (1966, 1971), vertebrate pollinators are pre- dominantly phenomena of the tropics, for only in tropical regions with their evenness of climate are blossoms available for food at all times during the year. In the neotropics, two vertebrate pol- lination mechanisms appear to predominate: hum- mingbird pollination and the more recently evolved and less well-known pollination by bats. Pollination by birds was first described by Figure 21. — Hummingbirds with flowers they may visit and pollinate: a, Anthracothorax dominicus from the Dominican Republic with Gesneria pedicellaris (top), G. christii (middle), and G. reticulata (bottom); b, Anthracothorax dominicus visiting Rhytidophyllum auriculatum in the Dominican Re- public (arrow indicates pollen at the base of bill; photograph by T. E. Talpey). Trelease in 1881 and was later studied by Fries (1903) and Werth (1915) among others. The work by Grant and Grant (1968) has elucidated many of the mechanisms in ornithophily. Ornithophilous plants are usually visited and pollinated by birds of the families Coerebidae, Nectariniidae', Meliphagidae, Drepanididae, or Trochilidae (Welty, 1963; Wallace, 1963). In the Trochilidae, the hummingbirds are highly adapted to taking nectar from flowers by their ability to hover, a visual sensitivity to red, a long bill, and a tongue modified for taking up nectar. Characters of bird-pollinated flowers are listed in Table 4. These characters in combination serve also to exclude other possible competitors for pol- len or nectar. The red color of these flowers is seen as the unifying character of hummingbird- pollinated flowers. Baker (1961:66) stated that the red color with its longer wavelengths makes the flowers more easily seen against the darker foliage at dusk or early in the morning. Grant and Grant wrote that the common red color of ornitho- philous flowers is the result of mimicry or adaptive coloration. Hummingbirds appear to associate red color with large amounts of nectar. Since most insects and bats are not attracted to a bright red color (unless combined with ultraviolet) and are thus excluded from pollination, the plants are dependent upon hummingbirds for pollination. The stages in coevolution of birds and flowers cannot be detailed with certainty, but Grant and Grant (1968:87) suggest that a preadapted “swift- like bird — tropical, insectivorous, and agile on the wing’’ was the probable ancestor for the nectar- feeding hummingbird. The plants have probably developed from a preadapted insect-pollinated ancestor, but since there are no known present-day exclusively insect-pollinated species of Gesneria , the development of hummingbird pollination must have followed one of two paths: (1) if once there were insect-pollinated species of Gesneria , they are now no longer extant and may have declined in response to more-effective methods of pollination; or (2) Gesneria as a genus evolved after the mech- anism for hummingbird pollination had been established in the family. Hummingbird pollination is well known in the Gesneriaceae (Stearn, 1969), so the possibility of hummingbird pollination should be expected in Gesneria. In fact, Harborne (1966) mentions a NUMBER 29 29 Table 4. — Characters of flowers visited by hummingbirds and bats* Flower charact Corolla Nectar guides Nectar availability Nectar quantity Pollen quantity vivid, usually red with contrasting strong, tubular with no lip hidden in base of corolla tube or in spurs abundant drab, white, cream to green or purple strong single flowers with large mouths or inflorescences of small flowers stale or sweet, or of ripe or decaying fruit accessible abundant abundant * Compiled from Faegri & van der Pijl (1966, 1971), Baker (1961), Meeuse (1961), and Grant & Grant (1968). report of hummingbirds visiting a Gesneria species. Of the 15 species of hummingbirds reported by Bond (1961) from the West Indies, 13 are selected here to be potential pollinators of Gesneria spe- cies. In Table 5 are listed the hummingbird species, the mean lengths of their bills, and one of the species of Gesneria which has a corolla tube length, corresponding to the bill length. Hum- mingbird species are illustrated in Figures 21 and 25 with flowers of species they may visit and pollinate. The potential pollinators for some of the species will be discussed under the species. Sections Pentarhaphia and Physcophyllon in par- ticular have the syndrome of characters found in flowers usually visited by hummingbirds. The color of the corolla tube ranges from pure red to light yellow with a red limb or greenish-white with a reddish base. The pigments of two Gesneria species are similar to the anthocyanidins in other bird-pollinated species in the Gesneriaceae (Har- borne, 1966). The anthocyanidins in the Ges- neriaceae are unique in the flowering plants and found elsewhere only in a few fern species. The corollas also differ from each other in size and shape (Figures 16 d-k, 21a), but the flowers often have a horizontal orientation, which seems geneti- cally controlled, at least in Gesneria pedicellaris. This species grows on vertical cliffs in the Dominican Republic. In such a habitat corollas are oriented perpendicularly to the substrate (Figure 1/); however, when grown in a pot in the greenhouse, the perpendicular orientation is main- tained, i.e., the corollas are oriented vertically. Stamens and stigmata are usually in a position to contact the hummingbird at the upper side of the bill base or on the front of the head. Since the stigma is receptive one or two days before or after the pollen is released, there is minimal chance of self-pollination. Since hummingbirds are strongly territorial in their habits (Stearn, 1969) and restrict their feeding to a limited area, populations of hummingbird- pollinated species of Gesneria may become inbred and form apparent endemic species. Humming- birds, however, are not flower-constant; thus if more than one potentially cross-breeding population of Gesnerieae occurs within the feeding area, nat- ural hybrids may result, e.g., Gesneria scabra var. sphaerocarpa X Rhytidophyllum tomentosum, and Gesneria acaulis var. glabrata X Rhytidophyllum tomentosum (Figure If), which have been discov- ered in Jamaica. The second type of vertebrate pollination in- volves bats. This facet of pollination biology has been neglected until recently, perhaps because of the nocturnal habits of bats, the flowering habit of the flowers visited by bats, and the restriction of this phenomenon to tropical regions. The first suggestion that bats might be pollination agents is attributed to Moseley (1879), although the first record of bats visiting flowers was made by De La Nux in a letter to Buffon in 1772 (Baker and Harris, 1957). In the past decade many additional observations of bat pollination have been made, as well as detailed studies of mechanisms of bat pollination (Vogel, 1969a, 1969b). Nectar- and pollen-feeding bats in the New World belong to the suborder Microchiroptera of the order Chiroptera and represent two sub- families, Glossophaginae and Phyllonycterinae, of the family Phyllostomidae. These small mammals have heads with elongated narrow rostra and jaws that can fit into large campanulate flowers. Brush- like papillae near the tip of their extensile tongues are adapted for lapping nectar and pollen, allow- ing the bats to reach the nectar at the base of the corolla (Wille, 1954). According to Allen (1939), “bats are guided by their sense of smell in finding the blossoms and are attracted by the nectar.” The odor, however, may not necessarily be detectable by humans. Kaisila 30 SMITHSONIAN CONTRIBUTIONS TO BOTANY (1966) reports a bat, Rousettus aegyptiacus , as the only visitor to the apparently odorless Bombax malabaricum. In flower-feeding bats the olfactory lobes of the brain are well developed; Moller (1932) has shown these organs to be far better developed in the nectar-feeding Glossophaga than in insectivorous bats. Some bats (e.g., Glossophaga, Brachyphylla ) are able to hover and feed on the flower. Other bats (e.g., Leptonycteris nivalis in Arizona) cannot hover, but must make repeated feedings at a single flower. This they accomplish by flying up to a flower, stopping suddenly, lapping nectar and flying off to the side before falling from the flower (Cockrum and Hayward, 1962; Novick, 1969). Chiropterophilous flowers display a syndrome of characters distinctly different from those of flowers visited by insects and hummingbirds (see Table 4). Preadaptation of flowers and bats for coevolu- tion was discussed by Vogel (1969a, 1969b), who inferred that flowers adapted for bat pollination were present before the bats. Unless one accepts preadaptation, one can assume that plants adapted for bat pollination evolved from a bird-pollinated ancestor simultaneously with the flower-feeding bats. The bats probably evolved from insect- feeding forms. Grant and Grant (1968:94) wrote that bat pollination may have emerged because hummingbird pollination in some tropical regions reached a saturation point “conducive to the emerg- ence of a new derivative pollination system.” The idea of bat pollination in Gesneria was first proposed in 1969 by Vogel for G. viridi flora and G. calycosa. Although Vogel presented no definite proof, he based his hypothesis on flower structure and color. The species of Gesneria suspected of being bat pollinated display the characters listed in Table 4. The flowers are simi- lar to Kigelia, a member of the Bignoniaceae, which has been observed to be pollinated by bats in the Old World (Harris and Baker, 1958; Meeuse, 1961). The flowers are campanulate (Figures 1 h; 16 b,c,m; 22a, b), borne on long erect or pendent peduncles, e.g., Rhytidophyllum grande (Figure lc) or Gesneria pedunculosa (Figure Iz). No floral odor is apparent, but the resin produced by Gesneria sometimes has a fruity odor which may act as the attractant. Abundant nectar nearly fills the drab-colored to green corolla. The stamens and stigma appear oriented to touch the top of the head, rostrum, or nose leaf of the animal (Figure 22a, b). Much more pollen is produced by these species than by those pollinated by birds. One or two anthers of Gesneria calycosa (probably bat pollinated) con- tain as much pollen as about 50 anthers of G. NUMBER 29 31 acaulis (probably hummingbird pollinated). The stigma is enlarged and may make greater contact with the bat’s head. The habit of a bat-pollinated plant is usually fruticose or arborescent, bringing the flowers high above the ground where bats commonly fly. Re- ports of flower-feeding bats, Monophyllus redmani, being observed to “settle on walls low down” (Osburn, 1865) or caught in ground-level nets (Tamsitt, 1967) suggest that some bats are able to visit flowers at or near ground level. Gesneria pumila and other species of short stature commonly grow on rock ledges, making the plants as accessible to flying mammals as those with a taller habit. Eighteen species and subspecies of flower- Figure 22. — Bats with flowers they may visit and pollinate: a, specimen of Brachyphylla cavernarum posed with Gesneria calycosa to show relative size of bat’s head and flower (note contact of anthers with top of bat’s head); b, specimen of Glossophaga soricina antillarutn posed with Rhytidophyllum tomentosum (arrow points to contact of nose leaf with anthers). feeding bats are known from the West Indies (Hall and Kelson, 1959; Schwartz and Jones, 1967; McNab, 1971); from these, fifteen may be potential pollinators for Gesneria species. In Table 6 there are listed potential bat pollinators from each of the islands, critical measurements of bat heads, and species of Gesneria which have corollas corresponding to the size and shape of the bat head. Two species of bats are illustrated in Figure 22a, b. All of the major islands of the Greater Antilles have species of Gesneria that could be bat pol- linated. Of the four largest islands, Jamaica has the largest number of these forms, as well as the largest number of extant bat species. This fact may reflect the opinion of Koopman and Williams (1951) that Jamaica- was “a way station on the road to invasion of the West Indies” and that in the Greater Antilles bat pollination may have developed first in Jamaica and spread to the other islands by land bridges in the geologic past. In a later article, Koopman (1958) suggests that the poorer total representation of bats in the Greater Antilles, as compared to the American continents and their nearby islands, is the result of a combina- tion of water gaps and environmental restriction. Although most of the Antilles have been above sea level since the Late Miocene-Early Pliocene (Schuchert, 1935), Walker (1968) states that the family Phyllostomidae appeared no earlier than the Pleistocene. According to Allen (1939), fossil deposits containing remains of bats in the West Indies are no older than the late Pleistocene, although fossil bats can be found in European deposits dating back to the Eocene. Some members of the flower-feeding bat genera are now known only as subfossils. Allen suggests that the disap- pearance of some of the taxa within the past cen- tury or more may be due to human habitation and forest destruction. Pollen dissemination in Gesneria is more likely dependent on the advanced mechanisms of hum- mingbird and bat pollination to achieve cross- breeding within populations than upon pollina- tion by insects. Evidence to prove this hypothesis can be found in the characters of these tropical organisms. Although evidence has been given to show the likelihood of hummingbird and bat pollination, only direct observation can prove the existence of such mechanisms. 32 SMITHSONIAN CONTRIBUTIONS TO BOTANY Table 6. — Potential bat pollinators (Phyllostomidae) and Gesneria species in the West Indies Methods of Seed Dispersal in Gesneria Coevolution for the dispersal of fruits and seeds has occurred among many plants and animals (Stebbins, 1971), although perhaps not to any great degree in Gesneria. The fruit is a dry capsule containing very small, numerous, reddish-brown to black, twisted seeds. Three methods for dis- persing the seeds of Gesneria may be important. 1. Transport by animals. Large animals would be only incidental carriers of seeds, but inverte- brates may be important. Because ants find the seeds of other members of the Gesneriaceae attrac- tive and may aid in dissemination (Stearn, 1969), myrmecochory or dispersal by ants is suspected. Stebbins (1971) enumerated the structural modi- fications found in ant-dispersed species: (a) the inflorescences are near the ground. This character is common among the acaulescent species, such as Gesneria acaulis, G. cuneifolia, G. pumila , and others; (b) the peduncle is recurved at maturation. This arching of the peduncle places the capsule near the ground and is noticeable particularly in Gesneria pumila subsp. neglecta; (c) the capsules dehisce irregularly over a long period of time; and (d) the seeds may bear an elaiosome or fat- bearing appendage. This last structural modifica- tion is not well developed in Gesneria , but the funicle of the seed is occasionally enlarged or elongated (Figure 19 d,f,h) and may be attractive to ants. Depending upon the adaptations it seems likely that for acaulescent species of Gesneria growing in tropical forests, myrmecochory may be a major means of dispersal. Stebbins (1971) con- cludes that for herbs in forests, ant dispersal is one of the most effective means of dissemination. 2. Dispersal by water. Plants of Gesneria reti- culata, G. humilis (Figure la), and G. pauciflora usually grow in or near running water and often show signs of inundation. If a plant with open capsules were submerged or shaken to allow the seeds to fall on the surface of the water, the seeds might be carried downstream to a new locality. Not only seeds, but also whole plants caught in a floating mat of vegetation might be distributed NUMBER 29 33 this way. Capsules of the species mentioned above dehisce so that the open fruit is oriented vertically to become a splash cup, a structure heretofore found only in a few flowering plants, e.g., Mitella (Saxifragaceae) and Sagina (Caryophyllaceae) — but analogous to the gemmae cups in Marchantia and to structures that function in the dissemination of spores in the Nidulariales or bird’s nest fungi. During heavy rains or near waterfalls, drops of water may fall into the capsule with such force as to eject the seeds, a phenomenon called “rain- ballists” by van der Pijl (1969). In the splash of a waterfall in the Dominican Republic, I observed plants of Gesneria reticulata with this type of dis- persal mechanism operating. One plant had within its open capsules seedlings that had germinated in the humid atmosphere and were being washed out of the capsule by the spray of the waterfall and carried downstream. 3. Dispersal by wind. This method is especially important for those species that grow on dry cliffs or at forest margins. The dry capsules dehisce from the apex and often invert during maturation to spill out the seeds like a salt shaker, the “censer- mechanism” (van der Pijl, 1969). The capsules have enlarged ribs or costae that catch currents of air to shake the capsules, sifting out the seeds. The wide persistent sepals also may catch air currents. A wind strong enough to move the capsule would likely carry the seeds as “wind-ballists” for some distance from the parent plant. The wind-dispersal method may explain in part long-distance distribution of species in the tribe Gesnerieae. Such dispersal over a wide geographic range is not common; only a few species range over more than one island: i.e., Gesneria reticulata (Puerto Rico, Hispaniola, and Cuba); Gesneria humilis (Hispaniola and Cuba); Rhytidophyllum tomentosum (Cuba and Jamaica); Rhytidophyllum auriculatum (Puerto Rico and Hispaniola). There are, in addition, a number of groups of closely related species distributed among the islands: e.g., Gesneria christii in Haiti, G. acaulis in Jamaica, and G. purpurascens in Cuba; G. pumila in Jamaica and G. shaferi subsp. depressa in Cuba; G. pedicellaris in the Dominican Republic and G. libanensis in Cuba. These distributions may be explained in either of two different ways: (1) The plants we see today may be relicts of a more extensive range in the geologic past. This seems unlikely, for the species appear to be relatively young in geologic time and undergoing relatively rapid evolution. (2) The range existing at the present time may be due to transport by air currents in recent times by tropi- cal storms or hurricanes. Stebbins (1971) states, “the incidence of strong winds is erratic and unpredictable, so that they may or may not occur when seeds are ripe and ready to be transported. Furthermore, the direction of winds is variable and they tend to scatter seeds over a large territory, including both favorable and unfavorable habi- tats.” Hurricanes occur in the West Indies with annual regularity and their tracks are usually in a northwesterly direction. Stebbins also notes that if the fruit and seeds are very small, long distances can be covered from the parent plant. And such is the case in the Gesnerieae, The small seeds of Gesneria reticulata, for example, could possibly travel the air currents of a tropical storm from Puerto Rico to Hispaniola and then to Cuba. Long-distance transport of seeds by wind may occur more frequently than we realize, but the results are not evident due to the limited success of the immigrant plants whose environmental re- quirements are not being met in the new habitats. According to Ashton (1969), “In the tropics . . ., ground herbs appear little adapted to environ- mental, at least edaphic, variation, though isola- tion of small morphologically distinct populations is common in many groups, as the Gesneriaceae.” Of the three dispersal mechanisms suggested — transport by animals, water, and wind — the first two are likely means for short-distance dispersal, but the third method is the only one feasible for long-distance distribution. Wind dispersal, if coupled with a possible capacity for self-pollination and environmental adaptation, may account for the distribution of some of the species of Gesneria. Hybridization and Cytology Cytology reveals chromosomal characters within the cell, while hybrid studies may reveal genetic relationships not apparent in the parent species or may identify barriers that prevent hybrid produc- tion. Cytological studies in the Gesnerieae will be reviewed in relation to hybridization experiments, and mechanisms will be suggested that may account for evolution in the tribe. 34 SMITHSONIAN CONTRIBUTIONS TO BOTANY Materials and Methods Living plants for study were obtained from many sources and added to the collection of Gesneriaceae already in cultivation in the green- houses of the L. H. Bailey Hortorium: (1) seeds and cuttings were obtained during a plant col- lecting trip to the West Indies in 1970; (2) cuttings were received from the living collections at the Royal Botanic Garden, Edinburgh, Scotland; the Royal Botanic Gardens, Kew, England; Fairchild Tropical Garden, Miami, Florida; and from the U.S. National Arboretum, Washington, D.C.; (3) seeds and plants were obtained from the seed fund and members of the American Gloxinia and Gesneriad Society. Voucher specimens of materials are filed in the herbarium of the L. H. Bailey Hortorium, Cornell University. Environmental factors play a large role in the success of species and hybrids in the greenhouse or in nature. To attempt to find the ideal conditions or to simulate the natural conditions, a variety of temperature, substrate, and humidity regimes was tried. Plants were grown in the greenhouse at the L. H. Bailey Hortorium in each of two tempera- ture ranges (55-70°, 65-75°). A few plants were also grown in a greenhouse at Guterman Bio- climatic Laboratories of Cornell University where they received a higher light intensity and lower humidity. The standard substrate was “Cornell Epiphytic Mix” formulated by R. Mott (1972). Because many of the species in the wild grow on calcareous soil, calcium nitrate and chelated iron were added occasionally to the substrate (Skog, 1972b). Crosses were made in the greenhouse using fresh pollen or stored pollen prepared in the method recommended by Clayberg (1964). Pollen viability was tested by staining a small quantity of fresh pollen on a slide with either cotton blue in lacto- phenol or acetocarmine. (The latter stain used by R. E. Lee proved to be more reliable.) One thou- sand grains were counted to determine percent stainability. Seeds developed in two to five months. Because of the suspected poor viability of hybrid seed, germination was attempted soon after dehiscence of the capsule. Results of Hybridization Experiments Artificial hybrids can be obtained with relative ease in the Gesnerieae under cultivation. Appar- ently active isolation mechanisms prevent wide- spread hybridization in the wild. Putative natural hybrids do occur, however, in rare instances. Two natural hybrids have been collected in Jamaica and brought into cultivation ( Gesneria scabra var. sphaerocarpa X Rhytidophyllurn tomentosum and Gesneria acaulis var. glabrata X Rhytidophyllurn tomentosum). The latter hybrid has been collected in a few different localities in Jamaica and was considered a distinct species in Gesneria by Adams (1972). In the greenhouse I attempted about 240 crosses, including intergeneric crosses between Gesneria and Rhytidophyllurn, interspecific crosses within each genus, backcrosses of the hybrids to the par- ents, reciprocal crosses by alternating pollen and seed parents, and crosses between hybrids. Only 12 crosses resulted in viable seed, producing plants that survive today. These plants were added to the stock of hybrids produced by Wiehler, Katzenberger, and others already in cultivation in the greenhouses at Cornell University. Twenty- nine hybrid forms are now known. The most recent crosses have not yet flowered; statements made about morphology are derived from the few that have flowered. Crosses attempted and results ob- tained are listed in Tables 7 and 8. In general, interspecific hybrids at the Fx stage are intermediate in morphology between parents; however, intergeneric crosses reveal the following: 1. Crosses between plants with campanulate corollas and those with nearly cylindric corollas result in hybrids with nearly cylindric corollas (Figure 1 j), implying that genes for the nearly cylindric corolla dominate. Crosses between two species with campanulate corollas, e.g., Gesneria fruticosa X Rhytidophyllurn tomentosum yield forms with a campanulate corolla but intermediate in color and vestiture. 2. Offspring are, in general, more vigorous in growth, taller, and more erect than either parent. During the extended flowering season more flowers are produced. Hybrids, however, appear to be more sensitive to some environmental stresses than the parents, suggesting inherent hybrid weakness. 3. Leaf shapes of intergeneric hybrids tend to NUMBER 29 35 Table 7. — Hybrids and parentage Table 8. — Unsuccessful crosses Hybrid Seed Parent Pollen Parent G-number G-number name G-number name 1240 876 var. glabrata 940 Gesneria ventricosa subsp. ventricosa 1230 876 glabrata 908 Rhytidophyllum auriculatum 1238 877 G;rJ99is var‘ 940 G. ventricosa subsp. 1237 888 G. citrina 876 G. acaulis var. glabrata 1236 888 G. citrina 767 G. pedunculosa 1235 888 G. citrina 940 G. ventricosa subsp. 1241 857 G. cuneifolia 940 G. ventricosa subsp. 1249 897 G. reticulata 908 R. auriculatum 1239 898 G. pedicellaris 767 G. pedunculosa 1245 898 G. pedicellaris 942 G. viridiflora subsp. quisqueyana 1231 898 G. pedicellaris 883 R. grande 1406 767 G. pedunculosa 1037 G. calycosa 1405 767 G. pedunculosa 940 G. ventricosa subsp. 1233. 767 G. pedunculosa 765 R. auriculatum 1418 767 G. pedunculosa 1257 R. berteroanum 1421 767 G. pedunculosa 883 R. grande 1420 1036* 1034 G . pulverulenta G. scabra var. sphaerocarpa 1226 G. pedicellaris R. tomentosum 1402 1256 Rhytidophyllum auriculatum 1257 R. berteroanum 1404 1256 R. auriculatum 1260 R. auriculatum 1419 1257 R. berteroanum 767 G. pedunculosa 1403 1257 R. berteroanum 905 R. auriculatum 1398 1257 R. berteroanum 841 R. tomentosum 1232 1010 R. leucomallon 767 G. pedunculosa 1234 1010 R. leucomallon 883 R. grande 1401 841 R. tomentosum 767 G. pedunculosa 1399 1371* 1384// 1381 R. tomentosum R. tomentosum 1256 R. auriculatum * = putative natural hybrid. // = cross made by R. Katzenberger . resemble more those of the Rhytidophyllum parent, i.e., narrowly lanceolate, very elongated, areolate with prominent veins. 4. The numerous inflorescences far exceed in length the subtending leaves, a common trait in Rhytidophyllum. 5. Internodes are elongated even more than the normally elongate internodes in Rhytidophyl- lum, but are less hirsute and with the erumpent lenticels found in Gesneria. 6. Pollen stainability, a test for viability and fertility, is very low, from less than 1 percent (' Gesneria acaulis var. glabrata X Rhytidophyllum tomentosum ) to 35 percent ( Gesneria scabra var. sphaerocarpa X Rhytidophyllum tomentosum). Pol- len stainability in interspecific hybrids ranges from 0-66 percent. At the present time neither backcrosses to parents nor crosses between hybrids have produced seeds, suggesting that low-pollen viability or chromosomal anomalies may prevent fertilization. In vegetative morphology, reciprocal crosses appear similar; none have yet flowered. Crosses with Gesneria Potential seed Potential pollen parents, G-number* parent , G-number* 763 767, 1037 767 784, 841, 1034 769 767, 841, 1034, 1037 (2), 1256, 1257, 1381 784 767, 1037, 1257 841 940, 1036, 1037, 1256, 1257 857 767, 881 869 767, 1037 876 767, 841, 883, 1037, 1256 (2), 1361, 1381 877 841 881 767, 841, 1256 883 841, 876, 1034, 1037, 1256, 1257, 1381 888 1037, 1381 897 1381 898 1034 (2), 1037, 1245, 1256, 1381 903 940, 1037 905 767, 883, 940, 1037 (2) 907 1037 908 1257, 1260 940 767, 841, 883 942 903 1008 1037 1034 767 (2), 769, 883, 897 (2), 940, 1037 (2), 1256, 1257 (2), 1260, 1365, 1380 1036 841, 1037, 1257, 1260 1037 767, 841 (2), 876, 883, 903, 905, 1257, 1268 1066 841, 903, 905 1226 767 (2), 841, 881 (2), 940, 1037 (2) 1231 841 1235 767, 1256 1236 767 1238 841 1239 767, 1256 1240 876, 940 1244 767 1245 767, 898 1249 897, 1037, 1260 1256 767 (2), 769, 841, 883, 1034, 1037, 1260 1257 767, 876, 883 (2), 903, 940, 1034, 1037, 1256, 1365, 1381 1260 767, 940, 1037, 1256 1268 841 (2), 1037, 1257 1360 841 1361 767, 1037 1365 765, 767 (2), 769 (2), 784, 841, 876 (2), 883, 897, 940, 1034 (4), 1036, 1037 (3), 1226, 1256, 1257 1381 767, 841, 876, 940, 1034, 1037, 1260 * Refer to Table 9 for species name of G-number. () = number of attempts more than one. humilis or Pheidonocarpa corymbosa as either the pollen or seed parent have failed. Discussion of Cytology and Hybridization Until 1969 a haploid number of 14 chromosomes was believed to be the base number in the Ges- nerieae; however, Nevling (1969) reported a count of n = 7 in a plant of Gesneria viridiflora subsp. sintenisii. This report leads one to suspect that seven chromosomes in each gamete is the basic number and that those plants with a haploid number of 14 are tetraploids. Polyploids are considered rare in the American members of the Gesneriaceae (Wiehler, 1972); only 18 tetraploids have been determined from 193 species in 37 genera. In flowering plants as a group, however, polyploidy is believed to occur in 30-35 percent of the species (Stebbins, 1950) or up to 43 percent (Grant, 1963). The first chromosome count of a plant in the 36 SMITHSONIAN CONTRIBUTIONS TO BOTANY Gesnerieae was made in 1956 by Eberle, who demonstrated that in Gesneria tomentosa L. (= Rhytidophyllum tomentosum ) n = 14. Since then chromosome counts of many species have been determined by R. E. Lee (1964, 1966a, 1966b, 1968). The only other number differing from n = 14 was n = 28 in a collection of Gesneria cuneifolia, which Lee (1964) considered a tetraploid. Grant (1963) suggested that a haploid number of 7, 8, or 9 chromosomes is basic in angiosperms. He concluded that plants with a gametic number of 14 or more may be considered polyploids. In the Gesneriaceae, counts of n = 8 or n — 9 have been reported many times, as well as a few counts of n = 16 or n = 18 and others, but n = 7 is known at the present time only from Gesneria viridifiora subsp. sintenisii. According to Grant (1971) the promotion of polyploidy in a group of plants results from a combination of factors: (1) the plants are “long- lived organisms usually possessing means of vege- tative propagation”; (2) original speciation in the genera was accompanied by a repatterning of the genes in the chromosome; and (3) natural inter- specific hybridization is a common occurrence. Plants in the Gesnerieae fit the first factor, for they are woody-stemmed plants apparently capable of surviving for many years and propagating vegeta- tively. The second factor is unknown in Ges- neriaceae and cannot be determined without detailed knowledge of the gene patterns in chromosomes. Interspecific hybridization, however, is likely. Since only putative tetraploid artificial interspecific hybrids are known, one cannot judge the relative occurrence of natural diploid inter- specific hybrids. Perhaps, these hybrids resembled one of the parents to such a degree that they were indistinguishable in the diploid condition. Pos- sibly only after doubling of the chromosomes did the differences become evident. Interspecific dip- loid hybrids may have occurred with considerable frequency in the past; one can assume that if hybridization can occur at all, it should have occurred frequently relative to geologic time. If two intergeneric hybrids (which may be produced with more difficulty than hybrids between species in the same genus) can occur in our time and be seen readily, interspecific hybrids should have been readily obtainable in the past. According to Lewis (1966), in some members of the Scrophulariaceae the diploid species tend to be self-incompatible and the natural polyploid species self-compatible. If this is also true in the Ges- neriaceae and in the tribe Gesnerieae, the poly- ploid species may have had reproductive advantage over the diploids and because of heterosis may have been ecologically superior and able to spread to niches not open to diploid species. Stebbins (1950) writes that polyploids are well adapted for colonizing newly exposed habitats. Observation of plants in the field suggests that most Rhytido- phyllum species and perhaps Gesneria exserta and G. pedunculosa do adapt to new areas readily. Systematic Treatment The tribe Gesnerieae consists of approximately 67 species in three genera, of which Gesneria and Pheidonocarpa will be treated in detail here. For completeness, however, a key is given to distin- guish the genera within the tribe. The 46 herbaria whose collections were made available to me are abbreviated as given by Holmgren and Keuken (1974), except for one not included in the sixth edition of Index Her- bariorum, RDJ — private herbarium of Dr. Jose Jimenez, Santiago de los Caballeros, Dominican Republic. Tribe GESNERIEAE Tribe Gesnerieae, G. Don, Gen. Syst. 4:643-644, 1838. — DC., Prodr. 7:525, 1839. — Fritsch in Engl. & Prantl, Nat. Pflan- zenfam. 4 (3b): 183, 1894. Gesnerieae subtribe Conradieae G. Don, Gen. Syst. 4:644, 1838. [Type-genus: Conradia Martius.] Eucesnereae Endlicher, Gen. PI. 721, 1839. Gesnereae subtribe Rhytidophylleae Hanstein, Linnaea 26: 199, 204-205, 1854 [pro parte]. [Type-genus: Rhytidophyl- lum Martius.] Rhytidophylleae 0rsted, Cent. Gesn. 10, 1858 [“Rytidophyl- leae”] Hanst., Mart. FI. Bras. 8(1):394, 1864. [Type-genus: Rhytidophyllum Martius.] Gesnereae subtribe Pentarhaphieae Bentham in Bentham & Hooker, Gen. PI. 2:993, 1876. [Type-genus: Pentarhaphia Lindley.] Fibrous rooted, acaulescent perennial herbs, sub- shrubs to trees: stems woody, usually resinous. Leaves alternate and spiral or opposite and decussate, sessile or petiolate, “pseudo-stipules” NUMBER 29 37 Table 9. — Plants studied from living material 38 SMITHSONIAN CONTRIBUTIONS TO BOTANY occasionally present; petioles with a trace nearly cylindrical or U-shaped in cross section; blades dorsiventral, usually with a multiple epidermis. Inflorescences modified compound dichasia or reduced to single flowers: peduncles elongated be- yond the leaves or shorter; floral tube of fused bases of sepals, petals and stamens adnate to the inferior or subinferior ovary, turbinate to sub- spherical; calyx with 5 lobes free or briefly united or rarely connate for about half their length above the ovary; corolla tube cylindrical to campanulate, red, orange, yellow, brown, green, or white; fertile stamens usually 4, rarely 5, staminode usually 1, all adnate to the base of the corolla tube; ovary of 2 carpels, uniloculate, ovules numerous, each with a single integument, disc annular, often 5-lobed. Capsule linear, obconic, turbinate or sub- globose, slightly raised apically, or rostrate and rostrum exceeding the length of the floral tube, capsule opening by 2 or 4 valves; seeds numerous, fusiform, rhombic or linear. Type-Genus. — Gesneria Linnaeus. Chromosome Number. — n = 7, 14, or 28. The concept of the tribe Gesnerieae has varied since its circumscription by George Don in 1838. Only after the circumscription by Fritsch in 1894, based on the characters of leaf arrangement, ovary position, and disc shape, was the tribe delimited to include Gesneria and Rhytidophyllum alone. In 1971, Wiehler transferred two species formerly in Heppiella to Gesneria, thereby including plants with opposite decussate leaves within the limits of the tribe. Since the two species appear to be more closely related to Gesneria and Rhytidophyllum than to any other genus or tribe, the limits of the Gesnerieae have been redefined. The tribe Gesnerieae is here composed of three genera whose limits are determined by characters of habit, flowers, fruit, and foliage. Parallel evolu- tion and adaptations to environment in all three genera may give the appearance of closer relation- ship than is real in nature. The corolla, in par- ticular, has apparently become adapted to pollinating agents, presumably bats and hum- mingbirds. Parallel adaptation to the same pollinating organisms has resulted in corollas of similar morphology within the three genera. Pheidonocarpa displays many morphological and anatomical features similar to Gesneria and Rhytidophyllum and has a gametic chromosome number (n = 14) common to many species of the other two genera. The genus, however, can be distinguished from Gesneria and Rhytidophyllum by its consistently opposite and decussate leaves and by its rostrate fruit. Pheidonocarpa resembles Rhytidophyllum in its compound dichasial in- florescence, but probably did not evolve from that genus but frqm an ancestral stock of opposite- and decussate-leaved plants which had developed, like species of Gesneria and Rhytidophyllum, a chromosome number of n = 14. Gesneria and Rhytidophyllum appear closely related in floral characters, sometimes occupying similar niches and possibly utilizing the same pol- linators. The genera cannot be distinguished as separate units by any single factor, but by a com- plex of correlated characters, primarily those related to reproduction, but reinforced by vegeta- tive factors. Gesneria and Rhytidophyllum have traditionally been distinguished by the relative length of adnation of the filaments to the corolla tube; this trait does not hold in every case, but when correlated with foliage and fruit characters may determine the generic standing of a plant in these genera. The natural habitats of Rhytidophyllum, Ges- neria, and Pheidonocarpa may give clues to dis- tinguish the genera. In the field, Rhytidophyllum species usually occupy marginal land at roadsides (Figure 16), waste places, cliffs, and forest margins where the plants are exposed to full sun and wind. Rhytidophyllum tomentosum in Jamaica, R. auri- culatum in the Dominican Republic, and R. leucomallon in Haiti (Figure 16) could be called weeds or pioneer plants, for they occupy newly exposed soil often to the exclusion of other plants. Species of Gesneria are usually restricted to more protected locations along streams or waterfalls, on ledges or clefts in cliffs or banks, or grow in damp forests as understory shrubs. Species which grow in clearings and/or roadsides and are exposed to full sun are located in damp soil or produce many branches from the base whose shade may maintain a lower temperature at the soil level. Gesneria citrina, which grows in Puerto Rico on barren limestone cliffs, has long roots that penetrate into the porous substrate and has dead leaves that persist and may protect the stem from the sun. The origin and evolution of the Gesnerieae is unknown. One may suggest an origin in northern NUMBER 29 39 South America from a woody-stemmed, fibrous- rooted, opposite-leaved, hummingbird-pollinated ancestral line, perhaps similar to Pheidonocarpa. One probable early derivative in South America, Gesneria onacaensis Rusby ( = Rhytidophyllum ), displays many of the primitive characters men- tioned above. From such a form two evolutionary lines may have developed in the directions of Gesneria and Rhytidophyllum. Pheidonocarpa may have maintained characters similar to the ancestors of the tribe. The spread of the ancestral plants from northern South America may have occurred via the routes and mechanisms discussed under Pollination and Seed Dispersal. The close contact between the genera in their similar niches allows one to suspect occasional interchange of genes, through chance cross- pollination and fertilization and possibly rare back- crosses between parents and hybrid offspring. The possible interchange of genes is apparent in section Duchartrea of Gesneria. Members of this section resemble to a large degree a few species of Rhytido- phyllum (R. grande (Swartz) Mart., R. bicolor Urban, etc.). Either convergent evolution is oper- ating 'among these species or section Duchartrea may be more closely related to Rhytidophyllum than other sections in Gesneria. Rhytidophyllum , consisting of about 20 species, inhabits the islands of Cuba, Jamaica, Hispaniola, Puerto Rico, and Grenada in the West Indies, and in northern South America, the countries of Colom- bia and Venezuela. The genus can be divided into two large groups on the basis of corolla shape, par- alleling the primary division in Gesneria. Rhytido- phyllum will not be treated further here. The species included in the Gesnerieae are con- sidered herein as biological species in the sense of Solbrig (1970:112), “a group of interbreeding populations reproductively isolated from any other such groups of populations.” The species may also be distinguished morphologically by a series of correlated characters from any other species. Reproductive isolation is the criterion for biological species. Species of Gesneria may hy- bridize in nature, but probably because of post- fertilization isolation mechanisms, the hybrids seldom develop and persist, allowing the species to remain distinctive in ‘‘their ecological and evo- lutionary roles” (Grant, 1971). Mechanisms for isolation that appear to be operating in Gesneria include some of those given by Banks (1970) and Solbrig (1970): (1) geographical separation, (2) ecological separation, (3) pollen incompatibility, (4) structural differences in flowers requiring specific pollinators, (5) different flowering times, (6) gametic incompatibility, (7) hybrid sterility, (8) hybrid weakness, and (9) lack of hybrid establishment. The criterion for distinguishing subspecies within the species has been the presence of morphological variants appearing in two or more geographically distinct populations. Some species of Gesneria have been divided into varieties because the plants are less morpho- logically distinct or geographically isolated than those taxa considered subspecies in other species. Key to the Genera in Tribe Gesnerieae 1. Capsule rostrate, the rostrum curved, equaling or exceeding the length of the floral tube; leaves opposite and decussate, bases of petioles joined across the stem; Cuba and Jamaica Pheidonocarpa, new genus 1. Capsule not beaked, if raised then the free portion not equaling or exceeding the floral tube; leaves alternate, rarely approximate, or appearing so on young or slowly growing branches, exceptionally opposite, but then petiole bases not joined across the stem. 2. Costae absent on the capsule; capsule villous, seldom verrucose or glabrous (but sometimes glabrescent in age) and rarely with sepals over 1.2 cm long; filaments adnate to the base of the corolla tube for a distance greater than the basal thickness of the filament, except in Rhytidophyllum cumanense; leaves areolate, tomentose-hirsute, or rarely glabrescent, but then the corolla tubular and red Rhytidophyllum 2. Costae present on the capsule, or the capsule verrucose or glabrous, but not villous unless the sepals are over 1.2 cm long ( Gesneria gloxinioides); filaments adnate to the base of the corolla tube for a distance no greater than the basal thickness of the filament; leaves glabrous or scabrous to pilose, smooth, plane or rarely bullate Gesneria 40 SMITHSONIAN CONTRIBUTIONS TO BOTANY Pheidonocarpa L. Skog, new genus Gesneriae L. et Rhytidophyllo Mart, affinis, foliis oppositis decussatis et capsulis rostratis, rostro curvo tubum floralem aequante vel ex- cedente differt. Plants terrestrial, perennial, suffruticose, fibrous- rooted: stems woody, erect or decumbent. Leaves opposite, decussate: petioles short, bases of opposite leaves joined across the stem, vascular trace an “invaginated crescent” (fide Wiehler); blades somewhat rigid, scabrous. Inflorescences axillary, each a compound di- chasium: peduncles much exceeding the subtending leaves; flowers numerous, protandrous, zygo- morphic; floral tube turbinate, pilose; calyx lobes 5, briefly connate at base; corolla tube ventricose, limb 5-lobed; stamens 4, filaments adnate to base of corolla tube, but free above, anthers coherent or free, exserted at anthesis; ovary half-inferior, disc annular, 5-lobed. Capsule turbinate, pilose, dry, splitting into two valves from the curved rostrate apex; seeds nu- merous, minute, fusiform, striated. Type-Species. — Pheidonocarpa corymbosa (Swartz) L. Skog. Discussion. — Until now the tribe Gesnerieae has included only the two closely related genera, Ges- neria Linnaeus and Rhytidophyllum Martius, which are similar in having leaves arranged alter- nately, roots fibrous, ovaries inferior, chromosome numbers of usually n = 14, and being limited to the Caribbean region and northern South America. In 1788, Olof Swartz described among his new species of Gesneria a new plant from Jamaica, Gesneria corymbosa, later transferred by Urban (1901) to Heppiella Regel. In 1957, C. V. Morton described from Cuba another species, Heppiella cnbensis. All other species of Heppiella are known only from South America where their apparent center of distribution is from Colombia to Ecuador. Recognizing the apparent disjunct distribution, Wiehler (1971) removed Heppiella corymbosa and H. cubensis from the rest of Heppiella, citing as additional reasons: (1) the lack of scaly- rhizomes as are found in the South American species of Heppiella; (2) a chromosome number of n = 14 (Lee, 1966), unknown in the tribe Achimeneae where other species of Heppiella reside; (3) the stomata of abaxial leaf surfaces are grouped into “islands,” also unknown in other members of the tribe Achimeneae; and (4) the vasculature pattern of the petiole differs from other species of Heppiella. Wiehler, however, transferred the two West Indian species to Gesneria, citing as evidence (in addition to the similar chromosome number, petiole vascular pattern, stomatal arrangement, and fibrous roots) the occurrence of apparently opposite, decussate leaves on a single plant of a species of Gesneria in cultivation. I concur with Wiehler’s decision to exclude the West Indian Heppiella species from the continental species. But his decision to unite the plants with Gesneria cannot be accepted, particularly on the basis of the leaf arrangement. Truly opposite and decussate leaves are not known for any species of Gesneria or Rhytido- phyllum, except for the apparently aberrant form examined by Wiehler. This phenomenon is dis- cussed under “Morphology and Anatomy.” Other characters besides leaf arrangement that distinguish species of Gesneria from Pheidono- carpa are listed in Table 1, but notably the most important are the differences in crystal types, in- florescence form, ovary position, and length of capsule beak. Because of the similarities of the West Indian species formerly in Heppiella to the members of the tribe Gesnerieae, the concept of the tribe has been emended to include plants with opposite decussate leaves and flowers with half-inferior ovaries, but these species are retained in a separate genus within the Gesnerieae. The name Pheidonocarpa is derived from the Greek pheidon (= oilcan) + karpos ( = fruit), alluding to the shape of the fruit. Only one species of Pheidonocarpa with two subspecies is known. 1. Pheidonocarpa corymbosa (Swartz) L. Skog, new combination Subshrubs: stems and branches to 60 cm long, 2-6 mm in diameter, bark reddish and pubescent, pilose to arachnoid when young, becoming gray and glabrescent with age, internodes 0. 6-4.0 cm long, apex somewhat resinous, nodes swollen, developing interpetiolar ridges. Leaves opposite: petioles sulcate to terete, sub- NUMBER 29 41 sessile or to 11 mm long, 1-2 mm across, reddish to green, pubescent with glandular or eglandular 1- to many-celled hairs; blades ovate to elliptic, 3. 6-8. 7 cm long, 1. 6-4.7 cm wide, base subcordate, truncate to acute, margin serrate to crenate- dentate, apex acute, adaxial surface grayish green, scabrous from calcium-containing cells in the bases of the hairs, abaxial surface lighter green, pubescent with short dense trichomes, with some glandular trichomes on veins, veins prominent, stomata in distinct groups. Inflorescences of many flowers, in a somewhat condensed compound dichasium: peduncles te- rete, 10.8-35.0 cm long, red, pubescent; bracts at the apex of the peduncles, lanceolate, 2-4 mm long, ca 1 mm wide, green, pubescent; pedicels 0.4-1. 6 cm long; floral tube turbinate, 1-2 mm long, 1-3 mm in diameter, reddish, glandular- pubescent; calyx lobes spreading, triangular, con- nate at base for less than 1 mm, 1-4 mm long, green to reddish and pubescent with glandular and eglandular trichomes outside, green and pubescent inside, veins not evident; corolla tube curved, ventricose, slightly gibbous at base, 1. 4-2.1 cm long, 2-4 mm wide at base, outside dark red-orange to yellow, pubescent, glandular, inside reddish, glabrous, limb bilabiate, lobes 5, 2-7 mm long, 2.5-5.0 mm wide, reddish or yellow with darker reddish lines, glabrous except for sparse glandular hairs at mouth; stamens 4, exserted about 2 mm beyond corolla mouth, filaments to 2.2 cm long, yellow, sparsely pubescent near base, glabrescent toward apex, anthers oblong, 1. 0-4.5 mm long, 1-2 mm wide, coherent or free, connective reddish; ovary apex pilose, style puberulent, red, stigma bilobed. Capsule turbinate, 7-9 mm long, 3-6 mm in diameter, reddish, becoming gray, costae visible near base, if at all. The habitats of the two subspecies are appar- ently very similar. Each is restricted to nearly perpendicular limestone cliffs of a river gorge. The Figure 23. — Distribution of Pheidoncarpa corymbosa in Ja- maica and Cuba. (P. c. subsp. corymbosa = solid circles; P. c. subsp. cubensis — open circles.) primary pollinator of each subspecies is probably a hummingbird. The flowers display some of the characteristics of flowers pollinated by humming- birds with red corolla tubes oriented horizontally. A pollinator must have a bill that nearly equals or is greater than the length of the corolla tube (1. 4-2.1 cm) to reach the nectar at the base of the tube. In Jamaica, possible pollinators are Mellisuga minima (Figure 25), Anthracothorax mango, and Trochilus polytmus, whose bills have a mean length of 1.2, 2.6, and 2.1 cm, respectively (from specimens measured at CU and US). The shape of the head and bill of Trochilus polytmus more closely approximates the shape and size of the corolla of P. corymbosa subsp. corymbosa, and is Key to the Subspecies of Pheidonocarpa corymbosa 1. Calyx lobes to 2 mm long, narrowly triangular; anthers 1-2 mm long, usually coherent in 2 pairs; peduncles 10.8-13.9 cm long, 1-3 times as long as the subtending leaf; Jamaica la. subsp. corymbosa 1. Calyx lobes to 4 mm long, broadly triangular; anthers to 4.5 mm long, usually free; peduncles 18-35 cm long, 4 or more times as long as the subtending leaf; Cuba lb. subsp. cubensis, new combination and rank 42 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 24. — Representative specimen of Pheidonocarpa corym- bosa (Swartz) L. Skog, subsp. corymbosa from Jamaica (Proc- tor 10205, F). presumed the pollinator. This bird is known from the range of the plants. ca 2.5 mm wide, lateral lobes ca 3 mm long, ca 3.5 mm wide, lower lobe ca 2 mm long, 3 mm wide, margin erose to dentate; anthers 1-2 mm long, connective often dark red, usually coherent in 2 pairs, pollen grains isopolar, prolate, size small, 18.5-20.0 pm long at the polar axis, ca 8.5 pm long at the equatorial axis, tricolpate, apocolpia trun- cate to rounded, colpi narrowly attenuate, sexine uniformly heterobrochate, reticulate, lumina ca 0.25 pm across (Figure 18 h). Type-Collection. — “India occid.: Jamaica,” O. Swartz sn (S, holotype). Chromosome Number. — n — 14 (Lee, 1966a). Distribution and Ecology. — Pheidonocarpa co- rymbosa subsp. corymbosa has been found only in the gorge of the Cane River in eastern Jamaica (Figure 23), where it grows on shaded limestone cliffs (Figure Id) from 80 to 150 m elevation. Flowering occurs throughout the year. Specimens Examined. — JAMAICA. Parish of St. Andrew: Cane River Gorge, ca 400 ft, 28 April 1960, C. Adams 6961 (UCWI); 100 m, 12 July 1962, F. Fosberg 42635 (US); 400 it, 12 July 1907, IF. Harris 9621 (BM 2 sheets, C, F, K, NY 2 sheets, UCWI, US); 250 ft, 18 December 1907, IF. Harris 10053 (BM 2 sheets, C, F, K, NY, UCWI, US); 100 ft, 9 No- vember 1912, IF. Harris 11421 (BM, F, NY, UCWI, US); 1 January 1916, IF. Harris 12314 (BM, F, GH, K, MO, NY, UCWI, US); no date, B. Morley 381 (UCWI); 14 February 1948, A. van der Porten sn (IJ); 250-400 ft, 22 May 1955, G. Proctor 10205 (BM, F, IJ, MO, US); 500 ft, February 1957, E. Robertson 2996 (K, UCWI); 400 ft, 9 August 1970, L. Skog 1620 (BH, US); 18 December 1955, IF. Stearn 3 (BM); 8 April 1956, IF. Stearn 694 (A, BH, BM); 300-500 ft, 9 March 1958, T. Yuncker 18349 (BM, MO). Locality Un- known: “Gesneria aspera, Jan.,” [1821], C. Bertero sn (AWH); “Jamaica, 1784-1786,” O. Swartz sn (S); “India occid.: Ja- la. Pheidonocarpa corymbosa subsp. corymbosa Gesneria corymbosa Swartz, Prodr. 89, 1788. — Sw., FI. Ind. Occid. 2:1022, 1800— DC., Prodr. 7:528, 1839. Pentarhapia ?corymbosa (Swartz) Hanstein, Linnaea 34:307, 1865. Heppiella corymbosa (Swartz) Urban, Symb. Ant. 2:368, 1901.— Adams, FI. PI. Jamaica 682, 1972. Young stems and branches pubescent to pilose with whitish hairs. Leaf margin serrate. Peduncles 10.8-13.9 cm long; pedicels 0.4-1. 4 cm long; calyx lobes narrowly triangular, to 2 mm long; upper lobes of the corolla limb 4-5 mm long, Figure 25. — Flower of Pheidonocarpa corymbosa subsp. corymbosa with a preserved specimen of a possible pollinator, Mellisuga minima. NUMBER 29 43 maica,” no date, O. Swartz sn (S, holotype of Gesneria corym- bosa Swartz). Cultivated: Cornell University, G-839, 31 March 1965, R. Clark sn (BH), 24 September 1965, B. Jack- son sn (BH); Cornell University, G-1367, 11 May 1972, L. Skog 1826 (BH). Discussion. — The typical subspecies has been col- lected recently from a single locality, and pre- sumably the type also came from the gorge of the Cane River, St. Andrews Parish, Jamaica. Plants have been brought into cultivation at least twice and grown at Cornell University under acces- sion numbers G-839 and G-1367. lb. Pheidonocarpa corymbosa subsp. cubensis (Morton) L. Skog, new combination and rank Heppiella cubensis Morton, Brittonia 9:21, 1957. Gesneria mortonii Wiehler, Baileya 18:4, 1971 [non Gesneria cubensis (Decaisne) Baillon (1888)]. Young stems pilose to arachnoid. Leaf margin crenate-dentate. Peduncles 18-35 cm long; pedicels 1.1-1. 6 cm long; calyx lobes broadly triangular, to 4 mm long; corolla with upper lobes 4-7 mm long, ca 4 mm wide, margin erose, lateral lobes ca 5 mm long, 5 mm wide, margin entire, basal lobe 3 mm long, ca 5 mm wide, margin entire; anthers to 4.5 mm long, usually free. Type-Collection. — Rio Jauco, Oriente Province, Cuba, Bro. Leon 11685 (NY, holotype (Figure 26); LS, NY, US, isotypes). Distribution and Ecology. — Pheidonocarpa co- rymbosa subsp. cubensis is known only from the Oriente Province of Cuba, where it grows on lime- stone cliffs from 50-300 m elevation. Flowering probably occurs throughout the year. Specimens Examined. — CUBA. Province of Oriente: Loma del Esparto, Cajobabo, 31 December 1959, Alain Liogier & M. Lopez F. 7105 (US); Cueva del Toro, Caleta, east of Jauco, 200-300 m, 17 July-4 August 1924, Bro. Leon 11812 (NY 2 sheets, US); rocky banks of Jauco River, Jauco, 17 July-4 August 1924, Bro. Leon 11685 (NY, holotype of Heppiella cubensis Morton; NY, US, isotypes); dry cliffs, Jauco, May 1940, Bros. Leon & M. Victorin 17748 (US); dry cliffs beside the Rio Jauco, ca 50 m, 15-16 January 1956, C. Morton 8c Alain Liogier 9154 (US). Discussion. — This taxon from Cuba (Figure 23) is included here as a subspecies of Pheidonocarpa corymbosa because of the similarity in habitat and morphology to the typical subspecies. Figure 26. — Holotype of Heppiella cubensis Morton and Pheidonocarpa corymbosa subsp. cubensis (Morton) L. Skog, new combination and rank, Leon 11685 (NY). Gesneria Linnaeus Gesneria Linnaeus, Gen. PI. ed. 5, 267, 1754. — Linn. Sp. PI. ed. 1, 612, 1753. Pentarhaphia Lindley, Bot. Reg. 13: sub. pi. 1110, 1827 [(" Pentaraphia ”), non Pentarrhaphis Humboldt, Bonpland & Kunth (1816)]. [Type-species: Pentarhaphia longiflora Lindley ( = Gesneria ventricosa Swartz).] Conradia Martius, Nov. Gen. & Sp. 3:38, 1829 [nom. illeg., non Rafinesque (1825), nec Nuttall (1834), nec Kufferath (1914)]. [Type-species: Pentarhaphia longiflora Lindley (= Gesneria ventricosa Swartz), vide Morton & Denham (1972).] Duchartrea Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:109, 1846. [Type-species: Duchartrea viridiflora Decaisne.] Herincquia Decaisne ex Herincq, Rev. Hort. ser. 3, 2:322, 1848. [Type-species: Herincquia floribunda (Lemaire) De- caisne ex Herincq (= Gesneria libanensis Linden ex Mor- ren).] 44 SMITHSONIAN CONTRIBUTIONS TO BOTANY Ophianthe Hanstein, Linnaea 26:205, 1854. [Type-species: Ophianthe libanensis (Linden ex Morren) Hanstein.] Chorisanthera (G. Don) 0rsted, Cent. Gesn. 35, 1858. [Type- species: Chorisanthera pumila (Swartz) 0rsted ( =Gesneria pumila Swartz).] Codonoraphia 0rsted, Cent. Gesn. 68, 1858. [Lectotype-species: Codonoraphia calycosa (W. Hooker) 0rsted.] Vaupellia Grisebach, FI. Brit. W. Ind. 460, 1862. [Type- species: Vaupellia calycina (Swartz) Grisebach.] Plants fibrous-rooted, perennial, herbaceous, suffruticose with decumbent, pendent or erect stems and branches, fruticose with erect stems or with spreading basal branches to arborescent with stems to 10 m tall: bark glabrous to pilose, resin often persistent on stem, leaves and inflorescences, pith green to red, cells containing crystals; branches with internodes cylindrical or rarely flattened, nodes usually swollen, unilacunar with one trace. Leaves dorsiventral, alternate, rarely approxi- mate, opposite and decussate in one population of Gesneria fruticosa, spirally arranged in a 2/5 phyllotaxy, often crowded at branch apices: pet- ioles, if present, terete to sulcate, green to reddish- brown, glabrous to pilose, occasionally verrucose, resinous, vascular trace a cylinder or U-shaped in transverse section; blades ovate or lanceolate to obovate, oblanceolate or suborbiculate, membra- nous to coriaceous, plane to bullate, base cuneate to truncate or cordate, margin entire, crenate, dentate, serrate, or lobulate, occasionally ciliate, apex retuse to caudate, adaxial surface usually dark green, glossy or dull, abaxial surface lighter green to reddish-brown, both sides glabrous to pilose or scabrous, trichomes, when present, uni- seriate, glandular or nonglandular, veins pinnate, prominent at least below, arcuate at margin, epi- dermal cells with shallow or nonundulating walls, stomata not raised, cruciferous-type of 2 guard cells and 3 subsidiary cells, internally an adaxial multi- ple epidermis usually present with crystal con- taining cells. Inflorescences of many flowers in a compound dichasium or in some species reduced to a single flower, shorter than or exceeding the subtending leaves: peduncles usually terete, rarely quad- rangular, green to red, glabrous to pilose, occa- sionally verrucose, resinous; bracts 2, fertile or sterile, leaflike or reduced; pedicels similar to the peduncles, green to red, glabrous to pilose, usu- ally resinous; flowers protandrous or protogynous; floral tube obconic, turbinate, or nearly spherical, green to reddish-brown, glabrous to villous, occa- sionally verrucose, resinous; calyx lobes 5 or rarely 4 or 6, distinct or briefly connate above the ovary, each lobe erect to patent, sulcate or flat, ovate to lanceolate or filiform, white, green to red or brown, glabrous, or puberulent to pilose, margin usually entire, seldom toothed; corolla tubular, cylindrical, ventricose, or infundibuliform- campanulate, white, green, red, orange, yellow to brown, glabrous to pilose, sometimes resinous and verrucose, limb 5-lobed, occasionally two-lipped, each lobe erect to reflexed; fertile stamens usually 4, with an infertile staminode, rarely 5 stamens fertile, filaments of equal length, linear, curved to geniculate at the base, adnate to corolla tube for a distance no more than the basal thickness of the filament, white, green, yellow or red, glabrous or pilose below, connective often prolonged beyond anther, anthers sagittate to oblong, usually co- herent at anthesis in two pairs at their apices or in a row side by side, becoming free, 2-celled, opening by longitudinal slits, pollen isopolar, prolate, size small to medium, sexine usually reticulate, seldom smooth or verrucose; pistil 1, hemiparacarpous, ovary inferior or rarely subinferior, 2-carpelled, unilocular, apex pubescent or glabrous, ovules numerous, anatropous, integument single, disc annular or undulating surrounding the stylar base, style usually as long as the stamens or slightly longer, curved, white, green, yellow or red, gla- brous to pilose, stigma stomatomorphic, clavate, capitate, or bilabiate, usually papillate. Capsule loculicidal, turbinate or nearly spheri- cal, dehiscent from the apex into 2 or 4 valves, or forming a splash cup, reddish-brown to gray, glabrescent, costae 5-15 or capsule verrucose and costae obscure; seeds numerous, linear, or fusi- form, to rhombic or oblong, striate, twisted, tawny, red, brown or black; cotyledons 2, equal. Lectotype-Species. — Gesneria liumilis Linnaeus, vide Fritsch (1894), Morton & Denham (1972). Gesneria is here divided into nine sections, dis- tinguished by factors related to reproduction, i.e., characters of flowers and fruit, supplemented by correlated vegetative characters. The sections appear to be natural groups of species sharing many characters, but also clearly related to other sections or species within Gesneria. Such relation- NUMBER 29 45 Key to the Sections of Gesneria 1. Diameter of the corolla mouth less than or equal to the diameter of the middle of the tube, the tube nearly cylindrical or ventricose, or the tube narrowly funnelform expanding gradually from the base (section Stenochonanthe), or hypocrateriform (section Pentarhaphia), reddish or occasionally yellow to green 2 2. Plants erect, shrubs or small trees, usually more than 60 cm tall 3 3. Corolla verrucose; stem unbranched, or branched only at the base; calyx and capsule verruculose to verrucose; Cuba Section 4. Myrmekianthe, new section 3. Corolla not verrucose; stem usually much branched; calyx and capsule smooth, seldom verruculose 4 4. Leaves lobulate; axillary buds and young branches lanate, not resinous Section 3. Lachnoblaste, new section 4. Leaves entire to dentate-serrate; buds and young branches glabrous to pilose, usually resinous 5 5. Stamens included; corolla evenly expanded from the base; Jamaica Section 2. Stenochonanthe, new section 5. Stamens exserted and corolla ventricose or widest at the base or middle, or if stamens included, then corolla not expanded, but hypocrateriform ( Gesneria aspera, G. haitiensis), or corolla suburceolate (G. pulverulenta ) Section 1. Pentarhaphia 2. Plants nearly stemless, often decumbent or pendent, rarely to 60 cm tall 6 6. Inflorescences projecting beyond the subtending leaves; corolla yellow, orange, or green to white, red only in Gesneria brachysepala; leaves plane Section 5. Gesneria 6. Inflorescences shorter than the subtending leaves; corolla usually red, seldom orange- red, rarely yellow; leaves bullate, rarely nearly plane Section 6. Physcophyllon, new section 1. Diameter of the corolla mouth larger than the diameter of the middle; the tube infundi- buliform-campanulate, green to yellow or brown, rarely reddish to purple 7 7. Plants erect, shrubs or small trees well over 60 cm tall; inflorescences exceeding the sub- tending leaves, of one to many flowers 8 8. Stem unbranched, unless at the base, verrucose and nearly glabrous above; stamens included; leaves coriaceous Section 8. Duchartrea 8. Stem usually much-branched and smooth, sometimes pubescent, if glabrous, then obscurely if at all verruculose; stamens seldom included; leaves membranous to sub- coriaceous Section 7. Dittanthera, new transfer 7. Plants nearly stemless or decumbent, rarely up to 60 cm tall; inflorescences shorter than the subtending leaves, of one to four flowers Section 9. Chorisanthera, new transfer ships can be seen between sections Duchartrea and Myrmekianthe, Chorisanthera and Physcophyllon, and Pentarhaphia and Dittanthera. The genus may be divided into two large groups on the basis of corolla shape. The larger group, consisting of six sections, has tubular and nearly cylindrical or ventricose corollas. This type of corolla is believed to be adapted for hummingbird- pollination. The smaller and perhaps more ad- vanced group, consisting of three sections, has campanulate corollas, abundant pollen, and nectar possibly attractive to bats. However, the bats have not yet been actually observed pollinating. Evolution in the genus may have occurred in a series of reductions. An example of a more primi- tive species is Gesneria ventricosa, a species of shrubs with red, tubular, hummingbird-pollinated flowers. From such an example two major lines of evolution appear to have developed: (1) shrubs or trees with hummingbird-pollinated flowers, (2) acaulescent or short-stemmed herbs or subshrubs with hummingbird-pollinated flowers. Both of these lines may have given rise to bat-pollinated species. Relationships among the sections will be dis- cussed under the sections concerned, together with the relationships among the species in each section. Gesneria, when described by Linnaeus in 1753 and 1754, was composed of two species, G. humilis and G. tomentosa. Neither species was chosen as the type-species at that time. Gesneria tomentosa was transferred to Rhytidophyllum by Martius in 46 SMITHSONIAN CONTRIBUTIONS TO BOTANY 1829 and selected as the lectotype species for that genus by Britton and Wilson (1925). Fritsch (1894) was apparently the first to retain G. humilis in Gesneria and refer G. tomentosa to Rhytido- phyllum, thus Gesneria humilis Linnaeus has be- come the residual lectotype species for Gesneria (Morton and Denham, 1972). Conradia Martius was an intentional, but un- justified, renaming of Pentarhaphia Lindley (Mor- ton and Denham, 1972). According to Article 7 of ICBN a nomenclaturally superfluous name “is automatically typified by the type of the name which ought to have been adopted under the rules” (ICBN, 1972:19). Thus, the only species and type of Pentarhaphia when it was published, P. longi flora Lindley (which itself is a superfluous name for Gesneria ventricosa Swartz), became the type of Conradia rather than Conradia humilis, selected by later authors. Until the present time, Codonoraphia 0rsted has not been typified. To stabilize the name, Codonoraphia calycosa (W. Hooker) 0rsted has been selected as the lectotype species. Section 1. Pentarhaphia (Lindley) Fritsch Pentarhaphia (Lindley) Fritsch in Engl. & Prantl, Nat. Pflanzenfam. 4(3b):184, 1894. Pentarhaphia section Eupentarhaphia Bentham in Bentham & Hooker, Gen. PI. 2:1005, 1876. [Type-species: Pentar- haphia longiflora Lindley ( = Gesneria ventricosa (Swartz).] Gesneria section Conradia (Martius) Fritsch in Engl. 8c Prantl, Nat. Pflanzenfam. 4(3b):184, 1894 [as to type, not as to description]. Small subshrubs to large shrubs: stems erect, to 4 m tall, resinous: branches erect, or often divari- cate arising from base or from upper leaf axils. Leaves lanceolate, elliptic, ovate to oblanceolate or obovate, occasionally falcate, submembranous to coriaceous, plane, glossy or dull, margin some- times recurved. Inflorescence 1 to 4 (-many)-flowered, shorter than, equaling or exceeding the subtending leaves, occasionally verrucose: corollas tubular, ventricose at the middle and narrowing to mouth or sub- urceolate or hypocrateriform, yellow, orange to red; stamens usually exserted, seldom included. Capsules turbinate to nearly spherical, smooth, costae usually prominent, sometimes alate. Type-Species. — Pentarhaphia longiflora Lindley (= Gesneria ventricosa Swartz). Discussion. — Section Pentarhaphia comprises a large complex of species which share many similar characters. It resembles and is probably closely re- lated to section Stenochonanthe. The floral struc- tures of the plants in the two sections are very similar, as are the vegetative characters. This simi- lar development may, however, be the result of parallel evolution and response to hummingbird pollination. A resemblance in corolla form can also be seen in some species of Rhytidophyllum (e.g., R. herteroanum Martius), but these differ in other essential characters. Ancestors of this section may have been the stock from which many of the sec- tions evolved, but the Pentarhaphia line has main- tained seemingly primitive characters. Members of this section are mainly concentrated on Hispaniola with a few species in Cuba, Jamaica, and the Lesser Antilles (Figures 27, 29, 36, 43, and 44). Key to the Species of Section Pentarhaphia I . Abaxial leaf surfaces, petioles, peduncles, and corollas clothed with pilose or villous trichomes, and resinous. 2. Peduncles more than 1.8 cm long; floral tube turbinate. 3. Corolla red, limb patent; adaxial leaf surfaces asperate; inflorescences of one flower; Haiti 2. G. aspera 3. Corolla yellow, limb erect or porrect; adaxial leaf surfaces glabrescent; inflorescences of three to several flowers; Cuba 7. G. g landulosa 2. Peduncles 1 cm or less long; floral tube obconic; Dominican Republic ... 15. G. parvifolia 1. Abaxial leaf surfaces, petioles, peduncles, and corollas glabrous, or scarcely pubescent near petiole or peduncle base, or in petiole sulcus, but resinous. 4. Leaves subtending the inflorescences more than twice as long as the inflorescence. 5. Leaf margins entire, blades 3.6 cm long or less; Cuba: Province of Pinar del Rio 4. G. brevifolia 5. Leaf margins denticulate, serrulate, crenulate, dentate, crenate, or serrate, blades usually much more than 4 cm long, largest leaves more than 6 cm long. NUMBER 29 47 6. Bark subrugose, verrucose, verruculose, or tuberculate, lenticels obvious; inflores- cences usually of one flower, if more then leaf margins crenulate. 7. Style glabrous; leaf margin crenate or dentate above middle; Jamaica 9. G. harrisii 7. Style pilose; leaf margin crenulate or denticulate; Cuba. 8. Floral tube globose, costae 10; leaves obovate, 4.4—10.0 cm long; Cuba: Province of Las Villas 5. G. claremis 8. Floral tube narrowly obconic, costae 5; leaves lanceolate, elliptic, or seldom obovate, 2.0-6. 8 cm long; Cuba: Province of Oriente 10. G. heterochroa 6. Bark smooth, lenticels obscure; inflorescences of two or three flowers. 9. Leaves narrowly elliptic to oblanceolate, 1.5-3. 3 cm wide, denticulate above the middle; Haiti: Departement de 1’Ouest 13. G. lanceolate 9. Leaves broadly elliptic to obovate, 3. 1-7.0 cm wide, serrate above the middle; Haiti: Departement du Sud 14. G. odontophylla 4. Leaves subtending the inflorescences less than twice as long as the inflorescences to much shorter. 10. Corolla tube yellow or greenish-white externally above the base; stamens exserted only to limit of corolla tube. 11. Style glabrous; bracts lacking; Jamaica 9. G. harrisii 11. Style pilose; bracts present, but sometimes caducous. 12. Capsule turbinate, ca 4 mm long; leaves 2.4-4.2 cm long, serrulate or denticulate above the middle, base narrowly acute; branches few; Haiti 11. G. hypoclada 12. Capsule narrowly obconic, to 8 mm long; leaves 2.5-11.2 cm long, margin crenate or serrate above, base obtuse, branches numerous; Cuba 17c. G. salicifolia var. ferruginea 10. Corolla tube red, red-orange or rose-pink externally, if yellow, then only at the base. 13. Corolla limb patent; inflorescences of one flower, peduncles very short with pedicels more than twice as long; Haiti 8. G. haitiensis 13. Corolla limb with some lobes erect, reflexed, porrect, or spreading, but not all patent; inflorescences of one to many flowers, peduncles usually exceeding length of pedicels, if pedicels lacking, peduncles more than 1 cm long. 14. Peduncles and pedicels together 1.3 cm long or less, not arcuate, and stamens exserted 3 mm or less; corolla tube suburceolate; Dominican Republic 16. G. pulverulenta 14. Peduncles and pedicels together usually more than 2 cm long, often much longer, and peduncles usually arcuate, if shorter or not arcuate, then stamens exserted more than 4 mm at anthesis; corolla tube usually ventricose. 15. Stamens exserted beyond corolla limb; peduncles arcuate or not. 16. Ovary apex glabrous; corolla limb lobes erect, tube maculate inside; Cuba: Province of Oriente 3. G. binghamii 16. Ovary apex tomentose to pilose; corolla limb erect to reflexed, rarely all lobes erect, tube not maculate. 17. Peduncles 2.0-15.9 cm long; leaves with petioles 0.5-4.5 cm long, blades 4.1- 22.7 cm long; inflorescences of one to many flowers, usually two to four or many, seldom only one; bracts 0.6-1 .5 cm long; Lesser Antilles .. 18. G. ventricosa 17. Peduncles 0.4-2.0 cm long; leaves with petioles 0.2-1. 2 cm long, blades 1. 1- 7.0 cm long; inflorescences of usually one, rarely two or three flowers; bracts 0. 1-0.5 cm long; Cuba, Hispaniola 6. G. cubensis 15. Stamens included or exserted only to limit of corolla limb; peduncles arcuate. 18. Corolla 1.0 cm long or less, ventricose at base, narrowing toward middle; inflorescences of one or rarely two flowers; Jamaica 12. G. jamaicensis 18. Corolla 1.1 cm long or more, ventricose at or near the middle; inflores- cences of usually more than one flower. 19. Leaves entire toward the base, denticulate or serrulate toward apex; corolla yellow internally; Cuba: Provinces of Oriente and Pinar del Rio 17. G. salicifolia 19. Leaves sharply serrate; corolla red internally; Cuba: Province of Oriente 19. G. wrightii 48 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 27. — Distribution of Gesneria section Pentarhaphia in Hispaniola. (G. aspera = open triangles; G. cubensis var. cubensis = solid circles; G. cubensis var. truncata = solid squares; G. haitiensis = solid triangles; G. hypoclada = open stars within circles; G. lanceolata = open squares; G. odontophylla = solid stars; G. parvifolia = open stars; G. pulverulenta = open circles.) 2. Gesneria aspera Urban & Ekman Gesneria aspera Urban & Ekman in Urban, Ark. Bot. 20A(5): 49, 1926. Shrubs or small trees: stems woody, erect, bark when young reddish and invested with numerous reddish, few-celled patent trichomes, becoming gray-brown and glabrous, resinous at apex, inter- nodes 0. 1-1.9 cm long; branches many, 3 mm in diameter at 10 cm below apex, lenticels erumpent, nodes slightly swollen. Leaves approximate to alternate: petioles terete near node, becoming flattened near base of blade, 1-4 mm long, ca 1 mm wide, reddish and covered by the patent glandular hairs; blades ovate to obovate, 1. 5-2.4 cm long, 0.8-1. 4 cm wide, stiff and coriaceous, base rounded to obtuse, margin entire near the base, becoming crenate-dentate toward the acute apex, adaxial surface bullate, light green, asperate from numerous stiff bulbous- based white hairs, lateral veins 3 to 5, slightly immersed, abaxial surface tawny except for the reddish prominent veins, pilose. Inflorescences axillary, 1-flowered, about twice as long as the subtending leaves: peduncles 1. 8-3.0 cm long, 0.3-0.4 mm in diameter, purplish-brown, pilose; bracts 2, at the base of the peduncle when young, caducous, linear, to 2 mm long, reddish, pilose; floral tube turbinate, ca 2 mm long, ca 2 mm in diameter at apex, red and pilose; calyx erect, lobes 5, barely connate at base, linear- lanceolate, 2-6 mm long, ca 1 mm wide at base, dark red, shortly and densely pilose; corolla tube hypocrateriform, 1. 1-2.2 cm long, ca 0.3 cm wide at middle, outside red except orange-yellow near base, shortly and patently pilose, inside yellow with reddish lines, glabrous with prominent veins, limb patent, 7-9 mm broad, lobes orbicular, ca 5 mm long, ca 4 mm wide, upper lobes broader and slightly bifid, margin erose, glandular; stamens 4, adnate to the base of the corolla, filaments ca 15 mm long, yellowish, glabrous, anthers oblong, ca 1 mm long, coherent until anthesis, pollen yellow- white, staminode 4 mm long, lacking anther; ovary inferior, becoming half-inferior following fertiliza- tion, reddish, pilose at apex, disc annular, swollen, style ca 10 mm long, yellow, shortly pubescent, stigma clavate. Capsule shortly turbinate, extending ca 2.5 mm above calyx attachment, 5-6 mm wide, becoming gray on drying, costae 5, slightly prominent; seeds fusiform, striated, 0.6-0. 7 mm long, 0. 1-0.2 mm wide, brownish. Type-Collection. — Massif de la Selle, Morne NUMBER 29 49 Cabaio, Haiti, E. Ekman H1550 (S, holotype, Figure 28a; EHH, G, IJ, K, NY, S, US, isotypes). Distribution and Ecology. — Gesneria aspera has been found only in southeastern Haiti in the la Selle mountains on Morne Cabaio, where it grows in fissures in limestone cliffs at 1900-2000 m (Figure 27). Flowering specimens have been col- lected only in August. Specimens Examined: HAITI. Departement de l’Ouest: Massif de la Selle, Morne Cabaio, 1900-2000 m, 20 August 1924, E. Ekman H1550 (S, holotype of Gesneria aspera Urban & Ekman; EHH, G, IJ, K, NY, S, US 2 sheets, isotypes). Discussion. — Gesneria aspera is probably most closely allied to G. parvifolia from the Dominican Republic, but differs from it by the asperate leaves, one-flowered inflorescences, densely pilose investi- ture and the wider patent corolla limb (resembling in the last character the corollas in Gesneria reticulata and G. haitiensis). This species is known only from a single collection, perhaps be- cause of the inaccessibility of the locality. To reach Morne Cabaio from the nearest road apparently requires ten hours travel on foot. 3. Gesneria bingliamii Morton Gesneria binghamii Morton, Brittonia 9:19, 1957. — Morton in Alain 8c Leon, FI. de Cuba 4:455, 1957. Pentarhaphia incurva Grisebach, Cat. PI. Cub. 199, 1866. Figure 28. — Type specimens: a, holotype of Gesneria aspera Urban, Ekman H1550 (S); b, holotype of Pentarhaphia incurva Grisebach and Gesneria binghamii Morton, Wright 3073 (GOET). 50 SMITHSONIAN CONTRIBUTIONS TO BOTANY Gesneria incurva (Grisebach) Urban, Symb. Ant. 2:374, 1901 [non Bentham (1845)]. Shrubs or small trees: stems woody, erect, up to 6 m tall, slender, 2-3 mm in diameter at 10 cm below apex, bark smooth, dark red and nitid above, gray below, glabrous, resinous, lenticels elongated; branches scattered, internodes 0.8-1. 8 cm long, leaf scars obvious. Leaves alternate, scattered, not congested at branch apices: petioles sulcate, 3-10 mm long, ca 1 mm broad, reddish-brown, glabrous, glandular- resinous; blades lanceolate or elliptic, 3. 6-9. 9 cm long, 1.0-2. 1 (-4) cm wide, subcoriaceous, base acute, margin sharply dentate or serrate, apex acute or acuminate, adaxial surface smooth, dark green, glabrous, resinous along the midvein, abaxial surface smooth, green to brown, glabrous, resinous, veins prominent, reddish. Inflorescences of single erect flowers, about 1 1/2 times the length of the subtending leaves: peduncles arcuate, terete below, subalate above, 2.9-4.8 (-9.6) cm long including pedicels, ca 1 mm in diameter, dark red, verruculose, resinous; bracts often lacking, when present, vestigial, ca 2 mm long, ca 0.25 mm wide, red, resinous; floral tube obconic, subalate, 2-3 mm long, 2.5-4 mm wide, dark red, verruculose, nitid, resinous; calyx 5-lobed, erect but becoming incurved with age, lobes con- nate 1-2 mm at base, lanceolate, 1.0-2. 1 cm long, 1.5-3 mm wide at base, outside keeled, scarlet, glabrous, resinous, inside sulcate, scarlet, glabrous, resinous; corolla tube curved, ventricose at middle, 1.4-1.8(-2.6, fide Morton) cm long, 4-5 mm wide at base, 4-8 mm wide at middle, narrowing to ca 6 mm at throat, outside bright red-orange, gla- brous, resinous, inside yellow-orange, maculate, glabrous, limb erect, 5-lobed, scarlet, margin and veins dark red, upper lobes oblong, 2-4 mm long, 2-3 mm wide, erose, glandular, lateral and basal lobes semiorbiculate, 2. 0-2.5 mm long and wide, entire, glandular, mouth oblique; stamens 4, ad- nate to base of corolla for ca 0.5 mm, exserted ca 10 mm, filaments curved, ca 2.5 cm long, 1 mm wide at base, narrower above, reddish, sparsely glandular, anthers oblong ca 1.5 mm long, ca 0.75 mm wide, coherent in 2 pairs, staminode about 5 mm long; ovary inferior, apex glabrous, disc an- nular, yellow, style curved, equaling stamens in length, reddish, sparsely glandular, resinous. stigma capitate, papillate. Capsule turbinate, 6-8 mm long, 5-8 mm wide at apex, dark red to gray, glabrous, resinous, costae 5; seeds fusiform, striate, twisted, ca 0.75 mm long, ca 0.25 mm wide, black. Type-Collection. — San Juan de Buenavista, Cuba, C. Wright 3073 (GOET, holotype (Figure 285); BM, G, GH, K, MO, isotypes). Distribution and Ecology. — Gesneria binghamii is known from the mountains of southern Oriente Province in Cuba, where it grows on rocks in woods near rivers at 300-700 m elevation (Figure 29). Flowering material of Gesneria binghamii has been collected in March, April, August, and October. Specimens Examined: CUBA. Province of Oriente: Sierra Maestra, no date, G. Bucher 10529 (NY); Sierra Maestra, headwaters of Rio Manacas, San Felipe (San Juan de Buena Vista), SW of Bueycito, 1 August 1922, E. Ekman 14705 (US), 14705b (NY), 14706a (S); San Juan de Buenavista, 1860-64, C. Wright 3073 (GOET, holotype of Pentarhaphia incurva Grisebach; BM, G 2 sheets, GH, K, MO, P, isotypes); Fca. “Yao” al Sur de Bayamo, April 1950, C. Bingham 7247 (US); Rio Yao, 31 March 1943, Bro. Marie Victorin 21339 (GH, LS); northern spur of Sierra Maestra, west of Rio Yao, 300-700 m, 24-30 October 1941, C. Morton & J. Acuna 3492 (BM, F, G, GH, MO, NY, S, U, US 2 sheets); Sierra Maestra, foothills on north side of La Bayamesa, ca 5 km south of San Pablo de Yao, 300 m, 16 August 1951, G. Webster 4079 (GH). Locality Unknown: Cuba, no date, R. de la Sagra 907 (P). 4. Gesneria brevifolia Urban Gesneria brevifolia Urban, Repert. Spec. Nov. Regni Veg. 21:69, 1925. Shrubs: stems woody, erect; bark rugose, gla- brous, resinous-granulate, internodes 1-3 mm long; branches numerous, leaf scars prominent. Leaves alternate, clustered at branch apices: petioles sulcate, 3-8 mm long, ca 1 mm wide, gla- brous, resinous, blades elliptic to spathulate, 1.9-3. 6 cm long, 1.5-2. 3 cm wide, coriaceous, base acute, margin entire, slightly recurved, apex rotund, rarely acute or emarginate, adaxial surface plane, yellow-green to reddish-brown, glabrous, midvein impressed, abaxial surface reddish-brown, glabrous, resinous, veins darker, prominent. Inflorescences in upper axils l(-3)-flowered, about one-half the length of the subtending leaves: peduncles terete, 2-5 mm long; bracts 2, caducous, ca I mm long; pedicels terete, broader at apex, NUMBER 29 51 Figure 29. — Distribution of part of Gesneria section Pentarhaphia in Cuba. (G. binghamii = solid squares; G. brevifolia = stars within circles; G. clarensis = open triangles; G. glandu- losa = open stars; G. heterochroa = open squares; G. salicifolia var. ferruginea = solid triangles; G. salicifolia var. salicifolia = open circles; G. salicifolia var. spathulata = solid circles; G. wrightii = solid stars.) 2-7 mm long, elongating to 13 mm in fruit. Flow- ers not seen. Capsule turbinate or subglobose, 4-5 mm long, 3. 5-4.0 mm wide, persistent calyx lobes linear from a broad base, 5-6 mm long, glabrous, costae 5; seeds not seen. Type-Collection. — Pan de Guajaibon, Cuba, E. Ekman 12760 (S, holotype, Figure 30; S, isotype). Distribution and Ecology. — Endemic to the Province of Pinar del Rio in Cuba growing in dense thickets in the mountains at elevations from 750 to 800 m (fide Ekman, Figure 29). This species has only been collected in January, but in fruit. Specimens Examined: CUBA. Pinar del Rio: Pan de Gua- jaibon, on the eastern top of the mountains, ca 750-800 m, 9 January 1921, E. Ekman 12760 (S, holotype of Gesneria brevifolia Urban; S, isotype). Discussion. — Although this species is known only from two specimens from one locality and de- scribed without flowers, it is undoubtedly a Ges- neria, and resembles in habit and foliage other members of this section. The habit and spathulate leaves are similar to G. clarensis , whose leaves and fruits are much larger. The fruits resemble those of G. cuhensis from Oriente Province and Hispan- iola (up to 7 mm long and 6 mm wide) but are smaller (4-5 mm long, 3. 5-4.0 mm wide). 5. Gesneria clarensis Britton & Wilson Gesneria clarensis N. Britton & P. Wilson, Mem. Torrey Bot. Club 16:109, 1920. Tall shrubs or large trees: stems woody, bark verruculose, becoming reddish brown and resinous at apex, brown to gray and smooth below; branches 3-4 mm in diameter at 10 cm below apex, internodes 5-8 mm long, leaf scars prominent. Leaves clustered at branch apices, alternate: petioles sulcate, 0.6-1. 5 cm long, 1-2 mm wide, green or reddish-brown, glandular-resinous; blades obovate, 4.4-10.0 cm long, 2. 2-4. 3 cm wide, sub- coriaceous, base acute, margin crenulate, apex obtuse or acute, adaxial surface smooth or rough when dry, green or reddish-brown, glabrous, veins impressed, abaxial surface reddish-brown, glandular-resinous, veins prominent. Inflorescences from upper axils, 1 to 3-flowered, less than half the length of the subtending leaves: peduncles 1.3 cm long, ca 1 mm in diameter, terete below, subalate above, reddish, glandular-resinous; bracts 2, lanceolate, 2-3 mm long, reddish, glandular-resinous; pedicels 3-7 mm long; floral tube globose, 3-4 mm long, 3-4 mm wide, reddish- brown to yellow, glandular-resinous, 10-costate; calyx 5-lobed, erect, lobes connate at base for ca 1 mm, each linear-lanceolate, 6-8 mm long, 1-2 mm wide at base, yellowish from resin, glandular on both sides, outside midvein prominent, inside sulcate; incomplete corolla tube cylindric, slightly swollen at base, broader above, length over 1 cm long, 2-3 mm wide at base, wider above, outside and inside greenish-yellow(P) glandular-resinous, limb not seen; stamens 4, adnate to base of corolla 52 SMITHSONIAN CONTRIBUTIONS TO BOTANY - Figure 30. — Holotype of Gesneria brevi folia Urban, Ekman 12760 (S). tube, filaments curved, at least 1.5 cm long, yellowish, glabrous, anthers not seen; ovary in- ferior, apex pilose, disc annular, style curved, 1.8 cm long, reddish, pilose, stigma capitate, papillate. Capsule broadly turbinate, ca 5 mm long, ca 5 mm wide, brown, costae 5 prominent and 5 ob- scure; seeds fusiform, striate, twisted, ca 0.75 mm long, ca 0.2 mm wide, brown. Type-Collection. — Sancti-Spiritus Mts, Cuba, Bros. Leon & Clemente 6504 (NY, holotype, Fig- ure 31a; NY, S, US, isotypes). Distribution and Ecology. — Gesneria clarensis is known only from the Province of Las Villas in central Cuba, where it has been collected from rocky areas at 850-900 m elevation (Figure 29). The only flowering specimen was collected in January. Local Name. — “Canelon” (fide Leon & Roca 7992). Specimens Examined. — CUBA. Province of Las Villas: Lomas del Banao, El Purial, on Rio Banao, ca 850 m, 27 January 1923, E. Ekman 16231 (S); Banao Hills, August 1918, Bro. Leon 4426 (US); Sierra del Caballete, Sancti-Spiritus Mts., 1— 1 1 August 1916, Bros. Leon & Clemente 6504 (NY, holotype of Gesneria clarensis N. Britton 8c P. Wilson; NY, S, US, isotypes); Loma de la Gloria, Banao Mts., 900 m, Bro. Leon & M. Roca 7992 ([30 July 1918] NY, [31 July 1918] P); Lomas de Banao, January 1920, A. Luna 116 (NY). Discussion. — The description of the available flower parts was based on Luna 116 (NY), the only specimen bearing flowers. The type, Leon & Clemente 6504, has only fruits. The color of the corolla is probably yellow-green, although it may be reddish since the style is definitely red. Stamens and style in other species of Gesneria are often of the same color as the corolla. Vegetatively, G. clarensis resembles G. odonto- phylla, another species described without mature flowers. The leaves are of similar size and shape, and the inflorescence is 3-flowered. G. odonio- phylla from the southwestern peninsula of His- paniola differs in being a small shrub with the young branches slender and divaricate, the leaf margin serrate, and the petioles to 3 cm long. 6. Gesneria cubensis (Decaisne) Baillon Gesneria cubensis (Decaisne) Baillon, Hist. Plant. 10:60, pis. 48, 49, 1888. Shrubs or small trees: stems woody, erect to 5 m tall, 2-4 mm in diameter at 10 cm below apex, bark smooth or slightly rugose, usually verrucose or tuberculate, brown to gray, glabrous, resinous toward apex, pulverulent below, lenticels elon- gated, prominent; branches mostly erect or divari- cate, reddish or brown near apex, gray or brown below, internodes 0.1-12.3 cm long, leaf scars prominent. Leaves well spaced or often conferted at branch apices, alternate: petioles sulcate on upper surface, 2- 12 mm long, 0.5-1. 5 mm wide, green to reddish- brown or yellow from pulverulence, usually ver- rucose, occasionally with glandular trichomes con- gested near the base; blades elliptic to obovate or oblanceolate, 1. 1-7.0 cm long, 0.5-2. 7 cm wide, NUMBER 29 53 Figure 31. — Type specimens: a, holotype of Gesneria clarensis Britton 8c Wilson, Leon 8c Clemente 6504 (NY); b, holotype of G. truncata Alain and G. cubensis var. truncata (Alain) L. Skog, new rank, Howard 12283 (NY). somewhat rigid to coriaceous, base cuneate to acute, margin entire toward the base, crenate, serrate or dentate above, occasionally recurved, apex obtuse to acuminate, adaxial surface plane, dark green or light or reddish-brown in young leaves, glabrous, nitid, rarely foveolate, veins impressed, abaxial surface reddish-brown to light green, glabrous, resinous from short glands, veins prominent, often darker or reddish. Inflorescences from upper leaf axils, of 1-3 flowers, equaling or slightly exceeding the sub- tending leaves: peduncles terete, slender, curved, 0.4-2. 0 cm long, ca 1 mm in diameter, darker green or reddish to brown, glabrous, glandular- resinous, usually verrucose; bracts obsolete or caducous, when present filiform or linear, 1-5 mm long, ca 1 mm wide, dark green or reddish, glabrous; pedicels terete or ribbed toward apex, 0.5-2.3 cm long, ca 1 mm in diameter, dark green, reddish to brown, glabrous; floral tube narrowly turbinate or obconic, 2. 0-2. 5 mm long, ca 2 mm wide, reddish or green, glabrous, resinous, 10- costate; calyx lobes much reduced or when present 5(or 6), erect or incurved, connate at apex of ovary for less than 1 mm, each lobe filiform to narrowly triangular, 2-8 mm long, 0. 5-2.5 mm wide at base, margin entire, resinous, midvein occasionally keeled, inside sulcate, green or red- dish, glabrous, glandular-resinous; corolla tube ventricose, arcuate, 1.4-2. 7 cm long, 2. 5-4.0 mm wide at base, broader at the middle and narrowing slightly at the oblique mouth, outside red from a yellowish base, darker at the mouth, glabrous, resinous, inside pink or yellow, glabrous, limb 54 SMITHSONIAN CONTRIBUTIONS TO BOTANY 5-lobed, upper lobes rotund, erect to porrect, ca 2 mm long and wide, glandular, lateral and basal lobes triangular, reflexed, ca 2 mm long and wide, glandular, margins subentire to crenate; stipitate- glandular; stamens 4, adnate to corolla base for less than 1 mm, exserted up to 2 cm, filaments curved, 2. 6-4.3 cm long, less than 1 mm wide, reddish, glabrous, anthers rotund to oblong, 1-2 mm long, ca 1 mm wide, coherent in 2 pairs, often separating at anthesis, staminode to 6 mm long; ovary inferior, apex pilose, disc cupulate or annu- late, 5-angled, style curved, equaling the length of the stamens and exserted with them, reddish, sparsely pilose, stigma clavate to stomatomorphic or bilobed. Capsule obovoid to turbinate or globose, 3-7 mm long, 3-6 mm wide, brown to gray, smooth to verrucose, costae 5 or 10, prominent or subalate; seeds narrowly rhombic or fusiform, striated, twisted, less than 1 mm long, brown. Discussion. — Gesneria cubensis varies considera- bly over its range. The taxa included here have traditionally been distinguished by characters of leaf margin, minor differences in length of corolla tube, exsertion of stamens and style, amount of resin on vegetative and floral parts, stamen conna- tion, etc. These characters are probably dependent on the habitat, exposure to sun and wind, or on the stage of floral development at time of collection. In other sections of Gesneria, leaf-margin characters and leaf size and shape have been found extremely variable within one species (e.g., Gesneria acaulis and G. duchartreoides. All of the specimens in- cluded here have a similar corolla color, size, and shape suited for hummingbird pollination. From observations in the greenhouse of other species of Gesneria, the variations in lengths of stamens and style and their exsertion have been seen to vary in a single flower during anthesis. One remarkable variation is the lack of calyx lobes in the taxon separated in the following key. In other characters G. c. var. truncata clearly shows a close relationship to the typical variety. 6a. Gesneria cubensis var. cubensis Gesneria cubensis (Decaisne) Baillon, Hist. Plant. 10:60, 1888. — Morton in Leon & Alain, FI. de Cuba 4:456, 1957. Pentarhaphia verrucosa Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:107, 1846. — Lindl. 8c Paxt. in Paxton’s FI. Gard. 3:30, pi. 250, 1852-53. [Type-collection: Mt. Liban, Cuba, /. Linden 1841 (P, holotype; BM, BR, G, K, NY, P, W, isotypes).] Pentarhaphia cubensis Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:108, 1846; FI. Serres Jard. Eur., ser. 1, 3: pi. 297, 1847 [cum var. (3 corollae limbo regulari Lemaire]. — Walp., Repert. Bot. Syst. 6:736, 1847.— W. Hook., Bot. Mag. 81: pi. 4829, 1855. Conradia verrucosa Scheidweiler in Otto 8c Dietrich, Allg. Gartenz. 15:226, 1847 [ex char., excluding locality]. Gesneria verrucosa (Decaisne) O. Kuntze, Rev. Gen. 473, 1891. — Morton in Leon 8c Alain, FI. de Cuba 4:456, 1957. Gesneria dolichostyla Urban, Symb. Ant. 7:540, 1913. [Type- collection: Las Cafiitas, Dominican Republic, M. Fuertes 1926 (K, lectotype; A, BM, BP, E, F, G, GH, NY, P, U, W, Z, isolectotypes).] Gesneria heteroclada Urban, Repert. Spec. Nov. Regni Veg. 18:372, 1922. [Type-collection: Cape Saman5, Dominican Republic, W. Abbott 1173 (US, lectotype).] Gesneria domingensis Urban, Repert. Spec. Nov. Regni Veg. 21:223, 1925. [Type-collection: prope Constanza, Dominican' Republic, H. von Turckheim 2023, not seen, ex char.] Gesneria scopulorum Urban 8c Ekman in Urban, Ark. Bot. 22A (10):73, 1929. [Type-collection: Morne Saut d’Eau, Haiti, E. Ekman H5503 (S, holotype, EHH, IJ, S, US, iso- types).] Gesneria subalata Urban & Ekman in Urban, Ark. Bot. 22A (10):74, 1929. [Type-collection: Massif des Matheux, l’Arcahaie, Morne Delpech, Haiti, E. Ekman H9328 (S, holotype; G, IJ, K, NY, S, isotypes).] Gesneria mornincola Urban 8c Ekman in Urban, Ark. Bot. 22A (10):75, 1929. [Type-collection: Massif du Nord, Gros- Morne, Morne Chabre, Haiti, E. Ekman H5003 (S, holotype; EHH, IJ, S, US, isotypes).] Gesneria calcicola Alain, Mem. New York Bot. Gard. 21 (2): 144, 1971. [Type-collection: Loma del Puerto, Dominican Republic, Alain Liogier 15537 (NY, holotype; GH, IJ, NY, P, RDJ, US, isotypes).] Gesneria bonaoana Alain, Phytologia 25:275, 1973. [Type- collection: Loma Peguera, Bonao, Dominican Republic, Alain Liogier 17372 (NY, holotype; US, isotype).] Shrubs: stems to 3 m tall. Leaves often conferted, elliptic to obovate or oblanceolate, 1. 1-6.0 cm long, 0.5-2. 3 cm wide. Key to the Varieties of Gesneria cubensis 1. Calyx lobes obvious, 2-8 mm long; Cuba, Haiti, and Dominican Republic: Provinces of Azua, Santiago, La Vega, and Samana 6a. var. cubensis 1. Calyx lobes much reduced, less than 0.5 mm long; Dominican Republic: Province of Barahona 6b. var. truncata, new rank NUMBER 29 55 Calyx lobes obvious, extending beyond apex of floral tube, 2-8 mm long. Capsule obovoid to turbinate or globose, costae prominent. Type-Collection. — Pinal de Nimanima, St. Yago de Cuba, /. Linden 2076 (P, holotype; BM, BR, G, GOET, K, NY (Figure 32), P, TCD, W, isotypes). Distribution and Ecology. — Gesneria cubensis var. cubensis is a wide-ranging variety found in eastern Cuba and in Hispaniola growing usually on exposed limestone cliffs or in thickets, from sea level to 1300 m elevation (Figure 33). Flowering specimens have been collected during all months except April and May. Specimens Examined. — CUBA. Province of Oriente: Pinal de Nimanima, St. Yago de Cuba, 1843-1844, J. Linden 2076 ([August 1844] P, holotype of Pentarhaphia cubensis Decaisne; BM, BR, G 2 sheets, GOET, K 4 sheets, NY 2 sheets, P 3 sheets, TCD, W); Bayate in decliv. mont. calcar. Picote, 14 March 1918, E. Ekman 9146 (S); Picote, 14 November 1919, E. Ekman 10110 (NY, S); Sierra de Nipe, in monte calcareo Picote, 15 July 1916, E. Ekman 7384 (S 2 sheets); farallones de La Picote, near Palmarito de Cauto, 15 September 1956, M. Lopez F. 2838 (US 2 sheets); Monte Picote, a foothill at the southern end of Sierra de Nipe, near Palmarito del Cauto, 400 m, 29 January 1956, C. Morton 9714 (US); Sierra de Nipe in “manacales” ad Rio Piloto, ca 350 m, 14 March 1915, E. Ekman 5022 (S); Florida Blanca, Alto Songo, 450 m, 10 Janu- ary 1960, Alain Liogier, J. Acuiia Sc M. Lopez F. 7406 (US); Florida Blanca, 9 February 1957, M. Lopez F. 2850 (BH, US); mogote peak, W of Santiago, 27 February 1930, J. Roig 5054 (LS); Loma del Gato and vicinity, Cobre range of Sierra Maestra, 11 July-14 August 1925, Bro. Edmundo 7 (LS, NY); El Cuero, 400 m, 18, 19 March 1912, N. Britton Sc J. Cowell 12771 (NY, US); Guantanamo, Monte Libanon, San Fernan- dez, ca 700 m, 24 December 1919, E. Ekman 10270 (S); Mt. Liban, 1843-1844, J. Linden 1841 ([June 1844] P, holotype of Pentarhaphia verrucosa Decaisne; BM 2 sheets, BR, G, K 2 sheets, NY, P 2 sheets, W); Potosi, Mt. Liban, 14 March, La Luisa in Monte Toro, 9 April, and Potosi in Monte Toro, 1 May, 1860-1864, C. Wright 3076 (GH); Loma del Esparto, Cajobabo, 31 December 1959, Alain Liogier Sc M. Lopez F. 7105 (US). Locality Unknown: “Cuba,” no date, R. de la Sagra 816 (P); “Cuba Orientali,” 1861, C. Wright 382 (S); “Cuba,” 1860-1864, C. Wright 3076 (BM, G 2 sheets, K, MO, P, S, W); “Cuba,” C. Wright 3076 ([1856-57] GOET, [1861] GOET, [1865] US, no date NY). HISPANIOLA. Haiti. De- partement de l’Artibonite: Massif du Nord, Gros-Morne, Morne Chabre, ca 1125 m, 5 October 1925, E. Ekman H5003 (S, holotype of Gesneria mornincola Urban Sc Ekman; EHH, IJ, S, US, isotypes); Massif des Matheux, l’Arcahaie, Morne Delpech, ca 1200 m, 14 November 1927, E. Ekman H9328 (S, holotype of Gesneria subalata Urban; G, IJ, K, NY, S, iso- types). Departement de 1’Ouest: Massif des Matheux, Mireba- lais, Morne Saut d’Eau, ca 800 m, 6 February 1926, E. Ekman Figure 32. — Isotype of Pentarhaphia cubensis Decaisne and Gesneria cubensis (Decaisne) Baillon, Linden 2076 (NY). H5503 (S, holotype of Gesneria scopulorum Urban 8c Ekman; EHH, IJ, S, US, isotypes). Dominican Republic. Province of Azua: Cordillera Central, San Juan, southern spur of Picacho del Ingenito, ca 1200 m, 8 September 1929, E. Ekman H13511 (S); Las Cahitas, 1300 m, July 1912, M. Fuertes 1926 (K, lecto- type of Gesneria dolichostyla Urban; A, BM, BP, E, F, G 3 sheets, GH, NY, P, U, W, Z); Sierra de Ocoa, San Jose de Ocoa, Bejucal, ca 1000 m, 3 March 1929, E. Ekman H11755 (K, S). Province of Santiago: Loma del Puerto, on the road to Puerto Plata, 700-800 m, 4 June 1969, Alain Liogier 15537 (NY, holotype (2 sheets) of Gesneria calcicola Alain; RDJ 2 sheets, US, isotypes); Loma del Puerto, 750 m, 27 March 1972, Alain Liogier 18526 (NY, US). Province of La Vega: Cordillera Central, Loma Chinguela, ca 1300 m, 12 October 1929, E. Ekman H13738 (S); Loma Peguera, Bonao, 8 August 1970, Alain Liogier 17372 (NY, holotype of Gesneria bonaoana Alain; US, isotype.) Province of Samana: Los Haitises, near mouth of Barracote river, Samana Bay, 150 m, 19 March 1969, Alain Liogier 14494 (NY), 14507 (GH, NY, US); Los Haitises, La Manarlita, 2 July 1930, E. Ekman H15523 (S); Cape Samana, Samana Peninsula, sea level to 100 m, 25 March 56 SMITHSONIAN CONTRIBUTIONS TO BOTANY 1921, W. Abbott 1173 (US, lectotype of Gesneria heteroclada Urban), 1182 (US); peninsula de Samana, Cabo Samana, Playa Madama, 9 May 1930, E. Ekman H14926 (A, EHH, F, G, GH, K, NY, S, US); peninsula de Samana, Cabo Samana, at El Frontdn, 18 June 1930, E. Ekman H15344 (C, S). Cultivated: Hort. Soc. Gard. Chiswick, 5 September 1850, Meisner Elerb. sn (NY); Hort. Van Houtte, no date, no collector (BM). Discussion. — There are essentially no differences among the many described taxa, included here in Gesneria cubensis var. cubensis in Cuba and Hispaniola, which can be defended in the light of the range of variability possible among the species. Since other species of Gesneria are known across the straits, which separate the islands of the Greater Antilles, the occurrence of Gesneria cubensis in both Cuba and Hispaniola cannot be ruled out, particularly since, in Cuba, G. cubensis occurs in Oriente Province, the closest of the provinces to Hispaniola, where G. cubensis is wide- spread in scattered populations. The fruits of this subspecies are distinctive by the large costae, which are most pronounced in the populations from Alto Songo in Cuba and Massif des Matheux in Haiti. The incurved calyx lobes, although variable in width, are sulcate on the inner surface and the midvein becomes prom- inent or keeled in the capsule. Openings at the base of the corolla similar to those reported by Alain in G. calcicola have also been found in samples labeled G. bonaoana and G. dolichostyla. Since fenestrate corollas rarely occur in Gesneria, these openings may be the result of animal predation on the nectar at the base of the corolla tube, or due to a genetic atavism to polypetaly similar to that seen in arti- ficial hybrids between Gesneria species (G-1236, G. citrina X G. pedunculosa) and in the culti- vated polypetalous clone of Sinningia aggregata. The holotype of G. heteroclada Urban was probably at Berlin and presumably destroyed. The only known duplicate of Abbott 1173 in the De- partment of Botany, Smithsonian Institution, the depository of Abbott’s first set of collections, is here selected as lectotype. The divaricate habit of these plants from the Samana Peninsula of Hispaniola is similar to many collections of G. cubensis from Cuba, but appears to be the most divaricate of any population on Hispaniola. The tuberculate or verrucose branches also are more like Cuban pop- ulations than others that are closer geographically. Urban described Gesneria domingensis from a specimen that lacked flowers ( von Tixrckheim 3023) but was reported to have been collected from the area where G. cubensis is known today. No examples of von Tilrckheim 3023 have been located, but from the description the species be- longs here. The holotype of Gesneria dolichostyla was presumably at Berlin and no longer extant. From the numerous duplicates of Fuertes 1926, the Figure 33. — Distribution of Gesneria cubensis var. cubensis in eastern Cuba. NUMBER 29 57 specimen at Kew, is selected as lectotype for Gesneria dolichostyla. Conradia verrucosa Scheidweiler was described from a cultivated plant grown by de Jonghe, a grower who supplied other species of Gesneria (e.g., G. libanensis, from seeds collected by Linden in Cuba) to botanical gardens. The locality given by Scheidweiler, “aus dem Orgelgebirge (Era- si lien),” is probably in error, since the description fits specimens of G. cubensis (G. verrucosa De-cne.), and no species of Gesneria L. are known from Brazil. Gesneria cubensis persisted in cultivation for many years following the 184Q’s and was depicted in many horticultural journals. The species is not known to be in cultivation at the present time. 6b. Gesneria cubensis var. truncata (Alain) L. Skog, new rank Gesneria truncata Alain, Brittonia 20:155, 1968. Shrubs: stems to 5 m tall. Leaves not conferted, usually elliptic, 2. 5-7.0 cm long, 0. 7-2.7 cm wide. Calyx lobes much truncated at apex of floral tube, reduced, ca 0.5 mm long. Capsule subglobose, costae not prominent. Type-Collection. — La Hotte, between La Cueva and Placer Bonito, Dominican Republic, R. Howard 12283 (NY, holotype (Figure 316); US, isotype). Distribution and Ecology. — This variety is known only from the Province of Barahona in Dominican Republic, where it grows on slopes in forests at 900-1500 m elevation (Figure 27). A col- lection of flowering material was made in August. Fruiting specimens were collected in February. Specimens Examined. — HISPANIOLA. Dominican Republic. Province of Barahona: La Lanza, between Monteada Nueva and Polo, 900-1000 m, Alain Liogier 14321 (GH, NY); La Hotte, between La Cueva and Placer Bonito, 5000 ft, 1 Au- gust 1950, R. Howard 12283 (NY, holotype of Gesneria trun- cata Alain); Mt. Laho, trail between La Cueva and Placer Bonito, 4500 ft, 1 August 1950, R. Howard 12283 (US, iso- type). Discussion. — The sheets of the type collection Howard 12283, are labeled as coming from either La Hotte or Mt. Laho. These names are probably variations for the same locality and probably vari- ations of La Jo, a name shown on maps prepared by the Defense Mapping Agency for a hill be- tween La Cueva and Placer Bonito. 7. Gesneria glandulosa (Grisebach) Urban Gesneria glandulosa (Grisebach) Urban, Symb. Ant. 2:373, 1901. — Morton in Leon and Alain, FI. de Cuba 4:463, 1957. Pentarhaphia glandulosa Grisebach, Cat. PI. Cub. 199, 1866. Shrubs: stems woody, erect, to ca 1 m tall, ca 5 mm in diameter at 10 cm below apex, bark red, densely villous with reddish articulated glandular and eglandular trichomes, resinous above, below gray, glabrescent, and rugose, lenticels obscure; branches few, leaf scars not prominent. Leaves alternate, scattered toward branch api- ces: petioles sulcate, 0.6-1. 3 cm long, 1-2 mm wide, subcoriaceous, red, densely villous, glandular-resinous; blades elliptic, oblong or ob- lanceolate, 2. 8-7. 3 cm long, 1.0-2. 9 cm wide, base acute, margin subentire below, serrulate above, apex acute, adaxial surface plane or slightly bul- late in older leaves, green, glabrescent with a few scattered trichomes along the impressed midvein, abaxial surface green or reddish-brown, villous with trichomes more dense along the reddish prominent veins, resinous. Inflorescences in upper axils, 3- to several- flowered, length equaling the subtending leaves: peduncles terete, 1.8-2. 9 cm long, ca 1 mm in diameter, red, glandular-villous, resinous; bracts 2, lanceolate, ca 1 cm long, ca 2 mm wide, red, villous; pedicels 0. 9-2.4 cm long, ca 1 mm in diameter, red, villous, resinous; floral tube shortly turbinate, 2-3 mm long, 4-5 mm wide at apex, red, glandular-villous, resinous on both sides; corolla tube cylindric, curved, subventricose at middle, 2.0-2. 3 cm long, 4 mm wide at base, 5 mm wide at middle, 3 mm wide at throat, outside yellow (fide Wright), pilose and glandular with short unstalked glands, inside yellow, glabrous, limb erect or porrect, 5-lobed, lobes suborbicular, 1-2 mm long, 2-3 mm wide, upper lobes dentate, lateral and basal lobes entire, sparsely glandular; stamens 4, shortly exserted, filaments curved, ca 2 cm long, glabrous, anthers not seen; ovary inferior, apex pilose, disc annular, yellow, style ca 2.2 cm long, reddish, sparsely pilose, stigma curved, clavate. 58 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 34. — Type specimens: a, holotype of Pentarhaphia glandulosa Grisebach and Gesneria glandulosa (Grisebach) Urban, Wright 3075 (GOET); b, holotype of G. heterochroa Urban, Ekman 8741 (S). Capsule broadly turbinate, 4-6 mm long, 6-8 mm wide, reddish and pilose to gray and glabres- cent with age, persistent calyx lobes patent, costae 5, obscure; seeds rhombic, striate, twisted, ca 1 mm long, 0.5 mm wide, dark red. Type-Collection. — El Yunque de Baracoa, Cuba, C. Wright 3075 (GOET, holotype (Figure 34a); G, GH, K, NY, isotypes). Distribution and Ecology. — Gesneria glandu- losa is endemic to El Yunque de Baracoa in Oriente Province of Cuba in rock crevices at ca 500 m elevation (Figure 29). Underwood (1905) reported that Wright, in correspondence to Asa Gray on 3 June 1861, wrote that he would spend a few days on El Yunque. This species was probably collected in flower at that time. Specimens Examined. — CUBA. Province of Oriente: El Yunque de Baracoa, C. Wright 3075 ([1861] GOET, holotype of Pentarhaphia glandulosa Grisebach; [1860-1964] G, GH, K, NY, isotypes). Discussion. — This species, known from a single collection ( Wright 3075) from El Yunque de Baracoa in eastern Cuba, appears intermediate be- tween Gesneria salicifolia and G. purpurascens, NUMBER 29 59 both collected from near the type locality of G. glandulosa. The erect shrubby habit, subcoriaceous leaves, and elongated sepals are similar to G. salicifolia, but the pubescence of the stem, leaves, and inflorescence, fruit shape, and the somewhat bullate condition of the leaves, among other characters, resembles G. purpurascens. Abundant fruits appear to be present on the specimens. It is unknown whether the seeds were viable. Hybridi- zation between Gesneria salicifolia and G. pur- purascens, if brought into cultivation, may deter- mine the hybrid nature of G. glandulosa. 8. Gesneria haitiensis L. Skog Gesneria haitiensis L. Skog, Baileya 18:114, 1972. Shrubs: stems woody, erect or contorted at the base to 1.3 m tall, bark brown to gray at maturity, pith reddish; young branchlets divaricate, ex- tending out from the primary branches for 3-9 cm, 1-4 mm in diameter, wider toward the apices, glabrous, resinous, lenticels elongated. Leaves alternate, crowded at the apices of the branches, resinous: petioles sulcate from a swollen base, 2-6 mm long, ca 1 mm wide, green to brown, glandular and glabrous, except for sparse rows of hairs in the sulcus; blades elliptic to obovate, 2.8-5. 2 cm long, 1.5-2. 7 cm wide, coriaceous, base cuneate, margin entire, apex rounded to acute, adaxial surface dark green, nitid, glabrous, except for sparse rows of hairs along the immersed mid- vein, abaxial surface lighter green, glabrous, glandular along the prominent midvein. Inflorescences from the axils of the crowded leaves, 1 -flowered, length equaling the subtending leaves: peduncles very short, bearing 2 lanceolate bracts, 1.5 mm long, reddish-brown, glandular; pedicels terete, 0.8-1. 2 cm long, elongating in fruit, ca 1 mm in diameter; floral tube turbinate, 1.5-2 mm long, ca 2 mm wide, reddish-brown, glabrous, glandular-scaly; calyx erect, 5-lobed, the lobes connate for less than 1 mm, aestivation valvate, each lobe sulcate, lanceolate-linear, 5-9 mm long, ca 1 mm broad, apex acuminate, margin entire, exterior surface reddish-brown, glabrous, glandular-scaly, interior surface lighter red, gla- brous; corolla tube cylindric, slightly curved from the gibbous base, 0.9-1. 2 cm long, 4-6 mm wide at the base, 3-4 mm wide at the middle and 2-3 mm wide at the mouth, outer surface rosy-pink, gla- brous, but slightly glandular, interior surface lighter pink, glabrous, limb patent, 1.2-1. 8 cm across, 5-lobed, each lobe orbiculate, flat, ca 7 mm long, ca 8 mm broad, rosy-pink, glabrous, margin erose to scalloped, glandular; stamens 4, sub- exserted, filaments adnate to the base of the corolla for less than 1 mm, linear, curved, ca 9 mm long, ca 1 mm in diameter, white, glabrous except for a group of hairs at the bend 2 mm above the base of the filament, anthers oblong, ca I mm long, coherent in 2 pairs, staminode 4 mm long, lacking mature anther; ovary inferior, apex reddish, pubescent disc sinuate-annular, thickened, ca 2 mm across, glabrous, style linear, ca 7 mm long, reddish, pilose, stigma stomatomorphic, and pilose. Capsule broadly turbinate or ■ ovoid, 4-6 mm long, 6-7 mm in diameter, gray-brown, glabrous, costae 10, prominent; seeds fusiform, twisted, ca 1 mm long, reddish-brown. Type-Collection. — Between Leon and Fond Cochon, Haiti, L. Skog, T. Talpey 8c D. Pfister 1616 (BH, holotype; BM, BR, C, E, F, G, GH, IJ, L, M, MO, NY, P, S, US (Figure 35a), W, Z, iso- types). Distribution and Ecology. — Gesneria haitiensis is known only from Departement du Sud in western Haiti (Figure 27), where it grows on limestone cliffs overhanging rivers at an elevation of ca 330 m. This species was collected in flower in July. Although in cultivation at Cornell University (G-1366), the plants have not flowered. Specimens Examined. — HAITI. Departement du Sud: along banks of dry Riviere Voldrogue at Bras-Sec [Bois-Sec] between Leon and Fond Cochon, Massif de la Hotte, about 15 miles SE of Jeremie, 1100 ft, 24 July 1970, L. Skog, T. Talpey & D. Pfister 1616 (BH, holotype: BM, BR, C, E, F, G, GH, IJ, L, M, MO, NY, P, S, US, W, Z, isotypes). Discussion. — The species in this section, except for Gesneria asp era and G. haitiensis, are char- acterized by a bilabiate corolla with an oblique mouth often with stamens and style far exserted, or by a corolla with an arrect limb of lobes less than 2 mm long. Gesneria aspera and G. haitiensis are similar in having a corolla with a broad patent limb of lobes more than 5 mm long and having included stamens and style. Gesneria aspera differs in being pilose on stems, leaves and inflorescences, and having leaves 1 .5-2.5 cm long, calyx lobes 2-4 mm long and corolla 1. 1-2.2 cm long. Figure 35. — Type specimens: a, isotype of Gesneria haitiensis L. Skog, Skog, Talpey Sc Pfister 1616 (US); b, lectotype of G. harrisii Urban, Harris 8670 (F). 9. Gesneria harrisii Urban Gesneria harrisii Urban, Symb. Ant. 5:497, 1908. Large shrubs or small trees: stems woody, erect, to 3 m tall, 4 cm in diameter at base, bark sub- rugose brown to gray, glabrous, very resinous, lenticels elongated; branches scattered, terete, ca 4 mm in diameter at 10 cm below apex, green to brown, glabrous, resinous, internodes 0.2-8. 7 cm long, leaf scars prominent. Leaves alternate, well separated or crowded toward branch apices: petioles slender, sulcate, 7-15 mm long, ca 1 mm wide, green to brown, glabrous, glandular-resinous; blades elliptic or oblong, rarely obovate, 3.4-11.0 cm long, 1. 3-4.4 cm wide, coriaceous, rigid, base acute, margin entire below, crenate or dentate above, apex acute, adaxial surface plane, green, glabrous, somewhat resinous, veins impressed, abaxial surface lighter green or reddish-brown, glabrous, densely glandular-resinous, veins prominent. Inflorescences of single flowers, shorter than or equaling the subtending leaves: peduncles (in- cluding pedicel) terete, alate toward apex, 2-5 cm long, ca 1 mm in diameter, green to brown, glabrous, resinous; bracts obsolete; floral tube turbinate or obconic, 2-3 mm long, 2-3 mm wide at apex, green to brown, glabrous, resinous, cos- tate; calyx 5-lobed, lobes connate for less than 1 mm, filiform to narrowly lanceolate, erect, be- coming incurved in fruit, 9-16 mm long, ca 1 mm wide at base, outside keeled, green, glabrous and NUMBER 29 61 resinous, inside sulcate, green, glabrous, resinous; corolla tube cylindric, wider above middle, 12-17 mm long, ca 4.5 mm wide at throat, outside sulfur yellow, glabrous, resinous, inside yellow-green, glabrous, limb bilabiate, glabrous, resinous, mar- gin subentire to denticulate, stipitate-glandular, upper lobes erect, semiorbiculate, notched, lateral lobes reflexed, rotund, 1. 5-2.0 mm long, ca 1.5 mm wide, basal lobe reflexed, triangular, ca 2 mm long and wide, notched; mouth not oblique; stamens 4, staminode 5 mm long, all adnate to base of corolla for less than 1 mm, exserted to length of upper lobes of corolla, filaments curved, 12-17 mm long, ca 0.5 mm wide at base, narrower above, yellow- green, glabrous, anthers oblong, ca 1 mm long, 0.5 mm wide, coherent in 2 pairs or free; ovary inferior, apex pilose, disc short, annular, style curved, 8-16 mm long, yellow-green, darker at base, glabrous, stigma thicker than style, bilobed, papillate. Capsule turbinate to broadly turbinate, dehis- cing from the apex, 4-5 mm long, 5-6 mm wide at apex, gray or brown, glabrous, resinous, costae 5, subalate; seeds fusiform, striate, twisted, ca 1 mm long, ca 0.3 mm wide, reddish or brown. Type-Collection. — Glasgow, near Troy, Ja- maica, W. Harris 8670 (F, lectotype (Figure 355); BM, UCWI, isolectotypes). Distribution and Ecology. — Gesneria harrisii is endemic to central Jamaica (Figure 36), where it grows on shaded limestone rocks and cliffs from ca 400-850 m elevation. This species appears to be in flower all during the year. Specimens Examined. — JAMAICA. Parish of Trelawny: near Troy, 1500 ft, 22 November 1905, W. Harris 9066 (BM, F, NY, UCWI). Parish of Manchester: cliff, Troy to Oxford, Cockpit Country, 13-18 September 1906, N. Britton 611 (F, NY, US); vicinity of Auchtembeddie, 1750 ft, 1 December 1962, G. Proctor 22974 (BM, IJ); near Auchtembeddie, ca 1250 ft, 5 November 1964, G. Proctor 25623 (IJ); near Auch- tembeddie, 1250 ft, 15 August 1970, L. Skog & G. Proctor 1636 (BH, US); N of Mandeville, near Auchtembeddie, 1750 ft, 5 November 1964, T. Talpey 19 (BH); Glasgow, near Troy, 1400 ft, 20 April 1904, IF. Harris 8670 (F, lectotype of Ges- neria harrisii Urban; BM, UCWI, isolectotypes); Norway dis- trict, 1.5 mi due SW of Craig hill P.O., ca 2300 ft, 30 March 1964, G. Proctor 24755 (BM, IJ, NY, U); Cockpit Country, ca 2 mi SW of Craig head, ca 2000 ft, 20 June 1959, G. Web- ster, J. Ellis 8c A'. Miller 8416 (BM, G, IJ, S). Parish of St. Ann: Douglas Castle district, ca 2300 ft, 28 March 1965, G. Proctor 26320 (IJ). Parish of Clarendon: Peckham Woods, 2500 ft, 27 September 1912, W. Harris 11184 (BM, F, NY, US), 27 December 1917, IF. Harris 12782 (F, GH, K, MO, NY, UCWI, US), 7 January 1955, G. Proctor 9770 (A, IJ, NY); Peckham Woods, north of Frankfield, 2500 ft, 23 December 1955, IF. Steam 4 (A, BH, BM, K). Locality Unknown: Jamaica, 1844, W. Purdie sn (K, NY). Discussion. — Gesneria harrisii resembles G. cu- bensis vegetatively, but differs in corolla color and shape, and in the glabrous style. The flowers are similar in shape to those of G. jamaicensis, but are not rose or pink; the longer peduncles and the often obovate leaves of G. jamaicensis also sepa- rates these two species. Urban designated two specimens as syntypes, Harris 8670 and Harris 9066. Since the types at Berlin are no longer extant, the specimen of Harris 8670 at the Field Museum of Natural History, annotated by Urban, is designated here as lectotype. 10. Gesneria heterochroa Urban Gesneria heterochroa Urban, Symb. Ant. 9:270, 1924. — Mor- ton in Leon & Alain, FI. de Cuba 4:456, 1957. Gesneria clarensis var. turquinensis Morton, Brittonia 9:19, 1957. — Morton in Leon & Alain, FI. de Cuba 4:456, 1957. [Type-collection: Pico Turquino, Sierra Maestra, Cuba, J. Acuna 9712 (SV, holotype; fragment, US).] Shrubs: stems woody, erect, to 2 m tall, 3-4 mm in diameter at 10 cm below apex, bark verrucose or tuberculate above from erumpent lenticels, dark green to brown, glabrous, sparingly resinous at apex; branches numerous, internodes 4-9 mm long. Leaves alternate, scattered: petioles sulcate, 4-15 mm long, ca 1 mm wide, dark green or reddish brown, verrucose, glabrous, resinous; blades lance- olate, elliptic, or obovate, 2.0-6. 8 cm long, 1.0-3. 2 cm wide, subcoriaceous, base acute, margin crenu- late or serrulate, revolute, occasionally reddish, apex acute to acuminate, adaxial surface plane, smooth or occasionally rough when dry, green, glabrous, veins impressed, abaxial surface reddish- brown or green, glandular-resinous, veins reddish and prominent. Inflorescences axillary near branch apices, 1- flowered, about one-half the length of the sub- tending leaves: peduncles (including pedicel) terete or subalate toward apex, 0.3-1. 2 cm long, less than 1 mm in diameter, reddish, resinous; bracts 2, at base of peduncle, each linear, 2-3 mm 62 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 36. — Distribution of Gesneria section Pentarhaphia in Jamaica. (G. harrisii = open circles; G. jamaicensis = solid circles.) long; floral tube narrowly obconic, ca 4 mm long, ca 2 mm wide, reddish-brown, glabrous, resinous, costae 5; calyx lobes 5, erect, connate at base for less than 1 mm, each linear, 5-9 mm long, less than 1 mm wide at base, reddish and resinous both sides, outside with prominent midvein, inside sulcate; corolla tube cylindric, slightly swollen at base then narrower, slightly ampliate below mid- dle, 10-15 mm long, 2-3 mm wide at base, 4-6 mm wide above, outside yellow-green to greenish-white, glabrous, glandular-resinous, inside yellow-green, glabrous, limb slightly bilabiate, 5-lobed, lobes suborbiculate, margins crenate or erose, stipitate- glandular, upper lobes erect, 2-4 mm long, 3-5 mm wide, lateral and basal lobes reflexed, 2-3 mm long and wide; stamens 4, adnate to corolla base for ca 1 mm, exserted ca 5-8 cm beyond corolla, filaments curved 1. 6-2.0 cm long, yellow-green, glandular, anthers oblong, 1.0-1. 5 mm long, ca 1.0 mm wide, sparsely pilose on back, staminode ca 2.5 mm long; ovary completely inferior, apex pilose, disc annular, yellow, style curved, 1. 0-2.5 cm long, pilose, stigma capitate, papillate. Capsule narrowly turbinate, 5-6 mm long, 2. 0-3. 5 mm wide at apex, reddish-brown, costae 5; seeds fusiform, striated, twisted, 0.5-1 .0 mm long, tawny to dark brown (Figure 19a). Type-Collection. — Firmeza, Sierra Maestra, Cuba, E. Ekman 8741 (S, holotype, Figure 34 b). Distribution and Ecology. — Gesneria hetero- chroa is known from Oriente Province of Cuba (Figure 29) at elevations from 750 to 1830 m. Its habitat is among rocks, on cliffs or in thickets in exposed situations. Flowering material has been collected from October to January. Specimens Examined. — CUBA. Province of Oriente: top of Pico Turquino, S. Maestra, 1-2 August 1935, J. Acuna 6787 [ster.] (NY); Pico Turquino, Sierra Maestra, August 1935, /. Roig & G. Bucher 53 [ster.] (US), 59 [ster.] (US); Pico del Este, Sierra Maestra, 5960 ft, 1-2 August 1935, }. Acuna 9712 [ster.] (US, holotype fragment of Gesneria clarensis var. turquinensis Morton); Firmeza, Sierra Maestra, ca 750 m, 9 November 1917, E. Ekman 8741 (S, holotype of Gesneria heterochroa Urban); Gran Peidra, Sierra Maestra, ca 1200 m, Alain Liogier, J. Acuna & M. Lopez F. 7441 (US); La Gran Piedra, supra Daiquiri, ex colon. “La Florida,” ca 850 m, 28-29 June 1914, E. Ekman 1598 (S); Sierra Maestra, prope Daiquiri, 800-1000 m, 28 October 1916, E. Ekman 8090 (NY, Si- Discussion. — Gesneria heterochroa includes G. clarensis var. turquinensis, which was described without flowers or fruit. The vegetative characters and the range of this latter population are closer to G. heterochroa from Oriente Province than with G. clarensis from Las Villas Province of Cuba. The slender branches bearing well-spaced leaves acute at the apex distinguish the population at Pico Turquino from G. viridiflora subsp. viridi- flora at the same locality, which has stout branches and rotund or emarginate leaves. NUMBER 29 63 11. Gesneria hijpoclada Urban & Ekman Gesneria hypoclada Urban & Ekman in Urban, Ark. Bot. 20A (5): 50, 1926. Small trees: stems woody, erect, bark verrucu- lose from erumpent lenticels and yellowish when young, becoming rugose to smooth and gray-brown with age, glabrous, apices resinous; branches numerous, terete, slender, ca 2 mm in diameter at 10 cm below apex, internodes 0. 1-1.1 cm long, leaf scars prominent. Leaves alternate, spiral, congested toward the branch apices: petioles sulcate, 3-6 mm long, ca 1 mm wide, verruculose, yellow from resin, glandular; blades elliptic to obovate, 2. 1-4.2 cm long, 1.0-1. 4 cm wide, subcoriaceous, base nar- rowly acute, margin subentire below, above crenate or serrate, apex acute, adaxial surface plane, yellow-green from resin, glandular, midvein im- pressed, abaxial surface yellow-green, glandular, veins darker, prominent. Inflorescences axillary near branch apices, 1- flowered, equaling the subtending leaves: pedun- cles curved, terete, 6-8 mm long, less than 1 mm in diameter, yellow, glandular-resinous; bracts 2, caducous, approximate, linear, 1-3 mm long, yellow, glandular-resinous, apex apiculate; pedicels terete or subalate toward apex, 4-9 mm long, less than 1 mm wide, yellow, glandular-resinous; floral tube turbinate, ca 2 mm long, 2-3 mm wide at apex, green to yellow, glandular-resinous, costae 5; calyx 5-lobed, lobes connate at base for less than 1 mm, erect at anthesis becoming sinuate, each narrowly triangular, 4-10 mm long, ca 1 mm wide at base, margin chartaceous, midvein prominent outside, both sides yellow-green, glandular-resinous; corolla tube cylindric, subventricose, 0.8-1. 5 cm long, ca 3 mm wide at base, ca 6 mm wide above, green to brown with darker veins, glandular- resinous both sides, limb slightly bilabiate, upper lobes erect, suborbiculate, ca 3 mm long and wide, margin crenate, stipitate-glandular, lateral and basal lobes patent, orbiculate, ca 3 mm long and wide, glandular, entire; stamens 4, adnate to corolla base, exserted only to corolla limb, fila- ments 1.3-1. 5 cm long, yellow-green, glabrous, anthers oblong, ca 1.5 mm long, coherent in 2 pairs at anthesis, staminode 5 mm long; ovary inferior, apex pilose, disc annular, yellow, style 1 .7-1.8 cm long, yellow-green, pilose at base, stigma papillate. Capsule turbinate, ca 4 mm long and wide at apex, brown, glandular-resinous; seeds not seen. Type-Collection. — Morne Tranchant, Petion- ville, Haiti, E. Ekman HI 877 (S, holotype; EHH, Ij, K, NY, S, US Figure 37 a, isotypes). Distribution and Ecology. — Gesneria hypoclada is known only from the mountains of Departement de 1’Ouest in southeastern Haiti (Figure 27) at elevations of 1800-1825 m, where it grows on hard limestone. This species has been collected in flower only in September. Specimens Examined. — HISPANIOLA. Haiti. Departement de 1’Ouest: Massif de la Selle, Morne Tranchant, Petionville, 1800-1825 m, 13 September 1924, E. Ekman H1877 (S, holo- type of Gesneria hypoclada Urban & Ekman; EHH, IJ, K, NY, S, US 2 sheets, isotypes). Discussion. — Gesneria hypoclada most closely re- sembles G. heterochroa from Cuba in its one- flowered inflorescences with short peduncles bear- ing greenish flowers. The Cuban species differs in being fruticose rather than arborescent, having capsules 5-6 mm long, and petioles 1.0-1. 6 cm long. This Haitian species from near Petionville is probably now extinct due to its distribution near the region of dense human population and the incessant search for wood for charcoal by rural people. 12. Gesneria jamaicensis N. Britton Gesneria jamaicensis N. Britton, Bull. Torrey Bot. Club 48: 341, 1922 [1921].— Adams, FI. PI. Jamaica 680, 1972. Small straggling shrubs: stems woody, to 3.3 m tall, 3-4 mm in diameter at 10 cm from apex, bark smooth to rough, green or brown to gray, glabrous, apex verruculose from glandular tri- chomes, very resinous, lenticels obscure; branches scattered, terete, soon becoming woody, internodes 0.1-14.0 cm long, leaf scars large, prominent. Leaves alternate, spiral, scattered or congested at branch tips: petioles sulcate, 4-14 mm long, 1-2 mm wide, green, glabrous, glandular and resinous; blades elliptic, oblong or obovate, occasionally falcate, usually broader above the middle, 6.0-15.4 cm long, 1.9-5. 7 cm wide, rigid, coriaceous, base acute, margin entire toward the base, serrate or dentate above, apex acute to acuminate, adaxial surface plane, dark green, glabrous, nitid, Figure 37. — Type specimens: a, isotype of Gesneria hypoclada Urban &: Ekman, Ekman H1877 (US); b, holotype of G. jamaicensis Britton, Harris 12509 (NY). glandular-resinous, veins impressed, abaxial sur- face copper-colored and green at the veins or all green, glabrous, glandular-resinous, veins promi- nent and darker. Inflorescences of l(-2) flowers, length equaling or exceeding the subtending leaves: peduncles (including pedicel) terete or subquadrangular, curved, 4.5-11.8 cm long, 1-2 mm wide at base, slender at middle, broader toward the costate apex, reddish, glabrous, glandular-resinous; bracts ob- solete; floral tube obconic or turbinate, 2-8 mm long, 2-4 mm wide, dark red, glabrous, glandular- resinous; calyx lobes 5, erect, incurved, connate for ca 1 mm, each linear to lanceolate, 7-11 mm long, 1-3 mm wide at base, outside keeled, rose, glabrous, glandular-resinous, inside sulcate, green, glabrous, glandular-resinous; corolla tube sub- cylindric, broadest at base, narrowing to middle, then wider toward mouth, 8-10 mm long, 3 mm wide at base, ca 4 mm wide at paouth, outside deep rose or crimson to rose pink, glabrous and resinous, inside lighter pink, glabrous, limb 5-lobed, gla- brous, margin erose or dentate, lobes orbiculate 3-5 mm long, 3-4 mm wide, upper lobes erect to porrect, lateral and basal lobes patent to reflexed, mouth oblique; stamens 4, staminode ca 3 mm long, all adnate to base of corolla tube, not ex- serted beyond corolla limb, filaments sigmoid- curved, broad at base, filiform above, 8-10 mm long, ca 1 mm wide at base, reddish, glabrous, anthers oblong to rotund, nodding, ca 1 mm long, and wide, coherent in 2 pairs, becoming free; ovary inferior, apex pilose, disc annular, thickened, style curved, 7-8 mm long, ca 1 mm wide, reddish, sparsely pilose at base, glabrous above, stigma bilobed, papillate. NUMBER 29 65 Capsule subglobose to obconic, 4-8 mm long, 4-6 mm wide, reddish-brown to gray, glabrous, resinous, costae 5; seeds fusiform to rhombic, striated, twisted, ca 1 mm long, ca 0.25 mm wide. Type-Collection. — Ipswich, Jamaica, W. Harris 12509 (NY, holotype, Figure 37 b; BM, F, GH, K, MO, P, PH, UCWI, US, isotypes). Chromosome Number. — n = 14 (Lee, 1968). Distribution and Ecology. — Gesneria jamaicen- sis is known only from the parish of St. Elizabeth in western Jamaica (Figure 36), where it grows on shady limestone ledges at 250-400 m elevation. From the wild this species has been collected in flowering condition in March, June, August, and November. A cultivated plant growing in green- houses at Cornell University (G-879) produced flowers in April. Specimens Examined. — JAMAICA. Parish of St. Elizabeth: Ipswich, 7 March 1917, W. Harris 12509 (NY, holotype of Gesneria jamaicensis N. Britton; BM, F, GH, K, MO, P, PH, UCWI, US, isotypes), ca 800 ft, 10 March 1956, G. Proctor 11732 (GH), W. Steam 442 (A, BH, BM 4 sheets, K, S), 4 November 1964, G. Proctor 25618 (IJ), T. Talpey 16 (BH), 16 August 1970, L. Skog & G. Proctor 1640 (BH, US); Mulgrave, 1300 ft, 14 June 1916, W. Harris 12374 (BM, F, GH, K, NY, UCWI, US). Discussion. — Gesneria jamaicensis has been intro- duced into cultivation at Cornell University where the T. Talpey introduction of 1964 was grown under the accession numbers G-879 and G-1400. Among the species that resemble Gesneria jamaicensis , G. harrisii can be distinguished by its yellowish corolla and erect fruticose habitat; G. scabra var. sphaerocarpa, which has been collected near the range of G. jamaicensis and has a rosy- pink corolla and a straggling, suffruticose habit, can be separated by the pubescent peduncles, calyces and corollas of the multiflowered inflorescences. 13. Gesneria lanceolata Urban & Ekman Gesneria lanceolata Urban & Ekman in Urban, Ark. Bot. 22A (10):72, 1929. Shrubs: stems woody, erect to ca 2 m tall (fide Ekman); bark smooth, gray-brown, glabrous, resin- ous toward the apex; branches numerous, terete, internodes to ca 5 cm long, leaf scars prominent on young branches, becoming obscure. Leaves alternate, scattered at branch apices: petioles sulcate, 8-15 mm long, ca 1 mm wide, glabrous, resinous; blades narrowly elliptic to ob- lanceolate, 6.7-11.0 cm long 1.5-3. 3 cm wide, sub- coriaceous, base acute, margin below the middle entire, above denticulate, apex acute to acuminate, adaxial surface plane, smooth, nitid, green, glabrous-glaucescent, midvein impressed, abaxial surface lighter green or light reddish-brown, veins prominent. Inflorescences in axiis of upper leaves, 2- or 3- flowered, ca one-fourth to one-half the length of the subtending leaves: peduncles terete, 3-6 mm long, ca 0.5 mm wide, glabrous; bracts 2, caducous, linear, 2-3 mm long; fruiting pedicels terete, 5-7 mm long, ca 0.3 mm wide. Flowers not seen. Capsule turbinate, ca 4 mm long, ca 3.5 mm wide toward the apex, gray-brown, glabrous, the persistent calyx lobes linear, ca 1.5 mm long, ca 1 mm wide, fruit apex erumpent, pilose, costae 10; seeds fusiform, ca 0.7 mm long, brown. Type-Collection. — Massif de la Selle, Croix-des- Bouquets, Haiti, E. Ekman H7861 (S, holotype; IJ, S, isotypes). Distribution and Ecology. — Gesneria lanceolata is endemic to the Massif de la Selle in southern Haiti (Figure 27) at ca 1000 m elevation. The only collection of this species, consisting of fruiting material, was made in March. Specimens Examined. — HISPANIOLA. Haiti. Departement de 1’Ouest: Massif de la Selle, Croix-des-Bouquets, Badeau, at Trou-a-l’Eau, ca 1000 m, 15 March 1927, E. Ekman H7861 (S, holotype of Gesneria lanceolata Urban & Ekman (Figure 38a); IJ, S, isotypes). Discussion. — Since Gesneria lanceolata was de- scribed without flowers, its sectional placement is not definite. On the basis of vegetative characters, Gesneria lanceolata is probably closely related to G. cubensis but is maintained separately because of the larger leaves and short inflorescences. 14. Gesneria odontophylla Urban & Ekman Gesneria odontophylla Urban & Ekman in Urban, Ark. Bot. 24A(4):34, 1931. Shrubs: stems woody, to 1 m tall, bark smooth, brown, glabrous, resinous, lenticels obscure; branches numerous above, slender, ca 1. 5-3.0 mm in diameter at 10 cm below apex, internodes 0.2- 12.0 cm long, leaf scars prominent. 66 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 38. — Type specimens: a, holotype of Gesneria lanceolata Urban & Ekman, Ekman H7861 (S); b, holotype of G. odontophylla Urban & Ekman, Ekman H10194 (S). Leaves alternate, clustered at branch apices: petioles sulcate, 1. 1-3.0 cm long, ca 1 mm wide, green to yellow, glandular-resinous; blades broadly elliptic to obovate, 6.1-12.0 cm long, 3. 1-7.0 cm wide, membranous, base acute, margin subentire below, serrate above, apex acute to acuminate, adaxial surface plane, smooth, light green, glabrous-resinous at the reddish veins, abaxial sur- face brownish, glabrous, resinous, veins red, prominent. Inflorescences in upper leaf axils, 3-flowered: immature peduncles ca 1.5 cm long, ca 1 mm in diameter, resinous; young pedicels ca 2 mm long; flowers not seen. Capsules turbinate; seeds not seen. Type-Collection. — Fond Cochon, near Bras-Sec, Haiti, E. Ekman H10194 (S, holotype (Figure 386); EHH, IJ, K, S, US, isotypes). Distribution and Ecology. — Gesneria odonto- phylla is known only from southwestern Haiti (Figure 27) where it grows on rocky, shady hill- sides at ca 300 m elevation. Specimens bearing flowers are not known; the type-collection made in June bears only dry immature inflorescences. Specimens Examined. — HISPANIOLA. Haiti. Departement du Sud: Massif de la Hotte, western group, Les Roseaux, Fond-Cochon, near Bras-Sec, ca 300 m, 28 June 1928, E. Ekman H10194 (S, holotype of Gesneria odontophylla Urban & Ekman; EHH, IJ, K, S, US, isotypes). Discussion. — Gesneria odontophylla was de- NUMBER 29 67 scribed from specimens lacking mature flowers or fruits. The type locality is apparently the same as G. haitiensis: Fond-Cochon near Bras-Sec. An at- tempt was made in 1970 to relocate G. odonto- phylla, but no material was found. This species is included here based on the habit and vegetative characters. It may be closely related to either G. clarensis from Cuba or G. cubensis from Cuba and Hispanola. Its large leaves are distinctive, similar to G. fruticosa, known also from the type locality of G. odontophylla , but the leaves of the latter are more elliptic and glabrous. 15. Gesneria parvifolia Alain Gesneria parvifolia Alain, Mem. New York Bot. Gard. 21:145, 1971. Shrubs: stems woody, erect, up to 50 cm tall, 5 mm in diameter at 10 cm below apex, bark rough, villous near apex, becoming smooth and glabres- cent below, brownish, resinous, lenticels erumpent, dark, becoming striated; branches many, short, slender, internodes up to 5.3 cm long on rapidly growing branches, or ca 1 mm long at branch apices, leaf scars prominent. Leaves usually conferted at branch apices: petioles subsulcate, 1-3 mm long, ca 1 mm wide, reddish, villous, glandular-resinous; blades elliptic, 1.5-3. 3 cm long, 0.7-1. 3 cm wide, subcoriaceous, base rounded, margin serrate to dentate, apex acute or rounded, adaxial surface somewhat bul- late, green, pilose at the impressed midvein, resinous, nitid, abaxial surface brownish, pilose at the prominent reddish veins, glandular-resinous. Inflorescences in upper leaf axils of 1-3 flowers, exceeding the subtending leaves: peduncles terete, 6-10 mm long; ca 1 mm in diameter, reddish, pilose; bracts linear 5-7 mm long, ca 1 mm wide, reddish, sparsely pilose, but glandular-resinous; pedicels terete, 1-7 mm long, ca 1 mm in diameter, reddish, pilose; floral tube obconic, 2-3 mm long, 2-3 mm wide at apex, dark, red, pilose; calyx lobes 5, connate for less than 1 mm, erect, each linear to narrowly triangular, 4-7 mm long, 1.0-1. 5 mm wide at base, apex acuminate, both sides red and sparsely pilose, resinous, midvein prominent; corolla tube cylindrical, ca 15 mm long, ca 3 mm wide at middle, red, pilose and glandular-resinous, inside red-orange, glabrous, but resinous, limb slightly spreading, lobes 5, rotund, 1-2 mm long, margin entire, glandular; stamens 4, adnate to corolla base for less than 1 mm, filaments linear, yellow or reddish, glabrous, anthers oblong, 1.5 mm long, coherent in 2 pairs, staminode 5 mm long; ovary completely inferior, disc annular, sinuate, 1-2 mm wide, style linear, ca 1.3 cm long, reddish, pilose, stigma capitate. Mature capsule not seen, immature capsule obovoid, 3 mm long, 3 mm wide, reddish, pilose, costae 5, obscure; seeds not seen. Type-Collection. — Sierra de Baoruco, Peder- nales, Dominican Republic, Alain Liogier 13864 (NY, holotype (Figure 39a); US, isotype). Distribution and Ecology. — Gesneria parvifolia is known only from the mountains of southern Dominican Republic (Figure 27), where it grows on limestone rocks at 800-1100 m elevation. Flowering specimens have been collected in Feb- ruary and July. Specimens Examined. — HISPANIOLA. Dominican Republic. Province of Pedernales: Cueva de Boucan Calice, Hoyo de Pelempito, 1100 m, 3-8 July 1971, Alain Liogier 18118 (GH, NY, US); on a knoll between Boucan Calice and Hoyo de Pelempito, Sierra de Baoruco, 800 m, 13 February 1969, Alain Liogier 13864 (NY, holotype of Gesneria parvifolia Alain; US, isotype). Discussion. — Gesneria parvifolia is probably a close relative of G. aspera, in which the patent limb of the cylindrical corolla, the single-flowered inflorescences, and the asperate leaves are charac- teristic. 16. Gesneria pulverulenta Alain Gesneria pulverulenta Alain, Mem. New York Bot. Gard. 21(2): 146, 9 June 1971. Gesneria filisepala Alain, Phytologia 22:173, 2 December 1971. [Type-collection: Hoyo de Pelempito, Dominican Republic, Alain Liogier 18132 (NY, holotype; GH, US, isotypes).] Gesneria saxatilis Alain, Phytologia 22:173, 2 December 1971. [Type-collection: Trail between Pedernales and Aceitial, R. Howard & E. Howard 8120 (NY, holotype; BM, GH, P, S, US, isotypes).] Subshrubs to large shrubs: stems woody, erect, up to 4 m tall, 5 mm in diameter at 5 cm below apex, bark rugose where internodes close, or smooth and striated where internodes well spaced on rapidly elongating branches, reddish-brown or green, glandular-resinous, becoming gray-brown, 68 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 39. — Type specimens: a, holotype of Gesneria parvifolia Alain, Alain Liogier 13864 (NY); b, holotype of G. pulverulenta Alain, Alain Liogier 13871 (NY). with resin flaking as a yellowish or whitish pulverulence, internodes 0.2-2. 3 cm long, leaf scars prominent, pith green or red; branches few or numerous, short, in upper leaf axils, somewhat flattened, lenticels elongated, erumpent, nodes slightly swollen, axillary buds densely or sparsely covered by caducous reddish articulated trichomes, trichomes occasionally adhering to young leaves and inflorescences. Leaves alternate, when well separated on rapidly growing branches, or approximate and conferted at branch apices; petioles subsulcate, 1-5 mm long, ca 1 mm in diameter, green or reddish, glandular- resinous; blades spathulate, obovate or elliptic, 1. 0-3.4 cm long, 1.0-1. 7 cm wide, coriaceous, base acute to cuneate, margin entire to coarsely crenate- dentate at the obtuse or subtruncate apex, adaxial surface smooth, nitid, dark green, glabrous but glandular, veins immersed, abaxial surface light green or brownish, glabrous, but glandular, with prominent brown or red veins. Inflorescences axillary, of l(-4) flowers, often equaling the subtending leaves: peduncles terete, 1-4 mm long, ca 1 mm in diameter, glandular- resinous; bracts 2, at apex of peduncle, filiform to narrowly lanceolate, 4-9 mm long, ca 1 mm wide, green or reddish, glabrous, glandular-resinous; pedicels terete, 3-9 mm long, ca 1 mm in diameter, green or reddish; floral tube turbinate, 2-5 mm long, 2-3 mm wide, green or reddish, glabrous, nitid, glandular-resinous; calyx erect or slightly spreading, 5-lobed, lobes connate for ca 1 mm, NUMBER 29 69 aestivation valvate, each lobe linear or subulate, sulcate, 7-15 mm long, 1-2 mm wide at base, apex acuminate, both sides green or reddish, glabrous, and nitid, glandular-resinous, with a prominent keel on each lobe base; corolla (Figure 16;) tubu- lar, suburceolate, 1.3-1. 6 cm long, base narrow ca 3 mm across, 4-5 mm wide below the middle then narrowing to the mouth, ca 3 mm wide; outside red or red-orange, glabrous, nitid, glandular-resinous, inside yellow, glabrous, limb slightly oblique and somewhat spreading, 5-lobed, 3-4 mm wide, lobes semiorbiculate, 1-2 mm long, red, glabrous, mar- gin entire, glandular; stamens 4, adnate to base of corolla for about 1 mm, exserted beyond mouth, at anthesis for up to 3 mm, filaments linear, 1.0- 1.3 cm long ca 1 mm in diameter, yellow-green, glabrous, anthers globose, ca 1 mm long, yellow, glabrous, coherent in 2 pairs, pollen grains iso- polar, prolate, size small (21.2-23.3 pm long at the polar axis, 1 1.2 pm wide at the equatorial axis), amb almost circular, tricolpate, colpi ca 21 pm long, ca 1 pm wide, sexine reticulate (Figure 18c), hetero- brochate, staminode ca 3 mm long; ovary fully inferior, apex pilose, disc sinuate-annular, yellow- green, glabrous, ca 2 mm across, style linear 8-12 mm long, ca 1 mm in diameter, yellow-green or reddish, pilose, stigma capitate, somewhat bilobed, reddish, glandular. Capsule obovate-turbinate to subglobose, 5-6 mm long, 4-5 mm wide, with 5 prominent costae; seeds fusiform to linear, striate, ca 1 mm long, reddish-brown. Type-Collection. — Between Boucan Calice and Hoyo de Pelempito, Dominican Republic, Alain Liogier 13871 (NY, holotype, Figure 396). Distribution and Ecology. — Gesneria pulveru- lenta is endemic to the Sierra de Baoruco of the Barahona Peninsula of southern Hispaniola (Fig- ure 27), where it has been collected from rocky limestone cliffs and deep gorges in pine woods and thickets at elevations from 800-1300 m. In the wild, plants have been collected in flower from February to August. In the greenhouse, plants bear inflorescences all during the year. Specimens Examined. — HISPANIOLA. Dominican Republic. Province of Pedernales: trail between Pedernales and Aceitial, 4200 ft, 8-12 August 1946, R. Howard & E. Howard 8120 (NY, holotype of Gesneria saxatilis Alain; BM, GH, P, S, US, iso- types); Aceitillar Cayo, Sierra de Baoruco, 1300 m, 9 February 1969, Alain Liogier 13672 (GH, NY); Aceitillar, 28 March 1956, ]. Jimenez 3240 (BH, E, RDJ, US); Camote, Aceitillar, 31 March 1961, E. Marcano 4518 (RDJ, US); Aceitillar, 23 March 1967, E. Marcano 5261 (BH, NY, RDJ), T. Talpey 81 (BH); Aceitillar region, 26 February 1971, Alain Liogier 17913 (NY); between Boucan Calice and Hoyo de Pelempito, E of Aceitillar, Sierra de Baoruco, 800 m, 13 February 1969, Alain Liogier 13871 (NY, holotype of Gesneria pulverulenta Alain); Hoyo de Pelempito, 800 m, 3-8 July 1971, Alain Liogier 18132 (NY, holotype of Gesneria filisepala Alain; GH, US, isotypes). Cultivated: Cornell University, G-1034, 3 No- vember 1970, L. Skog 1751 (BH). Discussion. — The synonyms included in this spe- cies, Gesneria filisepala and G. saxatilis, cannot be maintained as separate species. The former was distinguished by the size of the leaves, the filiform calyx lobes, and bracts, as well as the multiflowered inflorescences. Gesneria pulverulenta differed from G. saxatilis in its pulverulence or resin, which flakes off as a whitish powder from the vegetative parts of the plant. The size difference found in nature on all three taxa are within the limits of variation displayed by representatives in cultivation. The cultivated clone was introduced by T. Talpey in 1967 and subsequently grown in the greenhouses at Cornell University under the accession number G-1034. The variation in bract and calyx lobe shape and size is quite wide. This clone also has an inflorescence of normally a single flower; but examinations of immature flowers show the presence of reduced flower buds in the axils of the linear bracts. These buds may potentially develop to give an inflorescence of 2 or 3 flowers like that found on the holotype specimen of G. filisepala. The duplicate specimens of Alain Liogier 18132, the type of G. filisepala, have single-flowered inflorescences with reduced buds. Specimens of Gesneria pulverulenta have been determined and distributed as G. mornincola, a synonym of Gesneria cubensis, which differs, among other characters, in having a curved corolla tube from which the stamens and style are ex- serted more than 1 cm. 17. Gesneria salicifolia (Grisebach) Urban Gesneria salicifolia (Grisebach) Urban, Symb. Ant. 2:373, 1901. Shrubs or small trees: stems woody, erect, 0.5- 2.5 m tall, 3-6 mm in diameter at 10 cm below apex, bark somewhat scabrous, tuberculate or verruculose from erumpent lenticels, reddish 70 SMITHSONIAN CONTRIBUTIONS TO BOTANY toward apex, brown to gray below, apex resinous; branches sparse or rarely abundant, erect, appear- ing somewhat swollen below apex, internodes 0.2- 2.5 cm long, leaf scars not prominent. Leaves alternate, at the ends of the branches, but not conferted, soon falling: petioles sulcate, 3.5-12.0 mm long, ca 1 mm wide, green to brown, glandular-resinous, verruculose; blades elongate- elliptic, oblong, oblanceolate, obovate, or spathu- late, 2.5-11.2 cm long, 0.7-2. 6 cm wide, sub- coriaceous, base acute or obtuse, margin entire below, serrulate or denticulate toward apex, re- curved, apex acute, acuminate, rounded, or emar- ginate, adaxial surface plane, smooth or slightly rough when dried, dark green to yellowish, gla- brous, nitid, veins impressed, abaxial surface reddish brown, slightly resinous, veins prominent, darker. Inflorescences numerous, cymose or subcorym- bose, in the upper axils, 1- to 4 (-6)-flowered, equaling or exceeding the subtending leaves: peduncles terete or broadened toward apex, curved upward, 4-12 cm long, ca 1 mm in diameter, green or reddish-brown, glabrous, verruculose; bracts 2, caducous, linear, 2-6 mm long, less than 1 mm wide, green or reddish-brown, glabrous; pedicels 0.5-1. 5 cm long, ca 1 mm in diameter, green or reddish-brown; floral tube obconic, 2-4 mm long, 2-3 mm in diameter at apex, green or reddish- brown, glandular-resinous; calyx 5-lobed, lobes connate at base for ca 1 mm, each lobe erect or curved, narrowly lanceolate to linear, 0.3-1. 5 cm long, 0. 7-2.0 mm wide, outside with midvein prominent, inside sulcate, both sides green, yellow or reddish, glandular-resinous; corolla tube cylin- dric somewhat curved, slightly ventricose at middle, 1. 4-2.5 cm long, 3-5 mm wide at base, 4-8 mm wide at middle, 3-6 mm wide at throat, outside pale yellow, pale red, scarlet or yellow-orange, glandular-resinous, inside yellow, glabrous, limb 5-lobed, lobes semiorbiculate, red or yellow, gla- brous, margins stipitate-glandular, upper lobes 1-2 mm long, 1.5-2. 5 mm wide, erose, lateral lobes 1.0- 1. 5 mm long, 1-2 mm wide, entire, basal lobe 1-2 mm long and wide, entire; stamens 4, shortly adnate to base of corolla tube, included or exserted to mouth of corolla tube, filaments curved, 1.1-1. 7 cm long, red or yellow, anthers oblong, 1. 0-2.5 mm long, 1.0-1. 5 mm wide, sparsely pilose on reverse, staminode ca 2.5 mm long; ovary inferior, apex pilose, disc annular, yellow, style curved, exserted, 2.0- 2. 6 cm long, green or reddish, pilose, stigma capitate, papillate. Capsule obconic, turbinate or subglobose, 3-8 mm long, 2. 5-5. 5 mm wide at apex, brown to gray, smooth, glabrescent, glandular, costae 5 or 10, obscure or prominent; seeds fusiform, striate, twisted, ca 1 mm long, ca 0.25 mm wide, black. 17a. Gesneria salicifolia var. ferruginea (C. Wright) L. Skog, new rank Pentarhaphia ferruginea C. Wright in Sauvalle, Anales Acad. Ci. Med. Habana 6:317, 1869.— Sauv., FI. Cub. 93, 1873. Gesneria ferruginea (C. Wright) Urban, Symb. Ant. 2:373, 1901.— Morton in Leon & Alain, FI. de Cuba 4:459, 1957. Shrubs or small trees: stems and branches slightly swollen below apex, sparsely verruculose. Leaves broadly elliptic or oblong, base obtuse, apex acute. Flowers yellowish, calyx lobes strongly angled, greenish-yellow, 5-8 mm long, corolla pale yellow. Capsule narrowly obconic, to 8 mm long, 4-5 mm wide at apex, costae 5, prominent. Type-Collection. — Cuba, C. Wright 3643 (GH, holotype, (Figure 40a); NY, US, isotypes). Key to the Varieties of Gesneria salicifolia 1. Corolla pale yellow, calyx lobes greenish-yellow; leaves broadly elliptic or oblong, bases obtuse; capsules to 8 mm long, obconic, costae prominent; Cuba: Province of Pinar del Rio 17a. var. ferruginea, new rank 1 . Corolla pale red, scarlet, or yellow-orange, calyx lobes green or reddish; leaves narrowly elliptic or obovate-spathulate, rarely broadly elliptic, bases acute; capsules obconic to sub- globose, 4-6 mm long, costae usually obscure; Cuba; Province of Oriente. 2. Leaves narrowly elliptic, oblanceolate or oblong, not spathulate, apex acute to acuminate; calyx lobes 7-15 mm long; capsules turbinate or subglobose 17b. var. salicifolia 2. Leaves obovate to spathulate, apex rounded to emarginate; calyx lobes 3-6 mm long; capsules obconic 17c. var. spathulata, new variety NUMBER 29 71 Distribution and Ecology. — Gesneria salicifolia var. ferruginea is known only from the Province of Pinar del Rio in western Cuba (Figure 29), where it grows in pine forests on lateritic soil near rivers. Specimens bearing flowers or flower buds were collected in February to April, August, and October. Specimens Examined. — CUBA. Province of Pinar del Rio: Pan de Cajalbana, 1 October 1949, J. Acuna Sc Alain Liogier 15687 (SV, US 2 sheets); Loma de la Cajalbana, 1 October 1949, J. Acuna Sc Alain Liogier sn (IJ, US); La Cajalbana, La Palma, 4 February 1956, J. Acuiia, C. Morton Sc Alain Liogier 20118 (US); La Cajalbana, La Palma, 8 March 1951, J. Acuiia & J. Roig sn (NY); Las Puercas River, west of Cajal- bana Mts., La Palma, 8 February 1952, Alain Liogier 2360 (US); pinelands, Cajalbana, La Palma, 23 February 1954, Alain Liogier 3879 (NY, US); pinelands, Cajalbana Mts., La Palma, 1 October 1949, Alain Liogier Sc /. Acuiia 1134 (GH, US); Loma de Cajalbana in pinetis prope amnem, 10 March 1920, E. Ekman 10500 (S); Pina de Cajalbana, in savannas at the foot of the mountains, on the edge of a branch of Rio Puercos, 28 August 1923, E. Ekman 17314 (G, NY, S 2 sheets); Pan de Cajalbana, 6 April 1915, Bro. Leon 4957 (US); on top of Cajalbana, near the waterfall, 6 April 1915, Bros. Leon Sc Charles 4957 (NY); Monte La Cajalbana, 4 February 1956, C. Morton 9825 (US); Cajalbana, 1865, C. Wright sn (K); Locality Unknown: Cuba, C. Wright 3643 ([1865] GH, holo- type; [no date] NY 2 sheets, US, isotypes); Cuba, C. Wright sn (S). Discussion. — None of the material of the type collection (C. Wright 3643 ) bears any collection data, but since all later collections of this taxon, including C. Wright sn (K), have come from La Cajalbana, this is probably the area from which the type was collected. 17b. Gesneria salicifolia var. salicifolia Gesneria salicifolia (Grisebach) Urban, Symb. Ant. 2:373, 1901. — Morton in Leon Sc Alain, FI. de Cuba 4:459, 1957. Pentarhaphia salicifolia Grisebach, Cat. PI. Cub. 199, 1866. Gesneria gibberosa Urban, Repert. Spec. Nov. Regni Veg. 13: 477, 1915. — Urb., Symb. Ant. 9:270, 1924. — Morton in Leon & Alain, FI. de Cuba 4:459, 1957. [Type-collection: Coastal cliffs near Rio Yamuri, Cuba, J. Shafer 7838 (NY, lectotype; US, isolectotype).] Small trees: stems and branches swollen below apex, verrucose. Leaves narrowly elliptic, oblong or oblanceolate, apex acute to acuminate. Flowers reddish, calyx lobes 7-15 mm long. Capsules turbinate or subglobose, 4-6 mm long. Type-Collection. — La Catalina, Cuba, C. Wright 3074 (GOET, holotype (Figure 41a); BM, G, GH, K, MO, NY, P, isotypes). Distribution and Ecology. — Gesneria salicifolia var. salicifolia grows in the Oriente Province of Cuba on limestone cliffs along rivers and the sea- coast at low elevations. Collections of flowering material have been made in July and August and from November to March. Specimens Examined. — CUBA. Province of Oriente; Faral- lones. La Catalina, 19 March 1861, C. Wright 3074 (GOET, holotype; BM, G 2 sheets, GH, K, MO, NY, P, isotypes); vicin- ity Baracoa, Bahia de Taco, 2 December 1914, E. Ekman 3697 (G, K, S, US); southern Baracoa region, on the banks of Jauco River, Jauco, 17 July-4 August 1924, Bro. Leon 11990 (NY 2 sheets, US); Los Alemanes, Rio Yumuri, Baracoa, Au- gust 1954, J. Acuna, Pino, Alonso Sc Yenning 19422 (SV, US 2 sheets): paredones, Rio Yumuri, Baracoa, 4 February 1952, J. Acuna Sc Diaz Barreto 17355 (SV, US 2 sheets); “los Ale- manes,” Yumuri, Baracoa, 14 January 1956, Alain Liogier Sc C. Morton 5082 (GH, IJ); ad Hum. "Yumuri,” prope Baracoa, 25 November 1914, E. Ekman 3622 (NY, S); Rio Yumuri NW of Cape Maisi, 28 August 1939, Bro. Leon 17322 (US); cliffs near the mouth of Rio Yumuri, east of Baracoa, near sea level, 13 January 1956, C. Morton & Alain Liogier 9046 (BM, US 2 sheets); Rio Yamuri [sic], 6, 12 December 1910, /. Shafer 7755 (NY, US); coastal cliffs near Rio Yamuri [sic], 6, 8 De- cember 1910, J. A. Shafer 7838 (NY, lectotype of Gesneria gibberosa Urban; US, isolectotype); Ovando Mesa, Maisi, Jan- uary 1940, Bro. Leon 17579 (GH, US); Mesa de Ovando, Maisi, January 1940, Prudencio Matos in Bro. Leon 17579 (US). Discussion. — The holotype of Gesneria gibberosa was probably at Berlin and is no longer extant. The duplicate at New York Botanical Garden is annotated “Det. Urban,” but not in his hand. Neither of the known sheets of Shafer 7838 has flowers, and Urban described the species without flowers, but later amplified the description after obtaining Ekman collections from the type locality at Rio Yumuri. Gesneria salicifolia was based on collections by Wright from La Catalina, but no further collec- tions are known from the type locality. Material identified as G. gibberosa is known from several areas in eastern Oriente Province of Cuba and is here included within the range of G. salicifolia (Figure 29). 17c. Gesneria salicifolia var. spathulata L. Skog, new variety Frutex. Folia obovata usque ad spathulata, 2.4-5. 8 cm longa, ad bases acuta, ad margines infra Figure 40. — Type specimens: a, holotype of Pentarhaphia ferruginea C. Wright and Gesneria salicifolia var. ferruginea (C. Wright) L. Skog, new rank, Wright 3643 (GH); b, holotype of G. salicifolia var. spathulata L. Skog, new variety, Acuna 13348 (SV). medium subintegra, supra medium denticulata, ad apices rotundata vel emarginata. Flores rubelli; calycis lobi 3-6 mm longi. Capsulae obconicae, 3-4 mm longae, ad apices 2. 5-3. 5 mm latae. Type-Collection. — Paredones del Rio Moa, Cuba, J. Acuna 13348 (SV, holotype, Figure 40&; US, isotype). Distribution and Ecology. — Gesneria salicifolia var. spathulata is known only from near Rio Moa in Oriente Province of Cuba (Figure 29), where it grows at low elevations. Flowering material has been collected only in November. Specimens Examined. — CUBA. Province of Oriente: Pare- dones del Rio Moa, Moa, 15 November 1945, /. Acuna 13348 (SV, holotype; US, isotype). 18. Gesneria ventricosa Swartz Gesneria ventricosa Swartz, Prodr. 89, 1788. Shrubs or small trees: stems woody to within 30 cm of apex, erect, to 3 m tall or more, up to 2 cm in diameter, bark rugose with long cracks, reddish to gray-grown, glabrous, resinous, lenticels whitish to brown, elongated; branches from the base or in upper axils, slightly flattened, subverrucose, to 1 cm wide at 8 cm below apex, green or red, to brown, glabrous, resinous, internodes about 0.1- 3.0 cm long. Leaves alternate or approximate: petioles sul- cate, 0.5-4. 5 cm long, 1-5 mm wide, green or reddish-brown, essentially glabrous, resinous; NUMBER 29 73 Figure 41. — Type specimens: a, holotype of Pentarhaphia salicifolia Grisebach and Gesneria salicifolia (Grisebach) Urban, Wright 3074 (GOET); b, holotype of Pentarhaphia triflora Grise- bach and Gesneria wrightii Urban, Wright 3072 (GOET). blades ovate, elliptic to obovate, 'oblanceolate, occasionally falcate, 4.1-22.7 cm long, 1.8-7. 8 cm wide, membranous to subcoriaceous, base acute to truncate or cuneate, margin denticulate to crenate, apex acute to acuminate to rounded, adaxial sur- face dark green, glabrous or with glandular tri- chomes, glossy, epidermis sometimes flaky upon drying, abaxial surface lighter green to reddish- brown, glabrous, resinous, veins prominent. Inflorescences 1- to many-flowered, shorter than or exceeding the subtending leaves: peduncles terete, 2.0-15.9 cm long, 1-4 mm in diameter, green to reddish-brown, glabrous, resinous, with lenticels prominent, elongated, becoming obscure in age; bracts 2, linear-lanceolate, 0.6-1. 5 cm long, green to reddish, glabrous, resinous; pedicels terete, jointed or not, curved, 0.5-2. 3 cm long, 1-2 mm in diameter, green or reddish-brown; floral tube narrowly turbinate, 2-4 mm long, 3-4 mm wide at the apex, green or reddish, glabrous, resinous; calyx lobes 5, barely connate at base above ovary, each lobe terete and filiform, or narrowly triangular, sulcate, or flattened and keeled, 0.4-2. 1 cm long, 0.5-3.0 mm wide at the base, both sides green or reddish and glabrous or glandular; corolla tubular, curved, gibbous above the base, narrowing slightly acropetally, becoming ventricose at or above the middle, 2. 1-3.2 cm long, 74 SMITHSONIAN CONTRIBUTIONS TO BOTANY 3 mm wide at the base, 6-10 mm wide at the middle, narrowing to 6 mm wide at the oblique mouth, outside glabrous, resinous, inside yellow at the base, orange toward the middle, becoming red at the mouth, glabrous, limb 5-lobed, each lobe with the margin entire to erose or dentate, stipitate- glandular, upper lobes ovate to semiorbiculate, 2-6 mm long, connate for about 2 mm, erect, lateral lobes 2-5 mm long, erect to reflexed or patent, basal lobe 2-3 mm long, erect to reflexed; stamens 4, adnate for about 1 mm to the base of the corolla tube, exserted to 3 cm beyond corolla mouth, filaments linear, curved, 3. 1-5.5 cm long, about 1 mm in diameter, yellow at the base, be- coming orange-red toward the apex, glabrous or sparsely pilose, anthers globose or oblong, 1-2 mm long, ca 1 mm wide, red abaxially, glandular, resinous, coherent in two pairs by their apices, staminode to 9 mm long; ovary inferior, apex tomentose with whitish erect trichomes, disc an- nular, 5-lobed, yellow, puberulent with short glandular trichomes, style linear, curved, to 5.5 cm long, ca 1 mm in diameter, yellow or green at the base, orange or red acropetally, sparsely pilose to glabrescent, stigma stomatomorphic, papillate. Capsule turbinate to nearly spherical or cyathi- form, 0.5-1 .0 cm long, 4-6 mm wide, yellowish (from resin) to reddish-brown, glabrous, resinous, dehiscing into two or four valves, costae 5 or 10, prominent or becoming alate; seeds rhombic or fusiform, about 1 mm long, reddish-brown, or dark red, surface cells raised (Figure I9i). Discussion. — Gesneria ventricosa is here divided into two subspecies differing in characters of the inflorescences and flowers. The subspecies are geo- graphically distinct: Gesneria ventricosa subsp. cymosa is known only from the island of St. Vin- cent in the Lesser Antilles, but the typical sub- species grows on many of the other islands in the Lesser Antilles. Both subspecies may be pollinated by the same species of hummingbird, Glaucis hir- suta, found on the same islands. 18a. Gesneria ventricosa subsp. cymosa (Urban) L. Skog, new rank Pentarhaphia longiflora sensu Rolfe, Bull. Misc. Inform. 1893 (81):267, 1893 [non Lindley (1827), nec sensu Cook & Collins (1903)]. Gesneria cymosa Urban, Symb. Ant. 2:372, 1901. Shrubs or trees: branches red, internodes short, 1-3 mm long. Leaves alternate to approximate: petioles 0.5- 1.3 cm long, 1-2 mm in diameter, red; blades elliptic to obovate, base cuneate. Inflorescences 1- to oo -flowered, exceeding the subtending leaves: peduncles 7. 2-9.8 cm long, 1-2 mm in diameter, red; bracts red; pedicels appar- ently not jointed, red; floral tube red, calyx lobes sulcate or terete, red; corolla orange-red to scarlet; stamens exserted about 1 cm beyond corolla mouth, filaments sparsely pilose; style green at the base. Type-Collection. — St. Andrews Mountain, St. Vincent, H. Eggers 6662 (F, lectotype of Gesneria cymosa Urban (Figure 42a); A, GOET, M, Z, isolectotypes). Distribution and Ecology. — Gesneria ventricosa subsp. cymosa is known only from the island of St. Vincent (Figure 44), growing in moist forest on steep mountainsides or near rivers at 250-600 m elevation. Flowering specimens have been col- lected from January to May and November to December. Specimens Examined. — LESSER ANTILLES. St. Vincent: St. Vincent, no date, A. Anderson sn (K, 2 sheets); wayside, Mount St. Andrews, 18 November 1945, P. Beard 1341 (F, GH, MO, NY, S, US); St. Vincent, no date, G. Caley sn (G); Charlotte Parish, in forest on steep mountainside up from South Rivers, 1000 ft, 27 January 1962, G. Cooley 8233 (GH, IJ, USF); St. David Parish, at the foot of the Falls of Balaine, 31 March 1962, G. Cooley 8573 (GH, IJ, USF); in montibus St. Andrews, 1200 ft, 27 December 1889, H. Eggers 6662 (F, lectotype of Gesneria cymosa Urban; A, GOET 2 sheets, M 2 sheets, Z, isolectotypes); in sylvestris ad Calvary, 1800 ft, 28 December 1889, H. Eggers 6662 (P, US); St. Vincent, H. Eggers 6662 (F, L, UCWI); St. Vincent, no date, Dr. Greville sn (E-GL); St. Vincent, no date, Rev. L. Guilding 20 (BM), sn Key to the Subspecies of Gesneria ventricosa 1. Inflorescences (1-) many-flowered, peduncles, pedicels, and calyx reddish; pedicels unjointed; filaments sparsely pilose; St. Vincent 18a. subsp. cymosa, new rank 1. Inflorescences 2- to 4-flowered, peduncles, pedicels, and calyx green; pedicels jointed, filaments glabrous; Lesser Antilles from St. Croix to St. Lucia 18b. subsp. ventricosa NUMBER 29 75 Figure 42. — Type specimens: a, lectotype of Gesneria cymosa Urban and Gesneria ventricosa subsp. cymosa (Urban) L. Skog, new rank, Eggers 6662 (F); b, lectotype of Gesneria ventricosa Swartz, Ryan sn (BM). (E, K); between Three Rivers and Silver Spoon, 1-7 April 1950, R. Howard 11140 (BM, GH, IJ, NY): Spring Valley above sawmill, 1500-2000 ft, 3 March 1971; R. Howard, G. Cooley & R. Weaver, 17871 (A); mountains above Chateaubel- air River, 400-750 m, 23 April 1947, C. Morton 5299 (US); valley of north fork of Cumberland river, 400-600 m, 2-3 May 1947, C. Morton 5479 (US 2 sheets); Mt. St. Andrew, 500-600 m, 7 May 1947, C. Morton 5673 (GH, US); Mount Brisbane, 300-750 m, 20-21 May 1947, C. Morton 6027 (US); upper valley of Richmond valley, 330-540 m, 26-27 May 1947, C. Morton 6287 (GH, US); St. Vincent, no date, M. Parker sn (E-GL); St. Patrick, upper Bellwood Dist., inland from Layou, 800-1500 ft, 24 February 1965, G. Proctor 25912 (IJ); St. Vincent, March 1890, H. Smith & G. Smith 55 (BM, GH); forest generally near streams, on second growth on damp hillsides, 500-2000 ft, July, H. Smith & G. Smith 55 (NY). Locality Unknown: “Maninica,” 1848, Gamier sn (TCD). Discussion. — Specimens of Eggers 6662 are of two, possibly three, collections. The collection cited by Urban from St. Andrews Mountain was probably in the herbarium at Berlin, now de- stroyed. From the duplicates a lectotype must be chosen. A sheet at the herbarium of the Arnold Arboretum has been annotated as lectotype of Gesneria cymosa, but no publication of this lecto- typification has been found. Better specimens of the type-collection exist and from these a specimen at the Field Museum of Natural History annotated in Urban’s hand as type material is selected here as the lectotype. The opposite leaf arrangement in Gesneria ventricosa subsp. cymosa, which Urban used to differentiate the two subspecies (as species), was not apparent from the specimens examined. 76 SMITHSONIAN CONTRIBUTIONS TO BOTANY Similarities may be seen to Gesneria onacaensis Rusby from northern South America, but that species often has areolate leaves and stamens ad- nate to the corolla for about 2 mm and is con- sidered to belong to the genus Rhytidophyllum. 18b. Gesneria ventricosa sufosp. ventricosa Gesneria ventricosa Swartz, Prodr. 89, 1788. — Sw., FI. Ind. Occid. 2:1028, 1800— Liman, Hort. Jam. 1:322, 1814. — Sprang., Syst. Veg. ed. 16. 2:839, 1825. — Urban, Symb. Ant. 2:371, 1901 [non Hort. Berol. ex Hanstein (1859)]. Pentarhaphia longiflora Lindley, Bot. Reg. 13: sub pi. 1110, 1827 [nom. superfl. (“ Pentaraphia ”)]. — Griseb., FI. Brit. W. Ind. 460, 1862.— Hook. f„ Bot. Mag. 120: pi. 7339, 1894.— Duss, Ann. Inst. Bot.-Geol. Colon. Marseille 3:430, 1897 [non sensu Cook & Collins (1903)]. Conradia ventricosa (Swartz) Martius ex G. Don, Gen. Syst. 4:650, 1838.— A. P. de Candolle, Prodr. 7:525, 1839. Conradia ventricosa (Swartz) Martius (3 fangustior A. P. de Candolle, Prodr. 7:525, 1839. [Type-collection: Guadeloupe, G. Perrottet sn (G-DC, holotype).] Pentarhaphia lindleyana Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:103, 1846.— Walp., Repert. Bot. Syst. 6:735, 1847. — Hanstein, Linnaea 34:300, 1865. [Type-collection: “In occid.,” de Ponthieu sn (G, holotype; G, isotype).] Pentarhaphia swartzii Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:103, 1846 [nom. superfl.]. — Walp., Repert. Bot. Syst. 6: 735, 1847. Pentarhaphia exserta (Swartz) Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:104, 1846 [pro parte, as to Decaisne’s description, excluding synonyms of Swartz and Martius], Pentarhaphia montana Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:105, 1846. — Walp., Repert. Bot. Syst. 6:736, 1847. — Han- stein, Linnaea 34:298, 1865. [Type-collection: Guadeloupe, F. VHerminier sn (P, holotype).] Pentarhaphia florida Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:106, pi. 7, 1846.— Walp., Repert. Bot. Syst. 6:736, 1847. — Hanstein, Linnaea 34:297, 1865. [Type-collection: Guade- loupe, Beaupertuis sn (P, lectotype).] Pentarhaphia herminieri Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:106, 1846.— Walp., Repert. Bot. Syst. 6:736, 1847.— Han- stein, Linnaea 34:297, 1865. [Type-collection: Guadeloupe, F. VHerminier sn (P, holotype).] Pentarhaphia ventricosa (Swartz) Hanstein, Linnaea 34:299, 1865. Gesneria longiflora (Lindley) Baillon, Hist. Plant. 10:59, pi. 94, 95, 1888. Gesneria angustior (A. P. de Candolle) O. Kuntze, Rev. Gen. 2:473, 1891 [“Gesnera’’]. Gesneria herminieri (Decaisne) O. Kuntze, Rev. Gen. 2:473, 1891 [“Gesnera”]. Gesneria lindleyana (Decaisne) O. Kuntze, Rev. Gen. 2:473, 1891 ["Gesnera”]. Gesneria montana (Decaisne) O. Kuntze, Rev. Gen. 2:473. 1891 [“Gesnera”]. Pentarhaphia longiflora var. lindleyana (Decaisne) Duss, Ann. Inst. Bot.-Geol. Colon. Marseille 3:430, 1897. Gesneria ventricosa var. r> ovata Urban, Symb. Ant. 2:373, 1901. [Type-collection: Saba, W. Suringar sn, L (Hort. Lugd. | Bat. No. 903:310-333), lectotype], Gesneria ventricosa var. v obovata Urban, Symb. Ant. 2:372, 1901 [nom. superfl.]. Gesneria ventricosa forma montana (Decaisne) Stehle, Bull. , Soc. Bot. France 109:31, 1962. Gesneria ventricosa forma obovata (Urban) Stehle, Bull. Soc. Bot. France 109:31. 1962. Gesneria ventricosa forma ovata (Urban) Stehle, Bull. Soc. Bot. France 109:31, 1962. Shrubs or trees: branches green, internodes about 1 cm long. Leaves alternate: petioles 0.6-2. 1 cm long, 3-5 mm wide; blades ovate to obovate, base acute to truncate. Inflorescences 2- to 4-flowered, shorter than the subtending leaves: peduncles 2.3-15.9 cm long, 2-4 mm in diameter, green; bracts green; pedicels jointed, green; floral tube green; calyx lobes flattened to terete, sometimes keeled, green; corolla yellow-orange to red (Figure 16 d); stamens exserted to 3 cm beyond corolla mouth, filaments glabrous, pollen grains isopolar, prolate, size small (19.6-21.3 pm long at the polar axis, 11.1 pm wide at the equatorial axis), tricolpate, colpi 15.6-16.9 pm long, mesocolpia overlapping the colpi, apocolpia rounded to truncate, sexine sparsely reticulate, heterobrochate, lumina scat- tered, less than 0.25 pm across, muri to 1 pm or more wide (Figure 17g); style yellow at the base. Type-Collection. — Paradise Mountain, Mont- serrat, J. Ryan sn (BM, lectotype. Figure 42 b). Chromosome Number. — n = 14 (Lee, 1966a). Distribution and Ecology. — Gesneria ventricosa subsp. ventricosa is known from most of the islands of the Lesser Antilles from St. Croix south to St. Lucia (Figures 43, 44), growing in damp ravines or forest margins at elevations from sea level to 1200 m. Flowering specimens have been collected in all months except March and October. In the greenhouse, the subspecies appears to flower irregularly. Specimens Examined. — LESSER ANTILLES. St. Croix: below the dam, Caledonia Gut above Ham Bay, 20 January 1961, R. Howard 15663a (A); in wet valley, Trasholm, near Annaly, 18 January 1961, R. Howard 15663b (A). St. Bar- thelemy: no date, Euphrasen sn (UPS). Saba: Weg i Moun- tain, 21 August 1947, Fr. Arnoldo 778 (U); "Rendez-Vous” to road of the Mountain, 600-800 m, 26 December 1965, Fr. Arnoldo 3260 (U, US); Mountain, 600 m, 14 July 1906, I. Boldingh 1758B (NY, U); Mountain, 600 m, 16 July 1906, NUMBER 29 77 ST. CROIX N ST. BARTHELEMY MONTSERRAT Figure 43. — Distribution of Gesneria section Pentarhaphia in the Lesser Antilles (part). (G. ventricosa subsp. ventricosa = solid circles.) (Coordinates: 18°N latitude and 63°W longitude.) I. Boldingh 1783B (U); between Hellsgate and Santa Cruz, 500-600 m, 7 May 1953, A. Staffers 3112 (C, U); Mountain, at the “Rendevous side,” 600-680 m, 12 May 1953, A. Staffers 3248 (IJ, U); Mountains at the “Rendez Vous” side, 550 m, 12 August 1953, A. Stoffers 4255 (A, U); Mountain, 6-800 m, 23 April 1885, W. Suringar sn (L); Crespeen-“Rendez-vous,” 23 April 1885, W. Suringar sn (L, lectotype of G. ventricosa var. 3 ovata Urban). St. Eustatius: top of the Quill, 400 m, 8 June 1906, I. Boldingh 471aB [No. 243] (U, 2 sheets); top of the Quill, 500 m, 8 June 1906, I. Boldingh 479aB [No. 251] (U); gap of the Quill, 350-400 m, 13 July 1953, A. Stoffers 3605 (U); 14 April 1885, W. Suringar sn (L); Kant, 18 May 1885, W. Suringar sn (L, 3 sheets). St. Christopher (St. Kitts); ex insula St. Christopheri, India occidentalis, no date, /. Forsstrom sn (S); 1788, B. Euphrasen sn (S); January 1883, H. Eggers 469b (M); 1780, Fr. Masson sn (BM); forest ravine near Sandy point, 8 September-5 Oc- tober 1901, N. Britton 8c f. Cowell 124 (K, NY, US); interior slopes of the Crater, 2100-2500 ft, 22 February 1959, G. Proctor 19228 (A, IJ). Montserrat: Centre Hills, 500 m, 6 November 1944, ]. Beard 404 (A, K, NY, U); below actual summit of hill on trail to Chance’s pond, 14-18 June 1950, R. Howard 11912 (A, BM, U, US); area of Lang’s Soufriere, Paradise Estate, 5-14 January 1961, R. Howard 8c E. Howard 15175 (A, U); summit of English Peak, 5-14 January 1961, R. Howard 8c E. S. Howard 15195 (A, U); ”b. in Montserrat, Gesneria flexuosa,” no date, /. von Rohr sn (C, PH); Para- dise Mountain, [ca 1780], J. Ryan sn (BM, lectotype of Ges- neria ventricosa Swartz); near Gages Soufriere, 23 January 1907, /. Shafer 187 (F, NY, US); lower slope of Farrels Mount, 25 July 1937, F. Squire sn (A). Guadeloupe: 1839, Beaupertuis sn (P, lectotype of Pentarhaphia florida Decaisne); Basseterre, April 1818, C. Bertero 873 (TO); “Guadeloupe, Balb? 1821,” C. Bertero sn (G-DC); Pitons des environs des Bains-Jaunes, 1892 [1893], Pere Duss 2375 (F, GH, MO, NY, PH, US); Lavanea-Mulets, 24 April 1902, Pere Duss 4071 (F, NY, US); 1818, C. Krauss sn (G-DC, 3 sheets); “Guadeloupe, no date,” F. I’Herminier sn (P, 2 sheets, holotypes of Pentarhaphia herminieri Decaisne and P. montana Decaisne); Montagues de la Guadeloupe, 18 June 1824, G. Perrottet 230 (G, P); “Montagnes de la Guadeloupe, 1825,” 18 June 1824, G. Perrottet sn (G-DC); 21 June 1824, G. Perrottet sn (G-DC, holotype of Conradia ventricosa (3 fangustior A. P. de Can- dolle); Antilles, Guadeloupe, 1842, G. Perrottet sn (P); Saut du Constantin, 25 April 1941, A. Questel 5111 (US); Antilles, Guadeloupe, A. Questel sn (P); Guadeloupe in vallibus um- brosis praeruptis, 1792, Herb. M. Richard sn (P); mornes basaltiques, Houelmont, 450 m, 25 February 1936, H. Stehle 568 (US); mornes basaltiques Houelmont an Vieux Fort, 14 September 1938, H. Stehle 565 (P). Dominica: in silvis et ad vias, July 1881, H. Eggers 469 (BP, BR, G 3 sheets, GH, GOET, L, M, P, U, W); in silvis et ad vias, July 1881, H. Eggers 731 (K); Goodwill Valley, 23 February 1880, H. Eggers sn (US); Layou River Valley, about y2 mi above the York Valley Estate Bridge, ca 60 m, 12 April 1964, W. Ernst 1061 (US); road to Brand Bay between Fond Baron Estate and 78 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 44. — Distribution of Gesneria section Pentarhaphia in the Lesser Antilles (part). (G. ventricosa subsp. ventricosa so lid circles; G. ventricosa subsp. cymosa = open circles.) ' Pichelin, ca 160-450 m, 8 July 1964, W. Ernst 1616 (US); Riviere Douce, 28 February 1880, H. Eggers sn (GH); rain forest on the precipitous slopes of Morne Colla Anglais, Sylvania, 610-732 m, 10-23 August 1938, W. Hodge 835 (BM, GH, NY, US 2 sheets); Sylvania, rain forest on the precipitous slopes of Morne Colla Anglais, 610-732 m, 10 February 1940, W. Hodge 1185 (GH, US); in woodlands about South Chiltern j Estate, 500 m, 27-28 February 1940, IV. Hodge 8c B. Hodge 1551 (GH, NY, US); La Ronde River, 60 m, 24 November 1964, D. Nicolson 2065 (US); Roseau to Sulfur Springs in Roseau Valley, 27 May-2 June 1950, R. Howard 11741 (A, U, US); Dominica, no date /. Imray 40 (K); no date, J. Imray 87 (GOET); no date, /. Imray 193 (E, K); Dominica, 1822, Kohaut sn [Sieber Flor. Martin. Nro. 394] (BR, GOET, K, L, M, MO, P 2 sheets, W 4 sheets); Dominica, no date, C. Krauss 399 (E); Soufriere, 1903, F. Lloyd 468 (NY 2 sheets); water- fall, Roseau valley, 1903, F. Lloyd 806 (NY); Point Michelle, several hundred feet above the sea, 10 May 1888, G. Ramage sn (BM, K); Belfast River Valley, St. Paul, 150 ft, 2 January 1965, C. Shillingford 191 (MO, UCWI); 2 mi N of Soufriere, ca 75 m, in from the road to Roseau, 30 June 1970, L. Skog 1583 (BH, US 2 sheets); St. Joseph, banks of Layou River across from Clarke Hall, 5 July 1966, W. Stern 8c D. W ass- hausen 2401 (IJ, US); St. Dominique, in silvis et ad vias, July 1927, H. von Tiirckheim 5381 (L); lower slopes of Morne Plat Pays above Bellevue along trail to Grand Bay, 23 July 1964, R. Wilbur, E. Dunn, H. Hespenheide 8c D. Wiseman 7871 (F, GH, MO, NY, US). Martinique: Plateau de Larcher (entre le camp-Balata et le Camp-Colson), 1879, 1899, Pere Duss 329, 4543 (NY); pitons du Carbet pitons al marner de l’Alme, 600-900 m, 1882, Pere Duss 330 (NY); Piton du Champ (lore, December 1867, L. Hahn 362 (BM, G 4 sheets, GH, P 3 sheets, U); [Martinique, 1819-1821], Kohaut sn [Sieber Flora Mixta No. 407] (E-GL, G, L, LD, NY, P); east slope of L ’Aileron, Mt. Pelee, 950-1100 m, 8 December 1960, G. Proctor 21750 (A); Pitons du Carbet, 1200 m, 5 September 1937, H. Stehle 2261 (US); Piton du Carbet, 1080 m, 5 Sep- tember 1937, H. Stehle 2637 (US); entre Fonds, St. Denis et le Morne-Vert., 650 m, 27 July 1942, H. Stehle 8c M. Stehle 5173 (US); Martinique, 1823, Wrbna sn (AWH). St. Lucia: Millet, 20 June 1945, P. Beard 1107 (GH, MO, S, US); Ravine Zenon (Soufriere Valley), 800 ft, 8 November 1938, H. Box 1921 (BM); 0.5 mi SW of Piton Troumassee, ca 2150 ft, 4 April-12 June 1958, G. Proctor 17856 (A, BM, IJ, NY, US); Great Piton, 2000 ft or more, 23 September 1888, G. Ramage sn (BM, K); rain forest along rocky streambank at foot of Mt. Gimie, ca 1500 ft, 2 August 1959, G. Webster, J. Ellis 8c K. Miller 9411 (A, IJ, S, U, US); St. Lucia, 3 August 1959, G. Webster, J. Ellis 8c K. Miller 9455 (A). Locality Unknown: [Lesser Antilles, 1788], B. Euphrasen sn (S); 1825, M. Lambert sn (G-DC); “In occid.,” de Ponthieu sn (G, holotype of Pentarhaphia lindleyana Decaisne; G, isotype); ex India occidentali, J. Ryan sn (C, S); “diffusa vanat floribus rubris et luteis e montis,” /. Ryan sn (C); J. Ryan sn [ex Herb. Schum.] (C 5 sheets); India occid.: Jamaica, O. Swartz sn (S 2 sheets); India occidentalis: Jamaica, 1784-1786, O. Swartz sn (S); West Indies, 1784-1786, O. Swartz sn (S). Cultivated: Cornell University, 2 August 1966, L. Leva 37 (BH); Cornell NUMBER 29 79 University, 12 September 1966, M. Stone 197 (BH); Cornell University, 6 March 1972, L. Skog 1817 (BH). Discussion. — With the concurrence of W. T. Stearn (in litt.), I have selected a collection by J. Ryan as the lectotype for Gesneria ventricosa. In his protolog for this species Swartz, in 1788, listed three localities from specimens he studied in the Banksian herbarium in London — now British Museum (Natural History). He later (1800) listed collectors for two of those localities: J. Ryan for Montserrat and de Ponthieu for Dominica. There is no de Ponthieu specimen from Dominica now extant in the Banksian herbarium. Thus, by elimination, J. Ryan sn is the lectotype. The third locality for Gesneria ventricosa - — Jamaica — mentioned by Swartz was repeated by de Candolle (1839), Grisebach (1862), and Urban (1901), but I believe this extension of the range is erroneous. Gesneria ventricosa occurs on the Lesser Antilles from St. Croix south to St. Vincent and has never been accurately recorded from Jamaica. The specimens at Kew labeled Gesneria ventricosa from Jamaica are undoubtedly Gesneria exserta Swartz. The Swartz specimens at Stockholm are labeled as coming from Jamaica, but the hand- writing is not that of Swartz. Possibly the specimens were obtained while Swartz worked with Joseph Banks in London, and they are perhaps duplicates of Ryan, de Ponthieu, and others collected from the Lesser Antilles, especially since no specimens of de Ponthieu are at present in the Banksian Herbarium. Pentarhaphia fiorida Decaisne was based on collections by Perrottet and Beaupertuis from Guadeloupe. Leeuwenberg has selected the Beau- pertuis specimen at Paris as lectotype for the name. His selection is accepted here; the specimen is annotated in Decaisne’s hand as Pentarhaphia fiorida. The holotype of Gesneria ventricosa var. 6 ovata Urban may have been destroyed at Berlin- Dahlem. A duplicate at Leiden of the Suringar specimen, annotated in Urban’s hand as belonging to this variety is here selected as the lectotype. The infraspecific taxa described by Urban and others appear to be ecological variants in leaf size and shape. Growing Gesneria ventricosa subsp. ventricosa collections from Dominica and St. Kitts in different regimes of light, temperature, and humidity in the greenhouse has resulted in plants similar to those described by Urban (1901), Duss (1897), and Stehle (1962). 19. Gesneria wrightii Urban Gesneria wrightii Urban, Symb. Ant. 2:373, 1901. — Morton in Leon & Alain, FI. de Cuba 4:459, 1957. Pentarhaphia triflora Grisebach, Cat. PI. Cub. 199, 1866 [non Gesneria tri flora Martens 8c Galeotti (1842), nec Gesneria triflora W. Hooker (1847)]. Small trees: stems woody, erect, to 2.5 m tall, ca 3 mm in diameter at 10 cm below apex, bark ver- rucose, green to brown above, becoming gray be- low, glabrous, apex resinous, pulverulent below, lenticels erumpent, elongated; branches occasional, scattered, internodes 0. 1-2.7 cm long. Leaves alternate, usually congested at branch apices: petioles sulcate, 2-4 mm long, ca 1 mm wide, green or reddish, glabrous, verrucose, resin- ous; blades elliptic or seldom oblanceolate, 2.3- 5.3 cm long, 0.7-1. 3 cm wide, coriaceous, base and apex narrowly acute, margin sharply serrate, adaxial surface light green, smooth, glabrous, veins obscure, abaxial surface light green to brown, glabrous, resinous, veins prominent. Inflorescences in axils of upper leaves, slightly longer than the subtending leaves, 2- to 4-flowered, erect: peduncles terete, curved, 1.8-5. 2 cm long, ca 1 mm in diameter, red, glabrous, resinous; bracts linear, 2-5 mm long, less than 1 mm wide, resinous; pedicels terete, curved, ca 1.5 cm long, ca 1 mm wide, wider toward apex; floral tube obconic, 2-3 mm long and wide, green or red, glabrous, resin- ous, pulverulent; calyx 5-lobed, lobes erect or slightly incurved, connate for less than 1 mm at base, linear, 6-9 mm long, ca 1 mm wide at base, red, glabrous, glandular-resinous, outside keeled at base, inside sulcate; corolla tube subventricose from a narrow base, curved, 1.1-1. 4 (-2.0, fide Morton) cm long, ca 2.3 mm wide at base, 3-4 mm wide at middle, narrowing slightly at throat, both sides red, glabrous, resinous, limb 5-lobed, lobes broadly rotund, short, ca 1 mm long, ca 2 mm wide, margin entire, mouth slightly oblique; sta- mens 4, adnate to base of corolla tube for less than 1 mm, slightly exserted beyond corolla tube, fila- ments curved, ca 1.4 cm long, reddish, glandular, anthers oblong, staminode not seen; ovary in- ferior, apex pilose, disc annular, style curved ca 1 .4 cm long, yellow, sparsely pilose, stigma capitate. 80 SMITHSONIAN CONTRIBUTIONS TO BOTANY Capsule subglobose, ca 5 mm long and wide, red, glabrous, resinous, costae 5, prominent; seeds not seen. Type-Collection. — San Andre, Cuba, C. Wright 3072 (GOET, holotype, Figure 416; BM, G, GH, K, MO, NY, P, isotypes). Distribution and Ecology. — Gesneria wrightii has been found only once in Oriente Province of Cuba (Figure 29), growing on limestone cliffs. Collections with flowers were made in October. Specimens Examined. — CUBA. Province of Oriente: San Andre, C. Wright 3072 ([1861] GOET, holotype of Pentar- haphia triflora Grisebach [23 October 1860-1864] GH, [1860-1864] BM, G 2 sheets, K, MO, NY, P, isotypes). Discussion. — The leaves and habit of Gesneria wrightii resemble Gesneria hinghamii Morton, but differ in the smaller size of the leaves (up to 9.9 cm in G. hinghamii) and corolla (up to 2.6 cm long, fide Morton), and in having inflores- cences of 2-4 flowers, rather than single flowers. Section 2. Stenochonanthe L. Skog, new section Caules erecti vel contorti, usque ad 3 m alti, ad basim vel ex foliorum superiorum axillis rami- ficantes; folia elliptica, oblanceolata vel obovata, membranacea, planiuscula, nitida; inflorescentiae 3- to oo -florae, interdum ex gemmis supernumer- ariis axilla rib us ortae, folia subtentes aequantes vel excedentes; flores tubulosi, coroll is sensim ex basi orem versus dilatatis, flavis aurantiacis, coc- cineis, vel roseis, staminibus inclusis; capsulae turbinatae vel fere sphaericae, costis prominenti- bus vel obscuris. Type-Species. — Gesneria scahra Swartz. Discussion. — Section Stenochonanthe, composed of one species including four varieties, is probably related to the other sections containing shrubs or small trees that have flowers with tubular corollas, and it may have evolved from an ancestor of sec- tion Pentarhaphia in response to a particular pollinator. This section remains distinct, however, due to its narrowly funnelform corolla, occasional multiple axillary buds, and included stamens. Name derived from the Greek stenos (= narrow) + chone (= funnel) + anthe (— flower). 20. Gesneria scahra Swartz Gesneria scabra Swartz, Prodr. 89, 1788. Shrubs or trees: stems woody, erect or contorted, 0.5-3. 0 m tall, slender, tomentose, becoming gla- brescent, resin not abundant at apex; bark reddish- gray, lenticels elongated or not evident, pith green to whitish or pink; branches rarely from super- numerary axillary buds, scattered or clustered near the apices of stems, occasional to numerous, inter- nodes 0.5-8. 5 cm long, 2-3 mm in diameter, green, becoming tawny to dark brown or dark red, sub- verrucose, scabrous-pubescent to strigose or tomen- tose, trichomes often appressed, nodes slightly swollen. Leaves alternate, clustered at branch apices: petioles sulcate, 0.4-1. 5 cm long, 1.0-2. 5 mm wide, green to reddish or brown, scabrous-pubescent or tomentose; blades elliptic-oblong to oblanceolate or obovate, 4.3-17.2 cm long, 2. 0-4.5 cm wide, membranous, rigid, plane, base subcuneate, acute or obtuse, margin serrulate-dentate or crenate, ciliate, apex acute to acuminate, adaxial surface dark green, glossy, sparsely pilose to scabrous or strigose, with appressed trichomes more abundant near the midvein, abaxial surface lighter green, sparsely pilose to scabrous or velutinous, veins prominent. Inflorescences axillary, often more than one at a node, 3- to oo -flowered, usually only one matur- ing, or in a compound dichasium and many: peduncles terete, 2.0-10.5 cm long, 1 mm in diam- eter, pilose; bracts 2, subulate to ovate, minute or 1 mm long, 1.0-2. 5 mm wide, green to tawny- reddish or reddish-brown, pilose, caducous; pedi- cels terete, 0.4-2. 0 cm long, 1.0-1. 5 mm in diam- eter, green to reddish-brown, pilose; floral tube turbinate or nearly spherical, 2-4 mm long, 2-4 mm wide, reddish-brown, pilose, calyx lobes 5, connate to 1 mm above ovary apex, suberect to spreading, with valvate or open aestivation, each lobe flat, linear, lanceolate, lingulate, ovate, ob- ovate, or oblong, membranous, 2.5-9. 0 mm long, 1-6 mm wide, accrescent, becoming chartaceous in fruit, cuneate or broad at base, pale green to white with prominent veins or reddish-brown, margin entire or serrulate, apex acute or acumi- nate, dull red or pink, scabrous-pubescent or tomentose; corolla tubular, narrowly funnelform, curved from the slightly gibbous base, tube 1.0- 1.7 cm long, 3-5 mm wide at the middle, ca 5 mm wide at the mouth, outside crimson to rosy-pink, or bright yellow to orange-yellow, pilose with NUMBER 29 81 erect, purplish articulate trichomes, inside lighter red to pink or yellow, glabrous, limb 5-lobed, expanded slightly, ca 8 mm wide, each lobe ovate, ca 2 mm long, 2-3 mm wide, pink to red, glabrous, margin erose to entire, occasionally ciliate with glandular trichomes; stamens 4, adnate to the base of the corolla tube for 1 mm, not exserted, fila- ments linear, 0.8-1. 3 cm long, less than 1 mm wide, white or yellowish, glabrous, anthers oblong to sagittate, 1.0-1. 5 mm long, 1.0 mm wide, white or yellowish to blackish, coherent in two pairs by their apices until dehiscence, staminode 3-4 mm long, anther lacking or infertile; ovary inferior, covered at the convex apex by dense white articu- late trichomes, disc annular, undulating, 1 mm thick, 3 mm in diameter, whitish, glabrous or tomentose, style linear, wider toward apex, ca 1.1 cm long, less than 1 mm in diameter, yellowish or orange-red, glabrous or pubescent, stigma stomato- morphic, ca 2 mm wide. Capsule turbinate to nearly spherical, 3-7 mm long, 3-7 mm wide, red, pubescent, becoming gray- brown, glabrescent, costae 5, obscure or prominent; seeds rhombic or fusiform, slightly contorted or twisted, 0.5-1. 0 mm long, ca 0.7 mm wide, tawny to dark reddish-brown. Distribution and Ecology. — Gesneria scabra oc- curs in and near the Cockpit Country of western Jamaica (Figure 45). Because of the geographical proximity and the seemingly minor differences in the plants, four taxa are considered here as varie- ties, differing in corolla color, in size, color, and margin of calyx lobes, and in shape of capsule. Although the varieties are separated geograph- ically, they may be pollinated by the same species of hummingbirds, Mellisuga minima or Trochilns polytmus, whose bills are 1.3 cm and 2.0 cm long, respectively. 20a. Gesneria scabra var. fawcettii (Urban) L. Skog, new rank Gesneria fawcettii Urban, Symb. Ant. 5:500, 1908. — Adams, FI. PI. Jamaica 681, 1972. Shrubs: stems to 1 m tall. Leaves 8-13 cm long. Inflorescences few, 4- to 5-flowered: peduncles 2-6 cm long; calyx lobes lingulate to obovate, 3-6 mm long, reddish-brown, margin serrulate; corolla bright yellow; anthers yellow. Capsule turbinate, 3-4 mm long, 3-6 mm in diameter. Figure 45. — Distribution of Gesneria section Stenochonanthe in Jamaica. (G. scabra var. fawcettii = solid circles; G. scabra var. scabra = open circles; G. scabra var. sphaerocarpa = open squares; G. scabra var. viridicalyx = solid squares.) 82 SMITHSONIAN CONTRIBUTIONS TO BOTANY Key to the Varieties of Gesneria scabra 1. Corolla crimson to rosy-pink; calyx lobes entire, linear to oblong. 2. Capsule turbinate, broadest at the apex; calyx lobes ovate to oblong, 2 .5-7.0 mm long 20b. var. scabra 2. Capsule nearly spherical, broadest below the apex; calyx lobes linear to lanceolate, 4-9 mm long 20c. var. sphaerocarpa, new rank 1. Corolla bright yellow to orange-yellow; calyx lobes serrulate, Ungulate to obovate. 3. Calyx lobes reddish-brown, 3-6 mm long; inflorescences few; capsules 3-4 mm long, 3-6 mm in diameter 20a. var. jawcettii, new rank 3. Calyx lobes green to white, to 8 mm long; inflorescences many; capsule 3-4 mm long, 5-6 mm in diameter 20d. var. viridicalyx, new variety Figure 46. — Type specimens: a, lectotype of Gesneria jawcettii Urban and Gesneria scabra var. jawcettii (Urban) L. Skog, new rank, Harris 9883 (UCWI); b, holotype of G. scabra var. viridi- calyx L. Skog, new variety, Proctor 15756 (US). Type-Collection. — Woodstock, Jamaica, W. Harris 9883 (UCWI, lectotype. Figure 46a; BM, F, K, NY, US, isolectotypes). Distribution and Ecology. — Gesneria scabra var. jawcettii occurs in Jamaica, parish of West- moreland (Figure 45), on damp, shady, limestone banks, at 460 m altitude, flowering in September, but probably earlier and later. Specimens Examined. — JAMAICA. Parish of Westmore- land: Woodstock, 1400 ft, 21 September 1907, W. Harris 9883 (UCWI, lectotype of Gesneria jawcettii Urban; BM, F, K, NY, US, isolectotypes). NUMBER 29 83 Discussion. — To replace the probably destroyed holotype at Berlin, the isotype specimen at Univer- sity of West Indies is selected as lectotype. 20b. Gesneria scabra var. scabra Gesneria scabra Swartz, Prodr. 89, 1788. — Sw., FI. Ind. Occid. 2:1020, 1800. — Lunan, Hort. Jam. 1:322, 1814. — Urb., Symb. Ant. 2:381, 1901 — Adams, FI. PL Jamaica 680, 1972. Conradia scabra (Swartz) Martius, Nov. Gen. & Sp. 3:38, 1829 & 3:196, 1832.— G. Don, Gen. Syst. 4:650, 1838.— DC,, Prodr. 7:526, 1839.— Griseb., FI. Brit. W. Ind. 461, 1862. Pentarhaphia scabra (Swartz) Flanstein, Linnaea 34:308, 1865. Shrubs: stems erect, to 2.5 m tall; branches erect, internodes to 2.5 cm long, green to reddish. Leaves alternate: petioles 2-9 mm long, reddish- brown; blades elliptic, oblong to obovate, 4.3-13.5 cm long, 2. 3-4.4 cm wide, base acute to obtuse. Inflorescences 3- to 8-flowered: bracts minute to 5 mm long, reddish, pilose; floral tube turbinate; calyx lobes ovate to oblong, 2.5-7. 0 mm long, 2-4 mm wide, base cuneate, apex acute; corolla tube 0.8-1. 6 cm long, crimson to rosy, limb margin erose to denticulate; staminal filaments 0.8-1. 3 cm long; style glabrous. Capsule turbinate, broadest at the apex, 4-7 mm long, 5-7 mm wide, costae usually 5, prominent; seeds rhombic. Type-Collection. — India occid., Jamaica, O. Swartz sn (S, holotype, Figure 47; B, BM, C, G-DC, LD, LINN, M, S, UPS, isotypes). Distribution and Ecology. — Gesneria scabra var. scabra grows in western Jamaica (Figure 45) in the parishes of Hanover and St. James, on steep, moist, wooded, rocky limestone hillsides or thickets at elevations from ca 160 m to 550 m. This variety appears to flower during the entire year. Specimens Examined. — JAMAICA. Parish of Hanover: Retirement, 1.5 miles southeast of Kingsvale, ca 850 ft, 10 October 1950, G. Proctor 4896 (IJ, US); Retirement Moun- tain district, 1.25 mi due SE of Kingsvale, 500-800 ft, 13 January 1963, G. Proctor 23137 (BM, GH, IJ, NY, U, US); Dolphin Head, 1600 ft, 22 May 1906, W. Harris 9249 (A, BM, F, NY, UCWI, US); summit of the Dolphin Peak, January 1844, W. Purdie sn (GH, GOET, K); summit of Dolphin Head, 17 March 1908, N. Britton & A. Hollick 2214 (F, NY); summit of Dolphin Head, 1789 ft, 29 October 1952, G. Proc- tor 7273 (IJ); summit of Dolphin Head, 1750-1786 ft, 11 April 1955, G. Proctor 10050 (BM, IJ, NY); N. slopes of Bubby Hill, ca 1 mi SW of Hillsbrook, 1000-1400 ft, 29 August 1965, G. Proctor 26688 (BM). Parish of St. James: Figure 47. — Holotype of Gesneria scabra Swartz, Swartz sn (S). between Cambridge and Fern, ca 1000 ft, 4 April 1966, D. Powell 1669 (IJ); Burke Mountain district, 1 mi NE of Kensington, ca 1600 ft, 15 September 1957, G. Proctor 16641 (BM, IJ); Pembroke, Flagstaff, Maroon Town, 1500 ft, 11.7. 1967, H. Osmaston 5004 (UCWI). Locality Unknown: Jamaica, W. Purdie sn (K); India occid.; Jamaica, O. Swartz sn (holotype, S; isotypes, B, BM, C, G-DC, LD, LINN, M, S, UPS). 20c. Gesneria scabra var. sphaerocarpa (Urban) L. Skog, new rank Gesneria sphaerocarpa Urban, Symb. Ant. 5:499, 1908. — Adams, FI. PI. Jamaica 680, 1972. Shrubs or small trees: stems erect or contorted, to 3 m tall; branches often numerous, occasionally from supernumerary buds, weak and drooping or 84 SMITHSONIAN CONTRIBUTIONS TO BOTANY ascending, internodes 2. 0-8. 5 cm long, green, be- coming tawny to dark brown. Leaves alternate: petioles 2-9 mm long, green to reddish; blade elliptic to oblanceolate, 2.4-15.8 cm long, 1.0-3. 8 cm wide, base subcuneate to acute. Inflorescences 6- to many-flowered: bracts to 8.0 mm long, 2.5 mm wide, green to tawny-reddish; floral tube nearly spherical; calyx lobes linear to lanceolate, 4-9 mm long, 1-3 mm wide, base not narrowed, apex acuminate; corolla tube 0.8-1. 5 cm long, rosy-pink, limb margin entire to erose; staminal filaments 0.8-1. 2 cm long, pollen grains isopolar, prolate, size small (18.2-18.8 pm long at the polar axis, 9.8-11.0 pm wide at the equatorial axis), colpi 14.1-15.5 pm long, overlapping to less than 1 pm wide, amb subcircular, apocolpia rounded to truncate, sexine appearing smooth, not reticulate (Figure 17/); style puberulent. Capsule nearly spherical, broadest below the middle, 3-4 mm long, 4-6 mm in diameter, costae obscure to subprominent; seeds fusiform. Type-Collection. — Bank of Black River, La- covia, Jamaica, W. Harris 9956 (BM, lectotype; C, F, K, NY, P, UCWI, US (Figure 48), isolecto- types). Distribution and Ecology. — Gesneria scabra var. sphaerocarpa is known from Jamaica, parish of St. Elizabeth (Figure 45), on limestone cliffs, from 250-450 m altitude. This variety, like the typical variety, appears to flower all during the year; in the greenhouse flower buds are present at all times. Specimens Examined. — JAMAICA. Parish of St. Eliza- beth: Gorge of the Jones River, south of Ginger Hill, 800- 900 ft, 25 April 1961, K. Kramer 1750 (U), G. Proctor 22238 (BM); Ipswich, 900 ft, 13 June 1916, W. Harris 12361 (BM, F, K, MO, NY, P 2 sheets, S 2 sheets, UCWI, US); Merry- wood district, between Ipswich and Mulgrave, 1200 ft, 10 March 1956, W. Steam 446 (A, BH, BM); along road be- tween Merrywood and Mulgrave, 1000-1250 ft, 13 May 1960, G. Proctor 20845 (BM, IJ); between Merrywood and Mul- grave, 1150 ft, 16 August 1970, L. Skog & G. Proctor 1639 (BH); between Merrywood and Mulgrave, 1000 ft, 14 No- vember 1964, T. Talpey 17 (BH); bank of Black River, Lacovia, 16 September 1907, W. Harris 9956 (BM, lectotype of Gesneria sphaerocarpa Urban; C, F, K, NY, P, UCWI, US, isolectotypes). Cultivated: Cornell University, 16 May 1966, M. Stone 126 (BH). Discussion. — The isotype specimen of Harris 9956 at the British Museum (Natural History) has been chosen as lectotype for this variety. The holo- type was probably at Berlin and is no longer extant. 20d. Gesneria scabra var. viridicalyx L. Skog, new variety Arbuscula ad 3 m alta. Folia ad 17.2 cm longa. Inflorescentiae flores 6-10, pedunculis 2-6 cm longis: sepala pallide viridia vel etiam albida venis prominentibus, ad 8 mm longa; antherae atratae (fide Proctor). Capsulae turbinatae, ad 3-4 mm longae et 5-6 mm latae. Type-Collection. — Between Windsor and Tyre, north of Troy, Jamaica, G. Proctor 15756 (US, holotype, Figure 466; BM, GH, IJ, isotypes). Distribution and Ecology. — Gesneria scabra var. viridicalyx is found in Jamaica in the Parishes Figure 48. — Isolectotype of Gesneria sphaerocarpa Urban and G. scabra var. sphaerocarpa (Urban) L. Skog, new rank, Har- ris 9956 (US). NUMBER 29 85 of St. Elizabeth and Trelawny (Figure 45) growing on moist, wooded, rocky limestone hillsides or in sinkholes at elevations from 200-550 m. Flowers are produced in March, May, August, and December. Specimens Examined. — JAMAICA. Parish of St. Eliza- beth: Cooks bottom, east of Elderslie, 1600-1700 ft, 13 May 1960, G. Proctor 20865 (BM). Parish of Trelawny: Cockpit country, along track between Windsor and Tyre, north of Troy, 700-1700 ft, 28 August 1956, G. Proctor 15756 (US, holotype of Gesneria scabra var. viridicalyx L. Skog; BM, GH, IJ, isotypes): Dyers Patent, WNW of Quickstep, 30 December 1949, R. Bengry sn (IJ, US); 7 miles NNW of Quickstep, 1500 ft, J. Poulter et al. in Adams 10893 (UCWI); Paynes Patent District, WNW of Quick Step, 2 August 1949, R. Bengry sn (IJ, US). Section 3. Lachnoblaste L. Skog, new section Caules erecti, usque ad 2 m alti, ex foliorum superiorum axillis ramificantes. Folia anguste obtrullata vel oblonga, interdum falcata, mem- branacea, plana, opaca. Inflorescentiae 1- ad oo- florae, avam foliis subtentis breviores vel longiores; flores tubulosi ad medium ventricosi rubro- aurantiaci, staminibus exsertis. Capsulae late tur- binatae, costis prominentibus. Type-Species. — Gesneria decapleura Urban. Discussion. — Section Lachnoblaste, consisting of a single species from Hispaniola, may have evolved from the stock ancestral to section Pentarhaphia. This section, however, differs considerably from the members of Pentarhaphia in characters of foliage and fruit. Similarities in habit, leaf shape, indu- mentum, and fruit are seen in Gesneria (Dittan- thera) fruticosa (Linnaeus) O. Kuntze, but corolla shape easily distinguishes that species from G. decapleura. Name derived from the Greek lachnos ( = shaggy) + blastos (= bud). 21. Gesneria decapleura Urban Gesneria decapleura Urban, Symb. Ant. 7:542, 1913. — Urb., Symb. Ant. 8:647, 1921. Shrubs or trees: stems woody, erect, to 2 m tall, to 1 cm in diameter, bark rugose, white-gray to brown, glabrescent; branches smooth, gray to white or reddish, nodes slightly swollen; buds densely covered with long sordid white articulate trichomes. Leaves alternate or approximate: petioles flat- tened to subsulcate:, 2-7 mm long, 1-3 mm wide, green to brown, pilose to glabrescent; blades narrowly obtrullate to oblong, occasionally falcate, 5.4-22.2 cm long, 1.3-8. 6 cm wide, membranous, plane, base cuneate, margin entire near the base, becoming grossly serrate to lobulate toward the acute or acuminate apex, adaxial surface green, dull, pilose to glabrescent, veins covered with glandular or nonglandular trichomes, abaxial sur- face lighter green, pilose with articulate trichomes at least on the prominent veins. Inflorescences from the axils of often reduced leaves, 1- to oo -flowered: peduncles terete, 2. 6-8.0 cm long, 1 mm in diameter, reddish becoming lighter with age, pilose; bracts 2, linear-lanceolate, 3-6 mm long, less than 1 mm wide, pilose, tri- chomes with reddish to colorless articulations; pedicels terete, 0.8-1. 8 cm long, 1 mm in diameter, pilose, trichomes with reddish articulations be- coming lighter with age; floral tube broadly turbinate, 2-4 mm long, 3-5 mm wide, densely pilose with reddish, articulate trichomes; calyx lobes 5, spreading, each lobe lanceolate, 5-8 mm long, 2.0-3. 5 mm wide at the base, reddish and pilose with appressed trichomes outside and in- side, 3- or 5-nerved or nerves obscure; corolla tubular, curved, 1.8-2. 5 cm long, 4-6 mm in diam- eter at the gibbous base, narrowing to 3-5 mm above the base, 0.8-1. 1 cm in diameter at the ventricose middle, 0. 7-1.0 cm in diameter at the oblique mouth, red to orange, densely pilose out- side, inside reddish and glabrescent, limb 5-lobed, each lobe semiorbiculate with margins erose to denticulate and ciliate with glandular trichomes, upper lobes 3-4 mm long, 3-4 mm wide, connate for 1-2 mm, lateral and basal lobes 2.0-3. 5 mm long, 3. 0-3. 5 mm wide; stamens 4, adnate to the base of the corolla tube for 1 mm, exserted to about 5 mm, filaments linear, curved, 2.2-2.6 cm long, about 1 mm in diameter, yellow to red, puberulent with glandular trichomes toward the base, glabrescent above, anthers oblong, 1.0-1. 5 mm long, 1 mm wide, coherent in 2 pairs by their apices at anthesis, becoming free, staminode 3 mm long, lacking fertile anther; ovary inferior, apex densely pilose with reddish trichomes, disc annular, yellow with glandular trichomes, style linear, curved, 2. 4-3.0 cm long, less than 1 mm in diam- eter, reddish, puberulent with glandular trichomes 86 SMITHSONIAN CONTRIBUTIONS TO BOTANY to glabrescent above, stigma capitate, stomato- morphic. Capsule broadly turbinate, 5-6 mm long, 5-7 mm wide, reddish to gray-brown, apex slightly erumpent, dehiscing into 2-4 valves, densely pilose to glabrescent, costae 10, prominent; seeds fusi- form, twisted, ca 0.8 mm long, 0.25 mm wide, reddish-brown. Type-Collection. — Ad Las Canitas, Dominican Republic, M. Fuertes 1860 (A, lectotype, Figure 49). Distribution and Ecology. — Gesneria decapleura is apparently endemic to Hispaniola in the central range of mountains, occurring in the northwest in the Massif du Nord in Haiti and to the south- east in the Cordillera Central in central Domini- can Republic (Figure 50), in wet forests on lime- stone, from 150-1400 m elevation. Gesneria deca- pleura has been collected in flower during April, June, July, and August. Possible hummingbird pollinators for this species might be Anthraco- thorax dominicus and Chlorostilbon swainsonii, whose bills are 2.4 cm and 1.9 cm long, respectively. Specimens Examined. — HAITI. Departement du Nord: Massif du; Nord, St. Louis du Nord, mountain slope at Rivifere Nambiu, ca 150 m, 14 April 1925, E. Ekman H3809 (A, C, EHH, IJ, K, NY, S, US); Massif du Nord, St. Louis du Nord, top of Morne Chavary, ca 900 m, 25 August 1925, E. Ekman H4719 (S). DOMINICAN REPUBLIC. Azua Prov- ince: Cordillera Central, Lama Nalga de Maco, headwaters of Arroyo del Valle, 1300-1400 m, 10 June 1926, E. Ekman H6332 (EHH, F, G, GH, IJ, S, US); ad Las Canitas, 1300 m, July 1912, M. Fuertes 1860 (A, lectotype of Gesneria deca- pleura Urban); ad Las Canitas, 1300 m, July 1912, M. Fuertes 1925 (A, NY, P). Discussion. — The only known duplicate of Fuertes I860, in the herbarium of the Arnold Arboretum, has been selected as the lectotype, since the holotype at Berlin is presumed destroyed. Section 4. Myrmekianthe L. Skog, new section' Caules erecti, usque ad 2 m alti, ad basim rami- ficantes. Folia lanceolata, elliptica vel obovata, coriacea, planiuscula, nitida, marginibus recurvatis. Inflorescentiae 1- ad co -florae, folia subtentes aequantes vel excedentes; corollae tubulosae fere cylindraceae virides flavae usque rubrae, verru cosae, staminibus non exsertis. Capsulae turbinatae, verruculosae, costis obscuris vel prominentibus. Type - Species. — Gesneria duchartreoides (C. Wright) Urban. Discussion. — The plants comprising section Myrmekianthe were in the past divided into five species. From the examination of many specimens over the whole geographic range of the plants, the taxa appear to be artificial and not based on strongly distinctive morphological characters nor on geographical isolation. Since flowers are sel- dom present on preserved material (and living plants are not available), attempts were made to distinguish the taxa on the basis of bracts, sepals, capsules, and vegetative organs; none of the char- acters were dependable either singly or in com- bination. Variation appears to occur over the entire distributional range; consequently, the taxa are combined here as a single variable species. Relationships of section Myrmekianthe lie, NUMBER 29 87 Figure 50. — Distribution of Gesneria section Lachnoblaste and section Dittanthera in Hispaniola. (G. ( Lachnoblaste ) decapleura = open circles; G. ( Dittanthera ) fruticosa = solid circles.) perhaps, with section Pentarhaphia on one hand and section Duchartrea on the other. The floral characters resemble superficially those found in some members of section Pentarhaphia, but stem, foliage, and fruit characters tend toward those that appear in Gesneria ( Duchartrea ) viridiflora subsp. viridiflora, also endemic to Cuba. Plants in section Myrmekianthe are probably hummingbird pol- linated; Duchartrea may have evolved from an ancestor of this section in response to bat pollination. Name derived from the Greek myrmekia ( = wart) + anthe (= flower). 22. Gesneria duchartreoides (C. Wright) Urban Gesneria duchartreoides (C. Wright) Urban, Syrab. Ant. 2:375, 1901. — Morton in Leon & Alain, FI. de Cuba 4:457, 1957. Pentarhaphia duchartreoides C. Wright in Sauvalle, Anales Acad. Ci. Med. Habana 6:316, 1869.— Sauv., FI. Cub. 92, 1873 [“dtjchartracoides”]. Gesneria nipensis N. Britton & P. Wilson, Mem. Torrey Bot. Club 16:109, 1920.— Morton in Leon & Alain, FI. de Cuba 4:457, 1957. [Type-collection: Sierra Nipe, near Wood- fred, Cuba, /. Shafer 3201 (NY, holotype; F, US, isotypes).] Gesneria norlindii Urban, Symb. Ant. 9:268, 1924. — Morton in Leon & Alain, FI. de Cuba 4:458, 1957. [Type-collection: Inter Taco et Nibujon, Cuba, E. Ekman 3730 (S, holotype).] Gesneria bracteosa Urban, Symb. Ant. 9:269, 1924. — Morton in Leon & Alain, FI. de Cuba 4:458, 1957. [Type-collection: Baracoa, Lomas de Cuaba, Cuba, E. Ekman 4296 (S, holo- type; K, S, isotypes).] Gesneria pachyclada Urban, Symb. Ant. 9:270, 1924. — Urb., Repert. Spec. Nov. Regni Veg. 21:69, 1925.— Morton in Leon & Alain, FI. de Cuba 4:458, 1957. [Type-collection: Sierra de Cristal, Cuba. E. Ekman 6822 (S, holotype).] Shrubs or small trees: stems woody, erect, to 2 m tall, 5-7 mm in diameter immediately below the apex; bark yellow, gray, or reddish-brown, mi- nutely puberulent to glabrous, smooth when young, becoming verrucose with age, lenticels elongated, sometimes erumpent, apex resinous; pith reddish; branches few, from the base, inter- nodes to 2 cm long. Leaves alternate: petioles sulcate to nearly terete, 0.3-2. 5 cm long, 1-3 mm wide, reddish-brown, smooth to verrucose, minutely puberulent to glabrescent, resinous; blades narrowly elliptic to broadly obovate, 3.2-17.7 cm long, 0.8-5. 9 cm wide, coriaceous, base cuneate or acute, margin subentire to grossly serrate, apex retuse to acumi- nate, adaxial surface green, smooth to scabrous, finely puberulent to glabrescent, glossy, abaxial surface green to reddish-brown, glabrous, mid- vein prominent, verrucose, resinous. Inflorescences 1- to oo -flowered: peduncles terete, 2.8-22.1 cm long, 1-5 mm in diameter, green to reddish-brown, puberulent to glabrescent, verru- cose; bracts 2 (-3), linear to broadly lanceolate, 0. 3-4.2 cm long, 1-8 mm wide, green to reddish- brown, puberulent, apex sometimes caudate, ver- rucose, resinous; pedicel terete, 0.3-1. 2 cm long, elongating in fruit, 1-2 mm in diameter, green to 88 SMITHSONIAN CONTRIBUTIONS TO BOTANY reddish-brown, puberulent, resinous; floral tube narrowly turbinate, 3-6 mm long, 3-6 mm wide, green to yellow or red, puberulent, verrucose, resinous; calyx lobes erect, 5, each triangular, linear to lanceolate, usually sulcate at the base, narrowing toward the terete apex, 0. 3-2.5 cm long, 1-4 mm wide, green to reddish-brown, puberulent to glabrous, verrucose outside, inside glandular- resinous; corolla tube nearly cylindrical, 1.0-1. 7 cm long, 3-8 mm wide at the base, slightly con- tracted, then subventricose above the base, the mouth to 7 mm wide, green to yellow or red, pilose, puberulent to glabrescent, resinous outside, inside verrucose, resinous, limb 5-lobed, each lobe semi- orbiculate, 2-3 mm long, sometimes red-spotted, verrucose, sometimes pilose, margin entire, erose to fimbriate; stamens 4, adnate to the base of the corolla tube, included, filaments linear, reddish, 1. 2-1.4 cm long, 1 mm in diameter, pilose to glabrescent near the base, glabrescent toward the apex, anthers oblong, 1-2 mm long, 1.5 mm wide, white, coherent in 2 pairs by their apices; ovary inferior, apex puberulent, disc annular, yellow, pubescent with glandular trichomes, style 1.3-1 .6 cm long, reddish pilose to glabrescent, stigma bi- lobed, 1.5 mm wide. Capsule turbinate to nearly spherical, dehiscing into 2-4 valves, 0.4-1. 1 cm long, 0.4-1. 1 cm wide, red or yellow to gray-brown, verrucose, costae obscure or prominent; seeds linear, twisted, ca 1 mm long, 0.25 mm wide, reddish to brown (Figure 19n). Type-Collection. — Cuchillas de Baracoa, Cuba, C. Wright sn (GH, holotype; GOET, isotype, Fig- ure 51). Distribution and Ecology. — Gesneria duchartre- oides is known only from Oriente Province of Cuba (Figure 52), where it grows on serpentine pine barrens, stream banks, or dry hillsides from 350-1300 m elevation. This species has been col- lected in every month, but seldom with flowers. Possible hummingbird pollinators might be Calypte helenae and Chlorostilbon ricordii, whose bills are approximately the same length as the corolla tube. Specimens Examined. — CUBA. Oriente Province: in “charrascales” ad Rio Piloto, 21 July 1914, E. Ekman 2115 (S); Sierra de Nipe in “charrascales” ad Rio Piloto, 20 April 1919, E. Ekman 9528 (NY, S); Sierra de Nipe (Salto del So jo), July 1940, Bro. Leon 17971 (US); Sojo cascade. Sierra de Nipe, Mayari, July 1940, Bro. Leon & Liogier 17971 (GH); Casimba, Sierra de Nipe, 27 July 1940, Bro. Leon 19256 (US); La Casimba, Sierra de Nipe, Mayari, 17 July 1940, Bro. Leon & Alain Liogier 19236 (GH); banks of Rio Guayabo, Sierra de Nipe, Mayari, 29 July 1941, Bros. Leon & Clemente, & R. Howard 20408 (GH); banks of Rio Guayabo, Sierra de Nipe, 29 July 1941, Bro. Leon 20408 (US); Sierra de Nipe in cacum. mont. Loma Mensura loc. rup., ca 1000 m, 16 May 1915, E. Ekman 5738 (G, S); Sierra de Nipe in pinetis ad pedem mont. Loma Mensura, ca 725 m, 18 February 1918, E. Ekman 9061 (S); Cayo de Monte, S of Loma Mensura, Sierra de Nipe, 7 April 1941, Bro. Leon 19973 (US); Loma de la Bandera, Sierra de Nipe, March 1944, Bros. M. Victorin & Clemente in Leon 22093 (LS); bank of creek near Wood- fred village, Sierra de Nipe, June-August 1941, R. Howard 6123 (BM, GH, NY, P, S, US); road to “Mina Woodfred,” Figure 51. — Isotype of P'entarhaphia duchartreoides C. Wright and Gesneria duchartreoides (C. Wright) Urban, Wright sn (GOET). NUMBER 29 89 Sierra de Nipe, 26 July 1940, Bro. Leon 19142 (US); camino de la Mina Woodfred, Sierra de Nipe, 6 April 1941, Bro. Leon 19830 (US); along Rio Medio near Woodfred, Sierra Nipe, 500 m, 18 October 1941, C. Morton Sc J. Acuna 3216 (BM, F, G, GH, MO, NY, S, US 2 sheets); Sierra Nipe, near Woodfred, 450-550 m, 17 December 1909, J. Shafer 3201 (NY, holotype of Gesneria nipensis N. Britton & P. Wilson; F, US, isotypes); “charrascales” of Loma del Winch, Sierra de Nipe, 26 February 1956, M. Lopez F. 2513 (US); El Prado, Nicaro, Mayari, 26, 27 May 1955, J. Acuna & F. Zayas 19186 (SV, US 2 sheets); charrascales de los pinares de Micara, 2-7 April 1956. J. Acuna, Alain Liogier Sc M. Lopez F. sn (US 2 sheets); charrascales. Sierra de Micara, “Corea” lumber camp, 27 December 1955, Alain Liogier Sc M. Lopez F. 4640 (GH, IJ, US 2 sheets); Sierra de Micara, in pinelands, ca 750 m, 13 December 1922, E. Ekman 15918 (G, LS, NY 2 sheets, S); Sierra de Micara, in pinelands, 700-850 m, 17 December 1922, E. Ekman 16020 (S); charrascales de la subida al Sierra Cristal, 2-7 April 1956, J. Acuna, Alain Liogier Sc M. Lopez F. sn (US 2 sheets); Arroyo Cristal, Sierra de Cristal, 29 December 1955, Alain Liogier & M. Lopez F. 4802 (US); Sierra de Cristal prope cacum. mont. in “charrascales- tibisiales,” 1200-1300 m, 8 March 1916, E. Ekman 6822 (S, holotype of Gesneria pachyclada Urban); Pico del Cristal, Sierra del Cristal, 1900-3750 ft, 25 August 1959, M. Lopez F. 84 (US); entre Las Milis (?) y la Corea, camino de Ulayan abajo a la Sierra del Cristal, 27-28 August 1959, M. Lopez F. 213 (US); Guantanamo, Monte Libanon, San Fernandez in pinetis, ca 700 m, 24 December 1919, E. Ekman 10251 (S); Camp La Gloria, south of Sierra Moa, 24-30 December 1910, /. Shafer 8135 (NY); Camp La Gloria, south of Sierra Moa, 24-30 December 1910, J. Shafer 8111 (NY); Pres l’arroyo Jocotea, sud de Moa, 22 July 1941, Bros. Leon Sc Clemente 20153 (LS); Moa, April 1943, Bro. M. Victorin Sc Alain Lio- gier 21440 (LS); minas de Iberia ad Taco Bay, ca 800 m. 7-8 December 1914, E. Ekman 3813 (S); Camp La Gloria, Monte La Brefia, Moa, 5 November 1945, J. Acuna 13341 (SV, US 3 sheets); Moa, Rio Yagrumajes, 14 April 1945, J. Acuna 12120 (SV, US 2 sheets); banks of Cayoguan River, Moa region, 13-14 July 1949, Alain Liogier & Bro. Clemente 899 (US); Mina Aromita [?], Cayoguan, Punta Gorda, 24 July 1944, Bro. Clemente, Alain Liogier Sc Bro. Chrysogone 4066 (US); valley of Cayoguan river, Moa, 30 March 1942, Bros. Leon, M. Victorin Sc Clemente 20931 (US); thickets, El Coco, Moa region, August 1945, Bros. Leon, Clemente Sc Alain Liogier 22639 (US); Pinal de Pena Prieta, 22 July 1953, Alain Liogier 3181 (US); inter Taco et Nibujon in “charrascales-pinales” prope amnem, 4 December 1914, E. Ekman 3130 (S, holotype of Gesneria norlindii Urban); slopes of Sierra Azul, Quibijdn, Baracoa, 400 m, Alain Lio- gier & M. Lopez F. 1318 (US); pine barrens, N. of El Yunque de Baracoa, 13 January 1960, Alain Liogier & J. Acuna 1626 (US); Baracoa in pinet. prope El Yunque (ad septentr. versus), 20 December 1914, E. Ekman 3564 (S); Baracoa, Lomas de Cuaba, edge of manacales, 17 January 1915, E. Ekman 4296 (S, holotype of Gesneria bracteosa Urban; K, S, isotypes); on top of El Yunque de Baracoa, 520 m, 2 January 1960, Alain Liogier & M. Lopez F. 1119 (US); northern slope of El Yunque de Baracoa, 450 m, 2 January 1960, Alain Liogier Sc M. Lopez F. 1119 bis (US); El Yunque (prope Baracoa) in cacum. montis. solo calcareo., 17-18 December 1914, E. Ek- man 3953 (S, US); south of Monte Cristo, Baracoa, 7 Febru- ary 1952, J. Acuiia Sc Diaz Barreto 11384 (SV, US 2 sheets); Baracoa, Lomas de Cuaba in fruticetis, 23 November 1914, E. Ekman 3611 (S); Cuchillas de Baracoa, 21 June 1860-1864, C. Wright sn (GH, holotype of Pentarhaphia duchartreoides C. Wright; GOET, isotype); 5 km S of Sabanilla, Via Azul, 350 m, 17 January 1960, Alain Liogier Sc J. Acuna 1101 (US); 5 km S of Sabanilla, Via Azul, 17 January 1960, 350 m, Alain Liogier Sc J. Acuna 1110 (US); on the Via Azul between 90 SMITHSONIAN CONTRIBUTIONS TO BOTANY Sabanilla and Cajababo, at 5 km from Sabanilla, ca 500 m, 14 January 1956, C. Morton Sc Alain Liogier 9077 (US); banks of a rivulet, pinelands, km 7 S of Sabanilla, Via Azul, Bara- coa, 14 January 1956, Alain Liogier Sc C. Morton 5129 (IJ); Pinelands, km 7 south of Sabanilla, Via Azul, Baracoa, 14 January 1956, Alain Liogier Sc C. Morton 5140 (IJ); on the Via Azul between Sabanilla and Cajababo, at km 7 from Sabanilla, ca 600 m, 14 January 1956, C. Morton Sc Alain Liogier 9089 (BM, US); on the Via Azul between Sabanilla and Cajababo, at km 20 from Sabanilla, ca 800 m, 14 Janu- ary 1956, C. Morton Sc Alain Liogier 9121 (BM, US); on the Via Azul between Sabanilla and Cajababo, at km 22 from Sabanilla, ca 900 m, 12, 14 January 1956, C. Morton & Alain Liogier 8992 (US); Sabanilla to Yamuri [sic] Arriba, 30 January-1 February 1911, ]. Shafer 8420 (NY, US). Discussion. — The holotype of Gesneria duchar- treoides, C. Wright sn, is deposited in the Gray Herbarium, based on information given by Hitch- cock (1934) concerning the location of type speci- mens of species names published by C. Wright and F. A. Sauvalle. Efforts to obtain information from Cuba concerning Wright collections extant in Cuba have been unsuccessful. From vegetative material it is very difficult to distinguish this species from Gesneria viridiflora; however, characters of the usually filiform calyx lobes and nearly cylindrical, verrucose corolla of Gesneria duchartreoides distinguish it from the Cuban material of Gesneria viridiflora with its apically thickened calyx lobes and campanulate, nonverrucose corolla. Section 5. Gesneria Conradia section Synanthera G. Don, Gen. Syst. 4:650, 1839. [Lectotype-species: Conradia humilis (Linnaeus) Martius ex G. Don.] Gesneria section Conradia (Martius) Fritsch in Engler & Prantl, Nat. Pflanzenfam. 4(3b):184, 1894 [as to descrip- tion, not as to type]. Plants acaulescent or stem erect, decumbent or pendent, to 0.5 m tall, branching from the base. Leaves oblanceolate to obovate or ovate, cuneate, membranous, plane, glossy or dull. Inflorescences exceeding the subtending leaves, either peduncle very long and pedicel very short, or peduncle very short and pedicel long; corollas tubular, red, orange, yellow, green, or white; sta- mens slightly exserted or included. Capsule forming a splash cup, costae prominent or obscure. Type-Species. — Gesneria humilis Linnaeus. Discussion. — Section Gesneria contains a seem- ingly diverse assemblage of plants, but they are combined into a somewhat natural group on the basis of habit, vegetative, inflorescence, and fruit characters. The relationships of this section to others, as well as its origin and position in a phylo- genetic sequence in the genus are unclear. Section Gesneria resembles section Physcophyllon in habit, corolla, and fruit characters and may be closely related, but differs in inflorescence and vegetative traits; however, an origin by reduction from some member or ancestor of section Pentarhaphia may be suggested. 23. Gesneria brachysepala Urban & Ekman Gesneria brachysepala Urban & Ekman in Urban, Ark. Bot. 24A (4): 34, 1932. Plants acaulescent or suffruticose: stems woody at the base, to 10 cm tall, 6-9 mm in diameter, bark reddish-brown, villous, lenticels obscure, resin not evident; unbranched, internodes very short, leaf scars prominent. Leaves alternate: petioles sulcate, 0.5-1 .4 cm long, 2-4 mm wide, pilose with reddish or colorless trichomes; blades narrowly obovate, 5.6-13.9 cm long, 2.0-4.4 cm wide, subcoriaceous, base cuneate, margin crenate, subentire toward the base, apex rounded to acute, adaxial surface green, when young covered with broad-based trichomes, at maturity only bases remain to give a scabrous texture, abaxial surface green, with scattered appressed hairs especially along the prominent veins. Inflorescences 1- to 4 (-many)-flowered: pedun- cles terete, 9.1-20.4 cm long, 1 mm in diameter, red, glabrescent; bracts 2, linear, about 2 mm long, less than 1 mm wide, red; pedicels terete, 0.9-2.3 cm long, less than 1 mm in diameter, reddish, glabrescent; floral tube turbinate, ca 4 mm long, 3 mm wide, reddish, glabrescent; calyx lobes 5, connate for 1 mm at the base above ovary, erect to patent, with open aestivation, each lobe triangu- lar, 2. 0-2.5 mm long, 1.5-2. 5 mm wide, reddish, glabrescent on the outside, inside reddish to green, glandular, veins not prominent; corolla tubular, ventricose at the middle, narrowed to both ends, 2. 6-3. 7 cm long, 6 mm wide at the base and apex, NUMBER 29 91 Key to the Species of Section Gesneria 1. Pedicels more than four times as long as the peduncles; corolla orange-yellow to bright yellow, base and lobes of limb sometimes reddish; Puerto Rico 24. G. citrina 1. Pedicels as long as the peduncles or less; corolla yellow-green, orange to red, or white. 2. Corolla red, more than 2.6 cm long; Haiti 23. G. brachysepala 2. Corolla orange to yellow-green or white, less than 2.3 cm long. 3. Corolla tube projected ± horizontally from a nonoblique base, lobes of the limb erect, widest part of the tube at or near the middle; Puerto Rico .26. G. pauciflora 3. Corolla tube bent downward from an oblique base, widest part of the tube near the mouth, lobes of the limb patent or reflexed; Cuba and Haiti 25. G. humilis 0.9-1. 2 cm wide at the middle, outside brilliant red (fide Ekman), glabrous, inside yellow, gla- brous, limb very shortly 5-lobed, 5-8 mm wide, each lobe broadly obovate, reflexed, 1-2 mm long, 2-3 mm wide, dark red, margin ciliate; stamens 4, adnate to the base of corolla tube for less than 1 mm, filaments linear, exserted for 2 mm beyond mouth of corolla, curved, ca 3.5 cm long, 1 mm wide, yellow, glabrous, anthers narrowly rectangu- lar, 2-3 mm long, less than 1 mm wide, yellow, glandular, coherent in 2 pairs by their apices, staminode ca 6 mm long; ovary inferior, disc an- nular, puberulent with glandular trichomes, 2 mm long and 2 mm wide, reddish, style curved, 3. 0-3. 5 cm long, yellow, glandular, stigma clavate, papillate. Capsule broadly turbinate, becoming a splash cup, ca 4 mm long, 5 mm wide, gray at maturity, costae 5-10, obscure; seeds fusiform, less than 1 mm long, black. Type-Collection. — Les Roseaux at Debarcadere- Plingue, Haiti, E. Ekman H 1077 6 (S, holotype, Figure 53a; A, EHH, F, G, GH, IJ, K, NY, S, US, isotypes). Distribution and Ecology. — Gesneria brachysep- ala is endemic to the southern peninsula of Haiti, Departement du Sud (Figure 54) on steep shaded cliffs overhanging the sea, down to sea level. Ges- neria brachysepala has only been collected in October. This species would seem to be adapted for pollination by a hummingbird, but no known hummingbird species in Hispaniola has a bill long enough to reach the base of the corolla tube. Per- haps the nectar collects at the base of the ventri- cose middle and is thus accessible to shorter- billed birds. Specimens Examined. — HAITI. Departement du Sud; Massif de la Hotte, western group, Les Roseaux at Bebarcadere-Plingue [Plique], steep shaded cliffs, down to sea level, 4 October 1928, E. Ekman H10776 (S, holotype of Gesneria brachysepala Urban & Ekman; A, EHH, F, G, GH, IJ, K, NY, S, US, isotypes). Discussion. — Gesneria brachysepala has been col- lected only once. T. Talpey and I sought this rare species at the type locality in July 1970 but failed to find it. Residents in the area reported that the cliff face, where presumably Gesneria brachysepala grew, was destroyed by the effects of a hurricane a number of years ago. Plants were not located on nearby cliffs. Gesneria brachysepala resembles other members of this section in its habit, inflorescence structure, and splash-cup fruit. The species may be distin- guished from others, however, in its red tubular corolla up to 3.7 cm long. 24. Gesneria citrina Urban Gesneria citrina Urban, Symb. Ant. 1:477, 1900. — Britt. & Wils., Sci. Surv. P.R. & V.I. 6:205, 1925. Subshrubs: stems woody at the base, pendent or decumbent, to 1 m long, 2-5 mm thick, bark of young stems reddish to brown, becoming brown to gray, glabrescent, apex slightly resinous, lenticels sometimes erumpent, elongated, white to brown; pith reddish; branches from the stem base, rarely in upper leaf axils, internodes 0. 1-1.0 cm long, leaf scars swollen. Leaves alternate, petiolate or sessile, persistent: petioles terete to subsulcate, 0-1.0 cm long, 1-2 mm in diameter, red to gray-brown, sparsely pubescent with glandular or eglandular trichomes or gla- brous; blades obovate or spathulate, 1.2-5. 9 cm long, 0.5-2.9 cm wide, coriaceous, plane, base cuneate, margin ciliate to glabrescent, serrate to dentate toward apex, apex acute to obtuse, adaxial surface dark green, glabrous, glossy, abaxial sur- 92 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 53. — Type specimens: a, holotype of Gesneria brachysepala Urban & Ekman, Ekman H10776 (S); b, lectotype of G. citrina Urban, Sintensis 6590 (S). face lighter green, becoming white when dry, glabrous, occasionally with a few appressed tri- chomes along the midvein, glossy, veins sometimes reddish-brown, prominent, dried leaves with ex- foliating epidermis. Inflorescences 1- to 4 (-oo)-flowered: peduncles very short, 1-2 mm long, flattened to terete, about 1 mm wide, red, glandular-pubescent, occasionally resinous; bracts 2-4, linear, 1-3 mm long, less than 1 mm wide, red, resinous; pedicels terete, arcuate, 2. 8-6. 3 cm long, about 1 mm in diameter, red, sparsely pilose; floral tube shortly turbinate, 2 mm long, 2-3 mm in diameter at anthesis, green to red, sparsely pilose to glabrous, resinous; calyx lobes 5, connate for 1-2 mm at base, each narrowly triangular, 2-3 mm long, 1.0-1. 5 mm wide at the base, apex acute to acuminate, reddish or green, sparsely pilose, veins 3, prominent, inner surface with short glandular trichomes; corolla tube, curved, nearly cylindrical, 1.6-2. 1 cm long, 3 mm wide at the sometimes reddish base, widening to 7 mm at the slightly (Figure 16z) ventricose middle, then narrower toward the oblique mouth where 5 mm wide, outside orange-yellow to bright yellow, densely puberulent, inside lighter yellow, glabrous, limb 5-lobed, erect, each lobe semiorbiculate, glabrous, yellow or sometimes reddish, margin sub- entire, often ciliate, upper lobes 1 mm long, 2 mm NUMBER 29 93 Figure 54. — Distribution of Gesneria section Gesneria and Section Physcophyllon in Hispaniola. (G. ( Physcophyllon ) barahonensis = open triangles; G. ( Gesneria ) brachysepala = solid circles; G. ( Physcophyllon ) christii = solid squares; G. ( Gesneria ) humilis = open circles; G. ( Physco- phyllon) hybocarpa = stars; G. ( Physcophyllon ) pedicellaris = open squares; G. ( Physcophyllon ) reticulata = solid triangles.) wide, lateral lobes 3 mm long, 2.5 mm wide, basal lobe 2.5 mm long, 2.5 mm wide; stamens 4, adnate to the base of the corolla tube for less than 1 mm, not exserted, filaments linear, straight, 1.6-1. 9 cm long, less than 1 mm in diameter, yellow or white, glabrous, anthers rectangular, 1.5 mm long, 1 mm wide, yellow to red on back, coherent in two pairs by their apices, pollen grains isopolar, with size small to medium (18.8-25.6 pm long at the polar axis, 12.3-16.0 pm wide at the equatorial axis), with a nearly circular amb, tricolpate, colpi 20 pm long, less than 1 pm wide, apocolpia rounded to acute, prolate, sexine reticulate, heterobrochate, lumina 0. 1-1.0 pm across, larger near the equatorial axis, muri about 0.5 pm across; ovary inferior, disc annular, 1.5 mm long, green, puberulent with glandular trichomes, style straight except curved at apex, to 2.3 cm long, white, glabrous, stigma clavate, papillate. Capsule broadly turbinate, becoming a splash cup, 3-5 mm long, ca 6 mm in diameter, gray- brown, glabrescent, glossy, costae 5-10, prominent; seeds narrowly fusiform, less than 1 mm long, tawny. Type-Collection. — Prope Utuado, Puerto Rico, P. Sintenis 6590 (S, lectotype, Figure 536; BM, BP, BR, C, E, F, G, GH, GOET, K, L, LD, M, MO, NY, P, UCWI, US, W, Z, isolectotypes). Chromosome Number. — n — 14 (Lee, 1966). Distribution and Ecology. — Known from lime- stone cliffs in the hills of north-central Puerto Rico (Figure 55) at about 200-325 m elevation, Ges- neria citrina has been collected in flower during the months of February, March, May, August to November in the field. In the greenhouse it flowers in May and October. The corolla tube appears to be adapted for pollination by hummingbirds ( Chlorostilbon maugaeus or Orthorhynchus crist at us). Specimens Examined. — PUERTO RICO: Quebradillas, 22 November 1913, F. Stevens & W. Hess 5163 (NY); Lares, 325 m, 24 October 1943, F. Sargent 3235 (US); near the Arecibo Ionospheric Observatory on P. R. Hwy 625 about 15 km S of Arecibo, 27 August 1970, L. Skog & J. Skog 1716 (BH, E, K, US); Esperanza, 3/s mi along path toward the left just before the entrance to Cornell Radar in Esperanza south of Arecibo, ca 800 ft, 12 February 1965, T. Talpey 28 (BH, US); Arecibo radar station, 27 February 1965, T. Talpey 41 (BH, US); cliffs, Arecibo, 31 May 1935, F. Sargent 703 (US); base of cliff between Arecibo and Utuado, 8 February 1924, N. Britton & E. Britton 7976 (GH, NY, PH, US); prope Utuado in sylva primaeva montis Cerro Hueco ad Cayuco, 25 March 1887, P. Sintenis 6590 (S, lectotype of Gesneria citrina Urban; BM, BP, BR, C, E, F 2 sheets, G 5 sheets, GH GOET, K, L, LD, M, MO, NY, P, UCWI, US, W, Z, isolectotypes); Barce- loneta, S of Florida, 250 m, 23 August 1963, H. McKee 10616 (K, P, US); near Florida on route 140, 27 September 1967, R. Wagner 1233 (A); Rio Piedras, Ciales, 17 August 94 SMITHSONIAN CONTRIBUTIONS TO BOTANY Ficure 55. — Distribution of Gesneria section Gesneria and section Duchartrea in Puerto Rico. (G. ( Gesneria ) citrina = solid circles; G. ( Gesneria ) pauciflora = solid triangles; G. ( Duchartrea ) viridiflora subsp. sintenisii — solid squares.) 1903, /. Johnston 974 (NY, US). Locality Unknown: Rio Arriba, Forest Reserve, I. Velez 1606 (NY). Cultivated: Cor- nell University, G-888, 5 October 1969, L. Skog 1408 (BH), 23 May 1966, M. Stone 130 (BH). Discussion. — Gesneria citrina is distinct from all other species in this section in its short peduncles, 1-2 mm long; peduncles of the remainder of the species are more than 2 cm long. Its subshrubby habit with long pendent or decumbent branches in combination with yellow tubular corollas make Gesneria citrina distinguishable from all other known species of Gesneria. From the many duplicates of the presumed de- stroyed holotype, Sintenis 6590 at Berlin, a sheet at Stockholm has been chosen as lectotype. None of the isotypes found in many herbaria display flowers or is annotated in Urban’s hand, but the specimen at Stockholm is typical of those examined. 25, Gesneria humilis Linnaeus Gesneria humilis Linnaeus, Sp. PI. ed. 1, 612, 1753. — Plum., PI. Am. 125, pi. 133: fig. 2, 1757.— Lam., Encyl. Meth. Bot. 2:702, 1788 [as to the type, excluding synonyms of Sloane and Ray]. — Lunan, Hort. Jam. 1:322, 1814. — Poir. in Lam., Illustr. 3: pi. 536: fig. 2, 1819. — Spreng., Syst. Veg. ed. 16. 2:839, 1825.— Urb., Symb. Ant. 2:377, 1901. Conradia humilis (Linnaeus) Martius ex G Don, Gen. Syst. 4:650, 1838.— DC., Prodr. 7:526, 1839.— Rich, in Sag., Hist. FIs., Pol. Nat. Cuba 11:71, 1850. — Hanst., Linnaea 26: pi. 1: fig. 34, 1854. — Griseb., Mem. Amer. Acad. Arts, n.s. 8:526, 1862; FI. Brit. W. Ind. 461, 1862; Cat. PI. Cub. 200, 1866. Pentarhaphia humilis (Linnaeus) Hanstein, Linnaea 34:294, 1865. Conradia celsioides Grisebach, Cat. PI. Cub. 200, 1866. [Type- collection: Vinales, Cuba, C. Wright 3077 (GOET, holo- type; BM, G, GH, K, MO, P, S, W, isotypes).] Pentarhaphia celsioides (Grisebach) Gomez de la Maza, Anales Soc. Esp. Hist. Nat. 23:279, 1894. Gesneria acuminata Urban, Symb. Ant. 1:479, January 1900. — Morton in Leon & Alain, FI. de Cuba 4:463, 1957. [Type- collection: Arroyo de Pedro, Cuba, H. Eggers 4892 (GOET, lectotype; C, P, Z, isolectotypes).] Gesneria incisa Urban, Symb. Ant. 1:479, January 1900. [Type-collection: In rupibus fluminum Cubae, E. Poeppig sn (W, lectotype; BP, BR, MO, isolectotypes).] Conradia pumila sensu Millspaugh, Publ. Field Columbian Mus. Bot. Ser. 1:434, August 1900 [non Conradia pumila (Swartz) Martius (1829 et 1832).] Gesneria celsioides (Grisebach) Urban, Symb. Ant. 2:377, 1901. — Morton in Leon & Alain, FI. de Cuba 4:463, fig. 201, 1957. Subshrubs: stems woody, erect or occasionally pendent or decumbent, to 0.5 m tall, bark greenish- gray, smooth, rarely resinous, lenticels obscure; branching at the base or rarely above, new growth green, pilose to glabrous, internodes 0. 1-2.0 cm long, leaf scars prominent. Leaves alternate and spiraled, petiolate or sessile: petioles flattened to sulcate, 0-1.3 cm long, 1-3 mm wide, light or dark green or reddish- brown, sparsely glabrous to pubescent-glandular; NUMBER 29 95 blades narrowly oblanceolate to narrowly obovate or ovate, 1.3-18.0 cm long, 0.6-4.3 cm wide, mem- branous, plane, base cuneate, margin serrate to crenate or lobulate, subentire toward base, sparsely ciliate to glabrous, apex acute to acuminate, ad- axial surface dark green, sparsely pilose near the base, trichomes appressed, sometimes with broad bases, glossy to dull, abaxial surface lighter green, sparsely pilose to glabrescent on the prominent veins. Inflorescences 1- to 3 (-oo)-flowered: peduncles terete, 0.4-17.8 cm long, elongating in fruit, 1.5- 2.0 mm in diameter, green to reddish, usually glabrous; bracts 2, linear to lanceolate, 0. 1-1.0 cm long, 1-3 mm wide, green, glabrous, base cuneate, apex acute; pedicels terete, 2.2 cm long, less than 1 mm in diameter, green to reddish, glabrous; floral tube turbinate to nearly spherical, 1-3 mm long, 2-3 mm in diameter, dark green or reddish, glabrous; calyx lobes 5 (-7), erect, connate for 1-2 mm above ovary, with open aestivation, each lobe lanceolate or triangular, 1. 0-4.5 cm long, 1-3 mm wide at the base, apex acute to acuminate, both sides green or reddish and glabrous, veins 3, not prominent, but converging at apex; corolla tube narrowly campanulate, 0. 6-2.0 cm long, base oblique, 2-4 mm wide, gradually (Figure 16/) widening to ventricose on the lower side, slightly constricted at the mouth, 3-8 mm wide, greenish- white to yellow, glabrous outside and inside; limb 5- or rarely 6-lobed, 4-8 mm wide, each lobe patent to reflexed, semiorbiculate, green to white, rarely pinkish, 1-5 mm long, 3-6 mm wide, upper lobes subentire to erose, glandular, lateral lobes erose to subentire, basal lobe subentire; stamens (3-)4 (-5), adnate to the base of corolla tube for less than 1 mm, not exserted, filaments linear, geniculate, 0.4- 1.3 mm long, green to yellow, glabrous, anthers triangular to globose or oblong, ca 1 mm long, 0. 5-1.0 mm wide, green, seldom coherent, pollen grains often distorted, isopolar, size small (15.1 pm long at the polar axis, 8.5 pm wide at the equa- torial axis), tricolpate, colpi 11.5 pm long, less than 1 pm wide, apocolpia acute, prolate, sexine reticu- late, nearly homobrochate, lumina 0.25-0.5 pm across, muri ca 0.5 pm wide (Figure \lh), staminode 1 or rarely 2, ca 2 mm long, lacking fertile anther; ovary inferior, disc an undulating collar, 1 mm tall, white, pubescent, style linear, curved, 0. 5-1.4 cm long, about 0.5 mm in diameter, green, gla- brous, stigma slightly enlarged, stomatomorphic, 1-3 mm across, occasionally adherent to the anthers. Capsule turbinate to nearly spherical, forming a splash cup with the calyx lobes, 3-7 mm long, 4-8 mm in diameter, gray-brown, glabrous, costae 10, usually prominent; seeds rhombic to broadly fusiform, slightly twisted, ca 0.5 mm long, 0.2 mm wide, brownish (Figures 19/, 205). Type.- — Plunder, Nov. PI. Am. Gen. 27, fig. 9, 1703. The type figure was only part of the original drawing made by Plumier shown in Figure 57. Distribution and Ecology. — Gesneria humilis is known in Cuba (Figure 56) from the Provinces of Pinar del Rio, La Habana (including the Isle of Pines), Las Villas, and Oriente; and in Haiti (Fig- ure 54) from the Departement de l’Ouest. Plants grow in dense, damp limestone woods near streams or on rocks in streams. Gesneria humilis has been collected in the wild with flowers and fruits in all months of the year, but with fewer collections in late spring; greenhouse plants flower with the same regularity. The pollinators of this species have not been determined, but the plants may be visited by hummingbirds. Local Name. — “Clavellina” fide Luna 217 (NY). Specimens Examined. — CUBA. Province of Pinar del Rio: Jovero, Guanes, 19 January 1948, J. Acuna 14940 (SV, US); San Julian, in pineland savannas at the headwaters of Rio Verde, 6 June 1920, E. Ekman 11134 (S); Sierra de Cobra, on Guane Road, 9, 11 September 1910, N. Britton, E. Britton & C. Gager 7216 (NY), 7220 (NY, US); Surgidero, Rio San Vincente, Vinales, August, 1954, ]. Acuna & Maza 19352 (SV, US); San Vicente, Vinales, 2 February 1951, J. Acuna Sc J. Roig sn (US); vicinity of San Vicente, near Vinales, near sea level, 5 February 1956, C. Morton 9927 (US); base of Sierra del Ruisenor, Vinales, 21-22 May 1955, Alain Liogier 4322 (GH, NY); Vinales, Rio Pan de Azucar, 9 October 1955, Alain Liogier 4434 (US); Pan de Azucar, 20-100 m, 5 Febru- ary 1956, C. Morton 9918 (US); Banos San Vicente, 12-16 September 1910, N. Britton, E. Britton Sc C. Gager 7358 (NY), 7359 (NY); Vinales, Sierra de la Guasaca, 10 March 1924, E. Ekman 18683 (S); Vinales, 11 December 1930, E. Killip 13579 (US); San Vicente, April 1937, Bro. Leon 16808 (US); Cueva de San Vicente, San Vicente, Vinales, 2-3 Sep- tember 1937, Bro. Leon 16960 (GH, US); El Guao, Vinales, July 1939, Bro. Leon 19045 (US); El Valle de Ancdn, near San Vicente, 4 February 1956, C. Morton 9773 (US); base of Sierra del Ruisenor, Finca El Ancdn, near Vinales, ca 150 ft, 17 March 1957, G. Proctor 16357 (IJ); on cliff, Vinales, 1860- 1864, C. Wright 3077 (GOET, holotype of Conradia celsioi- des Grisebach; BM, G 2 sheets, GH, K, MO, P, S, W, iso- types); Arroyo del Sumidero, 7, 9 August 1912, J. Shafer Sc 96 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 56. — Distribution of Gesneria section Gesneria and section Duchartrea in Cuba. (G. (Ges- neria) humilis = open circles; G. ( Duchartrea ) viridiflora subsp. viridiflora = solid circles.) Bro. Leon 13601 (F, NY, PH, US); in mountains near El Guama, 6 March 1900, W. Palmer 8c ]. Riley 153 (US); vicin- ity of Pinar del Rio Arroyo, 3 March 1911, N. Britton, E. Britton & J. Cowell 9723 (NY); La Cajalbana, 1 October 1949, J. Acuna 8c Alain Liogier 15686 (SV, US); Loma de la Cajalbana, 1 October 1949, J. Acuna 8c Alain Liogier sn (IJ 2 sheets, US); in water of a waterfall, Cajalbana Mt., La Palma, 10 October 1949, Alain Liogier 1185 (GH, US); in a stream, Cajalbana pinelands. La Palma, 7 December 1955, Alain Liogier 4491 (US); Pinar del Cajalbana, in savannas at the foot of mountains, on the edge of a branch of Rio Puercos, 28 August 1923, E. Ekman 17311 (S); banks of the river, San Diego de los Banos, 19 August 1914, Bro. Leon 4410 (NY, US 2 sheets); in mountains north of San Diego de los Banos, 11 April 1900, W. Palmer 8c J. Riley 520 (NY, US); rocky stream bed, San Diego de Los Banos, 31 August-3 Septem- ber 1910, N. Britton, F. Earle & C. Gager 6740 (NY 2 sheets); rocky stream bed, San Diego de Los Banos, 31 August-3 September 1910, N. Britton, F. Earle 8c C. Gager 6889 (NY, US); Bahia Honda, 31 March 1946, /. Roig, J. Acuna 8c Naranjo sn (US); Rio Taco-Taco, Rangel, August 1927, J. Acuna sn (US); mountains above Taco-Taco, C. Baker 3832 (NY); source of Rio Taco-Taco, Sierra de Los Organos, 400-500 m, 18 November 1941, C. Morton 4283 (BM, F, G, GH, MO, NY, S, U, US); Rangel, Arroyo de la Plata, 23, 24 December 1951, Alain Liogier 8c E. Killip 2010 (US); vicinity of Guane, falls, Rio Portales, 3 March 1911, N. Britton, E. Britton & J. Cowell 9765 (NY); Rio Portales, 26 December 1911, /. Shafer 11171 (F, GH, MO, NY, U, US); Bahia Honda to El Rosario, crossing of San Miguel, 29 January 1912, J. Shafer 12000 (K, NY 2 sheets, U, US); Bahia Honda to El Rosario, 29 January 1912, J. Shafer 12002 (MO, NY 2 sheets); Cascada de Saroa, Candelaria, 5 March 1951, J. Acuna sn (NY); Rio Mananteales north of Candelaria, 10 February 1916, N. Britton, P. Wilson 8c Bro. Leon 14127 (NY); San Pedro del Caimito to San Jose de Sagua, 27 January 1912, J. Shafer 11956 (MO, NY, US). Province of La Habana, Isle of Pines: vicinity of Los Indios, 13 February 1916, N. Britton, E. Britton 8c P. Wilson 14241 (GH, MO, NY, S); rocky ford south of Santa Barbara, 11 March 1953, E. Killip 43088 (F, NY, US); between San Francisco de las Piedras and Cerro La Canada, 27 January 1955, E. Killip 44616 (US); dense woods along river, Razlag property along Rio Mai Pais, 25 December 1955, E. Killip 45270 (US); in savannas at Loma Daquilla, 3 December 1920, E. Ekman 12496 (S); Santa Fe, cerca del Rio Vellegas, 15 March 1923, M. Calvino 8c E. Manueli 7988 (SV, US); Santa Fe, 15 March 1953, M. Calvino in Leon 22385 (US); bank of stream, Santa Fe, 8 March 1953, E. Killip 43050 (US); dense woods along stream, Mrs. Jones’ Jungle, 7 March 1957, E. Killip 45830 (US); “Isla De Pinos,” June, J. Blain 50 (F). Province of La Habana: asphalt mines, Santiago de las Vegas, 18 Septem- ber 1904, H. van Hermann 42 (BM, F, NY); on rocks in rapids of stream, Bajucal, 5 December 1904, H. van Hermann 332 (F, NY); near asphalt mines above Bajucal, 18 Septem- ber 1904, H. van Hermann 1848 (NY); Loma Coca near Campo Florida, at Rio Quezada, 21 September 1921, E. Ekman 13226 (S); banks of the river near Cumbre Hermosa, 3 January 1912, P. Wilson & Bro. Leon 2847 (NY); on rocks in stream, Cumbre Hermosa, 3 January 1912, P. Wilson & Bro. Leon 11617 (NY); “Havanna,” G. Don sn (GOET); “Havana,” 1833, R. de la Sagra 647 (G-DC). Province of Las Villas (formerly Santa Clara): San Bias, 17 March 1929, L. Bailey 12433 (BH); above San Bias (La Sierra), 7 April 1928, /. Jack 5951 (A, LS); Loma Ventana, San Bias, La Sierra, 1400 ft, 22 July 1930, /. Jack 8035 (S, US): Loma Ventana, San Bias-Las Vegas, La Sierra, 1400 ft, 24 July 1930, J. Jack 8067 (A, S, US); San Bias, 300-600 m, 9-10 November 1941, C. Morton 4110 (BM, US); Mina Carlota, SE of Cumanaya- gua. Sierra de San Juan, 300-400 m, August 1940, R. Howard 4480 (A); Arroyo Navarro, Mina Carlota, southeast of Cu- manayagua. Sierra de San Juan, 300-400 m, 7 July 1941, R. Howard 5716 [PI. ex. Grayanae 1182] (BH, BM, BR, C, COL, CU, E, G, GH, IJ, K, L, LD, MO, NA, NY, NYS, PH, S, U, US, USF); Arroyo Navarro, Mina Carlota, in Sierra de San Juan southeast of Cumanayagua, ca 1000 ft, 22 March 1957, G. Proctor 16403 (IJ); Mina Carlota, southeast of Cumana- yagua, Sierra de San Juan, 300-400 m, 21-23 March 1938, H. Senn 331 (GH, US); Hanabanilla Falls, 1-20 July 1950, R. Howard, W. Briggs, P. Kamb, I. Lane 8c R. Ritland 148 (A); NUMBER 29 97 Hanabanilla Falls, Trinidad Mountains, 23 February 1956, C. Morton 104-16 (US); Hoyo de Manicaragua, 26-28 Febru- ary 1910, N. Britton, E. Britton 8c P. Wilson 4695 (F, NY 2 sheets); El Porvenir, Trinidad Mountains, 650-750 m, 9 March 1910, N. Britton & P. Wilson 5274 (NY); western slopes of Mt. Naranjal above San Bias, Trinidad Mountains, 28 July 1936, L. Smith, A. Hodgdon & F. Gonzales 324S (F, GH, MO, NY, S, US); Buenos Aires, Trinidad Mountains, 21 February 1956, C. Morton 10309 (US); Lomas de Banao, February 1920, A. Luna 217 (NY); Madrigal near Sancti Spiritus, 27 August 1909, Bro. Leon 948 (NY); vicinity of Sancti Spiritus, 15-24 February 1912, J. Shafer 12165 (F, MO, NY, US); Pitajones to Ciegas de Ponciano, 29 February 1912, J. Shafer 12254 (NY, U, US). Province of Oriente: Bayate, at margin Arroyos Vivano, 18 July 1914, E. Ekman 1993 (K, S); Bayate in saxis in Arr. Bibano, 5 May 1919, E. Ekman 9615 (S); Puerto Boniato, Santiago de Cuba, August 1949, Bro. Clemente 6998 (GH, US); Sierra de Nipe, El Taller in saxis in flumine Rio Piloto, 3 November 1914, E. Ekman 3324 (G, K, S); Manantial, Sta. Fe, N. de Guantanamo, 7 December 1917, Bros. Hioram & Btiste 1380 (NY, US); Guan- tanamo, Monte Libanon, San Fernandez ad amnem in “manacales,” ca 700 m, 24 December 1919, E. Ekman 10243 (S); Arroyo Henequen, foot of El Yunque, 1 December 1910, J. Shafer 7695 (NY); Veriles, sur de Monte Cristo, 7 Febru- ary 1952, J. Acuna & Diaz 17453 (US); Arroyo de Pedro, 500 m, March 1889, H. Eggers 4892 (GOET, lectotype of Ges- neria acuminata Urban; C, P, Z, isolectotypes); “in Cuba Orientali,” 1856-1857, C. Wright 355 (BR, G, GH, GOET, K, MO, NY, PH); prope villam Monte Verde dictam, Jan- uary-July 1859, C. Wright 355 (GH, GOET, K); “in Cuba Orientali,” 1860, C. Wright 355 (K, W); in Rio Santa Cruz and others, 12 October 1860-1864, C. Wright 355 (BM); “in Cuba Orientali,” 1860-1864, C. Wright 355 (BM, BR, G, GOET, P). Locality Unknown: window ravine, 2 March 1920, J. Bijhouwer 428 (WAG); Santa Catalina, Sierras of Western Cuba, January-February 1907, H. Caldwell & C. Baker 7029 (F); “In rupibus fluminum Cubae,” E. Poeppig sn (W, lectotype of Gesneria incisa Urban; BP, BR, MO, isolectotypes); “Flos. Cubens. — ad torrentio.,” July [18]23, E. Poeppig sn (P, S); “Cuba,” 1822, E. Poeppig sn (K); “Cuba,” R. de la Sagra sn (W); “Obre 833, Legit R. de la Sagra,” [/. M.] Valenzuela sn (P); “Cuba occ.,” 1863, C. Wright 647 (S). HAITI. Departement de l’Ouest: plants collected from the base of a volcanic rock cliff at Fond de Baudin along Riviere Toreau [R. Gauche?] about 2.5 mi NE of Trouin, 18°23' N lat. 72°38' W long., 1100 ft, 22 July 1970, L. Skog, T. Talpey 8c D. Ppster 1610 (topotype: BH, MO, US). Discussion. — Gesneria humilis was first discov- ered in Haiti by Plumier who described the species as Gesnera humilis, flore flavescente in 1703. No collections from Haiti, however, were known until its rediscovery in 1970 (Skog and Talpey, 1971). This species has been widely collected in Cuba, where it is the most common species of Gesneria, according to Morton (1957b). Specimens from both islands are very similar except in pollen. Pollen from plants collected in Haiti appears distorted and collapsed under scan- ning electron microscopy (Figure 18/); samples from Cuban collections appear to be normal (Fig- ure 17/?). The Haitian plants, however, produce viable seed. One population at Vinales, Cuba, has been separated as a distinct species, Gesneria celsioides (Grisebach) Urban. The characters, however, that distinguish this species may be the result of Figure 57. — Original manuscript drawing by Plumier of Gesnera humilis, flore flavescente from the Bibliotheque Centrale of the Museum National d’Histoire Naturelle at Paris. (See Figure 58 for representative specimen of Gesneria humilis from Haiti.) 98 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 58. — Representative specimen of Gesneria humilis Linnaeus from Haiti, Skog, Talpey ir Pfister 1610 (BH). ecological conditions. Other populations dwelling in or near streams appear distinctive in being much reduced, perhaps because they are often in- undated. Neither of these populations is here con- sidered as a taxon separate from the typical Gesneria humilis. Both Gesneria acuminata and G. incisa were based by Urban on more than one collection. It is presumed that the original syntypes were at Berlin and destroyed, thus, it is necessary to select lecto- types of these species. Urban based Gesneria acuminata on Wright 355, Valenzuela 10, Eggers 4892 and 4892b. The Valenzuela specimen has not been located in any herbarium, nor has the second Eggers number been found. Wright specimens bearing the same number were not necessarily collected at the same time nor at the same site; some specimens with the number Wright 355 bear the date 1856-1857 and others the date 1860-1864. Often two speci- mens with different dates but the same number are mounted on the same sheet. It is impossible to determine which specimen corresponds to the ap- propriate date. Those dated 1856-1857 give as locality only “Cuba orientali.” The others are- lo- cated as “prope villam Monte Verde dictam, Cuba orientali.” In still other herbaria, collection dates are either July 7, 1859, Jan-Jul 1859 or Oct 12, or labeled as coming from “in Rio Santa Cruz and others.” It would be difficult to select one of the Wright specimens to be the lectotype due to the disparate dates and localities. Only a few are labeled in Urban’s handwriting. I suspect, however, that the Wright 355 Urban listed as a syntype was a 1856-1857 collection, for if the specimen had been collected in 1860-1864 it would have also been labeled with a definite locality. Thus by elimination I have selected Eggers 4892 (GOET) as the lectotype for Gesneria acuminata. It is labeled in Urban’s handwriting and has a definite collection locality and date. The specimen has both flowers and fruiting material present. Gesneria incisa was based on specimens collected in Cuba by E. Poeppig and R. de la Sagra. If Urban had specimens from these collections at Berlin, they are now not extant. Other specimens of these collectors can be found in many herbaria, but none has been found to have any annotation by Urban. I have selected a Poeppig specimen in the herbarium at Vienna to be the lectotype for Gesneria incisa. It is a representative specimen with both flowers and fruits. Many authors, including de Candolle and Urban, have cited Martius as the author who made the combination Conradia humilis, since it was listed in 1829 as one of the species of Gesneria Linnaeus that Martius proposed to include in his new genus. The combinations of the Gesneria species in Conradia were made in the index in 1832, except for Gesneria humilis Linnaeus and G. ventricosa Swartz. Apparently through an over- sight these species were not included in Martius’ index. G. Don finally made the transfers in 1838. 26. Gesneria pauciflora Urban Gesneria pauciflora Urban, Symb. Ant. 1:478, 1900. — Urb. Symb. Ant. 2:381, 1901; 4:571, 1911— N. Britt. & P. Wils., Sci. Surv. P. R. & V. I. 6:205, 1925. NUMBER 29 99 Plants acaulescent or suffruticose: stems woody at the base, erect or decumbent, to 3 dm tall, to 8 mm thick, bark smooth, gray-brown, glabrescent, lenticels obscure; branches few from the base of the stem, deep red, pilose with appressed hairs, internodes 1 cm long or more, leaf scars slightly enlarged. Leaves alternate: petioles terete or flattened, 2-7 mm long, 1-2 mm wide, green, pilose; blade narrowly obtrullate, 2.8-9. 2 cm long, 0.9-2. 3 cm wide, membranous, plane, base cuneate, margin subentire toward the base, serrate to sublobate above, ciliate when young, becoming glabrescent, apex acuminate, adaxial surface dark green, glabrescent, glossy, abaxial surface lighter green, pilose along the prominent veins. Inflorescences 1- to few-flowered: peduncles terete, 6.1-15.3 cm long, 1-2 mm in diameter, slightly curved, reddish-brown, pilose; bracts 2, linear, ca 1 cm long, 0.5 mm wide, green, pilose; pedicels terete, 1-2 cm long, 1 mm in diameter, reddish-brown, pilose to glabrescent; floral tube shortly turbinate, ca 2 mm long, 3 mm wide at anthesis, green, pilose; calyx lobes 5, connate for about 1 mm at base, erect, with valvate or open aestivation, each lobe narrowly triangular, 3-4 mm long, 1-2 mm wide at the base, green, reddish toward the acuminate apex, margin entire, outside pilose to glabrescent, inside glabrous, veins 3, not prominent; corolla (Figure 16/i) tubular, curved, 2.0-2. 3 cm long, 4 mm wide at the base, narrowing to 3 mm wide, then widening at the ventricose middle to 5 mm and narrowing at the mouth to 4 mm, outside yellow-orange, densely pilose with appressed hairs, inside glabrous, limb 5-lobed, 6 mm wide, each lobe erect, broadly elliptic, yellow with an entire, ciliate margin, upper lobes 1 mm long, 3 mm wide, lateral lobes 2.5 mm long, 2 mm wide, basal lobe 4 mm long, 3 mm wide, mouth lined with glandular trichomes; stamens 4, adnate to the base of the corolla tube for 1.5 mm, not exserted, but extending to within 2-4 mm of the mouth, filaments linear from a broad base, 1.5-1. 8 cm long, 1 mm wide at the base, yellow, pilose only near the base, glabrous above, anthers broadly ovate, less than 1 mm long, yellow, co- herent in 2 pairs by their apices, becoming free, pollen grains isopolar, size small (19.0 pm long at the polar axis, 11.0-11.5 pm wide at the equatorial axis), amb nearly circular, tricolpate, colpi 17.0 pm * Figure 59. — Lectotype of Gesneria paucifiora Urban, Sintenis 327 (GOET). long, apocolpia truncate, sexine reticulate, homo- brochate, lumina 0.5 pm wide, muri 0.25 pm across, (Figure 18e), staminode 7 mm long, adnate to corolla for 4 mm; ovary inferior, disc a 5-angled thick ring, yellow-green, pilose, style linear, slightly curved, 1.4-1. 9 cm long, yellow, glabrous, becom- ing puberulous near the apex, stigma stomato- morphic, papillate. Capsule becoming a splash cup, ca 4 mm long, 4 mm wide, gray-brown, glabrescent, costae 5-10, not prominent; seeds broadly fusiform, twisted, less than 1 mm long, ca 0.5 mm wide, dark reddish-brown. Type-Collection. — Maricao, Puerto Rico, P. Sintenis 327 (GOET, lectotype, Figure 59; BM, BP, G, GH, K, LD, M, P, S, US, isolectotypes). 100 SMITHSONIAN CONTRIBUTIONS TO BOTANY Chromosome Number. — n = 14 (Lee, 1966). Distribution and Ecology. — Gesneria paucifiora is endemic to the mountains of western Puerto Rico (Figure 55) in wet forests at stream sides at elevations from 500-720 m. Gesneria paucifiora has been collected in flower in all months except March, July, and September; in the greenhouse flowers may appear every month. Hummingbird pollination is suspected in this species. Sericotes holosericeus with a bill averaging 21 mm long may be adapted to feed from Gesneria paucifiora. Specimens Examined. — PUERTO RICO: River valley, Rio de Maricao, 600-720 m, 14 February 1915, N. Britton 8c J. Cowell 4192 (NY); Indiera Fria, near Maricao, rocky arroyo, 500 m, 19-22 February 1915, N. Britton, J. Cowell 8c S. Brown 4546 (F, MO, NY, US); on rocks in wooded valley, Rio de Maricao, 500-600 m, 2 April 1913, N. Britton, F. Stevens & W. Hess 2442 (F 2 sheets, GH, MO, NY 2 sheets, US 2 sheets); Maricao in rupibus ad rivulum in “Indiera -Fria,” 3 December 1884, P. Sintenis 327 (GOET, lectotype; BM, BP, G 2 sheets, GH, K, LD, M, P, S, US, isolectotypes); along trail near Rio Maricao about 1 km S of the fish hatchery at Maricao, 550 m, 13 June 1970, L. Skog 1539 (BH), 16 June 1970, L. Skog 1542, 1544 (BH), 26 August 1970, L. Skog 8c J. Skog 1704 (BH, E, NY, S); Rio Maricao above Maricao, 20 October 1913, F. Stevens 8c W. Hess 3716 (NY); Maricao, 18 November 1913, F. Stevens 8c W. Hess 4872 (NY); one-third of way down path from El Monte de Estado to fish hatchery at Maricao, 2000 ft, February 1965, T. Talpey 30 (BH, US). Locality Unknown: matted in mountain brook, forest, 19 May 1935, F. Sargent 613 (US). Cultivated: Cornell Univer- sity, 15 January 1964, R. Clark sn (BH). Discussion. — Gesneria paucifiora resembles Ges- neria humilis from Haiti and Cuba in its vegeta- tive and fruit characters, and habitat. Gesneria humilis differs in having a yellow-green to white corolla, about 1.2 cm long, a patent or reflexed limb, and greenish stems and peduncles. Gesneria citrina, a closely related species in Puerto Rico, differs in having its peduncles much shorter than pedicels, leaves obovate or spathulate with rounded apices, in its decumbent habit and drier habitat. From among the many duplicate specimens of the holotype ( Sintenis 327), which was at Berlin and probably destroyed, a specimen at Gottingen has been selected as a lectotype. This specimen bears flowers and fruits, and the sheet was anno- tated by Urban as Gesneria paucifiora. Section 6, Physcophyllon L. Skog, new section Plantae erectae vel decumbentes acaulescentes, caulibus raro usque ad 0.5 m altis, ex basi vel ex foliorum superiorum axillis ramificantes. Folia cuneata, lanceolata vel oblanceolata, membrana- cea, bullata, scabrosa vel pilosa, marginibus inter- dum crispis vel lobulatis. Inflorescentiae 1- oo- florae, quam foliis subtentibus breviores; flores tubulosi, fere cylindracei, curvati vel subventri- cosi, aurantiaci vel rubri, staminibus inclusis. Capsulae turbinatae vel fere sphaericae, interdum calycibus praeditae scyphulas formantes, in Mar- chan tiae (bryoplrytorum) memoriam revocantes, costis prominentibus vel obscuris. Type-Species. — Gesneria cunei folia (A. P. de Candolle) Fritsch. Discussion. — Section Physcophyllon comprises a complex of species, occurring on the islands of the Greater Antilles, which share similar characters and resemble each other to such a degree that they are distinguished with difficulty. This section resembles sections Gesneria and Chorisanthera in habit, foliage and fruit characters, and may be closely related to them. Because of the presence of the red tubular corolla in all of the species, the pollinator of each of the species is probably a hummingbird. Name derived from the Greek physke (= blis- ter) + phyllon (= leaf). 27. Gesneria acaulis Linnaeus Gesneria acaulis Linneaus, Syst. Nat. ed. 10, 2:1110, 1759. Subshrubs: stems woody, erect, pendent or de- cumbent, short, usually about 20 cm, rarely to 60 cm tall, 3-5 mm in diameter at 5 cm below apex, bark smooth and gray-brown to glabrescent and greenish toward the resinous apex, lenticels ob- scure or erumpent longitudinally; rarely branched or branching from the base, internodes 0. 1-2.0 cm long, leaf scars prominent. Leaves alternate, spiraled, clustered at the apex of stem: petioles sulcate, 0.1-1. 9 cm long, 0. 1-0.3 cm wide, green or appearing reddish from red- dish multicellular trichomes, villous and some- what resinous from short glandular trichomes; blades oblanceolate to obovate or often falcate, (2.5-)3. 6-23.4 (-25.0) cm long, 1.0-8. 1 cm wide, membranous, base subcuneate to subcordate, usu- ally oblique, margin crenate, dentate, serrate, double-serrate or irregularly lobulate, apex acu- minate, acute or obtuse, adaxial surface bullate to NUMBER 29 101 Key to the Species of Section Physcophyllon 1. Petioles, floral tubes, and capsules verrucose; calyx lobes connate for ca 3 mm; Haiti 31. G. hybocarpa 1. Petioles, floral tubes, and capsules smooth or pubescent, not verrucose; calyx lobes connate for 2 mm or less. 2. Leaves narrowly oblanceolate, margins regularly undulate-lobulate; calyx lobes narrow, 1-2 mm wide at base, apex recurved; inflorescences usually of one flower; peduncles 2 mm long or less; Haiti 29. G. christii 2. Leaves oblanceolate or obovate, margins irregularly serrate or crenate; calyx lobes usually broad, if narrow then apex not recurved; inflorescences of one to many flowers; peduncles usually longer than 2 mm. 3. Corolla tube straight, or only slightly curved at apex, cylindric, limb patent, lobes nearly equal; Cuba, Hispaniola, and Puerto Rico 35. G. reticulata 3. Corolla tube curved at or near the middle, usually ventricose, if not ventricose then leaves glabrous above, limb spreading or lobes erect or reflexed and usually unequal. 4. Subtending leaves ca 5 times as long as the inflorescences, leaves spathulate or narrowly obovate, margin crenate; Cuba 34. G. purpurascens 4. Subtending leaves either less than 4 times as long as the inflorescences, usually much less, or leaves irregularly serrate. 5. Corolla 1.5-1 .8 cm long; peduncles glabrescent; flowers many; southern Domini- can Republic 28. G. barahonemis 5. Corolla 1.8 cm or more long, if less than peduncles pubescent to villous; flowers one to many. 6. Leaves scabrous; persistant calyx lobes on capsule reflexed, peduncles 0.8- 10.2 cm long; northern Dominican Republic 33. G. pedicellaris 6. Leaves bullate or smooth, if scabrous then persistant calyx lobes erect or spreading, peduncles 0. 1-3.1 cm long. 7. Capsules obconic or narrowly turbinate; leaves bullate or smooth, not scabrous; peduncles 0. 1-0.5 cm long, rarely to 2.6 cm; bracts 0. 3-1.0 cm long; inflorescences of 1-3 flowers; Puerto Rico 30. G. cuneifolia 7. Capsules broadly turbinate or globose; leaves scabrous or not; peduncles 0.2-3. 1 cm long; bracts to 3.4 cm long, usually more than 1 cm long; inflorescences of 1-5 or many flowers. 8. Calyx lobes erect, 1. 5-7.0 mm long; inflorescences occasionally as long as the subtending leaves; corolla scarlet or dark red, base attenuate and ventricose above; leaves scabrous; Cuba 32. G. libanensis 8. Calyx lobes spreading, 7.0-20.0 mm long; inflorescences shorter than the subtending leaves; corolla red, dull rose or orange, base ampliate and not ventricose above, or narrow at base and ventricose above; leaves seldom scabrous, but glabrous in var. glabrata; Jamaica 27. G. acaulis flat, light to dark green, villous or trichomes stiff and appressed, trichomes occasionally suffused with calcium carbonate and whitish, or glabrous, veins immersed, abaxial surface lighter green with prominent dark green or reddish veins, villous or trichomes appressed usually more dense at the veins, resinous from glandular trichomes. Inflorescences 1-3 (-many) in pedunculate cymes about one-quarter of the length of the subtending leaves: peduncles terete, 0. 1-3-1 cm long, 1-2 mm in diameter, green or red, puberulous to villous, occasionally resinous; bracts leaflike, linear, lance- olate, or elliptic, to 3.4 cm long, to 0.8 cm wide, green or red, villous to glabrescent; pedicels terete, 0.4-2. 9 cm long, elongating in fruit, 1-2 mm in diameter, green or red, glabrous or puberulous to villous; floral tube obconic or turbinate, 2-4 mm long, 1. 2-3.0 mm wide, green or red, villous to glabrescent, resinous, costae 5 or 10, usually prominent; calyx lobes 5, spreading, connate at base for 0. 5-2.0 mm, each linear or lanceolate, 0. 7-2.0 cm long, 1-4 mm wide at the base, narrow- ing gradually to apex, margin entire, outer surface green or red, glabrous to villous, occasionally villous only near the margin, trichomes many- celled, or appi'essed, stiff and white, glandular- 102 SMITHSONIAN CONTRIBUTIONS TO BOTANY resinous, veins 3-5, nearly parallel, inside green or red, glabrous or sparingly pubescent, glandular- resinous, glands becoming more dense toward the base; corolla tube cylindric or subventricose, bent at or above the middle, little or much expanded above floral tube, 1.8-3. 6 cm long, 2-4 mm in diameter, middle 4-7 mm in diameter, narrowing somewhat at the throat, 3-6 mm in diameter, outside red, dull rose, or orange, occasionally yellow at the veins, puberulous to villous, tri- chomes occasionally of 2 lengths, inside yellow or light red, glabrescent or glabrous, limb 5-lobed, nearly erect, darker red-orange, upper lobes ex- ceeding lower lobe, upper lobes broadly ovate, 1.0- 2.5 mm long, 2. 0-3.0 mm wide, margins suberose, stipitate-glandular, lateral lobes and basal lobe broad, rounded, seldom more than 1 mm long and 2 mm wide; stamens 4, adnate for about 1 mm to base of corolla tube, exserted only to length of upper corolla lobes, filaments linear, curved, 1.8-3. 5 cm long at anthesis, less than 1 mm in diameter, reddish, yellow, or white and nearly transparent, sparingly pubescent with a few scat- tered trichomes near the middle, anthers oblong, 1-2 mm long, 1 mm wide, pinkish, yellow, or white, glabrous, adherent in 2 pairs, staminode up to 5 mm long with undeveloped anther; ovary com- pletely inferior, apex villous, disc 5-angled, un- lobed, glabrous, style linear, curved, slightly ex- ceeding the stamens at maturity, red, yellow, or white, sparsely pubescent, stigma clavate, recurved, yellow or white, papillate. Capsule broadly turbinate to globose, 2-4 mm long, 4-6 mm wide, grayish brown or gray, villous or glabrescent, dehiscing from the apex, costae 5-10 and usually prominent; seeds numerous, fusiform, twisted ca 0.5 mm long, ca 0.25 mm wide, reddish-brown to black, nitid (Figures 196, e). 27a. Gesneria acaulis Linnaeus var. acaulis Gesneria acaulis Linnaeus, Syst. Nat. ed. 10. 2:1110, 1759. — Linn., in Elmg., PI. Jam. Pug. 15, 1759. — Linn., Amoen. Acad. 5:400, 1760; Sp. PL ed. 2. 2:850, 1763; Syst. Nat. ed. 12. 2:409, 1767. — Murr., Syst. Veg. ed. 13, 554, 1784 — Sw., Obs. Bot. 227, 1791. — Poir. in Lam., lllustr. 3:88, 1823 [as to description, not as to illustrated plant].— Urb., Symb. Ant. 2:379, 1901. — Adams, FI. PI. Jamaica 680, 1972. Conradia sloanei A. P. de Candolle, Prodr. 7:526, 1839. — Griseb., FI. Brit. W. Ind. 462, 1862 [nom. illeg.]. [Type- collection: Jamaica, O. Swartz, sn (G-DC, holotype; B, C, LD, M, S, UPS, isotypes).] Conradia hispida Bentham, PI. Hartw. 264, 1846. — Walp., Repert. Bot. Syst. 6:395, 1847. [Type-collection: Between Kingston and Spanish Town, Jamaica, C. Hartwe g 1551 (K, holotype; BM, K, LD, isotypes).] Chorisanthera hispida (Bentham) 0rsted, Cent. Gesn. 68, 1858. Conradia libanensis sensu Grisebach, FI. Brit. W. Ind. 462, 1862 [excl. syn.]. Pentarhaphia hispida (Bentham) Hanstein, Linnaea 34:293, 1865. Pentarhaphia sloanei (A. P. de Candolle) Hanstein, Linnaea 34:295, 1865.— Hitchcock, Rep. Missouri Bot. Gard. 4:114, 1893 (“ Pentaraphia ”). Gesneria hispida (Bentham) O. Kuntze, Rev. Gen. 2:473, 1891. Pentarhaphia acaulis (Linnaeus) Bentham & Hooker f. ex Fawcett, Prov. List, Jam. 28, 1893. — Druce, Rep. Bot. Exch. Cl. Brit. Isles 3:422, 1913 [“1914”]. [“ Pentarraphia ”]. Pentarhaphia libanensis (Grisebach) Bentham & Hooker f. ex Fawcett, Prov. List, Jam. 28, 1893 [nom. illeg., non Hanstein (1865)]. Gesneria acaulis Linnaeus var. g randifolia Urban, Symb. Ant. 2:380, 1901. [Type-collection: Jamaica, C. Bertero 2183 (TO, lectotype).] Leaves pubescent above, margin lobate, often double-serrate, apex acute to obtuse, stomata scattered, seldom in groups. Calyx lobes bearing many-celled or appressed trichomes on the exterior at least at the margin, inside glandular; corolla tube cylindric, inflated at base, ventricose at middle, narrowed and bent slightly down above middle, slightly flared at apex; pollen grains isopolar, prolate, size small (18.5- 22.5 pm long at the polar axis, 10.2-12.5 pm wide at the equatorial axis), amb nearly circular, tri- colpate, apocolpia truncate or slightly rounded, sexine heterobrochate, lumina 0.4-1. 5 pm across (Figure 17d). Type. — H. Sloane, Voy. Jam. Hist. 159, pi. 102: fig. 1, 1725 (Figure 60). Chromosome Number. — n = 14 (Lee, 1966), and fide Davidse 8c Conroy 3270 (MO). Distribution and Ecology. — Gesneria acaulis var. acaulis is endemic to Jamaica (Figure 61), where it can be found in all parishes except Man- chester. Its habitat is damp rocky soil or banks from ca 25-700 m elevation. This variety flowers throughout the year. Specimens Examined. — JAMAICA. Parish of Hanover: 5 mi W of Lucea, near sea level, 28 February 1968, G. Proctor 28559 (F, IJ, MO). Parish of Westmoreland: One-day Cave, NUMBER 29 103 Key to the Varieties of Gesneria acaulis 1. Leaves often double-serrate, pubescent above; calyx lobes bearing many-celled or appressed trichomes at least at the margin dorsally; corolla bent above the ventricose middle 27a. var. acaulis 1. Leaves never double-serrate, but crenulate to dentate or single serrate, glabrous above; exterior of calyx lobes glabrous; corolla bent at middle, scarcely wider than the base at any point 27b. var. glabrata, new variety ca 1 mi W of Rat Trap, 1000-1100 ft, 9 April 1961, G. Proc- tor 22160 (BM). Parish of St. Elizabeth: Cook’s Bottom, N of Ipswich, 400-450 m, 31 March 1920, W. Maxon Sc E. Killip 1160 (A, F, GH, NY, US). Parish of Trelawny: 1 mi SW of Bunkers Hill, ca 400 ft, 12 January 1964, G. Proctor 24493 (BM, IJ); Windsor House estate, 400 ft, 11 March 1956, W. Steam 469 (A, BM); path to Windsor Cave, 450 ft, 23 August 1955, D. Powell 140 (IJ); SW of Windsor caves, ca 500-750 ft, 13 August 1963, M. Crosby Sc W. Anderson 1171 (F, MO, NY, US, USF); Burnt Hill, 500 m, 29 April 1952, F. Barkley 22J236 (IJ, US); 0.5 mi N of Spring Garden, ca 1700 ft, 4 November 1968, G. Proctor 29329 (IJ); Barbecue Bottom, 6 mi N of Albert Town, Cockpit Country, 29 July 1962, F. Fosberg 42920 (NY, US). Parish of Clarendon: Peckham Woods, 2000-2250 ft, 10 July 1960, C. Adams 7545 (UCWI). Parish of St. Ann: near Brown’s Town, 18 January 1938, F. Hunnewell 15356 (GH); Liberty Hill, 27-30 March 1908, N. Britton 2500 (NY); 2.2 mi W by road of Albion, 2300-2400 ft, 9 August 1965, H. Hespenheide 923 (GH, MO, NY, US, Z); Dry Harbour Mountains, 2 mi W of Albion, 18 January 1956, W. Steam 155 (BM, 2 sheets); Roar- ing River Falls, 7 March 1936, F. Hunnewell & L. Griscom 14386 (IJ); near Lydford PO, 1500 ft, 20-31 December 1953, R. Howard & G. Proctor 13444 (A, IJ); Union Hill, near Moneague, 13 July 1950, R. Howard 12017 (A, US); Union Hill and vicinity, northern slopes of Mount Diablo, 400-750 m, 24 July 1926, W. Maxon 10424 (GH, US); Moneague, 27 February 1927, E. Wall sn (S); Moneague, December 1849, R. Alexander sn (GOET); Union Hill, near Moneague, 650 m, 6-7 April 1908, N. Britton Sc A. Hollick 2804 (NY); Roar- ing River Falls, 27-30 March 1908, N. Britton 2487 (NY); Dunn River Falls, 11 March 1936, F. Hunnewell Sc L. Gris- com sn (GH); Hollymount Road, 2300 ft, 27 August 1963, C. Adams 12644 (BM, UCWI); Mt. Diablo, 2 April 1903, W. Harris 8485 (UCWI); Mt. Diablo, 8 March 1936, F. Hunnewell Sc L. Griscom 14385 (GH); eastern slopes of Mt. Diablo, 7 March 1916, E. Killip 448 (BM, MO); Mt. Diablo, January 1850, R. Prior 560 (K); Mt. Diablo, 1800 ft, 20 March 1970, M. du Quesnay 257 (UCWI); Mt. Diablo, 2000- 3000 ft, March 1952, R. Robbins 1513 (UCWI); along road to Hollymount above Mount Diablo Afforestation area, 13 August 1970, L. Skog 1634 (BH, US); Mt. Diablo, road to Hollymount, ca 1.7 mi SW of Schwallenburgh, 11 July 1954, G. Webster Sc K. Wilson 5017 (A); on way to Hollymount, 2000-2500 ft, 18 February 1958, T. Yuncker 18215 (BM, F, S); Schwallenburgh, Mt. Diablo, ca 2000 ft, 30 November 1964, D. Powell 1642 (IJ); between Mount Rosser and Schwallenburgh, on east side of Mount Diablo, 1700 ft, 12 Figure 60. — Type of Gesneria acaulis Linnaeus: Sloane, Voy. Jam. Hist., pi. 102: fig. 1, 1725. 104 SMITHSONIAN CONTRIBUTIONS TO BOTANY April 1956, W. Steam 712 (BM); Moneague to Mount Diablo, 5 April 1908, N. Britton 2720 (F, NY); cliffs in Fern Gully, 19 March 1897, /. Churchill sn (GH); Fern Gully, February 1916, H. Ridley sn (K); Fern Gully, 500-1000 ft, July 1951, R. Robbins 1517 (UCWI); along Hwy A3 in Fern Gully about 3 mi from Ocho Rios, 13 August 1970, L. Skog 1633 (BH, US); near Fern Gully, above Ocho Rios, 500-1000 ft, 23 December 1957, T. Yuncker 17781 (BM, F, S, UCWI); nr. Burts Run, 1800 ft, 13 November 1965, C. Adams 12715 (UCWI); Somerton district, ca 1700 ft, 28 March 1956, G. Proctor & W. Steam 11923 (IJ), near Mosely Hall Cave, 1 mi W of Blackstonedge PO, ca 2000 ft, 15 July 1952, G. Proctor 6926 (IJ, NY). Parish of St. Catherine: Forest Reserve area east of Crofts Mountain, 1650-1850 ft, 6 September 1962, G. Proctor 22762 (BM, IJ); Holly Mt., 2 August 1931, L. Bailey 705 (BH); Hollymount, 19, 20 September 1906, N. Britton 733 (NY); Hollymount near Ewarton, 2500 ft, 10 August 1896, W. Harris 6453 (BM, C, UCWI), 14 February 1905, IF. Harris 8886 (BM, F, K, NY, UCWI), 31 August 1905, W. Har- ris 9003 (BM, F 2 sheets, K, NY, UCWI); Hollymount and vicinity, 750-850 m, 24 July 1926, W. Maxon 10449 (S, US); Holly Mount, 2600 ft, February 1916, J. Perkins 487a (G); 1 mi due W of Riverhead, ca 1500 ft, 16 October 1960, G. Proctor 21443 (BM, IJ, US); Linstead, 400 ft, 1 November 1953, G. Proctor 8148 (IJ, USF); Linstead, December 1959, L. Wynter 5669 (UCWI); Bog Walk, 4-5 May 1910, J. Craw- ford 832 (NY, PH); 2.1 mi SE of Bog Walk along main hwy to Spanish Town, 80 m, 26 November 1971, G. Davidse & E. Conroy 3270 (MO); Bog Walk, 2 February 1901, W. Fawcett 8127 (BM, NY); Bog Walk, 17 December 1890, A. Hitchcock sn (F, MO); Bog Walk and vicinity, 27 July 1926, W. Maxon 10485 (S, US); Bog Walk, 10 March 1885, N. Kidder sn (GH, 2 sheets); Bog Walk, February 1916, H. Ridley sn (K); Bog Walk, 17 December 1890, J. Rothrock 87 (F); Flat Bridge to Bog Walk, 200 ft, 13 March 1960, C. Adams 6476 (MO, UCWI); Rio Cobre, river bank south of Kent Village, ca 250 ft, 30 June 1963, M. Crosby, H. Hespenheide & W. An- derson 410 (F, NY, USF); cliffs near Rabys Corner, ca 2 mi SE of Bog Walk, ca 500 ft, 10 June 1959, G. Webster, J. Ellis & K. Miller 8087 (BM, G, S); Natural Bridge, Riversdale, 400-500 ft, 3 April 1961, G. Proctor 22145 (BM, IJ); between Kingston and Spanish Town, C. Hartweg 1551 (K, holotype of Conradia hispida Bentham; BM, K, LD, isotypes); St. Thomas in the Vale, June 1843, W. Pnrdie sn (K); on the road to Sixteen-Mile-Walk, H. Sloane sn [Horti Sicci 3:27] (BM). Parish of St. Mary: Dressikie, 600-700 ft, 3 Novem- ber 1968, G. Proctor 29306 (IJ); 1 mi S of Boscobel PO, 300 ft, 2 May 1952, G. Proctor 6614 (IJ, US). Parish of St. Andrew: Iron Face, Chester Vale, 3000 ft, 2 December 1907, W. Harris 10026 (A, BM, C, F, K, NY, P, UCWI, US, Z); vicinity of Cinchona, Old England, 2-10 September 1906, D. Marble 242 (NY); Port Royal Mountains, November 1845, G. MacNab sn (P), no date, W. Lane 443 (K); in montibus (copia pluviale minore) prope Kingston, 1897, C. Hanson sn (C, L). Parish of Portland: near Chester Vale, 9 December 1891, W. Fawcett sn (UCWI); Haycock Hill, 18 March 1962, A. Skelding in C. Adams 10857 (UCWI); along road between Section and Silver Hill Gap, ca 3500 ft, 3 December 1963, G. Proctor 24271 (BM, IJ); John Crow Peak, no date, J. Hart 1219 (UCWI); vicinity of Thomson’s Gap, ca 1000 m, 5-6 March 1920, W. Maxon & E. Killip 785 (US); Blue Mts. between Vinegar Hill and Thomson’s Gap, 30 March 1916, J. Perkins 1025 (GH); New Eden, January 1847, J. Wolle sn (USF); Swift River Gorge at Eden, i/2 mi E of Paradise, 100 ft, 19 March 1956, W. Steam 552 (BM); Swift River Bridge near Paradise, ca 80 ft, 25 November 1959, C. Adams 5570 (tfCWI); St. Margaret’s Bay, November 1900, C. Millspaugh 1927 (F); near mouth of Rio Grande, ca 25 ft, 19 March 1956, G. Proctor & W. Steam 11859 (IJ); mouth of the Rio Grande, 20-30 ft, 18 March 1956, W. Steam 546 (BM, 2 sheets); St. Margaret’s Bay, 5 mi W of Port Antonio, mouth of the Rio Grande, 18 February 1906, A. Wight 130 (F, NY); coast road near Port Antonio, 9 May 1904, W. Maxon 2105 (NY, US); near Moorestown, 25 September 1906, D. Marble 856 (NY); Ginger House to Comfort Castle, 400 ft, 10 August 1962, C. Adams 11471 (UCWI); Corn Puss Gap ca 2000-3000 ft, 14 August 1954, K. Wilson & W. Murray 594 (A, IJ); N of Ecclesdown, 1500-2000 ft, 3 November 1964, T. Talpey 15 (BH); 1.5-2.5 mi SW of Ecclesdown, 1500-2500 ft, 24 January 1956, R. Howard, G. Proctor & W. Steam 14797 (A, BM, IJ); Cuna-Cuna Pass, 24 July 1897, A. Fred- holm 3172 (NY); Cuna-Cuna Pass, 15 September 1908, W. Harris & N. Britton 10559 (F, K, NY, UCWI); John Crow Mt., March 1951, R. Robbins 1516 (UCWI); NW slope of Joe Hill, 1600 ft, 13 February 1956, W. Steam 246 (A, BH, BM, K). Parish of St. Thomas: Rowlandsfield district, SE slope of John Crow Mts., 18 March 1952, G. Proctor 6428 (IJ, US); above Rowlandsfield, 1500 ft, 16 March 1956, W. Steam 510 (BH, BM). Locality Unknown: 1850, R. Alex- ander sn (K); June 1821, C. Bertero 2183 (TO, lectotype of Gesneria acaulis var. grandifolia Urban); no date, P. Browne sn (UPS); no date, H. Distin sn (K); no date, Gower collec- tion sn (E); borealis in montibus humidus copia pluvialis, 1897, C. Hanson sn (C); Dollwood, October 1893, W. Harris sn (BM, UCWI); no date, J. Hart sn (US); no date, W. Lane 84 (K), March 1939, J. Roig 14224 (SV); no date, /. Mac- Fadyen sn (K); 1858, W. March 1197 (K); no date; O. Swartz sn (G-DC, lectotype of Conradia sloanei A. P. de Candolle; B, C, LD 2 sheets, M, S 2 sheets, UPS, isotypes); no date, J. Wiles sn (G). Cultivated: Cornell University, G-877, 2 August 1966, L. Leva 39 (BH), 5 October 1969, L. Skog 1410 (BH), 3 November 1970, L. Skog 1732 (BH), 27 January 1967, M. Stone 216 (BH); Cornell University, G-1003, 18 October 1966, M. Stone 234 (BH). Discussion. — In the protolog for Gesneria acaulis, Linnaeus cited Sloane’s plate of Rapunculo affinis anomala vasculifera, . . . (“Sloan, jam. t. 102, f. 1”). This must be considered the type for the name. A specimen in the Sloane herbarium (Horti Sicci 3:27) at the British Museum (Natural History) is a match for the drawing and may be considered the typotype in the sense of Dandy (Stearn, 1957). Apparent natural bigeneric hybrids between Gesneria acaulis and Rhytidophyllum tomentosum NUMBER 29 105 (Linnaeus) Martius have been collected in the parishes of St. Ann and Manchester. Specimens of C. Adams 12643 and G. Proctor 29384 were the basis for the separation of Gesneria sp. “A” by Adams (1972). Characters appear intermediate between the two species, but no viable seed has been found. Hybrid plants may be expected wher- ever the species are found growing in the same locality. Plants of an apparent hybrid between Gesneria acaulis var. glabrata and Rhytido- phyllum tomentosam were introduced into culti- vation in 1970 and grown at Cornell University under the accession number G-1371 (Figure If). The arrangement of the stomata of the abaxial leaf epidermis was discussed and illustrated by Wiehler (1970). He pointed out that the two clones of Gesneria acaulis in cultivation at Cornell University differed markedly in stomatal arrange- ment. The epidermis of a typical specimen of the variety described here as var. acaulis (from the Parish of Portland and grown under the accession number G-877) had stomata scattered more or less generally over the abaxial surface. A typical speci- men of var. glabrata (G-876, from the Parish of Manchester), described below as new, has stomata in apparent clusters (termed “islands” by Wiehler). These clusters appear to correspond to the sum- mits of the stomatal domes. It seems likely that if the epidermis did not have the domes, the stomata would not appear to be clustered. Weihler prob- ably examined only the two specimens in culti- vation. My examination of the two cultivated clones found the cells arranged as he described; however, there appears to be considerable varia- tion in samples collected from the area between the typical forms, particularly in samples from the Cockpit Country of Jamaica. Some examples bear one to few stomata in an apparent cluster perhaps at the apex of a stomatal dome. 27b. Gesneria acaulis var. glabrata L. Skog, new variety Folia supra glabra vel prope basim raro sparsim pubescentia, ad margines crenulata vel dentata vel singulatim serrata, non lobata, ad apices acuta vel acuminata, cellulis epidermalibus plerumque dis- cretis. Calycis lobi utroque dense glandulosi, venis 3 prominentibus; corollarum tubi cylindracei, non ventricosi, ad medium deorsum flexi (Figure 16g). Type-Collection. — Marshall’s Pen, Jamaica, L. Skog 1642 (US, holotype, Figure 62a; BH, isotype). Chromosome Number.— n = 14 (fide Skog 1731). Distribution and Ecology. — Gesneria acaulis var. glabrata is known only from the parish of Manchester in Jamaica (Figure 61) where it grows on shaded limestone banks at 650-800 m elevation. This variety flowers throughout the year. Specimens Examined. — JAMAICA. Parish of Manchester: Bellefield to Banana Ground, 2450 ft, 11 December 1960, C. Adams 8451 (UCWI); Mandeville and vicinity, 29 August Figure 61. — Distribution of Gesneria section Physcophyllon in Jamaica. (G. acaulis var. acaulis = open circles; G. acaulis var. glabrata = solid circles.) 106 SMITHSONIAN CONTRIBUTIONS TO BOTANY 1907, N. Britton 1000 (NY); cliffs, Somerset, 21-23 Septem- ber 1908, N. Britton 3732 (NY); Mandeville and vicinity, 15-26 February 1910, S. Brown 68 (NY, PH), 239 (NY, PH, US); Marshall’s Pen, Mandeville, 2200 ft, 29 April 1896, W. Harris 6322 (BM, UCWI, US); Walderston, 2200 ft, 14 Octo- ber 1901, W. Harris 8415 (BM, UCWI); Marshall’s Pen, no date, A. Katzenberger & R. Katzenberger 113 (RDJ); vicinity of Marshall’s Pen Estate, near Mandeville, 2300 ft, 24 April 1961, K. Kramer 1691 (U, WAG 2 sheets); Cockpit Country, bank near Derry, 13-18 September 1906, D. Marble 709 (F, NY, US); Marshall’s Pen, 2.25 mi due NW of Mandeville, 2100-2300 ft, 16 August 1965, G. Proctor 26617 ( IJ); Mar- shall’s Pen, 6 January 1959, E. Robertson 5374 (K, UCWI); Marshall’s Pen, 2.25 mi NW of Mandeville, 2100-2300 ft, 15 August 1970, L. Skog 1642 (US, holotype of Gesneria acaulis var. glabrata L. Skog; BH, isotype); Somerset, 2300 ft, 25 February 1956, W. Steam 350 (BH, BM, K); S of Green Hill, 5 November 1964, T. Talpey 18 (BH); halfway between Coleyville and Molton, 2000-2250 ft, 20 June 1959, G. Web- ster, J. Ellis & K. Miller 8421 (BM, G, S); Bethany, 1849, H. Wullschldgel 957 (M). Locality Unknown: 1875, T. Hogg sn (NY); no date, /. MacFadyen sn (K); no date, W. Wright sn (BM); no date, H. Wullschldgel sn (GOET, W). Culti- vated: Cornell University, G-876, 5 October 1969, L. Skog 1425 (BH), 3 November 1970, L. Skog 1731 (BH). Discussion. — This variety was brought into culti- vation by T. Talpey in 1964 and was grown at Cornell University as G-876. 28. Gesneria barahonensis Urban Gesneria barahonensis Urban, Symb. Ant. 7:379, 1912. Subshrubs: stems unbranched, woody, to 15 cm tall, glabrescent below, villous and resinous toward apex, internodes short, to 5 mm long. Leaves alternate, clustered near stem apex: petioles sulcate, 3-6 mm long, 1-2 mm wide, green or reddish, sparsely pilose and glandular; blades oblanceolate to obovate, 5.6-15.4 cm long, 2.4-5. 1 cm wide, membranous, base acute or rounded, margin serrate to crenate, apex acute, adaxial sur- face slightly rough, green, pilose with appressed white trichomes, abaxial surface lighter green, villous and glandular along the prominent veins. Inflorescences condensed cymes, nearly umbel- late, flowers many, the whole about one-half the length of the subtending leaf: peduncles terete, 0.7-2. 3 cm long, ca 1 mm in diameter, glabrescent; bracts 2, linear, 5-7 mm long, ca 1 mm wide, reddish, pilose; pedicels terete, to 1.8 cm long, ca 1 mm in diameter, reddish; floral tube obconic or turbinate, ca 2 mm long and wide, reddish to green, glandular and pilose, trichomes more dense just above junction with pedicel, veins not promi- nent; calyx lobes 5, erect, connate 1-2 mm at base, narrowly triangular, 5-9 mm long, 1-2 mm wide at base, both sides green or somewhat reddish, glandular-glabrescent at the base externally, mar- gin ciliate, 3-veined; corolla tube cylindric, but slightly broader below the middle, then narrowed toward throat, with limb slightly flaring, tube 1.5— l. 8 cm long, ca 2 mm broad at base, 4-6 mm wide at broadest point, ca 2.5 mm wide at throat, dark red outside, pilose, trichomes more dense at mouth, inside lighter red, glabrous, mouth slightly oblique, lobes crescent-shaped about 1 mm long, margin entire to erose, glandular-ciliate; stamens 4, with a reduced staminode, adnate to base of corolla tube, exserted only to corolla limb, fila- ments slightly curved, glabrous, reddish, anthers oblong, ca 1 mm long, ca 0.5 mm wide, slightly coherent; ovary inferior, disc annular, lobed, style curved, equaling the. stamens in length, red, stigma clavate. Capsule obovoid, 4-6 mm long, 3-4 mm in" diameter, gray-brown, glabrescent, costae 10; seeds fusiform, twisted, ca 0.5 mm long, dark brown or black. . Type-Collection. — “An Felsen der Tha’ler von Pae-Mingo nach Bahoruco,” Dominican Republic, M. Fuertes 1049 (A, lectotype, Figure 625). Distribution and Ecology. — Gesneria baraho- nensis is apparently endemic to the Barahona Peninsula of Hispaniola (Figure 54), where it grows on rocky cliffs from 100-1200 m elevation. This species was collected in flower in September. Specimens Examined. — HISPANIOLA. Dominican Repub- lic: Barahona Province: an Felsen der Tha’ler von Pae Mingo nach Bahoruco, 100-1200 m, June-September 1911, M. Fuer- tes 1049 (A, lectotype of Gesneria barahonensis Urban); in saxosis convallium inter Pae-Mingo et Bahoruco, 100-1200 m, 17 September 1912, M. Fuertes 1399b (A, E, NY, P). Discussion. — This species is known only from two collections, both made by Fuertes in probably the same locality. The type, Fuertes 1049, consists of a single sheet annotated by Urban in the Arnold Arboretum, which is designated the lectotype until an authentic holotype is found. This sheet, unfor- tunately, is a mixed collection: two specimens are truly Gesneria barahonensis, the third is a speci- men of G. reticulata (Grisebach) Urban NUMBER 29 107 Figure 62. — Type specimens: a, holotype of Gesneria acaulis var. glabrata L. Skog, new variety, Skog 1642 (US); b, lectotype of Gesneria barahonensis Urban, Fuertes 1049 (A). (Lectotype includes specimen on right and lower plant.) lacking flowers and superficially resembling G. barahonensis. Gesneria barahonensis is a rare species closely related to other members of this section and most similar to G. acaulis Linnaeus of Jamaica and G. christii Urban of Haiti. This species differs from both in having a much shorter corolla tube, narrower sepals than G. acaulis and many more flowers per inflorescence than G. christii. 29. Gesneria christii Urban Gesneria christii Urban, Symb. Ant. 6:42, 1909. Gesneria acaulis sensu Poiret, in Lam., Illustr. 3:88, pi. 536: fig. 1, 1823, non Linnaeus (1759). Subshrubs: stems slow-growing, woody, erect or pendent, up to 12 cm tall, thick, to 8 mm in diam- eter at 5 cm below apex, bark smooth or rugose, brown and glabrescent below, above green, sparsely pilose, apex resinous; branching from base and above, internodes short, usually less than 6 mm long, leaf scars obvious. Leaves alternate, spiral, closely spaced: petioles sulcate, 5-9 mm long, 1-2 mm wide, green or reddish, pilose or villous; blades narrowly obovate or narrowly oblanceolate, occasionally falcate, 6.3-26.9 cm long, 0.7-4. 9 cm wide, membranous, base narrowly cuneate or acute, margin regularly undulate-lobulate, lobules serrate or dentate, apex acute, adaxial surface bullate to flat, light to dark green, with sparse appressed whitish trichomes from enlarged bases, lateral veins diverging at an 108 SMITHSONIAN CONTRIBUTIONS TO BOTANY angle usually less than 45° from the midvein, abaxial surface much lighter green with prominent reddish veins, trichomes very sparse, appressed, veins pilose with numerous short glands among the eglandular appressed trichomes. Inflorescences of usually one maturing flower, rarely 2 or 3 in cymes, much shorter than the sub- tending leaves: peduncles very short, at most 2 mm long, ca 1 mm in diameter, green or red, glandular- resinous; bracts 2, linear, ca 1 cm long, green, sparsely pilose; pedicels terete, 1.0-4. 2 cm long, elongating in fruit, ca 1 mm in diameter, green or red, pilose and glandular; floral tube ovoid, 2-3 mm long, 2-3 mm in diameter, green or red, villous; calyx lobes 5, erect, connate at base for 1-2 mm, linear or lanceolate, 0.6-1. 6 cm long, 1-2 mm wide above base, narrowing rapidly to middle, then gradually to apex, apex recurved, curling on drying, 3-nerved, margin entire, outer surface ISOTYPE <»■ Ficure 63. — Lectotype of Gesneria christii Urban. Christ 1888 (IJ). green with reddish veins, pilose, glandular, inside green, glabrous or very sparsely pilose, but glandu- lar; corolla tube ventricose or inflated at the mid- dle, narrowed at both ends, bent upward above the base, and slightly downward (Figure 16e) above the middle, 2. 8-3. 7 cm long, 2-3 mm in diameter at base, 5-9 mm wide at middle, 3-5 mm in diam- eter at throat, outside yellow-orange to red, darker at the veins, sparsely pilose, glandular, inside yellow or reddish, glabrous, mouth oblique, limb 5-lobed, lobes erect to porrect, orbiculate, ca 3 mm long, 4 mm wide, darker red than tube, lighter spots at the notches, margins stipitate glandular, upper lobes erose, others subentire; stamens 4, with a reduced staminode, filaments adnate to base of corolla for only 0.5 mm, linear, slightly curved, as long as corolla tube and not exserted, white, gla- brous, anthers oblong, ca 2 mm long, ca 1.5 mm wide, yellow, coherent in pairs or free, pollen grains isopolar, prolate, size small (22.5-24.5 pm long at the polar axis, 11.0-14.0 pm wide at the equatorial axis), tricolpate, colpi 19.4 pm long, apocolpia blunt, sexine finely reticulate, lumina ca 0.5 pm wide; ovary inferior, apex green, pilose, disc thin, • 5-lobed and angled, yellowish, style linear curved, as long as the corolla tube, white, stigma bilobed, recurved. Capsule ovoid or globose, 4-7 mm long, 5-7 mm wide, gray to brown, glabrescent, dehiscing from the apex, costae 10, prominent or obscure; seeds fusiform, twisted, 0.5-1 mm long, blackish (Fig- ures 19c, 20a). Type-Collection. — Furcy, Haiti, E. Christ 1888 (IJ, lectotype. Figure 63). Chromosome Number. — n = 14 (Lee, 1966a). Distribution and Ecology. — Gesneria christii is known only from southern Haiti, where it grows on shaded limestone cliffs on river banks at ca 60-1500 m elevation (Figure 54). This species has been collected in the wild with flowers during January, February, July, and August. Under greenhouse conditions it flowers most of the year. Specimens Examined. — HISPANIOLA. Haiti: Departement du Sud: Massif de la Hotte, group Morne Rochelois, Mira- goane, at Lebrun, ca 500 m, 25 July 1926, E. Ekman H6517 (C, EHH, IJ, S, US). Departement de l’Ouest: Massif de la Selle, Crete-a-Piquants, Port-au-Prince, secc. Laval, ca 600 m, 28 January 1926, E. Ekman H5475 (EHH, S, US); Massif de la Selle, Port-au-Prince, Riviere Froide, ca 150 m, 29 Janu- NUMBER 29 109 ary 1926, E. Ekman H5480 (A, F, 1J, S), 2 August 1926, E. Ekman H6629 (EHH, G, GH, IJ, K, NY, S, US), 21 July 1970, L. Skog, T. Talpey & D. Pfister 1608 (BH, US), 19 Feb- ruary 1966, T. Talpey 43 (BH); Furcy, 1500 m, January 1899, E. Christ 1888 (IJ, lectotype of Gesneria christii Urban); Massif de la Selle, Port-au-Prince, Morne de I’Hopital, 400 m, 20 May 1927, E. Ekman H8192 (S). Locality Unknown: no date, Lamarck Herb. No. 198 (P-LA). Cultivated: Cor- nell University, G-1008, 4 November 1966, M. Stone 235 (BH). Discussion. — The holotype specimen of Christ 1888 was probably at Berlin and destroyed. The only known extant sample of the type is a leaf fragment now deposited in the Institute of Ja- maica, but originally part of the Buch herbarium in Haiti. Until other examples are found, this fragment must be the lectotype. A specimen in the Lamarck herbarium (no. 198) in Paris, possibly collected by J. Martin, who was a gardener at the botanical garden in Port-au-Prince, is presumably the basis for Gesneria acaulis sensu Poiret. Gesneria christii Urban is apparently most closely related to G. acaulis Linnaeus of Jamaica. The specimens of G. acaulis from the eastern end of Jamaica bear a striking resemblance to G. christii in the lobulate leaves, but the leaves of G. acaulis are not regularly undulate-lobulate and are usually much wider toward the leaf apex, the peduncles are much longer, and are equal to or longer than the pedicels, and the base of the corolla tube is expanded above the apex of the floral tube. The peduncles of G. christii are very short and may not be apparent in a cursory exam- ination. The abbreviated peduncle may be the reason Urban described this species as one-flowered. On specimens which have one-flowered inflores- cences, the secondary flowers may be reduced to lateral bulges on the peduncle. 30. Gesneria cuneifolia (A. P. de Candolle) Fritsch Gesneria cuneifolia (A. P. de Candolle) Fritsch in Engler & Prantl, Nat. Pflanzenfam. 4(3b):184, 7 August 1894. Conradia cuneifolia A. P. de Candolle, Prodr. 7:526, 1839. Pentarhaphia cuneifolia (A. P. de Candolle) Hanstein, Lin- naea 34:294, 1865. Gesneria portoricensis A. P. de Candolle ex Bello, Anales Soc. Esp. Hist. Nat. 10:288, 1881, nom. nud. Conradia reticulata sensu Stahl, Estudios FI. Puerto Rico, ed. 1, 6:259, 1888; ed. 2, 3:327, 1937 [1936], non Grisebach (1866). Gesneria cuneifolia Sesse & Mocino, FI. Mex. ed. 2, 144, 1894, nom. illeg. — Urb., Symb. Ant. 4:571, 1911; 8:647, 1921 [pro parte].— N. Britt. & P. Wils., Sci. Surv. P. R. & V. I. 6:205, 1925. Subshrubs: stems herbaceous or occasionally woody, erect or decumbent, short, seldom to 15 cm tall, 3-4 mm in diameter at 5 cm below apex, apex green or red, pilose and somewhat resinous, soon becoming glabrescent; branches from the base, in- ternodes usually very short, but up to 1 cm long in rapidly elongating individuals, leaf scars promi- nent on mature stems. Leaves alternate, spiraled, usually clustered at apex of stem or branch: petioles sulcate, 0.3-1. 2 cm long, ca 2 mm thick, green or reddish, pilose to glabrescent; blades oblanceolate or obovate, 2.1- 14.1 cm long, 1. 3-4.2 cm wide, membranous, base acute, cuneate or subcordate, margin shallowly or grossly crenate or dentate, often ciliate, apex acute to obtuse, adaxial surface somewhat bullate, light or dark green, glabrous or rarely sparingly pilose at base or on midrib toward the base, veins lighter green, abaxial surface light green, glabrous or pilose along veins toward the base, veins promi- nent, epidermis with stomata grouped into clusters of 2 to 4. Inflorescences cymose, pendent, 1- to 3-flowered, usually shorter, but occasionally as long as the subtending leaves: peduncles short, 0. 1-0.5 cm, rarely to 2.6 cm long, pubescent; bracts linear or lanceolate, green 0.3-1. 0 cm long, 1-2 mm wide, pubescent; pedicels 1.4-6. 5 cm long, green or reddish, pilose; floral tube obconic, longer than broad at anthesis, 2-4 mm long, 2-3 mm in diam- eter, green to dark red, costate, pilose; calyx lobes erect, narrowly triangular, connate 1-2 mm at base, 2-6 mm long, 1.0-2. 5 mm wide at base, out- side green to dark red, glabrous or rarely sparsely pubescent, glandular, margin entire, ciliate, 3-5 nerved, inside glabrous, but glandular; corolla tubular (Figure 16 h), obviously ventricose at middle, base gibbous on upper side, 1. 6-2.6 cm long, 2-3 mm wide at base, expanding to 4-6 mm wide at middle, decreasing to 2-3 mm wide at throat before expanding at limb, outside light to dark red, with darker veins or yellowish on lower side, puberulent, inside yellow or light red, glabrous, limb of 5 lobes erect to porrect, 6-9 mm wide, red to yellow, sparsely glandular, upper lobes broadly orbiculate, 1. 5-2.0 mm long, ca 3 mm 110 SMITHSONIAN CONTRIBUTIONS TO BOTANY wide, serrate, lateral and basal lobes broadly ovate, ca 2 mm long, ca 3.5 mm wide, entire to suberose; stamens 4, not exserted beyond corolla throat, basally adnate to corolla for less than 1 mm, fila- ments linear, curved, ca 1. 5-2.0 cm long, less than 1 mm in diameter, yellow to pink, glabrous, anthers oblong, ca 2 mm long, ca 1.5 mm wide, yellow-white, connate in 2 pairs, staminode ca 7 mm long; ovary completely inferior, sparsely pilose at apex, disc 5-angled, ca 1.5 mm wide, style curved, 1.6-1. 9 cm long, white, glabrous, stigma clavate, papillate. Capsule upright, obconic or narrowly turbinate, persistent calyx lobes spreading, 4-7 mm long, 3-5 mm wide, gray, glabrous, only apex dehiscing, costae 10, prominent; seeds elliptic, striated, ca 0.75 Ficure 64. — Type of Gesneria cuneifolia (A. P. de Candolle) Fritsch, A. de Candolle, Calq. des Dess. FI. Mex., plate 723, 1874. mm long, ca 0.25 mm wide, tawny (Figures 19&, 20 d). Type. — A. de Candolle, Calq. des Dess. FI. Mex. pi. 723, 1874 (Figure 64). Chromosome Number. — n = 28 (Lee, 1964; Tal- pey, 1966). Local Names. — “Yerba parrera” (fide Bello), “Flor de cueva” (fide Sintenis ex Urban). Distribution and Ecology. — Gesneria cuneifolia grows in the central and western part of Puerto Rico (Figure 65) on shaded, damp limestone banks and cliffs at elevations of ca 250-400 m. Plants have been collected in flower during every month of the year, both from the wild and in cultivation. Specimens Examined. — PUERTO RICO: vicinity of Maya- guez, 4-10 March 1906, E. Britton k D. Marble 662 (NY); Finca Alvarez, Quebradillas, January 1913, Bro. Hioram sn (NY); Quebradillas, 22 November 1913, F. Stevens k W. Hess 5154 (NY); Collazo River, 19 February 1926, N. Britton 8583 (NY, S, US); prope Pepino ad Eneas, 10 January 1887, P. Sintenis 5827 (F), 5829 (BM, BR, E, G 4 sheets, K, L, LD, MO, NY 2 sheets, PH, P 2 sheets, UCWI, US 2 sheets, W, Z); ad Eneas, 10 October 1887, P. Sintenis sn (GH); Lake Gua- jataca, 25 August 1963, Alain Liogier 10187 (IJ, NY, US); Sierra de Lares in rupibus calcar, ad “Guajataca,” 3 Febru- ary 1887, P. Sintenis 6096 (C, UCWI, US); Lares, 400-500 m, 6 April 1913, N. Britton, E. Britton k W. Hess 2735 (F, NY, US); Lares, 400 m, 31 October 1943, F. Sargent 3248 (US); Lares, 30 June 1914, J. Stevenson k J. Johnston 2060 (US); Lares in praeruptis ad cavernam Pajita, 13 January 1887, P. Sintenis 5845 (BM, C, F, G 5 sheets, GH, GOET, K, L, LD, M, MO, NY 2 sheets, P 2 sheets, S, U, UCWI 3 sheets, US 2 sheets, W, Z); Lares in rupibus ad ostium cavernam “Par- tita,” January 1887, P. Sintenis sn (GH); cliffs along P.R. Hwy 129 about 8 km E of Lares, 27 August 1970, L. Skog & J. Skog 1707 (BH, US); Esperanza, Dominguito road, Octo- ber 1911, H. Cowles 223 (US); Hato Arriba near Arecibo, 3 March 1914, N. Britton k J. Cowell 2012 (NY); Hato Arriba, near Arecibo, 1 March 1915, E. Britton 5102 (NY, US); Arecibo, 5 October 1963, T. Talpey 11a (US 2 sheets); near the Arecibo Ionospheric Observatory on P.R. Hwy 625 about 15 km S of Arecibo, 27 August 1970, L. Skog k J. Skog 1715 (BH, US); near radar site, Esperanza, S of Arecibo, February 1965, T. Talpey 27 (BH); Esperanza, 10 October 1963, T. Talpey lib (US 2 sheets); between Arecibo and Utuado, 4 March 1914, N. Britton k J. Cowell 2042 (NY); Arecibo to Utuado, 14 March 1906, N. Britton k J. Cowell 1458 (NY); between Utuado and Arecibo, 13 March 1906, J. Cowell 802 (F, NY, US); Utuado to Arecibo, 14 June-22 July 1901, L. Underwood k R. Griggs 803 (NY 2 sheets, US 2 sheets); Adjuntas, February 1886, P. Sintenis sn (GH); P.R. Rte 10 north of Utuado, 17 March 1970, M. Meagher 189 (USF); below Utuado, 20 February 1923, N. Britton & E. Britton 7525 (G, GH, NY, US); prope Utuado in sylva NUMBER 29 111 I V Figure 65. — Distribution of Gesneria section Physcophyllon in Puerto Rico. (G. cuneifolia = solid circles; G. reticulata = solid triangles.) primaeva montis Hueco ad Cayuco in praeruptis calc., 25 March 1887, P. Sintenis 6568 (GH, K); Utuado, in praeruptis ad los Angeles, 17 January 1887, P. Sintenis 5935 (K, LD, UCWI); Utuado, 8 November 1913, F. Stevens & W. Hess 4694 (NY); near Florida, 31 January 1925, N. Britton, E. Britton & K. Boynton 8184 (NY); S of Florida, 250 m, 23 August 1963, H. McKee 10617 (P); Manati, 7 November 1913, W. Hess 4137 (NY); Ciales, 21 July 1962, Alain Liogier 9581 (IJ, NY); Ciales, 24 February 1926, N. Britton 8594 (NY); Ciales, 17 August 1913, J. Johnston 957 (NY); District Baya- mon, Ciales, Bo. Cordillera, 12 December 1937, J. Otero 356 (MO); prope Vega-baya, October 1886, A. Stahl 605b (L); Km 28, San Juan-Arecibo road, 13 January 1935, F. Sargent 131 (US); Toa Alta, 8 February 1927, N. Britton & E. Brit- ton 8791 (NY, S); above Toa Alta, 300 ft, 26 November 1966, T. Talpey 64 (BH); near Toa Alta, toward Esperanza, 26 November 1966, T. Talpey 63 (BH). Locality Unknown: “Mexique,” no date, M. Pavon sn [Sesse & Mocino] (G); “Guadeloupe,” 1846, M. Gamier sn (P); “Peru,” 1827, M. Pavon sn (P); in rupibus calcareis, August 1827, H. Wydler 453 (G 2 sheets). Cultivated: Brooklyn Botanic Garden, 1 May 1923, M. B. sn (BH); Cornell University, April 1960, H. Moore sn (BH), G-285, 18 December 1962, R. Clark sn (BH), November 1956, H. Moore 7172 (BH, US), G-763, 8 October 1964, R. Clark sn (BH), 2 August 1966, L. Leva 38 (BH), G-857, 3 October 1969, L. Skog 1411 (BH), 1 Decem- ber 1965, M. Stone 123 (BH), G-869, 18 March 1969, J. Ambrose 121 (BH), 14 September 1966, M. Stone 215 (BH, NA); Longwood Gardens, Acc. 5565, 7 December 1960, J. Peele 408 (BH), 31 August 1961, J. Peele 635 (BH). Discussion. — Conradia cuneifolia was described by A. P. de Candolle from the original Sesse and Mocino drawings, which are now missing. Until these are found, the tracings published by A. de Candolle in 1874 are considered as the types for his new species names. There is a specimen from the Moricand herbarium (now at Geneva) that closely matches the tracing of Gesneria cuneifolia. Although the collector on the sheet is given as Pavon, the specimen was probably collected by Sesse and Mocino in Puerto Rico and later became part of the Pavon herbarium. The authority for the combination Gesneria cuneifolia was determined only after examining all of the available evidence concerning conflicting dates of publication. The combination was pub- lished twice in 1894 and both names could prob- ably be traced back to the original drawings and collections made by Sesse and Mocino in Puerto Rico during their expedition to Nueva Espaiia (1787-1804). Stafleu (1967) gives the exact date for the publication of the part of Die naturlichen Pflanzenfamilien containing the new combination Gesneria cuneifolia (A. P. de Candolle) Fritsch as 7 August 1894. The second edition of Flora Mexicana by Sesse and Mocino was published in Mexico also sometime in 1894, but no information has been found to establish the exact month and date of publication, which might prove to be earlier. Until evidence is found that Gesneria cuneifolia of Sesse & Mocino has priority, the combination made by Fritsch is accepted as the earliest. Gesneria cuneifolia has been introduced into cultivation and is widely grown in botanic gardens and as house plants. One collection of seed made 112 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 66. — Type specimens: a, holotype of Gesneria hybocarpa Urban & Ekman, Ekman H4382 (S); b, lectotype of Gesneria purpurascens Urban, Wright sn (GOET). (Lectotype is upper plant.) by T. Talpey in 1963 from Quebradillas gorge in Puerto Rico is available under the cultivar name ‘Quebradillas.’ Other color variants of Gesneria cuneifolia are grown but have not been given cultivar names. The chromosomes of two culti- vated clones at Cornell University have been counted and found to be n = 28, the highest hap- loid number known in Gesneria. 31. Gesneria hybocarpa Urban & Ekman Gesneria hybocarpa Urban & Ekman in Urban, Ark. Bot. 22A (10):76, 1929. Subshrubs: stems woody, decumbent or suberect, up to 20 cm tall or rarely more, bark green, ver- ruculose, and pilose when young, becoming gray, smooth and glabrescent with age; branches from the base, slender, 3-4 mm in diameter at 10 cm below the resinous apex, internodes up to 2 cm long. Leaves alternate, not clustered: petioles sulcate or flattened, 1-6 mm long, ca 1 mm in diameter, green, verrucose and pilose-glandular; blades rhombic to oblanceolate, often falcate, 5.1-14.9 cm long, 1.9-4. 2 cm wide, membranous, base cuneate or acute, margin serrulate to strongly serrate, occasionally shallowly undulate, apex acute or acuminate, adaxial surface green, sub- scabrous from remnants of scattered appressed white trichomes, abaxial surface lighter green, NUMBER 29 113 pilose with sparse appressed white trichomes and scattered glands, veins prominent, verruculose. Inflorescences numerous, each of 1-3 flowers: peduncles terete, up to 3.9 cm long, ca 1 mm in diameter, green, very sparsely pilose; bracts 2, linear-lanceolate, ca 1.5 cm long, ca 1 mm wide, green and pilose; pedicels terete, up to 3.2 cm long, ca 1 mm in diameter, green and pilose; floral tube obconic, 2-3 mm long, ca 2 mm in diameter, pilose and verrucose; calyx spreading, connate for ca 3 mm above apex of ovary, 5-lobed, each lobe narrowly triangular, 1. 2-2.1 cm long, ca 2.5 mm wide at base, outside green, pilose with trichomes at margins appressed, veins 3, prominent, inside green and glabrous; corolla tube curved, up to 3 cm long, ca 2.5 mm wide at base, ca 8 mm broad below the middle and narrowing to ca 4.5 mm at the throat, dark red, essentially glabrous with a few trichomes near the limb, limb 5-lobed, each lobe semiorbicular, ca 0.5 mm long, margin erose, mouth oblique; stamens 4, adnate to base of corolla tube and reaching the mouth of the corolla. Stigma exerted 4 mm beyond corolla (vide Urban). Capsule globose, 3-5 mm long, 4-6 mm in diameter, brownish, glabrescent, and verrucose, costae 10; seeds fusiform, twisted, ca 1 mm long, dark brown. Type-Collection. — Anse-a-Foleur, Haiti, E. Ek- man H4382 (S, holotype, Figure 66a; EHH, IJ, K, NY, S, US, isotypes). Distribution and Ecology. — Gesneria hybocarpa is known only from northern Haiti (Figure 54), where it grows on limestone cliffs. The type- collection with flowers was made in June. Specimens Examined. — HISPANIOLA. Haiti. Departement du Nord: Massif du Nord, Anse-a-Foleur, at Riviere St. Anne, 21 June 1925, E. Ekman H4382 (S, holotype of Ges- neria hybocarpa Urban & Ekman: EHH, IJ, K, NY, S, US 2 sheets, isotypes). Discussion. — Gesneria hybocarpa is a poorly known species based on a single collection by Ek- man ( H4382 ). Only one mature flower was present on the material available, that on the holotype at Stockholm. The apparent sigmoid curve of the red corolla is similar in shape to the corollas of G. acaulis and G. christii. Gesneria hybocarpa differs from both in the prolonged connation of the calyx lobes above the attachment of the corolla to the floral tube, and in the verru- cose petioles and floral tube. 32. Gesneria libanensis Linden ex Morren Gesneria libanensis Linden ex Morren, Ann. Soc. Roy. Agric. Gand 2:361, pi. 84, October 1846. — Walp., Repert. Bot. Syst. 6:737, 1847. — W. Hook., Bot. Mag. 74: pi. 4380, 1848.— Fritsch, in Engl. & Prantl, Nat. Pflanzenfam. 4(3b):184, fig. 81D, 1894.— Urb., Symb. Ant. 2:381, 1901.— Morton in Leon & Alain, FI. de Cuba 4:462, 1957. Rhytidophyllum floribundum Lemaire, FI. Serres Jard. Eur. 2: pi. 178, December 1846 [superfluous name], Conradia jloribunda Paxton, Paxton’s Mag. Bot. 15:99, 1848. [Type: plate and description.] Herincquia jloribunda (Lemaire) Decaisne ex Herincq, Rev. Hort. ser. 3, 2:323, 1848. — Jacques & Herincq, Man. Gen. PI. 2:562, 1850. — Lavallee, Horticulteur Fran<\ 1864:177, pi. 11, 1864. Ophianthe libanensis (Linden ex Morren) Hanstein, Lin- naea 26:205, pi. 1: fig. 33, 1854. Conradia corrugata Grisebach, Mem. Amer. Acad. Arts, n.s. 8:526, 1862. [Type-collection: Monte Verde, Cuba, C. Wright 1335 (GOET, holotype; BR, G, GH, K, MO, NY, P, PH, W, isotypes).] Conradia libanensis (Linden ex Morren) Grisebach, FI. Brit. W. Ind. 462, 1862 [pro parte as to Cuban material]. — Griseb., Cat. PI. Cub. 201. 1866 [pro parte], Pentarhaphia libanensis (Linden ex Morren) Hanstein, Lin- naea 34:292, 1865. Pentarhaphia floribunda (Lemaire) Bentham & Hooker f. ex Carriere, Rev. Hort. 1878:30 and plate, 1878. — Anon., Gard. Chron. 1878 (2):593, 1878. Gesneria hondensis Morren ex Jackson, Index Kewensis 1: 1024, 1893 [sphalm., non Humboldt, Bonpland &: Kunth (1817-1818)]. Pentarhaphia corrugata (Grisebach) Gomez de la Maza, Anales Soc. Esp. Hist. Nat. 23:280, 1894. Gesneria libanensis var. corrugata (Grisebach) Urban, Symb. Ant. 2:381, 1901. Gesneria lopezii Morton, Brittonia 9:19, 1957. — Morton in Leon & Alain, FI. de Cuba 4:462, 1957. [Type-collection: Oriente, Cuba, C. Morton, M. Lopez F. Sc Alain Liogier 8759 (US, holotype; BM, isotype).] Slow-growing subshrubs: stems woody, erect or pendent, to 60 cm tall, ca 3 mm in diameter at 10 cm below apex, bark rugose, or smooth, brown to gray, apex pilose, resinous; branches occasional, internodes 0.7 to 2.0 cm long. Leaves alternate in a rosette, deciduous or per- sistent: petioles sulcate, 0. 7-2.0 cm long, 1-2 mm wide, green, villous, blades oblanceolate, 1.9-16.0 cm long, 0. 6-4.0 cm wide, membranous, base acute, margin crenate to serrate, occasionally irregularly undulate-lobulate, adaxial surface occasionally bullate, or smooth, dark green, glabrous or with appressed pubescence when young, becoming glabrescent and trichomes white with broad bases, 114 SMITHSONIAN CONTRIBUTIONS TO BOTANY veins sunken, abaxial surface lighter green, tri- chomes occasionally reddish, appressed between veins, or glabrous, some veins prominent, pilose, diverging at an angle of ca 45°. Inflorescences of 1-5 protandrous flowers, occasionally as long as the leaves: peduncles short, 0.2-2 cm long, sparsely pilose; bracts 2, linear, up to 2 cm long, ca 1 mm wide, green, pilose; pedicels I. 5-2. 5 cm long, red or green, pilose; floral tube obconic or turbinate, ca 2 mm long, 2.0-3. 5 cm wide, green, pilose to villous with reddish or color- less trichomes, costae 10; calyx 5-lobed, lobes con- nate ca 1-2 mm, erect, broadly triangular, 1. 5-7.0 mm long, ca 1. 0-2.5 mm wide at base of free part, margin entire, apex acute, outside green, sparsely pilose, glandular, reddish or colorless trichomes, becoming white, veins prominent, inside green, glabrous; corolla tube ventricose at the middle from a long attenuate base, 1.9-3. 6 cm long, ca 2.5 mm at base, ca 8 mm wide above middle, 3-4 mm wide at throat, outside yellow at base, scarlet above, pilosity more dense toward limb, inside red or yellow, glabrous, mouth oblique, limb somewhat expanded, upper lobes exceeding lower lobes, sub- orbiculate, ca 2-3 mm long, 2-3 mm wide, sparsely pilose, margin dentate, lateral and basal lobes ca 1-2 mm long and wide, margin subentire, sparsely glandular; stamens 4, adnate for less than 1 mm to base of corolla tube, exserted about 2 mm beyond corolla mouth, filaments up to 3.0 cm long, yellow or red, glabrous, anthers oblong, ca 1 mm long, ca 0.5 mm wide, coherent in 2 pairs, staminode ca 3 mm long; inferior ovary pilose at apex with colorless or white trichomes, disc annular, 5-angled, style exserted beyond upper corolla lobes, to 4.0 cm long, yellow or red, glabrous, stigma clavate, recurved, papillate. Capsule ovoid to globose, 3-5 mm long, 3-5 mm wide, green to brown or gray, pilose, dehiscing apically, costae 5 or 10; seeds fusiform, twisted, striated, less than 1 mm long, ca 0.25 mm wide, reddish-brown. Type-Collection. — Mt. Liban, Oriente, Cuba, J. Linden 1833 (GENT, lectotype, Figure 67; BM, BR, G, K, NY, P, W, isolectotypes). Distribution and Ecology. — Gesneria libanensis grows in the Province of Oriente in Cuba (Figure 68) on damp limestone rocks and cliffs at 100-700 m elevation. Flowering collections have been made during every month of the year. Specimens Examined. — CUBA. Province of Oriente: Sierra de Nipe, farallones de Cayo del Rey, 16 April 1940, /. Gam- bia 3527 (NY, US); Cayo Rey, July 1943, Bro. Clemente 2956 (US); Cayo del Rey, southwestern base of the Sierra de Nipe, ca 100 m, 7 January 1956, C. Morton, Alain Liogier & M. Lopez F. 8759 (US, holotype of Gesneria lopezii Morton; BM, isotype); Sierra de Nipe, desfiladero del Rio Bio, 16 September 1922, E. Ekman 15113 (F, G, K, NY, S, US); Maceo, Cayo Rey, 30 January 1955, M. Lopez F. 1787 (NY); Miranda, Sierra de Nipe, November 1940, Bro. Leon 19510 (US 2 sheets); Bayate, Picote (in Sierra de Nipe), ca 550 m, 16 July 1916, E. Ekman 7405 (G, K, NY, S); Bayate in decliv. mont. calcar. Picote, 14 March 1918, E. Ekman 9148 (S); Picote in declivibus arduis, 14 November 1919, E. Ekman 10112 (S); Monte Picote, near Palmito del Cauto, 400 m, 29 January 1956, C. Morton 9669 (US 2, sheets); Florida Blanca, Alto Songo, 450 m, 19 January 1960, Alain Liogier, ]. Acuna & M. Lopez F. 7402 (US), 5 February 1954, M. Lopez F. 1111 (LS), 9 February 1957, M. Lopez F. 2854 (BH, US), 1 May 1957, M. Lopez F. 2873 (US); Represa del Guaso, Figure 67. — Lectotype specimen of Gesneria libanensis Linden ex Morren, Linden 1833 (GENT). NUMBER 29 115 Ficure 68. — Distribution of Gesneria section Physcophyllon in Cuba. (G. libanensis = solid squares; G. purpurascens = open circles; G. reticulata = solid triangles.) 28 December 1917, Bros. Hioram & Angel 1510 (LS, NY); Guantanamo, Monte Libanon, San Fernandez, ca 700 m, 24 December 1919, E. Ekman 10282 (G, K, NY, S); on cliffs, Monte Libano, 5 March [1861], C. Wright 3080 (GH); Monte Liban, 1843-1844, J. Linden 1833 (GENT, lectotype of Gesneria libanensis Linden ex Morren; BM 3 sheets, BR, G, K 2 sheets, NY, P 2 sheets, W 2 sheets, isolectotypes); Monte Verde, January-July 1859, C. Wright 1335 (GOET, holotype of Conradia corrugata Grisebach; GH, isotype), 1859 or 1860, C. Wright 1335 (BR, G 3 sheets, K, NY, P, PH, W); La Perla, 600-650 m, 6-18 February 1911, /. Shafer 8547 (NY); La Alcachofa, Guantanamo, December 1934, Bro. Hioram 8 (LS, NY); Yateras, January 1933, Bro. Hioram 14076 (GH); banks of Rio de Pena, Toa, near Dos Pasos, 400 m, December 1953, Alain Liogier 3647 (GH, NY). Lo- cality Unknown: Bayate de Monte-Rus, 24-25 February 1955, M. Lopez F. 1979 (NY, US); 1861, C. Wright 377 (=3080) (S). Discussion. — Gesneria libanensis Linden ex Mor- ren was probably brought into cultivation by Lin- den, who collected plants from Cuba in 1844 and may have sent living plants or seeds to de Jonghe or Van Houtte (Lavallee, 1864). Within a few years the plant became well known in horticulture and was distributed under many different names. No material attributable to Gesneria libanensis is now known to be in cultivation. Morren (1846) studied both cultivated material and the original collection by Linden, but un- fortunately did not select a holotype. Many dupli- cates of Linden 1833 exist. The specimens may not have been collected at the same time, because on the sheet at Vienna is written “1844 fl. en juin . . while on other sheets flowering is reported as occur- ring in May. The adequate sheet of Linden 1833 at GENT has been chosen as lectotype. According to de Candolle (1880) the Linden collection is at the University of Ghent, but whether this is the main Linden herbarium is doubtful (Van Veken, in litt.). For the application of the name Conradia libanensis sensu Grisebach, see the discussion under Gesneria purpurascens Urban. The type of Conradia corrugata Grisebach, C. Wright 1335, was collected at Monte Verde, a coffee plantation north of Guantanamo. Wright spent many weeks at various times from 1857 through 1861 collecting in the area of Monte Verde (Underwood, 1905), thus, specimens num- bered 1335 were probably collected at different times. Only those dated January-July 1859 can be considered part of the type-collection. 33. Gesneria pedicellaris Alain Gesneria pedicellaris Alain, Mem. New York Bot. Gard. 21 (2): 146, 1971. Subshrubs: stems woody, erect or pendent, to 0.75 m long, ca 5 mm in diameter at 10 cm below apex, apex resinous, red or green, becoming brown, bark pilose to densely villous with red articulated 116 SMITHSONIAN CONTRIBUTIONS TO BOTANY many-celled trichomes, appearing brown in dried specimens, glabrescent below, lenticels obscure; branches usually from the base, internodes usually very short, seldom to 2 cm long. Leaves alternate, usually congested at apex of stem: petioles sulcate, 0.3-1. 6 cm long, 1-2 mm wide, usually red, villous with numerous short glands; blades oblanceolate or obovate, falcate, 3.7-16.4 cm long, 1. 0-4.2 cm wide, membranous, base cordate, obtuse or cuneate, margin crenate to grossly serrate, apex acute, adaxial surface light or dark green, nitid, scabrous with appressed broad- based white trichomes, veins impressed, abaxial surface lighter green, villous along the red or yellow-green prominent veins, stomata sometimes in groups. Inflorescences axillary, shorter than, equal to, or longer than the subtending leaves, 1- to 4-flowered, erect: peduncles terete, 0.8-10.2 cm long, 1-2 mm in diameter, green or reddish, villous; bracts linear, 1. 2-3.0 cm long, ca 1 mm wide, green, pilose, pri- mary pedicels 1. 5-2.5 cm long, secondary pedicels 2.5-5. 6 cm long, ca 1 mm in diameter, green or red, villous; floral tube obconic, ca 2 mm long, 2. 0-3. 5 mm wide, yellow, green, or red, villous, 10-ribbed; calyx 5-lobed, lobes connate for ca 1-2 mm, erect, linear to lanceolate, 0.4-1. 4 cm long, 2-3 mm wide at base, outside green, sparsely velutinous, 3-nerved, inside green, glabrous; corolla tube curved slightly above the base and curved (Figure 16/) slightly downward above the inflated middle, sparsely velutinous, 1. 9-3.5 cm long, base ca 4 mm in diameter, yellow, middle 5-9 mm in diameter, red-orange, narrowing to 3. 5-5.0 mm in diameter at the red throat, becoming dark red on the limb, inside yellow-orange, glandular-pubescent, limb 5-lobed, oblique, lobes erect, orbiculate, erose to serrate, upper lobes ca 2 mm long, 3 mm wide, lateral lobes ca 1 mm long, ca 2 mm wide, basal lobe ca 1.5 mm long, ca 2 mm wide; stamens 4, not exserted at anthesis, filaments linear, curved, slightly shorter than corolla tube, adnate at the base for ca 1 mm, yellow to white, glabrous, except pubescent near middle, anthers oblong, ca 1.5 mm long, ca 1 mm wide, coherent in 2 pairs, pollen yellow, grains isopolar, prolate, size small (22.2 pm long at the polar axis, 10.6 pm wide at the equato- rial axis), tricolpate, colpi 20.6 pm long, apocolpia rounded (Figure 175), sexine heterobrochate, reticulate, lumina ca 0.3 pm across, muri to 0.5 pm wide; staminode ca 5 mm long; ovary completely inferior, white villous at apex, disc 5-angled, 2 mm wide, white to reddish, glandular, style exserted longer than corolla tube, curved, up to 3.5 cm long, white, pubescent near base, stigma clavate, papillate. Capsule globose, persistent calyx lobes re- flexed, 3-4 mm long, 4-5 mm wide, brown, pilose to glabrescent, costae 10, dehiscent at the apex; seeds striated, ca 0.5 mm long, 0.2 mm wide, tawny, nitid. Type-Collection. — Near Abreu, Dominican Re- public, Alain Liogier 16150 (NY, holotype, Fig- ure 69; F, GH, I J, P, US, isotypes). Distribution and Ecology. — Gesneria pedicel- laris is known only from the north coast of Do- minican Republic (Figure 54), where it grows on shaded steep limestone cliffs at elevations from near sea level to ca 50 m. Flowering collections have been made of this species in the wild during January to March, July, and September. In the greenhouse plants bear flowers throughout the year. Specimens Examined. — HISPANIOLA. Dominican Repub- lic. Province of Maria Trinidad Sanchez: ca 2 km W of Abreu, ca 50 m, 8 July 1970, L. Skog 1589 (BH, US 2 sheets); near Abreu, about sea level, 28 September 1969, Alain Lio- gier 16150 (NY, holotype of Gesneria pedicellaris Alain, consisting of two sheets; F 2 sheets, US, isotypes); near Cabrera, ca 100 m, 28 September 1969, Alain Liogier 16154 (NY, US); El Diamante, Cabrera, about sea level, 21-23 Jan- uary 1972, Alain Liogier 18467 (NY); near la playa del Diamante, between Julia Molina and Cabrera, 1 March 1953, J. Jimenez 2563 (BH, E, RDJ, US); between La Entrada and Abreu, 19 February 1965, T. Talpey 33 (BH, E, US); El Diamante, north from Nagua, 19 February 1965, T. Talpey Sc J. Jimenez 5120 (BH, RDJ, US), T. Talpey 5120 (NY). Cultivated: Cornell University, G-898, 5 October 1969, L. Skog 1415 (BH), 23 June 1966, M. Stone 132 (BH); G-1226, 5 October 1969, L. Skog 1409 (BH), 3 November 1970, L. Skog 1749 (BH); G-1395^ 14 March 1972, L. Skog 1819 (BH). Discussion. — Gesneria pedicellaris (introduced by T. Talpey in 1965) was available in the horti- cultural trade long before it was described as a new species. The plants, however, were distributed as either G. christii Urban, native to southern Haiti, or G. barahonensis Urban, from southern Dominican Republic, both of which G. pedicel- laris resembles. Gesneria pedicellaris can be dis- tinguished from both by the scabrous leaves and the bracts more than 1.2 cm long, from G. barahonensis by the corolla tube more than 1.9 NUMBER 29 117 Figure 69. — Holotype specimens of Gesneria pedicellaris Alain, Alain Liogier 16150 (NY). cm long, and from G. christii by the erect orienta- tion of the flowers in living material and by the leaf margin, which is crenate or serrate, not lobulate. A few hybrids have been produced with species not closely related to Gesneria pedicellaris (see Table 7). Backcrosses to the parents have not been successful (Table 8). The hybrid plants (G-1231, G-1239, G-1245, G-1420) appear intermediate in most morphological characters, but due to their large size, none of the hybrids are likely to have horticultural potential. 34. Gesneria purpurascens Urban Gesneria purpurascens Urban, Symb. Ant. 2:380, 1901 — Mor- ton in Leon and Alain, FI. de Cuba 4:461, 1957. Gesneria yumuriensis N. Britton & P. Wilson, Mem. Torrey Bot. Club 16:109, 1920 [“yamuriensis”]. — Morton in Leon and Alain, FI. de Cuba 4:462, 1957. [Type-collection: Near Rio Yamuri, Cuba, J. Shafer 7786 (NY, holotype; US, isotype).] Slow-growing subshrubs: stems woody, erect or pendent to ca 20 cm tall, 1 cm in diameter at 10 cm below apex, bark smooth and villous to rugose and glabrescent, green or reddish above, becoming brown to gray, apex slightly resinous; branches few, internodes to 0.9 cm long. Leaves alternate, usually closely spaced in a rosette: petioles subsulcate, 0.3-2.0 cm long, 1-2 mm wide, green or reddish, villous with reddish or tawny trichomes; blades spathulate or narrowly obovate, broadest beyond the middle, seldom falcate, 3.9-21.9 cm long, 1. 8-5.0 cm wide, mem- 118 SMITHSONIAN CONTRIBUTIONS TO BOTANY branous, base cuneate to cordate, margin crenate, apex acute or obtuse, adaxial surface strongly bullate, dark green, glandular pubescent when young, glabrescent with age, trichome bases en- larged and white, lateral veins diverging from the midvein at an angle usually greater than 45°, abaxial surface lighter green, with appressed white hairs between veins, veins prominent, trichomes on veins red or green. Inflorescences of several flowers, about one-fifth the length of the subtending leaves: peduncles very short, ca 5 mm long, bracts linear, ca 1.5 cm long, ca 1 mm wide, reddish, pilose, pedicels 0.8- 2.5 cm long, reddish, pilose to villous; floral tube obconic or turbinate ca 2 mm long, 2-3 mm wide, reddish, villous, costae obscure; calyx lobes 5, erect, connate 1-2 mm at base, each narrowly triangular, 0.4-1 cm long, ca 2 mm wide at base of free part, margin entire, apex acute, curved, out- side red, sparsely pilose, 3-nerved, inside red, gla- brous, but glandular; corolla tube ventricose at middle from a narrow base, 2.8-3. 3 (-4.0) cm long, 2-3 mm in diameter at base, broadening to ca 9 mm above middle, then narrowing to 2. 5-4.0 mm at throat, outside yellow at base with red lines, scarlet above, more densely pilose toward apex, inside yellow or with red lines, glabrous, mouth oblique, limb slightly expanded, lobes orbiculate, usually suberose to erose, rarely subentire, upper lobes ca 2-4 mm long, ca 3 mm wide, lateral lobes ca 1.5 mm long, ca 2 mm wide, basal lobe ca 1 mm long, ca 2 mm wide, dark red, glandular, becoming stipitate-glandular at the margin; stamens 4, shortly adnate to base of corolla tube, barely ex- serted beyond mouth to ca 2 mm, filaments ca 3 cm long, yellow, glabrous, anthers oblong, 1.0- 1.5 mm long, 0.5-1. 0 mm wide, yellow, coherent in pairs, staminode ca 6 mm long; ovary inferior, apex pilose, disc annular, 5-angled, style exserted, ca 3.2 cm long, curved at apex, yellow or reddish, sparsely pubescent at base, stigma clavate, papillate. Capsule broadly turbinate, ca 3-4 mm long, ca 6 mm wide, gray-brown, pilose or glabrescent, dehiscing at the apex, costae 5 or 10; seeds fusi- form, striate, ca 1 mm long, ca 0.5 mm wide. Type-Collection. — Oriente, Cuba [1860-1864], C. Wright 3080 (BM, G, K, MO, P); Baracoa, Oriente, Cuba [1861], C. Wright, sn (GOET, lectotype; Figure 66b). Distribution and Ecology. — Gesneria purpur- ascens is known from near the northern coast of the Province of Oriente in Cuba (Figure 68), where it grows in moist places on limestone cliffs from near sea level to 400 m elevation. Flowering specimens have been collected in November through April and August. Specimens Examined.— CUBA. Province of Oriente: northern slope of El Yunque de Baracoa, 300 m, 2 January 1960, Alain Liogier & M. Lopez F. 7178 (US), 14 January 1960, Alain Liogier & J. Acuna 7533 (US); near the base of El Yunque de Baracoa, toward the east, ca 300 m, 14 January 1960, Alain Liogier & J. Acuna 7541 (US), 7546 (US); El Yunque de Baracoa, 300 m, 14 January 1960, Alain Liogier & J. Acufia 7696 (US); side and top of El Yunque, 20 De- cember 1910, J. Shafer 7894 (NY); on rocks by Rio Maca- guanigua, 20 March 1931, L. Bailey 15153 (BH); Baracoa ad Rio Macaguanigua, 19 January 1915, E. Ekman 4328 (G, K, NY, S); Baracoa, March 1903, L. Underwood & F. Earle 235 (NY); vicinity of Baracoa, 18 February, 11 March 1910, J. Shafer 3916 (F, NY 2 sheets, US); Santiago, vicinity of Bara- coa, 24-29 January 1902, C. Pollard, E. Palmer & W. Palmer 42 (CU, F, GH, MO, NY, PH, US); Mata, Baracoa, 14 Janu- ary 1956, Alain Liogier & C. Morton 5101 (GH); Bahia de Mata, Baracoa, 1 February 1952, J. Acuna & Diaz Barreto 17379 (SV, US); ad Mata Bay, 26 November 1914, E. Ekman 3653 (NY, S); Abra del Yumuri, Baracoa, Alain Liogier & C. Morton 5092 ([13 April 1956] GH, [13 January 1956] IJ); Rio Yumuri, entre Baracoa y Maisi, 26 August 1939, Bro. Leon 17249 (US 2 sheets); cliffs near the mouth of the Rio Yumuri, east of Baracoa, near sea level, 13 January 1956, C. Morton & Alain Liogier 9023 (BM, US 2 sheets), 9038 (BM, US); Yumuri prope Baracoa, 25 November 1914, E. Ekman 3636 (F, G, K, S, US); near Rio Yamuri (sic), 6, 8 December 1910, J. Shafer 7786 (NY, holotype of Gesneria yumuriensis N. Britton & P. Wilson; US, isotype); Baracoa, 1861, C. Wright sn (GOET, lectotype of Gesneria purpuras- cens Urban); [locality unknown] 1860-1864, C. Wright 3080 (BM, G 3 sheets, GH, K, MO, P, isolectotypes). Discussion.— The typification of Gesneria pur- purascens Urban is complex and probably in- volves four taxa. In 1846, Morren described Gesneria libanensis, ostensibly from cultivated material, but cited Linden 1833 from Monte Liban, Cuba, as the type. Grisebach, in 1862, made a new combination, Conradia libanensis, based on Morren’s description, but misapplied the name to Jamaican and Haitian plants citing col- lections by MacFadyen and Lane (now at Kew) from Jamaica. In 1866, Grisebach applied the name Conradia libanensis to Linden 1833 and Wright 3080. Although, C. Wright 3080, found in many herbaria, is usually a mixed collection, one NUMBER 29 119 part is truly Gesneria libanensis Linden ex Morren. In 1901, Urban realized the disparity between the Wright collection and the species described as Gesneria libanensis. Urban’s solution follows: (1) the misapplied 1862 name for the Jamaican plants he placed under a new variety of Gesneria acaulis Linnaeus; (2) he cited Grisebach’s 1866 use of Conradia libanensis under Gesneria liban- ensis Linden ex Morren, excluding the 1862 interpretation; and (3) he described a new species, Gesneria purpurascens , based on that part of Wright 3080 collected in 1861 at Baracoa. Later Urban (1912), in an observation under Gesneria barahonensis Urban, cited Conradia libanensis sensu Grisebach as to the Haitian plants men- tioned by Grisebach in 1862, but wrote that he had not seen the Grisebach material. Subsequent search for material from Hispaniola annotated by Grisebach as Conradia libanensis has not been successful. The specimen Urban designated as the type was probably at Berlin and is no longer extant. No other material of Wright 3080 from Baracoa, dated 1861, has been found. Wright apparently numbered his specimens by taxon rather than by collection, and he rarely supplied collection data on the sheets. Only one Wright collection of Ges- neria purpurascens, from Baracoa, 1861, has been found annotated by Urban, but unfortunately it bears no collection number. In view of Wright’s haphazard numbering system, this specimen (at Gottingen) was very likely part of the type gather- ing and is here selected as lectotype to stabilize the nomenclature. The type of Gesneria yumuriensis N. Britton 8c P. Wilson, J. Shafer 7786, differs from typical specimens of Gesneria purpurascens only in being more glabrescent and resinous. In all other char- acters the species are identical. Specimens of both species have been collected from the type-locality of Gesneria yumuriensis and show a range in pilosity. 35. Gesneria reticulata (Grisebach) Urban Gesneria reticulata (Grisebach) Urban, Symb. Ant. 1:478, 1900 & 2:378, 1901 [pro parte, as to basionym], Conradia reticulata Grisebach, Cat. PI. Cub. 201, 1866. Conradia reticulata 3 obovata Grisebach, Cat. PI. Cub. 201, 1866. [Type-collection: Yunque de Baracoa, C. Wright sn (GOET, holotype).] Pentarhaphia reticulata (Grisebach) G6mez de la Maza, Anales Soc. Esp. Hist. Nat. 23:280, 1894. Pentarhaphia reticulata 3 obovata (Grisebach) G6mez de la Maza, Anales Soc. Esp. Hist. Nat. 23:280, 1894. Gesneria cuneifolia var. obovata (Grisebach) Morton, Brit- tonia 9:19, 1957. Gesneria cuneifolia var. disjuncta Morton, Brittonia 9:19, 1957. [Type-collection: Rio San Juan, Dominican Repub- lic, G. Miller 1244 (US, holotype).] Subshrubs: stems herbaceous or seldom woody, erect, to 20 cm tall, 2-4 mm in diameter at 5 cm below apex, green or reddish, glandular-resinous at apex, becoming brown to gray below; branches from near the base, internodes to 1.6 cm long, leaf scars prominent above. Leaves alternate, rosulate or clustered at apex or spread along rapidly growing stems: petioles sulcate, broad, 1-3 mm long, ca 2 mm wide, green or reddish, glandular-pubescent or glabrous; blades oblanceolate, ovate, obovate or spathulate, 1.8- 11.4 cm long, 0.7-5.2 cm wide, membranous, smooth or bullate and wrinkled especially at the midvein, base cordate to cuneate, margin entire to serrulate to grossly dentate, often ciliate, apex acute, rounded or rarely emarginate, adaxial sur- face light to dark green, glabrous or with sparse appressed trichomes, rarely pilose toward the base, abaxial surface lighter green or reddish, glabrous or with sparse appressed pubescence, veins prom- inent and strongly arching, stomata scattered. Inflorescences cymose, of 1-3 flowers, usually ca two-thirds the length of the subtending leaves: peduncles terete, 1-7 mm long, usually short, ca 1 mm in diameter, green or red, glandular; bracts linear or oblanceolate, 3-7 mm long, ca 1-2 mm wide, green or red, glabrous; margin entire or serrate, pedicels terete, 1.5-5. 4 cm long, ca 1 mm in diameter, green or red, glabrous; floral tube broadly obconic, 2-3 mm long, 4-7 mm wide, green or red, glabrous, alate; calyx 5-lobed, porrect to patent, lobes connate ca 1.5 mm at the base, ovate, 4-7 mm long, ca 2 mm wide at base, 2-4 mm wide at middle, apex acute, margin entire, occasionally ciliate; outside green or reddish, gla- brous or sparsely pilose, with 3 prominent veins, inside green or reddish, glabrous; corolla tube cylindric, with a slight bend at throat, tube 1. 1-2.7 cm long, 2. 5-3. 2 mm wide at base, not gibbous, 2.5-3.5 mm at middle, not ventricose, 3. 5-4.5 mm in diameter at throat, outside red, orange-red, or 120 SMITHSONIAN CONTRIBUTIONS TO BOTANY pallid yellow, pilose, inside yellow to orange, gla- brous, limb flaring to patent, 1. 0-2.1 cm wide, sparsely pubescent, lobes 5, serrate or notched, upper lobes obovate, 5-6 mm long, 6-7 mm wide, lateral lobes 5-6 mm long, 4-6 mm wide, basal lobe 4-6 mm long, 5-8 mm wide; stamens 4, adnate for less than 1 mm to base of corolla tube, not ex- serted, filaments slightly curved, 0.9-2.4 cm long, reddish, yellow, or white, glabrous, anthers oblong, ca 1.5 mm long, 1 mm wide, coherent in two pairs; ovary completely inferior, apex pilose, disc 5- angled, unlobed, yellow, glabrous, style curved, 1.0-1. 8 cm long, reddish, yellow to white, glabrous, stigma clavate. Figure 70. — Type specimens: a, isotype of Conradia reticulata Grisebach and Gesneria reticulata (Grisebach) Urban, Wright 3081, including label bearing number 3081 (GH); b, isotype of Conradia reticulata (3 obovata Grisebach (= Gesneria reticulata), Wright sn (GH). Capsule erect, broad to globose, ca 5-5 mm long, 4-8 mm wide, brown to gray, glabrous, de- hiscing at the apex, costae prominent, persistent sepals patent; seeds broadly fusiform, twisted, ca 0.5 mm long, 0.25 mm wide, reddish-brown to black, nitid. Type-Collection. — Yunque de Baracoa, Cuba, C. Wright 3081 (GOET, holotype; BM, G, GH (Figure 70a), K, isotypes). Distribution and Ecology. — Of all known spe- cies of Gesneria , G. reticulata is the most wide- spread with a center of distribution in the moun- tains of Hispaniola and outliers in the Oriente Province of Cuba and in the Luquillo Mountains of eastern Puerto Rico (Figures 54, 65, and 68). Its habitat is usually wet woods, near or at the edge of streams and waterfalls on igneous or lime- stone rocks from 80 to 1200 meters elevation. This species has been collected with flowers in all months except September. In cultivation, plants may flower continuously. Specimens Examined. — CUBA. Province of Oriente: Taco Bay, 5 December 1914, E. Ekman 3753 (S); on the road to Quibijan, Baracoa, 80 m, 1 January 1960, Alain Liogier Sc M. Lopez F. 7151 (US); N of El Yunque, Baracoa, 150 m, 13 January 1960, Alain Liogier Sc J. Acuna 7609 (US); inner valley of El Yunque, Baracoa, ca 500 m, 14 January 1960, Alain Liogier Sc J. Acuna 7543 (US); at the base of El Yunque de Baracoa, 200 m, 2 January 1960, Alain Liogier & M. Lopez F. 7247 (US); El Yunque in rupibus calcareis, 17- 18 December 1914, E. Ekman 3912 (S); slopes and summit of El Yunque, near Baracoa, 1000-2000 ft, 30-31 January 1902, C. Pollard Sc W. Palmer 137 (CU, F, GH, MO, NY, PH, US); El Yunque Mt„ Baracoa, March 1903, L. Under- wood & F. Earle 622 (NY), 690 (NY), 1062 (NY); Yunque de Baracoa, June [1861], C. Wright sn (GOET, holotype of Conradia reticulata (3 obovata Grisebach; GH, isotype); Arroyo Frio, Sra. de Irmas, So. Baracoa, 950 m, 17 July-4 August 1924, Bro. Leon 12180 (GH, NY, US). Locality Unknown: “Cuba,” 1860-1864, C. Wright 3081 (GOET, holotype of Conradia reticulata Grisebach; BM, G, GH, K, isotypes). HISPANIOLA. Haiti. Departement du Sud: Morne de la Hotte, ca 800 m, 10 June 1917, E. Ekman H132 (C, S); Riviere Glace, 750 m, 6 August 1945, L. Holdridge 2184 (US); Massif de la Hotte, group Morne Rochelois, Mira- goane, on the path Lebrun to Quatre-Chemins, ca 700 m, 30 March 1927, E. Ekman H7923 (S); Departement du Nord: Massif du Nord, Port-de-Paix, top of Haut Piton, 1100-1205 m, 6 April 1925, E. Ekman H3711 (EHH, S, US); vicinity of St. Louis du Nord, 30 March-7 April 1929, E. Leonard Sc G. Leonard 14245 (GH, K, MO, NY, US), 2 April 1929, E. Leonard & G. Leonard 14248 (US), 6 April 1929, E. Leonard Sc G. Leonard 14472 (US); Massif du Nord, Bayeux, top of Morne Brigand, 900-1150 m, 20-21 December 1924, E. Ekman NUMBER 29 121 H2972 (S); Port Margot to Correil, 1200-1500 ft, 7 August 1903, G. Nash 196 (NY); ravine NW of Marmelade, 2230 ft, 3 August 1905, G. Nash & N. Taylor 1353 (NY). Departc- ment de l’Ouest: Morne Fourmi, 900 m, June 1905, W. Buch 765 (IJ); Massif de la Selle, Croix-des-Bouquets, Badeau, ca 1200 m, 14 March 1927, E. Ekman H7851 (A, S); Massif de la Selle, Port-au-Prince, Morne Malanga, ca 1200 m, 27 January 1926, E. Ekman H5457 (EHH, F, G, GH, IJ, NY, S, US). Dominican Republic. Province of Pedernales: Agua Negra, Sierra de Bahoruco, 23 March 1967, E. Marcano 5274 (NY, RDJ); Agua Negra, 750 m, 22 March 1967, T. Talpey 77 (BH); Agua Negra, Sierra del Baoruco, 800 m, 17 February 1969, Alain Liogier 13949 (NY). Province of Bara- hona: Canada Maluca, above Barahona, 27 July 1952, R- Howard 12192 (A, US); 1912, M. Fuertes 1411b (K). Prov- ince of Monte Cristi: Distr. of Sabaneta, bank of Rio Cidra, 5-600 m, 30 November 1930, E. Valeur 569 (US). Province of Santiago: overlooking Rio Antonzape Malo, Mata Grande, San Jose de las Matas, 1000 m, 1-7 Octo- ber 1968, Alain Liogier 12965 (NY); Arroyo del Toro, Tamboril, 20 February 1965, E. Marcano & J. Jimenez 5121 (E, NY, RDJ, US); Arroyo del Toro, February 1965, T. Tal- pey 35 (BH). Province of La Vega: Casabito, 6 April 1968, E. Marcano & T. Talpey 5394 (NY, RDJ); Casabito, 10 April 1968, E. Marcano & T. Talpey 5428 (NY, US 2 sheets); 22 km E of El Rio along road toward the Santiago-Sto. Domin- go Hwy, 900 m, 12 August 1970, G. Davidse 2660 (BH, MO); road from Bonao to Constanza, 1000 ft, 29 May 1970, M. Meagher 295 (USF); ca 20 km from El Rio near road from Bonao to El Rio, 16 July 1970, L. Skog 1606 (BH, US 2 sheets); Piedra Blanca, 10 December 1947, H. Allard 17795 (US); 19 January 1948, H. Allard 18902 (BH, US); near Piedra Blanca, at km 73 of the Carretera Duarte, ca 200 m, 12 February 1929, E. Ekman H11544 (K, S, US); banks of Maimon river, 13 April 1954, J. Jimenez 2607 (E, US); near Rio Maimon, along the road from Piedra Blanca to Maimon, ca 500 m, 6 July 1970, L. Skog 1586 (BH, US). Province of Puerto Plata: Gurabito de Yaroa, coffee plantations and woods, Yaroa valley, 350-500 m, 1 May 1968, Alain Liogier 11028 (NY); Cordillera de Yaroa, limestone ridge facing Yaroa valley, 800-850 m, 11 May 1968, Alain Liogier 11234 (F, NY, USF). Province of Duarte: Quita Espuela, vicinity of San Francisco de Macons, 400-1000 m, 5-17 April 1922, W. Abbott 2087 (IJ, NY, US). Provinces of Espaillat or Maria Trinidad Sanchez: Rio San Juan, 22 March 1928, G. Miller 1244 (US, holotype of Gesneria cuneifolia var. dis- juncta Morton). Province of San Cristdbal: Cabirma de la Loma, 600 m, 28 November 1970, Alain Liogier 17752 (NY); Cabirma de la Loma, 19 March 1967, E. Marcano 5207 (BH, NY, RDJ); Cabirma de la Loma, NW of San Cristdbal, 2000 ft, 9 April 1968, T. Talpey 92 (BH); Los Guineos, San Cris- tdbal, 24 March 1958, E. Marcano & J. Jimenez 3656 (RDJ, US). Province of Samana: Yuna river, 28 February 1963, Bro. Basilio Augusto 736 (NY). Province of El Seibo: Liali, banks of Rio Lajiagua, 100-500 m, 8-20 February 1923, W. Abbott 2623 (NY, US). Locality Unknown: “St. Domingo,” 1857, R. Schomburgk sn (K). PUERTO RICO: Sierra de Luquillo, in monte Jimenes, 17 July 1885, P. Sintenis 1343 (BM, G 3 sheets, GH, GOET, K, L, LD, M, P, S, UCWI, US); El Yunque, 6 October 1963, T. Talpey 12 (US); El Yunque forest, km 10 on Route 191, 12 February 1965, T. Talpey 25 (BH, US); at km 10 on Palmer to Florida road through Luquillo Mts., 15 August 1963, R. Wagner 353 (A); on the sides of the waterfall at marker 10.2 km on P.R. Hwy 191, in the Caribbean National Forest (Luquillo Experi- mental Forest), 500 m,. 5 June 1970, L. Skog 1517 (BH), 20 August 1970, L. Skog & J. Skog 1644 (BH); km 14 of Route 191 through Luquillo Mts., 3 April 1965, R. Howard & L. Nevling 15775 (A, US). Cultivated: Cornell University, G-784, 7 October 1964, R. Clark sn (BH), 3 October 1969, L. Skog 1412 (BH), 16 February 1966, M. Stone 117 (BH, NA); Cornell University, G-897, 5 October 1969, L. Skog 1413 (BH), 22 December 1967, M. Stone 350 (BH). Discussion. — Plants of Gesneria reticulata have been brought from Puerto Rico and the Domini- can Republic and grown at Cornell University under the accession numbers G-784 and G-897, respectively. The plants from Puerto Rico avail- able in the horticultural trade under the name Gesneria cuneifolia ‘El Yunque’ were first col- lected at El Yunque peak in the Luquillo Moun- tains by Talpey in 1963 (Talpey, 1966). As a cultivar ‘El Yunque’ was first validly published in 1966 by Katzenberger (as Gesneria cunefolia var. ‘el Yunque’ [sic]). ‘El Yunque’ has been errone- ously misapplied (Elbert, 1973) to plants in culti- vation but probably originally collected by McKee from near Florida in central Puerto Rico. The latter plants are part of Gesneria cuneifolia, while cv. El Yunque correctly refers to cultivated mate- rial of Gesneria reticulata. Section 7. Dittanthera (G. Don) L. Skog, new transfer Conradia section Dittanthera G. Don, Gen. Syst. 4:650, 1838. Pentarhaphia section Codonoraphia (0rsted) Bentham in Bentham & Hooker, Gen. PI. 2:1005, 1876. Pentarhaphia section Vaupellia (Grisebach) Bentham in Bentham & Hooker, Gen. PI. 2:1005, 1876. Gesneria section Codonoraphia (0rsted) Fritsch in Engler & Prantl, Nat. Pflanzenfam. 4(3b):184, 1894. Shrubs or trees: stems erect, to 8 m tall; branches from the base and from the upper leaf axils. Leaves lanceolate, elliptic to obovate, occasion- ally falcate or oblanceolate, membranous to sub- coriaceous, plane to subbullate, glossy. Inflorescences 1- to 4-flowered, exceeding the subtending leaves; corollas infundibuliform-cam- panulate, green, yellow, reddish-brown, or rose; 122 SMITHSONIAN CONTRIBUTIONS TO BOTANY stamens long-exserted, or extending only to the corolla mouth. Capsule turbinate or elongate, costae prominent. Lectotype-Species. — Gesneria exserta Swartz. Discussion. — The ancestral stock of section Dit- tanthera probably included plants similar to those now found in section Pentarhaphia. From this ancestral source of fruticose, hummingbird- pollinated plants, Dittanthera may have evolved as a response to bat-pollination mechanisms. In habit and vegetative characters, this section re- sembles sections Pentarhaphia, Lachnoblaste, and Myrmekianthe. The species in section Dittanthera appear to be distinct from each other by combinations of char- acters and are separated geographically. Any one of the characters may be found in more than one of the species, but not always in the same combina- tions. The large number of taxa in this section have probably evolved due to the high concentra- tion of possible pollinators in the small land area in Jamaica and the other islands. To stabilize the concept of section Dittanthera, Gesneria exserta, one of the species included in Don’s circumscription, is here selected as lectotype species. 36. Gesneria alpina (Urban) Urban Gesneria alpina (Urban) Urban, Symb. Ant. 5:498, 1908. — Adams, FI. PI. Jamaica 681, 1972. Gesneria calycosa var. alpina Urban, Symb. Ant. 2:376, 1901. Shrubs: stems woody, spreading, bark rugose, gray-brown, to 6 m tall, verrucose, lenticels elon- gated; branches 5 mm in diameter at 30 cm from the apex, lower branches to 6.1 m long (fide Stearn), nodes enlarged, leaf scars prominent. Leaves alternate or approximate: petioles sili- cate, 0.7-1. 5 cm long, 1-2 mm wide, green to brown, glabrous, verrucose to smooth; blades ovate to obovate, occasionally falcate, 6.0-11.4 cm long, 3. 5-4.7 cm wide, membranous, base acute or rounded, margin serrate to dentate, apex acuminate, adaxial surface dark green, glabrous, abaxial surface lighter green, glabrous, veins prominent, verrucose. Inflorescence 1-flowered, in leaf axils near branch apices: peduncles terete, 1.0-1. 6 cm long, 1-2 mm in diameter, glabrous, resinous; bracts 2, linear, 4 mm long, less than 1 mm wide, brownish, resinous; pedicels 3. 1-3.9 cm long, 1-2 mm in diameter, wider toward the apex, green, glabrous; floral tube turbinate, ca 4 mm long, 7 mm in diameter, glabrous, resinous; calyx lobes 5, con- nate for less than 1 mm at base, each lobe sulcate at base, 1.5-1. 9 cm long, 2-3 mm wide at the base, outside dark green, glabrous, resinous, inside pilose, resinous;, corolla campanulate, tube 1. 5-2.5 cm long, 6 mm wide at the base, expanding to ca 2 cm wide at mouth, both sides yellow, glabrous, resinous, limb 5-lobed, each lobe glandular, upper lobes ca 8 mm long, 6 mm wide, margin dentate, lateral and basal lobes ca 8 mm long, 9 mm wide, margin subentire; stamens 4, shortly adnate to corolla base, not exserted, filaments linear, ca 16 mm long, pale yellow, glabrous, glandular, anthers oblong, 2 mm long, 1 mm wide, red or brown on back, glandular; ovary inferior, disc annular, 4 mm long, yellow, puberulent with glandular trichomes, style ca 2.3 cm long, exserted, green, puberulous, glandular, stigma stomatomorphic. Capsule turbinate, dehiscing into four valves, ca 1.0 cm long, 8 mm wide, green to gray, glabrous, costae 5; seeds fusiform, twisted, ca 1 mm long, red to brown (Figure 19m). Type-Collection. — Near Blue Mountain Peak, Jamaica, W. Harris 7547 (BM, lectotype, Figure 71a; GH, K, NY, UCWI, isolectotypes). Distribution and Ecology. — Gesneria alpina is known only from the parishes of St. Andrew and St. Thomas in eastern Jamaica (Figure 72) at high elevations of 1100-2200 m. Its habitat is usu- ally limestone soil in deeply shaded, wet, moun- tain forests. Gesneria alpina appears to flower only during the winter months, November to March. The corolla could accommodate the heads of the larger flower- feeding bats in Jamaica, Brachyphylla pamila and Phyllonycteris aphylla, and probably the heads of smaller bats as well, all of which may be pollinators. Sepcimens Examined. — JAMAICA. Parish of St. Andrew: summit cone of John Crow Peak, Blue Mountains, 5500-5700 ft, 24 November 1954, G. Proctor 9526 (IJ); Vicinity of Cinchona, New Haven Gap, 2-10 September 1906, N. Britton 150 (NY); Cinchona, Blue Mountains, leeward slopes, 9 February 1915, /. Harris Sc J. Lawrence C15129 (US); Cin- chona, Blue Mountains, windward slopes, 2 March 1915, J. Harris Sc J. Lawrence C15324 (NY); Cinchona, Blue Moun- tains, leeward slopes, 9 March, 1915, J. Harris Sc J. Law- rence C15394 (US) Cinchona, Blue Mountains, windward slopes, 13 March 1915, J. Harris Sc J. Lawrence C15470 (F); Blue Mts., near Abbey Green, 3500 ft, A. Rehder sn (A). Parish of St. Thomas: above Portland Gap, 5800 ft, 18 NUMBER 29 123 Key to the Species of Section Dittanthera 1. Calyx lobes connate in a cup for over half their length above the ovary; floral tube and capsule linear, elongate, and slender; Jamaica 37. G. calycina 1. Calyx lobes connate for less than one-tenth of their length above the ovary; floral tube and capsule narrowly turbinate to nearly spherical. 2. Stamens and style long exserted, twice as long as the corolla tube or more. 3. Calyx lobes surpassing corolla, sulcate at base; inflorescences 1 -flowered; capsules 1.5 cm long or more; Jamaica 38. G. calycosa 3. Calyx lobes not exceeding corolla, nor sulcate; inflorescences of (1-) 2 or more flow- ers; capsule less than 1 cm long. 4. Leaf bases acute; calyx lobes more than 6 mm long; Puerto Rico 43. G. pedunculosa 4. Leaf bases truncate to cordate; calyx lobes 5 mm long or less; Jamaica 40. G. exserta 2. Stamens and style less exserted, or included, one and one-half times as long as the corolla tube or less. 5. Inflorescences of two or more flowers; corolla green with purple maculae; margin of corolla limb fimbriate; Hispaniola 41. G. fruticosa 5. Inflorescences of a single flower: corolla dull rose, green to yellow with no maculae; margin of corolla limb dentate to subentire; Jamaica. 6. Calyx lobes flat at base; apex of stem, petioles and inflorescences pilose, rarely resinous 39. G. clcmdestina 6. Calyx lobes sulcate at base; apex of stem, etc., glabrous, resinous. 7. Calyx lobes surpassing corolla, spurred on inner surface above sulcus, apex awned, corolla green, reddish-brown or dull rose, tube 1. 1-1.3 cm long 42. G. onychocalyx, new species 7. Calyx lobes shorter than or seldom equaling corolla, not spurred above sulcus, apex not obviously awned; corolla yellow, tube 1. 5-2.5 cm long 36. G. alpina February 1962, C. Adams 10700 (UCWI); Portland Gap, ca 5250 ft, 13 December 1954, G. Proctor 9616 (IJ, NY, US); Portland Gap, ca 5250 ft, 8 January 1956, G. Proctor 8c W. Steam 11451 (IJ); near Blue Mountain Peak, 6500 ft, 30 November 1898, W. Harris 7547 (BM, lectotype of Gesneria calycosa var. alpina Urban; GH, K, NY, UCWI, isolecto- types); near Blue Mt. Peak, 31 January 1893, W. Harris sn (BM, UCWI); Blue Mt. Peak, 13 December 1890, A. Hitch- cock sn (F, MO); west slope of Blue Mt. Peak, 6000-7000 ft, 8 November 1954, G. Proctor 9445 (A, IJ, NY); by side of trail, west spur of Blue Mt. Peak, 6000-6500 ft, 8 January 1956, W. Steam 100 (A, BH, BM, K, P, S, UCWI). Locality Unknown: “America Meridionalis,’’ no date, Shakespear sn (BM). Discussion. — Since no authentic holotype speci- men has been discovered, the specimen of Harris 7547 at British Museum (Natural History) has been selected as lectotype. 37. Gesneria calycina Swartz Gesneria calycina Swartz, Prodr. 90, 1788. — Sw., FI. Ind. Occid. 2:1026, 1800 (“ Gesnera ”). — Lunan, Hort. Jam. 1:322, 1814.— Spreng. Syst. Veg. ed. 16, 2:839, 1825; Fritsch in Engler 8c Prantl, Nat. Pflanzenfam. 4 (3b): 184, 1894. — Urb., Symb. Ant. 2:376, 1901.— Adams, FI. PI. Jamaica 680, 1972. Conradia calycina (Swartz) Martius, Nov. Gen. & Sp. 3:38, 1829 & 3:191, 1832.— G. Don, Gen. Syst. 4:651, 1838.— DC., Prodr. 7:525, 1839. Sinningia calycina (Swartz) Hort. ex Don in Loudon, Hort. Brit. 241, 1830. Gloxinia calycina (Swartz) Hort. ex Steudel, Nom. Bot. ed. 2, 1:690, 1840 (“calicyna”). Gloxinia lindleyi Steudel, Nom. Bot. ed. 2, 1:690, 1840 [pro parte, as to Swartz synonym]. Vaupellia calycina (Swartz) Grisebach, FI. Brit. W. Ind. 460, 1862. Pentarhaphia calycina (Swartz) Hanstein, Linnaea 34:307, 1865. Shrubs or trees: stems woody, erect, bark ex- foliating, gray-brown, lenticels numerous, erum- pent, subverrucose, resin abundant apically and covering younger leaves; branches from enlarged nodes, green-brown, glabrous, internode length less than 1.5 cm. Leaves alternate to approximate, crowded at branch apices: petioles sulcate, 1. 0-3.0 cm long, 1-2 mm wide, green, glabrous, verrucose; blades 124 SMITHSONIAN CONTRIBUTIONS TO BOTANY / Figure 71.— Type specimens: a, lectotype of Gesneria calycosa var. alpina Urban and Gesneria alpina (Urban) Urban, Harris 7547 (BM); b, holotype of Conradia clandestina Grisebach and Gesneria clandestina (Grisebach) Urban, Wilson sn (K). elliptic to oblanceolate or obovate, 12.0-21.6 cm long, 2. 8-5. 5 cm wide, membranous to subcori- aceous, base acute to cuneate, margin slightly crenate to dentate, apex acute to caudate, both sides green, glabrous, abaxial veins prominent, resinous occasionally. Inflorescences axillary, 2- to 4-flowered: pedun- cles terete, 5.8-11.5 cm long, 1-2 mm in diameter, green to brown, verrucose; bracts 2, linear to lanceolate, 0. 8-2.0 cm long, 1-4 mm wide, cadu- cous, glabrous, apex acute; pedicels terete, 1-4 cm long, 1 mm in diameter; floral tube linear, 5-8 mm long, elongating in fruit, 1-2 mm wide, green, glabrous, verrucose, resinous; calyx lobes 5, con- nate at the base for over half their length into a cup, each free portion flat, membranous, ovate, 0.6-1. 6 cm long, 4-8 mm wide, apex acute to rounded, margin entire, green and glabrous both sides, veins prominent; corolla obliquely sub- campanulate, tube 0.8-1. 2 cm long, ca 1.6 cm wide at mouth, inside and outside green, glabrous, limb 5-lobed, each lobe erect, green, rounded at apex, margin subentire; stamens 4, adnate to the base of the corolla tube, exceeding the corolla tube by 6 mm, filaments linear, 2.0-2. 5 cm long, greenish, glabrous, anthers oblong, ca 2 mm long, 1 mm wide, not coherent; ovary inferior, disc annular, entire, style linear, broader toward apex, ca 2 cm long, greenish, glabrous, stigma stomatomorphic. Capsule elongate, splitting into 2 valves from the apex, 1. 2-2.0 cm long, 4-5 mm wide, gray-brown, glabrous, verrucose, costae 10, prominent; seeds NUMBER 29 125 G. calycina = open squares; G. calycosa = solid circles; G. clandestina = open triangles; G. exserta = open circles; G. onychocalyx = solid triangles.) linear, twisted, 1 mm long or slightly longer, less than 0.25 mm wide, reddish-brown (Figure 19/). Type-Collection. — “India occid: Jamaica,” O. Swartz sn (S, holotype. Figure 73 a; BM, LINN, M, UPS, isotypes). Distribution and Ecology. — Gesneria calycina is found in the John Crow Mountains of eastern Jamaica (Figure 72), on moist shaded limestone slopes at 400-700 m altitude. Gesneria calycina has been collected with flowers from November to April. This species may be pollinated by any of the flower- feeding bats in Jamaica (Table 6). Specimens Examined. — JAMAICA. Parish of Portland; 5 mi SW of Priestman’s River, ca 1500 ft, 6 February 1953, G. Proctor 1635 (IJ); Ecclesdown, 1200 ft, 1 March 1961, C. Adams 9096 (UCWI 2 sheets), 29 March 1961, C. Adams 9343 (BM, UCWI); John Crow Mts. above Ecclesdown, 1350 ft, 8 April 1967, A. Katzenberger & R. Katzenberger 108 (RDJ); east slope of John Crow Mts., 1.5 mi SW of Eccles- down, 1500 ft, 3 April 1951, G. Proctor 5682 (IJ, US); east slope of the John Crow Mts., 1.5-2 mi SW of Ecclesdown, 1500-2000 ft, 14 January 1955, G. Proctor 9800 (IJ); east slope of the John Crow Mts., 1-1.5 mi SW of Ecclesdown, 1 March 1961, G. Proctor 22125 (BM, GH, IJ, US); SW of Ecclesdown, 1600 ft, 3 November 1964, T. Talpey 13 (BH); 1-2 mi SW of Ecclesdown, John Crow Mts. foothills, 1500- 2500 ft, 30 March 1958, T. Yuncker 18541 (BM, F, G, IJ, S); Betty’s Hope, near Manchioneal, 3000 ft, 20 March 1858, N. Wilson 463 (GOET, K). Locality Unknown: “Jamaica,” no date, W. Macfadyen sn (K); “India occid: Jamaica,” no date O. Swartz sn (S, holotype of Gesneria calycina Swartz; BM, LINN, M, UPS, istoypes). Discussion. — Gesneria calycina is unusual in the genus in having the calyx lobes connate for over half their length into a cup above the apex of the ovary. The distinctiveness of the very striking calyx was realized by Grisebach (1859-1864) when he erected a new genus, Vaupellia, for the species. The connation in Gesneria calycina is an elabora- tion of the usual condition in the genus, calyx lobes connate for 1-2 mm at the base. In other characters this species resembles others in section Dittanthera. 38. Gesneria calycosa (W. Hooker) O. Kuntze Gesneria calycosa (W. Hooker) O. Kuntze, Rev. Gen. 473, 1891 (“ Gesnera ”). — Fritsch in Engl. & Prantl, Nat. Pflan- zenfam. 4(3b):184, fig. 81a, 1894.— Urb., Symb. Ant. 2:376, 1901.— Adams, FI. PI. Jamaica 681, 1972. Conradia calycosa W. Hooker, Icon. PI. 7: sub pi. 689-690, 1844.— Walp., Repert. Bot. Syst. 6:395, 1847. Pentarhaphia calycosa (W. Hooker) Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:99, 1846.— Walp., Repert. Bot. Syst. 6:735, 1847.— Hanst., Linnaea 26:214, fig. 32a, 1854.— Griseb., FI. Brit. W. Ind. 460, 1862.— Hanst., Linnaea 34:304, 1865. Codonorapliia calycosa (W. Hooker) 0rsted, Cent. Gesn. 68, 1858. Shrubs or trees: stems woody, erect, to 5 m tall, becoming whitish to gray-brown, lenticels ca 2 mm long, white, apex resinous, pith reddish; branches many, internodes 0. 5-2.0 cm long, nodes swollen. Leaves alternate: petioles sulcate, 1. 5-2.4 cm long, 1-2 mm wide, green, glabrous, resinous when young; blades elliptic to oblong, 9.0-17.5 cm 126 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 73. — Type specimens: a, holotype of Gesneria calycina Swartz, Swartz sn (S); b, holotype of Conradia calycosa Hooker and Gesneria calycosa (Hooker) O. Kuntze, Purdie 635 (K). long, 3. 8-6.2 cm wide, membranous, base acute, margin subentire to serrate-crenate, apex acumi- nate, adaxial surface green, glabrous, abaxial side lighter green, glabrous, with a rusty appearance from flaking resin, veins prominent. Inflorescences from axils of young leaves, 1-flowered: peduncles slightly flattened, 1.0-2. 8 cm long, ca 2.5 mm in diameter, glandular, verrucose; bracts 2, linear, 0. 5-2.0 mm long, less than 1 mm wide; pedicels slightly flattened, 2.8-4. 7 cm long, ca 2 mm in diameter, green, glandular; floral tube turbinate, 6-8 mm long, 0.6-1. 1 mm wide at apex, glabrous, resinous; calyx lobes 5, connate at the base for 1.5 mm above ovary apex, each lobe erect, lanceolate, sulcate at base, 2. 6-4.4 cm long, 3-5 mm wide at base, both sides green, glabrous, resinous, midvein prominent; corolla obliquely subcampanulate, tube 1. 6-2.0 cm long, 1.4-1. 5 cm wide at the mouth, outside yellow-green to cream, glabrous, resinous, inside greenish-white, glabrous, limb 5-lobed, patent to suberect, ca 2.5 cm broad, each lobe semiorbiculate, ca 8 mm long, 8 mm wide, margin erose, glandular; stamens 4, adnate to base of corolla tube for about 1.5 mm, exserted about 2 cm beyond corolla mouth, filaments linear, narrowing to apex, curved, to 4 cm long, 1.5 mm wide, green, glabrous, anthers rectangular, 3-7 mm long, 2-3 mm wide, green to pale brown, coherent in 2 pairs by their apices, pollen grains isopolar (Figure 18;), with a nearly circular amb, tricolpate, prolate, size medium (25.5 pm long at the polar axis, 11.0-14.0 pm wide at the equatorial NUMBER 29 127 axis), sexine reticulate, heterobrochate with larger lumina near the equator, 0. 5-1.0 pm wide, at the poles less than 0.25 pm wide, colpi long and narrow, staminode 6 mm long, bearing rudimentary anther; ovary inferior, green, glabrous at apex, disc 5- lobed, green, resinous, style linear, becoming wider near apex, to 4.5 cm long, 1 mm in diameter, green, glabrous, stigma stomatomorphic. Capsule turbinate, elongate to clavate, splitting from the apex almost to the base into 2 or 4 valves, smooth to verrucose, gray-brown, costae 10, prom- inent; seeds linear, twisted, 1-2 mm long, 0.25 mm wide, tawny to brown (Figure I9g). Type-Collection. — Sedburgh, Jamaica, W. Pur- die 635 (K, holotype, Figure 735; GOET, isotype). Distribution and Ecology. — Gesneria calycosa grows in the Cockpit country of central to western Jamaica (Figure 72), in damp forests among lime- stone hills. Gesneria calycosa appears to flower during every month of the year; in the greenhouse this species has flowered continually for two years. The pollinator is probably the flower-feeding bat, Phyllonycteris aphylla. Specimens Examined. — JAMAICA. Parish of Hanover: interior summit slopes of Dolphin Head, 1500-1700 ft, 11 April 1955, G. Proctor 10024 (IJ, NY); interior summit slopes of Dolphin Head, 1500-1700 ft, 7 March 1960, G. Proctor 20688 (IJ). Parish of Westmoreland: 1 mi WNW of Hope- well, 1750 ft, 21 November 1955, G. Proctor 11228 (IJ); vicinity of Woodstock, 24 October 1960, G. Proctor 21517 (BM, GH, IJ); 0.5 mi SW of Darliston, 1300-1500 ft, 24 February 1970, G. Proctor 31252 (IJ); Clarks Wood district, SE of Woodstock, 1300 ft, 24 April 1961, K. Kramer 17 IS (U, WAG); Clarks Wood district, SE of Woodstock, 1200- 1400 ft, 6 February 1961, G. Proctor & W. Mullings 22001 (BM 2 sheets, GH, IJ) Clarks Woods, N of Exeter, 1300 ft, 11 April 1967, A. Katzenberger & R. Katzenberger 112 (RDJ). Parish of St. James: Mocho Road, Catadupa, 1900 ft, 14 February 1906, W. Harris 9178 (F, NY 2 sheets, UCWI, US). Parish of St. Elizabeth: Near Maggotty, 950 ft, 28 Decem- ber 1961, C. Adams 10197 (BM, MO, UCWI). Parish of Trelawny: Windsor estate, ca 400 ft, 23 August 1956, G. Proctor 15684 (BM, F, GH, IJ); Windsor Cave, 5/6/1966, 7. Cornman sn (UCWI); Windsor, 100-150 m, 1 April 1931, G. Miller 1479 (US); ca 3.5 mi WNW of Quick Step near Paynes Patent, 9 March 1949, C. Lewis sn (IJ, US). Parish of Manchester: Inglewood to Endeavour near Mile Gully, 1750 ft, 23 December 1968, C. Adams 13097 (UCWI); vicin- ity of Mandeville, 15-26 February 1910, S. Brown 205 (NY, PH, US); vicinity of Mandeville, 26-30 April 1910, J. Craw- ford 662 (PH, US), 668 (NY); Sedburgh, December 1843, W. Purdie 635 (K, holotype of Conradia calycosa W. Hooker; GOET, isotype). Parish of St. Ann: Albion Pen, 2000 ft, 12/5/1915, W. Harris 12004 (BM, F, K, MO, NY, UCWI, US); 1.2 mi E of Albion, ca 1500 ft, 4 July 1965, G. Webster 13627 (US). Locality Unknown: Port Royal Mountains, June 1843, W. Purdie sn (K); “Jamaica,” 1844, W. Purdie sn (K); “Jamaica,” no date, W. Purdie sn (K, TCD); Jamaica, no date, W. Wright sn (BM). Discussion. — Gesneria calycosa differs from all other known species of Gesneria in having in- florescences of one flower with stamens more than twice as long as the campanulate, green corolla. 39. Gesneria clandestina (Grisebach) Urban Gesneria clandestina (Grisebach) Urban, Symb. Ant. 2:377, 1901.— Adams, FI. PI. Jamaica 681, 1972. Conradia clandestina Grisebach, FI. Brit. W. Ind. 461, 1862. Pentarhaphia clandestina (Grisebach) Fawcett, Prov. List, Jam. 28, 1893. Shrubs: stems woody to within 30 cm of the apex, to 5 m tall, bark rugose, gray-brown, glabres- cent, lenticels elongated, white, erumpent, becom- ing verrucose with age; branches from base and upper leaf axils, to 1.0 cm in diameter, green to red, pilose with reddish-articulate hairs, primary internodes to 12 cm long, others much shorter, 0.2-1. 0 cm long. Leaves alternate: petioles sulcate, 0.8-2.7 cm long, 2-4 mm wide, reddish, pilose with reddish- articulate trichomes; blade elliptic to oblong or oblanceolate, often falcate, 6.9-14.7 cm long, 3.1- 6.1 cm wide, membranous, base rounded to cune- ate, margin serrate or dentate, ciliate, apex acu- minate to caudate, adaxial surface dark green, sparsely pilose, glossy, pubescent, abaxial surface lighter green, pilose along the prominent veins. Inflorescences of one flower: peduncles terete, 4-5 mm long, 1-2 mm in diameter, red, pilose; bracts 2, lanceolate, about 2 mm long, less than 1 mm wide, red, pilose; pedicels terete, 0.9-1. 8 cm long, elongating in fruit, 1-2 mm in diameter; floral tube turbinate, ca 6 mm long, 7 mm wide at apex, red, densely pilose; calyx lobes 5, connate for less than 1 mm at the base, each lobe erect, narrowly ovate, 2. 2-2. 7 cm long, 5 mm wide above the base, margin entire, ciliate, apex narrowly acuminate or caudate, outer surface reddish, densely appressed-pilose, midvein prominent, in- ner surface reddish-green, sparsely pilose; corolla broadly campanulate, tube 1.7-2. 5 cm long, 6-8 mm wide at the base, gradually wider to the 128 SMITHSONIAN CONTRIBUTIONS TO BOTANY mouth, 1. 5-2.5 cm wide, outside greenish-yellow, densely puberulent, inside green, glabrous, limb 5-lobed, each lobe subpatent, broadly ovate, glan- dular, margin entire, upper lobes ca 8 mm long, 9 mm wide, lateral lobes ca 8 mm long, 7-11 mm wide, basal lobes 6-8 mm long, 8 mm wide; sta- mens 4, adnate to the base of the corolla tube, exserted for about 4 mm beyond the corolla mouth, filaments linear, ca 2.9 cm long, red, sparsely pilose, anthers oblong, 4 mm long, 2 mm wide, coherent in 2 pairs by their apices, pollen grains (Figure 18a) isopolar, with a nearly circular amb, size small (18.7-19.2 pm long at the polar axis, 1 1.6-13.7 pm wide at the equatorial axis), tricolpate, colpi 16 pm long, 1 pm wide, apocolpia nearly truncate, prolate, sexine appearing homobrochate, lumina 0.25 pm across, muri about 0.5 pm across, verrucose, warts 1.25 pm across, scattered at ran- dom, about 1 pm apart; ovary inferior, disc annu- lar, style about 3.5 cm long, reddish pilose, stigma stomatomorphic. Capsule turbinate, 1.0-1. 3 cm long, 0.9-1. 1 cm wide, red, glabrescent, costae of 5 prominent wings; seeds narrowly fusiform to linear, less than 1 mm long, red to brown. Type-Collection. — “Jamaica,” N. Wilson sn (K, holotype, Figure 715; GOET, K, isotypes). Distribution and Ecology.— Gesneria clandes- tinei grows in shaded wet mountain forests in eastern Jamaica (Figure 72) at elevations of 350- 725 m. This species has been collected in flower in January, March, and June, with fruits collected about two months later; plants have not yet flowered in cultivation. As with Gesneria alpina, this species may be visited and pollinated by Brachyphylla pumila and Phyllonycteris aphylla among the flower-feeding bats. Specimens Examined. — JAMAICA. Parish of St. Thomas: Cuna Cuna Gap and vicinity, 600-725 m, 13-19 June 1926, W. Maxon 9153 (NY, US); south slopes of Corn Puss Gap, 1600-2000 ft, 1 January 1967, G. Proctor 27755 (IJ); vicinity of Corn Puss Gap, ca 1800 ft, 1 January 1967, G. Gastony 113 (GH): south slopes of Corn Puss Gap, ca 2000 ft, 29 January 1967, G. Proctor 27785 (GH, IJ, U, US); south slope of Corn Puss Gap, 1 March 1969, G. Proctor 29991 (IJ); on the trail to Corn Puss Gap, about 500 ft. from the gap, and 6 miles from Bath, 11 August 1970, L. Skog 1623 (BH, UCWI); John Crow Mountains, valley, SE foothills, 350 m, 2-4 March 1909, N. Britton 3941 (NY); south eastern foot- hills of John Crow Mts., 2 March 1909, W. Harris & N. Britton 10679 (F, NY, UCWI). Locality Unknown: “Ja- maica," no date, N. Wilson sn (K, holotype of Conradia clandestina Grisebach; GOET, K, isotypes). Discussion. — Gesneria clandestina is probably most closely related to G. alpina and G. onycho- calyx; however, both differ from this species in being glabrous and in other characters. Gesneria alpina has a yellow corolla and is more spreading in its growth habit. Gesneria onychocalyx can be distinguished by its longer flower stalks, which are up to 4 cm long, and by its spurred calyx lobes. 40. Gesneria exserta Swartz Gesneria exserta Swartz, Prodr. 90, 1788. — Sw., FI. Ind. Occid. 2:1024, 1800 (“Gesnera'’).— Lunan, Hort. Jam. 1:322, 1814.— Spreng., Syst. Veg. ed. 16, 2:839, 1825.— Urb., Symb. Ant. 2:369, 1901.— Adams, FL PI. Jamaica 681, 1972. Conradia exserta (Swartz) Martius, Nov. Gen. & Sp. 3:38, 1829 & 3:191, 1832.— G. Don, Gen. Syst. 4:650, 1838.— A. P. de Candolle, Prodr. 7:525, 1839. Gesneria corymbosa Herbarium Balbis & Bertero ex A. P. de Candolle, Prodr. 7:525, 1839 [non Swartz (1788), nom. nud. pro syn.]. Pentarhaphia catalpiflora Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:100, 1846 (“catalpaeflora”). — Walp., Repert. Bot. Syst. 6:735, 1847.— Griseb., FI. Brit. W. Ind. 460, 1862.— Hanst., Linnaea 34:303, 1865. [Type-collection: “Jamaica,” J. Wiles sn (G, holotype).] Pentarhaphia lessertiana Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:101, 1846.— Walp., Repert. Bot. Syst. 6:735, 1847. — Hanst., Linnaea 34:302, 1865. [Type-collection: “Jamaica, high mountains,’’ J. Wiles sn (G, holotype).] Pentarhaphia parviflora Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:102, 1846.— Walp., Repert. Bot. Syst. 6:735, 1847. — Hanst. , Linnaea 34:302. 1865. [Type-collection: “Hb. Deles- sert,” (collector unknown), (G, holotype).] Gesneria quadriflora Herbarium Lambert ex Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:102, 1846 [nom. nud. pro syn.]. Pentarhaphia exserta (Swartz) Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:104, 1846 [pro parte, as to the synonyms of Mar- tius and Swartz and the description by Swartz], Codonoraphia catalpiflora (Decaisne) 0rsted, Cent. Gesn. 68, 1858 (“catalpaeflora”). Codonoraphia lessertiana (Decaisne) 0rsted, Cent. Gesn. 68, 1858. Codonoraphia parviflora (Decaisne) 0rsted, Cent. Gesn. 68, 1858. Gesneria catalpiflora (Decaisne) O. Kuntze, Rev. Gen. 2:473, 1891 (“ Gesnera ”). Gesneria lessertiana (Decaisne) O. Kuntze, Rev. Gen. 2:473, 1891 ("Gesnera"). Gesneria parviflora (Decaisne) O. Kuntze, Rev. Gen. 2:473, 1891 ("Gesnera”). Shrubs or trees: stems woody, erect, to 5 m tall, to 2 cm in diameter, bark reddish-brown, resinous NUMBER 29 129 near apex; branches many, 5 mm in diameter, reddish-brown, glabrous and resinous, lenticels elongated, erumpent, internodes 0.3-S.5 cm long, shorter toward the apices, nodes slightly swollen. Leaves alternate: petioles sulcate, 1.5-3. 5 cm long, 2-3 mm wide, green to brown, glabrous, resinous, not verrucose; blades ovate, elliptic to obovate, 6.3-13.5 cm long, 2. 0-5. 3 cm wide, sub- coriaceous, plane, base subcordate to truncate, oblique, margin crenate, apex acute to acuminate, adaxial surface dark green, glabrous, glossy, veins immersed, abaxial surface lighter green, glabrous with prominent veins. Inflorescences 1- to 4-flowered: peduncles terete, 4. 1-6.0 cm long, 1-2 mm in diameter, reddish- brown, glabrous, glandular-resinous; bracts 2, lanceolate, 1-2 mm long, less than 1 mm wide, very resinous; pedicels terete, 1. 3-2.8 cm long, 2 mm in diameter, green, glabrous, resinous, with elongated lenticels; floral tube ca 5 mm long, 7 mm wide, green, glandular-resinous; calyx lobes 5, each linear-lanceolate to triangular, 4-5 mm long, 3 mm wide at the base, apex acute, withering at anthesis, green and very resinous, with one prominent vein; corolla narrowly campanulate, tube ca 1.5 cm long, gibbous at the base, then contracted to 7 mm in diameter, then becoming wider at the mouth, ca 12 mm broad vertically, 7 mm wide horizontally, both inner and outer surfaces of the tube greenish white, glandular, margin suberose and ciliate, upper lobes semiorbiculate, ca 6 mm long, 7 mm wide, erect to patent, lateral lobes ca 9 mm long. Figure 74. — Type specimens: a, holotype of Gesneria exserta Swartz, Swartz sn (S); b, holotype of Gesneria onychocalyx L. Skog, new species, Proctor 9799 (BM). 130 SMITHSONIAN CONTRIBUTIONS TO BOTANY 10 mm wide, reflexed, lower lobe ca 6 mm long, 6 mm wide, reflexed; stamens 4, adnate to the base of the corolla, exserted at anthesis ca 2 cm beyond the mouth of the corolla tube, filaments linear, straight, ca 3.5 cm long, 1 mm in diameter, green, glabrous, anthers rotund, 1 mm long, 1 mm wide, green, glabrous, coherent in two pairs by their apices, staminode 5 mm long, lacking fertile anther; ovary inferior, apex glabrous, disc 5- angled, ca 5 mm long, 3 mm wide, yellow-green, style linear, to 4 cm long, 1 mm in diameter, green, glabrous but for a few appressed trichomes at the base, stigma stomatomorphic, papillate, nectar abundant, clear and viscid. Capsule nearly spherical, dehiscing from the apex into 2-4 valves, 5-6 mm long, 6 mm in diam- eter, brownish, glabrous, resinous, costae 10, not prominent; seeds linear, twisted, about 1 mm long, less than 0.5 mm wide, reddish-brown. Type-Collection. — “India occidentalis: Jamai- ca,” O. Swartz sn (S, holotype, Figure 74a; G-DC, LINN, M, UPS, isotypes). Chromosome Number. — n = 14 (Lee, 1966a). Distribution and Ecology. — Gesneria exserta is endemic to Jamaica (Figure 72) growing in thickets on steep, rocky, shaley slopes or on wooded limestone hillsides at altitudes from 75 to 1200 m. There are collection records for this spe- cies from every month except May. Flowering speci- mens could not be found in Jamaica in early August despite observation in many localities. In the greenhouse, G. exserta has produced flowers in December, January, and April. Bat pollination seems likely for G. exserta, possibly by Glossophaga soricina antillarum. Specimens Examined. — JAMAICA. Parish of St. Eliza- beth: Malvern to Mountainside, 1600 ft, 27 March 1962, C. Adams 10919 (MO, UCWI): Santa Cruz Mountains, Bide- ford district, southwest of Malvern, 1000-2000 ft, 12 August 1954, G. Webster & G. Proctor 5317 (A, BM 2 sheets, US); Bideford district, 1.5 mi due S of Malvern, 2000 ft, 25 Janu- ary 1964, G. Proctor 24513 (BM, MO). Parish of Claren- don: Brown’s Gate to Thomson Town, Mocho Mountains, 2000 ft, 26 June 1960, C. Adams 7283 (MO, UCWI); 2 miles southeast of Crooked River PO, 700 ft, 11 April 1953, G. Proctor 7870 (IJ, NY). Parish of St. Catherine: Bog Walk, 250 ft, 6 December 1953, G. Proctor 8287 (IJ, US, USF); between Flat Bridge and Kensington along Cobre River, 6 November 1964, T. Talpey 22 (BH). Parish of St. Mary: Castleton Road, 600 ft, 27 February 1896, E. Campbell 6246 (UCWI). Parish of St. Andrew: Swain Spring near Coopers Hill, 1900 ft, 29 August 1965, B. Morley 83 (UCWI); Coop- ers Hill, Red Hills, 21 March 1954, G. Proctor 8496 (IJ, NY); Red Hills, on way to Coopers Hill, on rocky slope y4 mi ESE of summit, 2000 ft, 1 January 1956, W. Steam 62 (A, BH, BM 2 sheets); Golden Spring, 267 m, 14 August 1900, W. Fawcett 7986 (F, NY); Golden Spring, 800 ft, 14 August 1900, W. Thompson 7986 (UCWI); Hermitage Dam, ca 1750 ft, 8 January 1944, A. Barry sn (IJ); Moresham River, west side, 14 mi above Hermitage Dam, 7 March 1956, W. Stearn 411 (A, BH, BM 2 sheets); along road between Mt. James and Mt. Airy, ca 1500 ft, 31 January 1970, G. Proctor 31212 (IJ); Road to Gordon Town, February 1885, ]. Hart 1136 (UCWI); Bellevue, 4500 ft, 27 January 1888, H. Eggers 3764 (B, L, US); Flamstead, January 1927, /. Maxwell sn (BM); along trail between Galloway Gap and Flamstead, Port Royal Mountains, ca 3000 ft, 13 December 1947, A. van der Porten sn (IJ); Bellevue, near Flamstead, April 1952, R. Robbins 1514 (UCWI); near Bellevue, 3000-4000 ft, 17 November 1957, T. Yuncker 17404 (BM, F); Guava Ridge, ca 3000 ft, 26 January 1955, G. Proctor 9841 (A, IJ, NY, US); Mt. Rosanna, 3800-4000 ft, 23 October 1964, A. Skel- ding sn (UCWI); ca 1 mi N of Woodford on path to Hard- war Gap, 2500 ft, 14 February 1957, E. Robertson 3220 (UCWI 2 sheets); Irish Town, 2450 ft, 20 December 1959, C. Adams 5821 (BM, UCWI); vicinity of Newcastle, Irish Town, 11 September 1908, N. Britton 3452 (NY); along road to Newcastle about 2 mi above Irish Town, 12 August 1970, L. Skog 1630 (BH); road to Content, 2500 ft, 20 December 1905, W. Harris 9124 (BM 2 sheets, F 2 sheets, K, NY, UCWI, US); Charlottenburg, 7 March 1960, A. Skelding 6705 (UCWI); “Big Rock,” below Cinchona, 11 March 1920, W. Maxon & E. Killip 976 (A, F, GH, NY, US); near Green River, on trail from Cinchona to Whitfield Hall, 22 March 1920, W. Maxon & E. Killip 1351 (A, BM, F, HG, NY, US); Blue Mountains, banks of Green River, 2500 ft, 13 February 1903, A. Rehder sn (A 2 sheets, NY); Clydesdale, 3500 ft, 7 November 1948, R. Bengry sn (IJ, US); Norbrook, 600 ft, 27 December 1895, E. Campbell 6136 (NY, UCWI, US); Nor- brook, 600 ft, 27 December 1895, W. Harris 6136 (F); Hal- berstadt, Port Royal Mountains, 2500 ft, 1924, C. Norman 188 (BM); Halls Delight, 500 m, 15 January 1895, W. Harris 5547 (BM, F, NY, UCWI, US); bei Kingston in d. anderen Bergen, December 1881, F. Lehmann 982 (BM); Sky Ridge above Penfield, 2000 ft, 18 January 1959, A. Skelding 5450 (K). Parish of Portland: near Cedar Valley, ca 1900 ft, 25 November 1962, G. Proctor 22965 (BM, GH, IJ); Hardwar Gap, Silver Hill Gap, 26 February 1941, W. Burrowes 13047 (UCWI); John Crow Peak, J. Hart 1219 (UCWI). Parish of St. Thomas: Sheldon district, below Penlyne Castle, 2000- 2750 ft, 27 December 1955, G. Proctor 11424 (BM, IJ); Arntully, 2900 ft, 3 February 1963, C. Adams 12212 (UCWI); Arntully, ca 3000 ft, 9 March 1963, G. Proctor 23313 (BM); Newfield district, along upper course of the Morgans River, 2000-2500 ft, 7 January 1964, G. Proctor 24429 (IJ); gorge of Plantain Garden River, NNW of Whitehall, 1000 ft, 15 March 1956, W. Stearn 491 (A, BH, BM); gorge of the Plan- tain Garden River, NNW of Whitehall, ca 1000 ft, 15 March 1956, G. Proctor 11781 (IJ); along trail between Whitehall and Big Hill, 1000-3000 ft, 12 February 1953, G. Proctor NUMBER 29 131 7684 (IJ, NY); along east arm of the Morant River between dam and marble quarry, 500-700 ft, 3 February 1966, G. Proctor 26844 (BM, IJ, U); Blue Mountains, December 1951, R. Robbins 1515 (UCWI); Blue Mountains, 1897, C. Hanson sn (C); coffee vegetation of Blue Mt., 28 March 1850, R. Alexander 559 (K). Locality Unknown: “Jamaica,” no date, Dr. Armstrong sn (E-GL); “Jamaica,” 1850, R. Alexander sn (NY); “Jamaica,” 1821, Bertero sn (TO); “Jamaica,” 1822, M. Balbis sn [collected by Bertero] (G-DC); “Jamaica Wald," no date. Goods sn (W); “Gesneria 4-flores,” no date, Hb. Delessert [collector unknown] (G, holotype of Pentarhaphia parviflora Decaisne); Cascade River, 23 June 1926, D. John- son sn (F); Cascade River, 13 July 1926, D. Johnson sn (F); “Jamaica," no date, J. Macfadyen sn (K 2 sheets); “Jamaica,” no date, G. McNab sn (E); “Jamaica,” no date, W. March 1516 (GOET); “Jamaica,” no date, F. Masson sn (BM); Liguana Mts., 20 February 1850, R. Alexander 558 (K); “Jamaica,” 1844, W. Purdie sn (K, 2 sheets); “America Merid- ionalis,” no date, R. Shakespear sn (BM); “India occiden- tal^: Jamaica,” no date, O. Swartz sn (S, holotype of Gesneria exserta Swartz; G-DC, LINN, M, UPS, isotypes); “Jamaique,” 1802, F. de Tussac sn (G-DC); “Jamaica, high mountains, small tree,” no date, J. Wiles sn (G, holotype of Pentarhaphia lessertiana Decaisne); “Jamaica,” no date, J. Wiles sn (G, holotype of Pentarhaphia catalpiflora Decaisne); “Jamaica," no date, N. Wilson sn (K 2 sheets). Cultivated: Cornell University, G-901, 15 April 1966, M. Stone 154 (BH). Discussion. — Gesneria exserta appears to be most closely related to G. pedunculosa of Puerto Rico and is contrasted with that species. 41. Gesneria fruticosa (Linnaeus) O. Kuntze Gesneria fruticosa (Linnaeus) O. Kuntze, Rev. Gen. 2:473, 1891.— Urb., Symb. Ant. 2:374, 1901; 8:646, 1921. Craniolaria fruticosa Linnaeus, Sp. PI. ed. 1, 2:618, 1753. — Plum., PI. Am. 128, pi. 133: fig. 2, 1757. Martynia fruticosa (Linnaeus) Gloxin, Obs. Bot. 15, 1785. Gesneria fimbriata Lamarck, Encyl. Meth. Bot. 2:703, April 1788 [nom. superfl.]. Gesneria craniolaria Swartz, Prodr. 89, July 1788. — Sw., FI. Ind. Occid. 2:1015, 1800 (“ Gesnera ”). — Spreng., Syst. Veg. ed. 16, 2:839, 1825 [nom. superfl.]. Conradia craniolaria (Swartz) Martius, Nov. Gen. & Sp. 3:38, 1829 & 3:191, 1832— G. Don, Gen. Syst. 4:650, 1838.— A. P. de Candolle, Prodr. 7:525, 1839. Pentarhaphia craniolaria (Swartz) Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:99, 1846.— Walp., Repert. Bot. Syst. 6:735, 1847. — Griseb., FI. Brit. W. Ind. 460, 1862. — Hanst., Linnaea 34:303, 1865. Codonoraphia craniolaria (Swartz) 0rsted, Cent. Gesn. 68, 1858. Shrubs: stems woody to within 7 cm of the apex, to 2 m tall, erect, 2.5 cm in diameter near the base; bark reddish-brown or gray, rugose, pilose with colorless articulate trichomes to glabrescent; branches ca 5 mm in diameter, green, pilose, internodes 5 mm long, leaf scars enlarged. Leaves alternate, or rarely opposite and decus- sate: petioles subsulcate or flattened, 2-6 mm long, 3-4 mm wide, green, pilose with red or colorless articulate hairs to glabrescent; blades elliptic to narrowly obtrullate, lobulate above, resembling leaves of Quercus, 11.6 — 22.5 cm long, 3. 1-7.5 cm wide, membranous to subcoriaceous, base cuneate to acute, margin dentate to serrate, apex acute to acuminate, adaxial surface dark green, sparsely pilose to glabrescent, abaxial surface lighter green, pilose to glabrescent on the prominent veins. Inflorescences 1 -flowered, from the axils of usu- ally reduced leaves: peduncles terete, 6.5-21.5 cm long, 1-2 mm in diameter, green or reddish, vil- lous; bracts usually four, linear, 0.5-1. 5 cm long, 1-2 mm wide, green, pilose; pedicels terete, 2-5 cm long, 2 mm in diameter, green or reddish; floral tube turbinate, 5-7 mm long, 5-7 mm in diameter at apex, green to red, pilose, strongly ribbed; calyx lobes 5, erect, connate for about 1 mm at the base, each lobe lanceolate, 1. 1-2.5 cm long, to 6 mm wide at the base, apex acute to acuminate, outside surface green to red, pilose with erect hairs, shorter toward the entire margin, inside surface green to red, puberulent to pilose with appressed glandular and nonglandular hairs, veins not prominent; corolla broadly campanu- late, tube 1. 3-2.4 cm long, 6-9 mm wide at the base, broadening to 1.8 cm wide at the mouth, outside pilose, inside lighter green with purple maculae which are more dense toward the mouth, limb 5-lobed, margins fimbriate, fimbria to 7 mm long, ciliate with glandular trichomes, each lobe erect, broadly ovate, upper lobes ca 7 mm long, 1.1 mm wide, connate for 5 mm, lateral and basal lobes 5-6 mm long, 4-5 mm wide; stamens 4, ad- nate for only 1 mm at the base of the corolla tube, not exserted beyond corolla mouth, filaments linear from a broad base, slightly geniculate, 1.5- 3.0 cm long, 1-2 mm in diameter, green, densely pilose at base, glabrescent toward the apex, anthers ovate, 3-4 mm long, 2-3 mm wide, reddish abaxi- ally, glabrous, coherent in two pairs at their apices, pollen grains isopolar, with a nearly circular amb, tricolpate, colpi 14 pm long, 0.5 pm wide, apocolpia rounded to truncate, prolate, size small (17 pm 132 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 75. — a, Representative specimen of Gesneria frulicosa (Linnaeus) O. Kuntze, Swartz sn (S); b, original manuscript drawing by Plumier of Gesnera arborescens, amplo flore fimbriato, et maculoso (from the Bibliotheque Centrale of the Museum National d’Histoire Naturelle at Paris). long at the polar axis, 9 pm wide at the equatorial axis), sexine with lumina heterobrochate, 0.1 pm across, muri 3 pm across, verrucose, warts about 1 pm across and 1 pm apart; ovary inferior, disc a 5-lobed ring, ca 7 mm long, 6 mm wide, 2 mm thick, yellow, puberulent, style linear, curved, to 3.3 cm long, 1-2 mm in diameter, green to white, reddish toward the apex, pubescent, stigma sto- matomorphic, 2-4 mm wide, papillate. Capsule turbinate, 8-11 mm long, 8-9 mm wide, reddish to gray-brown, pilose to glabrescent, costae 10, prominent; seeds fusiform, about 1.5 mm long, tawny to red. Type. — Description of Craniolaria fruticosa Lin- naeus based on Plumier description (Nov. PI. Am. Gen. 27, 1703) and an unpublished Aubriet copy of Plumier drawing (Figure 756). Distribution and Ecology. — Gesneria fruticosa grows in mesic limestone forests in south-central Dominican Republic and on the southern penin- sula of Haiti at elevations from 500-1500 m (Fig- ure 50). This species has been collected in flower in nearly every month. In the greenhouse a single inflorescence continued to produce flowers for nearly a year. Pollination may be facilitated by visits of the largest flower-feeding bat on His- paniola, Brachyphylla pumila. Specimens Examined. — HAITI. Departement du Sud: NUMBER 29 153 Massif de la Hotte, eastern group, Morne Rouge, at Chapelle Mont Carmel, ca 600 m, 8 November 1924, E. Ekrnan H2429 (EHH, IJ, S 2 sheets, US); along trail down to Bras-Sec [Bois-Sec] and along banks of dry river between Leon and Fond Conchon about 15 miles SE of Jeremie, 1100 ft, 24 July 1970, L. Skog, T. Talpey & D. Pfister 1615 (BH, E, F, NY, S, U, US); Morne de la Hotte in decliv. sept.-orient in mont. sylvatic., ca 800 m, 11 June 1917, E. Ekman H198 (C, K, S). Departement de l’Ouest: Massif de la Selle, Etang du Jonc, in steep limestone rocks at Riviere Froide, ca 700 m, 19 September 1924, E. Ekman H1973 (S). DOMINICAN REPUBLIC. Province of La Vega: Sierra de Ocoa, San Jose de Ocoa, Bejucal, slope of Loma de los Palos Mojados, ca 1500 m, 8 March 1929, E. Ekman H11827 (S); Cordillera Central, Slope of Loma La Campana, ca 800 m, 11 February 1929, E. Ekman H11526 (S). Province of San Cristobal: Cordillera Central, San Cristobal, near Cambita, in Cuchilla de los Mameyes, ca 500 m, 27 January 1929, E. Ekman H11334 (S); La Cabirma, San Cristdbal, 10 April 1968, E. Marcano & T. Talpey 5435 (NY, RDJ, US); La Cabirma de la Loma, north of San Cristdbal about 25 km, 550 m, 19 March 1967, T. Talpey 71 (BH); La Cabirma de la Loma, 2000 ft, 9 April 1968, T. Talpey 94 (BH); Cabirma de la Loma, 750 m, 25 March 1972, Alain Liogier 18513 (NY, US). Locality Unknown: India occid.: Hispaniola, no date, O. Swartz sn (BM, G-DC, LD, M, S Figure 75 a, UPS). Culti- vated: Cornell University, G-1035, 3 November 1970, L. Skog 1737 (BH), 11 May 1972, L. Skog 1829 (BH). Discussion. — In characters of leaf size and shape, habit, habitat, range, and calyx shape, Gesneria fruticosa resembles most closely G. ( Lachnoblaste ) decapleura; the latter species differs, however, in having a red tubular corolla, 2.0-2.5 cm long, and peduncles up to 7 cm long. From other species in this section, G. fruticosa can be distinguished by its fimbriate corolla limb, many-flowered inflorescences, and lobulate leaves. Plants with opposite and decussate leaves are known from a single locality in the Dominican Republic and were brought into cultivation at Cornell University (G-1035). A discussion of this aberrant form is found in the discussion of leaf morphology. Two collections from eastern Cuba, Alain Sc Lopez 7130 and Shafer 8012, are probably referable to G. fruticosa based on habit, vegetative and fruit characters. Lack of flowers makes the de- termination of these two specimens not definite. In lieu of a specimen collected by Plunder, his drawing may serve as representative of the species. A Swartz collection, possibly a topotype, displays many of the characters Plumier illustrated (Figure 75a). 42. Gesneria onychocalyx L. Skog, new species Gesneria sp. B., Adams, FI. PI. Jamaica 681, 1972. Plantae fruticosae, caule lignoso erecto usque ad 3 m alto, cortice ferrugineo verruculoso, ramulis alternis 4 mm in diametris viridi-brunneis glabris resinosis, internodiis 0.5-1 .0 cm longis, nodis tumi- dis, gemmis resinosis. Folia alterna, petiolus sulcatus 0. 8-2.2 cm longus 1-2 mm in diametro viridi-brunneus glaber, lamina elliptica vel ob- lanceolata, interdum falcata 8.4-15.5 cm longa 2. 8-5. 6 cm lata ad basim anguste acuta, secus margines dentata, ad apicem acuminata vel cuspi- data, pagina adaxiali atrovirenti praeter glandulas secus costam glabra, pagina abaxiali pallide viridi glabra, costa prominenti et verrucosa. Infiores- centiae uniflorae, pedunculis teretiusculis 1. 3-3.6 cm longis 1.0-1. 5 mm in diametris ferrugineis glabris resinosis, bracteis 1-2 reductis, pedicellis teretibus, 1.1-1. 3 cm longis 1 mm in diametris, ferrugineis glabris resinosis; tubus floralis turbina- tus, ca 5 mm longus 5 mm ad apicem latus fer- rugineus glaber resinosus, calycis lobis 5 erectis, ad basim 1 mm connatis, ad basim sulcatis, ad sulci apicem calcar usque ad 4 mm longo instructis, superne aristis ad apicem introrsum curvis armatis unguem avis similibus 2. 0-3. 5 cm longis ad basim 5-7 mm latis ferrugineis extus glabris et resinosis intus glandulosis, costis carinatis; corolla campan- ulata, tubus 1.1-1. 3 cm longus, ad basim 5 mm latus, ad orem 1.5 cm latus, extus viridis fer- rugineus vel obscure roseus (fide Proctor) glaber glanduloso-resinosus intus viridis glaber glanduloso- resinosus; limbus leviter expansus, 5-lobatus, glan- dulosus, lobis superioribus suborbicularibus, ca 7 mm longis 8 mm latis ad margines dentatis, lobis lateralibus obtusis ca 7 mm longis 1.0 cm latis ad margines integris, lobo basali rotundo ca 6 mm longo 6 mm lato ad margines integro; stamina 4, ad corollae orem extensa, filamentis linearibus ca 2.3 cm longis rubris glabris resinosis, antheris oblongis 2-3 mm longis 2 mm latis rubris binatim conniventibus; ovarium inferum, apice pubescenti, disco annulari, stylo stamina aequanti rubro gla- bro, stigmate stomatiformi 2-3 mm lato. Capsula turbinata, ca 1 cm longa 8 mm lata viridis vel cinerascenti-brunnea glabra, costis 5 alatis; semina fusiformia torta 1 mm longa 0.25 mm lata fer- ruginea, apicibus elongatis. 134 SMITHSONIAN CONTRIBUTIONS TO BOTANY Type-Collection. — East slope of the John Crow Mts., Jamaica, G. Proctor 9799 (BM, holotype, Figure 74 b; GH, isotype). Distribution and Ecology. — Apparently endemic to eastern Jamaica (Figure 72) on the east slope of the John Crow Mountains in the parish of Port- land, Gesneria onychocalyx is found on moist limestone slopes in thickets. Gesneria onychocalyx has only been collected in flower in January. Flower-feeding bats, Brachy- phylla pumila and Phyllonycteris aphylla, may effect pollination in this species. Specimens Examined. — JAMAICA. Parish of Portland: John Crow Mts., 1.5-2.5 mi SW of Ecclesdown, 1500-2500 ft, 24 January 1956, R. Howard, G. Proctor & W. Stearn 14780 (A, BM): east slope of the John Crow Mts., 1. 5-2.0 mi SW of Ecclesdown, 1500-2000 ft, 14 January 1955, G. Proctor 9799 (BM, holotype of Gesneria onychocalyx L. Skog; GH, isotype); John Crow Mountains, ca 1.3 mi SW of Ecclesdown, 1500-2000 ft, 24 August 1954, G. Webster 5570 (A, BM). Discussion. — Gesneria onychocalyx differs from all known species of Gesneria in possessing sepals with spurs on the inner surface. 43. Gesneria pedunculosa (A. P. de Candolle) Fritsch Gesneria pedunculosa (A. P. de Candolle) Fritsch in Engler & Prantl, Nat. Pflanzenfam. 4 (3b): 184, 1894.— Little, Wood- bury & Wadsworth, Trees of P. R. & V. I. 2:908, 1974. Conradia pedunculosa A. P. de Candolle, Prodr. 7:525, 1839. — A. de Candolle, Calq. des Dess. FI. Mex., pi. 717, 1874.— Stahl, Estudios FI. Puerto Rico, ed. 1, 6:258, 1888; ed. 2, 3:327, 1937. Gesneria exogonia Sesse & Mocino ex A. P. de Candolle, Prodr. 7:525, 1839 [nom. nud. pro syn.]. Pentarhaphia albiflora Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:101, 1846.— Walp., Repert. Bot. Syst. 6:735, 1847.— Hanst., Linnaea 34:302, 1865. — Cook & Collins, Contr. U. S. Natl. Herb. 8:215, pi. 51, 1903.— N. Britt. & P. Wils., Sci. Surv. P. R. & V. I. 6:206, 1925.— N Britt., Addisonia 13:63, pi. 448, 1928. [Type-collection: Antilles, Puerto Rico, A. Plee 866 (P, lectotype; P, isolectotype).] Pentarhaphia pedunculosa (A. P. de Candolle) Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:108, 1846. — Hanst., Linnaea 34:295, 1865. Codonoraphia albiflora (Decaisne) 0rsted, Cent. Gesn. 68, 1858. Conradia pedunculosa var. a pallida Bello y Espinosa, Ana- les Soc. Esp. Hist. Nat. 10:288, 1881 [ex char.]. Conradia pedunculosa var. (3 lutea Bello y Espinosa, Anales Soc. Esp. Hist. Nat. 10:288, 1881 [ex char.]. Tupa acuminata sensu Stahl, Estudios FI. Puerto Rico. 6:29, 1888 [non A. P. de Candolle (1839)]. Gesneria albiflora (Decaisne) O. Kuntze, Rev. Gen. 2:473, 1891 (“Gesnera"). — Urb., Symb. Ant. 2:370, 1901; 4:570, 1911. Gesneria exogonia Sesse & Mocino, FI. Mex. ed. 2, 143, 1894. [Type-collection: “Mexique,” M. Pavon herbarium [Sesse & Mocino ] sn (G, holotype).] Gesneria sp. Sess£ & Mocino, FI. Mex. ed. 2, 143, 1894 [ex char.]. Gesneria biflora S^sse & Mocino, FI. Mex. ed. 2, 144, 1894. [Type-collection: “Mexique,” M. Pavon herbarium [Sesse & Mocino ] sn (G, holotype).] Pentarhaphia longiflora sensu Cook & Collins, Contr. U. S. Natl. Herb. 8:215, 1903 [non Lindley (1827), nec sensu Rolfe (1893)]. Shrubs or trees: stems woody, erect, 0.5-5. 0 m tall, to 2 cm in diameter, bark white, gray to brown, exfoliating, very resinous near apex, pith white; branches many, 3-6 mm in diameter, green to brown, glabrous, resinous, somewhat verrucose, lenticels raised, elongated, internodes very short at the apices of slowly growing branches, to 5 cm long bn young actively growing branches, nodes slightly swollen. Leaves alternate, crowded at the branch apices: petioles sulcate, 1.0-1. 5 cm long, 2 mm wide, green to brown, glabrous, verrucose, resinous; blades elliptic to obovate, 4.6-11.0 cm long, 1. 7-4.8 cm wide, subcoriaceous, plane, base acute, margin subentire to dentate, apex acute, adaxial surface dark green, glabrous, glossy, abaxial surface lighter green to brownish, glabrous with prom- inent veins. Inflorescences 2- to 4-flowered: peduncles terete, 8.3-16.5 cm long, about 1 mm in diameter, green, glabrous, glandular-resinous; bracts not evident; pedicels terete, 2-4 cm long, 1 mm in diameter, green, glabrous; flowers protandrous; floral tube obconic, ca 6 mm long, 6 mm wide, light green, glabrous, glandular-resinous; calyx lobes (4-)5, connate for less than 1 mm at the base, aestivation valvate, each lobe erect, elliptic to narrowly ovate, (6— )7— 10 mm long, ca 4 mm wide at the base, apex narrowly acute, margin entire, outside green, glandular-resinous, midvein prominent, inside lighter green, glabrous, not resinous; corolla campanulate, tube gibbous at the base, then con- stricted, finally ampliate toward the mouth, oblique, tube 1.1-1. 9 cm long, 1.0 cm wide at the mouth, outside yellow-green to pinkish-white, glandular-resinous, inside yellow-green, glabrous, limb 5-lobed, ca 2 cm wide, each lobe reflexed, NUMBER 29 135 upper lobes semiorbiculate, ca 7 mm wide, lateral lobes ovate, ca 8 mm wide, basal lobe rotund, ca 8 mm wide, lateral and basal lobes with occasional red to purple lines on the midvein and purple maculae near the margin at the junction of the lobes, margins undulating and sometimes ciliate; stamens 4, adnate to the base of the corolla tube for less than 1 mm, exserted at anthesis about 2.3 cm beyond the mouth of the corolla tube, fila- ments linear, 3. 2-3. 9 cm long, 1 mm wide, green, sparsely pilose near the base, glabrous above, anthers oblong, 3 mm long, 2 mm wide, coherent in two pairs by their apices, or 1 or 2 free, pollen grains isopolar, with a nearly circular amb, tri- colpate, colpi 22 pm long, 1 pm wide, prolate, size medium (26.5 pm long at the polar axis, 13.5 pm wide at the equatorial axis), sexine reticulate, heterobrochate, with larger lumina near the equator 1—1.5 pm wide, at the polar axis 0.25 pm wide, muri about 1 pm wide, staminode 9 mm long; ovary inferior, apex tomentose, accrescent, disc undulate, ca 5 mm long, 3 mm wide, green, style linear, wider toward apex, at first bent upward, later erect and equaling the stamens, ca 3.2 cm long, green or rubrescent near apex, glabrous, stigma stomatomorphic, 2.5 mm wide, papillate. Capsule obconic, dehiscent from the apex into 4 valves, 6-9 mm long, 5-7 mm wide, brown to gray, glabrous, resinous, costae 10, prominent; seeds elongate, twisted, ca 1 mm long, less than 0.5 mm wide, reddish-brown. Type-Collection. — “Mexique,” M. Pavon Her- barium [Sesse & Mocino~\ sn (G, holotype, Figure 76). Chromosome Number.- — n = 14 (Lee, 1964). Local Names. — “Spanish Tea” (Cook & Collins, 1903), “Arbol de navidad,” (Little et al., 1974). Distribution and Ecology. — Endemic to Puerto Rico (Figure 77) on dry exposed limestone hills at altitudes from 50 to 900 m, Gesnevia pedunculosa has been collected in flower during every month of the year except July. From personal observa- tions in Puerto Rico in 1970, no plants were in flower anywhere during the early summer, but by the end of August this species appeared to be the most common flowering plant in certain areas. In the greenhouse, this flowering schedule is similar. The effective pollinator of this species may be any of the flower-feeding bats in Puerto Rico: Brachy- phylla cavernarum, Erophylla bombifrons bombi- frons, or Monophyllus redmani portoricensis. Specimens Examined. — PUERTO RICO: Prope Aguadilla in sylvis montibus ad Victoria, 27 December 1886, P. Sintenis 5782 (S); near Mayaguez, 100 ft, 9 February 1900, A. Heller 4559 (A, CU, E, F, G, GH, L, MO, NY, P, PH, US); prope Mayaguez in Monte Mesa, 24 October 1884, P. Sintenis 44 (BM, F, G 3 sheets, GH, K, L, LD 2 sheets, M, MO, NY, P, S, UCWI, US, W, Z); vicinity of Mayaguez, Quebrada de Limones, 4-10 March 1906, E. Britton & D. Marble 666 (F, NY, US); Limon road, toward Maricao, km 18.4, 9 Novem- ber 1954, B. Schubert & H. Winters 312 (GH, US); Maricao State Forest, 600-800 m, 31 December 1961, Alain Liogier 9069 (IJ, NY); Maricao to Monte Alegrillo, 650-750 m, 3 April 1913, N. Britton, F. Stevens 8c W. Hess 2561 (F, NY, US); Maricao National Forest, 26 November-4 December 1963, J. Duke 7045 (US); Maricao Federal Forest, Hwy 120, km 4.7 (from Sabana Grande), February 1967, L. Spetzman & /. Diaz Colon 23 (NA); Maricao forest, 28 September Figure 76. — Holotype of Conradia pedunculosa A. P. de Can- dolle and Gesneria pedunculosa (A. P. de Candolle) Fritsch, Pavon Herb. [Sesse 8c Mociho ] sn (G). 136 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 77. — Distribution of Gesneria section Dittanthera in Puerto Rico. (G. pedunculosa = open circles.) 1968, R. Wagner 1664 (A, IJ, MO); along trail near Rio Maricao about 1 km S of the fish hatchery at Maricao, 550 m, 26 August 1970, L. Skog & J. Skog 1705 (BH); along PR Hwy 120 at marker 16.5 km on Las Tetas de Cerro Gordo in the Forest Reserve at Maricao, 800 m, 26 August 1970, L. Skog & J. Skog 1688 (BH, MO, US); Indiera Fria, Mari- cao, 8 October 1913, W. Hess 3431 (NY); km 8 between Sangre [Sabana?] Grande and Maricao, 22-30 January 1963, R. Howard & L. Nevling 15372 (A, U); Sabana Grande, 29 May 1935, F. Sargent 710 (US); near Sabana Grande, on road to Maricao, km 4.4, 14 November 1954, B. Schubert , H. Win- ters & 7. Velez 329 (GH, US); Quebradillas, 3 February 1926, H. Gleason & O. Cook G-41 (NY); prope Pepino in detiori- bus umbrosis ad Eneas, 10 January 1887, P. Sintenis 5832 (BM, G, GH, K, L, US, W); Yauco, 1880, A. Garber 59 (GH, K, NA, NY 2 sheets, PH); Yauco, 3 October 1913, F. Stevens & W. Hess 3257 (NY); Lares, 400-500 m, 6 April 1913, N. Britton, E. Britton & W. Hess 2745 (NY, US); along PR Hwy 129 about 8 km E of Lares, 27 August 1970, L. Skog & J. Skog 1706 (BH, US); barrio Hoyo Nial, Lares, Lares- Camuy road, January 1950, 7. Velez 3673 (US); along path toward the left just before entrance to Cornell Radar in Esperanza south of Arecibo, ca 1000 ft, 14 February 1965, T. Talpey 26 (BH, US); Arecibo to Utuado, 15-20 March 1906, N. Britton & J. Cowell 403 (F, NY, US); Utuado, 1864, R. de Grosourdy Cat. no. 13 (P); prope Utuado in scopulo- sis ad los Angeles, 17 January 1887, P. Sintenis 5910 (BM, GH, K); 2 mi W, Utuado, 1500 ft, 29 March 1972, E. Little & R. Woodbury 26170 (US); Monta-Llano, 17 November 1899, G. Goll 459 (NY, US); Barceloneta, S of Florida, 250 m, 23 August 1963 , 77. McKee 10619 (P, US); along route 140 near Florida, 27 September 1967, R. Wagner 1234 (A); Toro Negro area, 25 August 1965, R. Wagner 640 (BM, U); prope Manati in fruticetis ad Coto, 27 April 1887, P. Sintenis 6755 (G, L, US, W); Manati, 13 June 1914, /. Stevenson 547 (US); vicinity of Coamo Springs, 7 February 1922, N. Brit- ton, E. Britton & M. Brown 5915 (F, G, NY, US); Coamo Springs and vicinity, 17-22 March 1913, E. Britton & D. Marble 2254 (NY, US); prope Coamo ad rivulum Moreno, 18 December 1885, P. Sintenis 3153 (M, MO, NY); Higuillar, S. of Dorado, 8 February 1964, Alain Liogier 10685 (F, IJ, NY, US); near Toa Alta, north of road toward Esperanza, km 23.7 of Route 2, November 1966, T. Talpey 62 (BH); prope Aybonito in convalli ferminis Guava, 2 December 1885, P. Sintenis 2950 (BM, F, G 3 sheets, GH, K, L, LD, M, MO, NY, P, US, W); Rio Piedras, Comerio, 10 August 1913, J. Johnston 922 (NY); District Bayamon, Cayey, Bo. Maton, 5 January 1938, /. Otero 422 (A, MO, US); inter Cayey et Cidra ad flumen “Plata,” 16 October 1885, P. Sintenis 2311 (C); prope Cayey ad Campito, 30 September 1885, P. Sintenis 2314 (BP, P, Z); Bayamon, 11 November 1899, G. Goll 225 (US); Bayamon, November 1887, A. Stahl 675 (L, S); moun- tain between Cuayama and Cayey, 700-900 m, 15 March 1922, N. Britton, E. Britton & M. Brown 6534 (NY); moun- tain road near Cayey, 7 October 1963, R. Wagner 412 (A, BM, U); bank above Caguas, 15 February 1928, N. Britton & E. Britton 9003 (NY), 9093 (GH). Locality Unknown: Hill west of Mayaurou [?], 1 February 1924, N. Britton & E. Britton 7938 (NY); “Mexique,” no date, M. Pavon herbarium [Sesse & Mocino] sn (G, holotype of Conradia pedunculosa A. P. de Candolle, Gesneria exogonia Sesse & Mocino, and Gesneria biflora Sesse & Mocino); “Porto Rico, Antilles,” 1846, A. Plee 409 (P 2 sheets, TCD); “Antilles, Puerto Rico,” no date, A. Plee 866 (P, lectotype of Pentarhaphia albiflora Decaisne; isolectotype, P); “Porto Rico,” no date, A. Riedle sn (P); “Porto Rico,” no date, A. Stahl sn (GOET). Culti- vated: Cornell University, G-767, 6 January 1964, R. Clark sn (BH), 5 October 1969, L. Skog 1406 (BH), 10 June 1968, M. Stone 412 (BH); Hort. Kew, October 1883, A. Garber 59 (K); Hort. Kew, 6 December 1883, A. Garber 59 (K). Discussion. — Gesneria pedunculosa is most simi- lar to and probably most closely related to G. exserta Swartz from Jamaica. It differs from the NUMBER 29 137 latter species in having the leaves acute at the base rather than truncate, the sepals elliptic to narrowly ovate and 0.6-1. 0 cm long as opposed to sepals linear-lanceolate to triangular and about 5 mm long, and in having purple lines and maculae on the corolla. Plants included in this species were known for many years under the epithet “albiflora” of De- caisne based on a Plee collection from Puerto Rico. The type of Conradia pedunculosa A. P. de Candolle was believed to have been collected in Mexico by Sesse and Mocino. Plants of this species have not since been known from Mexico, but are known from Puerto Rico where Sesse and Mocino also collected. One of the taxonomic synonyms included here, Gesneria sp. described in Sesse and Mocino’s Flora Mexicana (1894), has as its locality, Toa Alta, a region in Puerto Rico where Gesneria pedunculosa grows today. This locality was also given for G. cuneifolia considered by Fritsch (1894) and others to come from Mexico, but now known from Puerto Rico. Denham (1968) con- sidered the evidence for uniting G. albiflora and G. pedunculosa and concluded that they are synonymous; I agree with his conclusions. The specimen in the Moricand herbarium (now at the Conservatoire et Jardin botaniques, Geneve, Switzerland), which de Candolle used as the holo- type for Conradia pedunculosa, agrees with other material from Puerto Rico. De Candolle also used plate 717 of the copies of the original Sesse and Mocino drawings as a basis for his name. Denham stated that this plate must serve as the lectotype for the name; however, this is unnecessary since the specimen fitting the description and annotated by de Candolle can serve as the holotype. Specimens of Gesneria pedunculosa in many herbaria have been misidentified as Pentarhaphia longi flora Lindley (= Gesneria ventricosa Swartz), probably because of a misidentification by Urban of a specimen collected by Sintenis in 1884 and sub- sequently widely distributed. Without flowers, the morphological characters may remind one of Gesneria ventricosa in a cursory examination. The error persisted in herbaria and was put into print by Cook and Collins (1903). The specimen from the Cook and Collins expedition to Puerto Rico labeled “Pentarhaphia longiflora” ( Goll 459, US) is truly Gesneria pedunculosa. Section 8. Duchartrea (Decaisne) Fritsch Gesneria section Duchartrea (Decaisne) Fritsch in Engler & Prantl, Nat. Pflanzenfam. 4(3b):184, 1894. Pentarhaphia section Duchartrea (Decaisne) Bentham in Bentham & Hooker, Gen. PI. 2:1005, 1876. Plants erect, stems to 5 m tall, branching from the base. Leaves elliptic to obovate, membranous to coriaceous, plane, glossy. Inflorescences 1- to oo -flowered, exceeding the sub- tending leaves at anthesis: corollas infundibuliform- campanulate, green, brown, red to purple; stamens included, green or yellow. Capsules turbinate, verrucose; costae obscure. Type-Species. — Gesneria viridiflora (Decaisne) O. Kuntze. Discussion. — Plants of section Duchartrea are difficult to distinguish morphologically on the basis of reliable and consistent characters when dried as herbarium specimens. Living plants in the greenhouse offer only a few clues to the biology of the plants in the field. Characters that may be important in the biology of the plant in its en- vironment in the wild, such as colors, textures, or odors which may serve as attractants to pollinators, are seldom available on preserved material. From examination of herbarium material, supplemented by observations in the field and greenhouse, the four taxa in Duchartrea are here distinguished as subspecies of a single variable species. The sub- species are each found in one of four widely sepa- rated regions: eastern Cuba, southwestern Haiti, north-central Dominican Republic, and north- eastern Puerto Rico, a distribution similar to Ges- neria reticulata (Grisebach) Urban. Due to the geographic isolation of the taxa, the pollinators are likely to be different; however, the pollinators are probably closely related to each other ( i.e ., species of the same genus) or are similar in char- acters important for pollination (i.e., size and shape of rostra of bats, etc.), so that the plants have apparently evolved similar organs for re- production or attraction. It is probable that if a plant from one subspecies were transplanted to the locality of another subspecies, cross-pollination and interbreeding may occur. Crosses in the green- house have not been achieved because Gesneria viridiflora subsp. sintenisii has never produced open flowers. 1S8 SMITHSONIAN CONTRIBUTIONS TO BOTANY Habitats differ somewhat among the subspecies. Gesneria viridiflora subsp. sintenisii is found in wet depressions usually on lateritic soil; G. viridi- flora subsp. quisqueyana and subsp. acrochordon- anthe are probably found on drier limestone ex- posures, but subsp. acrochordonanthe is found also on laterite, and the typical subspecies is located in both wet and dry habitats. Gesneria viridiflora subsp. sintenisii when grown in dry conditions in the greenhouse produces abundant resin, seemingly as a response to the drier environment and similar to the resinous condition of other subspecies. In humid conditions the same subspecies produced flexible membranous leaves different from the rigid coriaceous leaves of Gesneria viridi- flora subspecies quisqueyana in the same green- house environment. The pollen characteristics among the subspecies investigated are similar (Figures 17a, 18b). Morton (1957) divided Gesneria viridiflora into three varieties on the basis of leaf characters; however, his varietal distinctions are not main- tained here because of observations made in the field and in the greenhouse on Gesneria viridiflora subsp. sintenisii and subsp. quisqueyana. Popula- tions of a species can display wide variation in leaf characters, probably due to response to ecolog- ical pressures during ontogeny. The development of leaves in this group is unusual: the midvein develops first and projects beyond the stem apex like a finger, and a group of developing leaves appears clawlike. Much later the lateral laminar meristem becomes active. Any injury to the latent lateral meristem by drying, or response to sun or shade, appears to affect the ultimate leaf shape. Living plants of Gesneria viridiflora subsp. viridi- flora should be tested to determine if the same re- sponses are possible, for they would determine the validity of infraspecific taxa based on vegetative characters. As a group, the plants in this section are prob- ably descended from plants similar to those found in section Myrmekianthe , but they are presumed to have responded to the development of bat pollination. Corolla and vegetative characters of this section resemble those found in a few species of Rhytido- phyllum, which may suggest either parallel or convergent evolution in response to pollination mechanisms, or an exchange of genes in the dis- tant past. However, the similar species of Rhytido- phyllum — R. grande (Swartz) Martius from Ja- maica and another from southwestern Hispaniola — occur at the present time far removed from most of the subspecies of section Duchartrea. 44. Gesneria viridiflora (Decaisne) O. Kuntze Gesneria viridiflora (Decaisne) O. Kuntze, Rev. Gen. 2:473, 1891. Shrubs: stems woody, erect, to 6 m tall, bark rugose to smooth, gray to yellow or reddish, ver- rucose, glabrous, striated, apex resinous, lenticels elongated, erumpent; branches few, from the base, green to brown. Leaves alternate: petioles sulcate to terete, 0.7- 2.8 cm long, 1-4 mm in diameter, green to red or brown, glabrous, verrucose, resinous; blades nar- rowly elliptic to obovate, 5.1-18.4 cm long, 1.9-7. 5 cm wide; coriaceous, base narrowed to cuneate, acute or cordate, sometimes oblique, margin entire to serrate, apex retuse or obtuse to acute, adaxial surface green, glabrous, glossy, midvein sometimes bearing glandular trichomes, abaxial surface green or copper-colored, glabrous, midvein prominent, reddish or green, verrucose, lenticels sometimes elongated. Inflorescences of one to many flowers, usually exceeding the subtending leaves: peduncles terete, 3.4-18.5 (-25) cm long, 2-4 mm in diameter, be- coming wider toward the apex, reddish-brown, verrucose, glabrous, resinous; bracts 2-4, linear to ovate, 0.6-1. 2 cm long, 3 mm wide, red, resinous; pedicels terete, 0.5-1. 4 (-7.0) cm long, 1-3 mm in diameter, red to brown, glabrous; floral tube nar- rowly to broadly turbinate, 4-7 mm long, 3-5 mm wide, green to reddish-brown, glabrous, sometimes verrucose; calyx lobes (4-) 5, erect to spreading, connate for 1 mm at their bases, each narrowly ovate to sulcate, sometimes keeled, thickened apically or rounded, 0. 5-1.1 cm long, 1-3 mm wide at the base, both sides green to red, glabrous, some- times resinous, inside sometimes puberulent, veins not prominent; corolla campanulate, tube ca 1.2 cm long, oblique at the base, 3-7 mm wide, nar- rowed to 3-4 mm at the middle, then expanding to 1.0-1. 2 cm wide at the oblique mouth, outer sur- face yellow-green to red or purple to pallid brown, puberulent with glandular hairs to glabrous, res- NUMBER 29 139 inous, glossy, inner surface pilose to glabrous, green, usually with reddish veins, limb 5-lobed, upper lobes semiorbiculate, 3-5 mm long, 0.6-1. 3 mm wide, lateral lobes rounded, 4-5 mm long, 0.6-1. 1 cm wide, basal lobe rounded, 4-5 mm long, 8 mm wide, margins entire to dentate or fimbriate; stamens 4 (-5), adnate to base of the corolla tube for about 1 mm, included, filaments linear, curved or geniculate, 0.9-1. 6 cm long, 1 mm wide, green to red, pilose to glabrous, anthers oblong to ovate, 2-3 mm long, 1.5-2 mm wide, coherent in two pairs by their apices; ovary inferior, apex pilose, disc annular, 5-angled, style 1.3-1. 6 cm long, 1-2 mm in diameter, green to yellow at the base, red- dish toward the apex, puberulent, stigma stomato- morphic, papillate. Capsule turbinate to nearly spherical, 0.5-1 .2 cm long, 4—8 mm wide, reddish-brown, verrucose, resinous, costae 5-15, not prominent; seeds linear to fusiform, twisted, 0.5-1. 0 mm long, 0.25 mm wide, reddish-brown. 44a. Gesneria viridiflora subsp. acrochordonanthe L. Skog, new subspecies Plantae fruticosae, caule lignoso, cortice ferrugi- neo glabro verrucoso ad apicem resinoso. Folia alterna; petiolus sulcatus, 0.9-1. 8 cm longus, 1-3 mm in diametro, rubellus, verrucosus; lamina el- liptica vel obovata, 6.8-11.9 cm longa, 2. 1-4.8 cm lata, coriacea, ad basim acuta, ad margines serrul- ata vel serrate, apice rotundo vel acuto, pagina adaxiali viridi glabra praeter venam mediant puberulenti, pagina abaxiali ferruginea glabra vena media prominente resinosa. Inflorescentiae 1- ad oo-florae, pedunculis teretibus 9.7-16.2 cm longis 2-3 mm in diametris verruculosis, bracteis ellipticis ca 3 mm longis verrucosis, pedicellis teretibus 0.6-1. 5 cm longis 2 mm in diametris; tubus floralis turbinatus, ca 5 mm longus, 4 mm in diametro, ferrugineus, verrucosus, resinosus; calycis lobi 5, late lineares, 5-6 mm longi, 2 mm lati, extus et intus ferruginei, resinosi, apice quam basi aliquantulum crassiore; corolla campanulate, tubo (in corollis immaturis visis) 6 mm longo viridulo maculas rubras ferenti verrucoso resinoso, limbo 5-lobato, lobis superioribus 4 mm longis, 5 mm latis ad margines fimbriatis trichomata gland- ulosa gerentibus, lobis lateralibus 3 mm longis 5 mm latis ad margines integris, lobo basali 4 mm longo 6 mm lato ad margines integro, staminibus 4, filamentis ad corollae basim 1 mm adnatis cur- vatis, antheris binatim conniventibus, ovario in- feriore apice puberulente disco annulari. Capsula turbinata 0.6-1. 0 cm longa 6-8 mm lata grosse verrucosa costis obscuris, seminibus elongatis fusi- formibus, 1 mm longis minus quam 0.25 mm latis ferrugineis apicibus elongatis. Type-Collection. — St. Louis du Sud, Bonnet- Carre, Haiti, E. Ekman H9236 (S, holotype; EHH, K, US Figure 78 a, isotypes). Distribution and Ecology. — This subspecies is known from southwestern Haiti in the Massif de la Hotte, in forests on limestone and lateritic soil at altitudes from 1000-1200 m. Gesneria viridiflora subsp. acrochordonanthe has been collected in flower only in November. The plants are probably bat-pollinated and may be visited by any of the flower-feeding bats found on Hispaniola (Figure 79). Key to the Subspecies of Gesneria viridiflora 1. Capsule grossly verrucose; upper corolla lobes fimbriate; calyx lobes thickened apically, or if rounded to acute, then corolla verrucose; leaves coriaceous. 2. Corolla verrucose; calyx lobes rounded to acute; southwestern Haiti 44a. subsp. acrochordonanthe, new subspecies 2. Corolla smooth; calyx lobes thickened apically; Cuba 44d. subsp. viridiflora 1. Capsule smooth to finely verrucose; upper corolla lobes entire to denticulate; calyx lobes rounded to acuminate; corolla not verrucose; leaves coriaceous or membranous, at least when young. 3. Leaves membranous when young, becoming subcoriaceous, abaxial surface green; upper corolla lobes entire; minor leaf veins obscure; Puerto Rico 44c. subsp. sintenisii, new rank 3. Leaves coriaceous even when young, abaxial surface copper-colored; upper corolla lobes denticulate; minor leaf veins obvious; Dominican Republic 44b. subsp. quisqueyana, new rank 140 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 78. — Type specimens: a, isotype of Gesneria viridiflora subsp. acrochordonanthe L. Skog, new subspecies, Ekman H9236 (US); b, holotype of G. quisqueyana Alain and G. viridiflora subsp. quisqueyana (Alain) L. Skog, new rank, Alain Liogier 15386 (NY). Specimens Examined. — HAITI. Departement du Sud: Massif de la Hotte, western group, Torbeck, Formon, 1000 m, 4 January 1927, E. Ekman H7572 (EHH, G, IJ, NY, S, US); Massif de la Hotte, central group, St. Louis de Sud, Bonnet-Carre, ca 1200 m, 2 November 1927, E. Ekman H9236 (S, holotype of Gesneria viridiflora subsp. acrochordonanthe L. Skog; EHH, K, US, isotypes). Discussion. — The material included in this sub- species was considered by Urban to belong to Ges- neria sintenisii; however, the distinctive fimbriate and verrucose corolla separates these plants from the Puerto Rican material. 44b. Gesneria viridiflora subsp. quisqueyana (Alain) L. Skog, new rank Gesneria quisqueyana Alain, Mem. New York Bot. Gard. 21 (2): 147, 1971. Gesneria sylvicola Alain, Phytologia 25:276, 1973. [Type- collection: La Descubierta, Dominican Republic, Alain Liogier 18024 (NY, holotype; US, isotype).] Plants to 6 m tall. Leaves alternate: petioles sulcate, 0. 7-2.0 cm long, green to brown; blades elliptic to narrowly obovate, 6.3-18.4 cm long, 2. 1-4.6 cm wide, cori- NUMBER 29 141 Figure 79. — Distribution of Gesneria section Duchartrea in Hispaniola. (G. viridiflora subsp. acrochordonanthe = solid squares; G. viridiflora subsp. quisqueyana = solid circles.) aceous even when young, base narrowed to acute, apex retuse to acute, abaxial surface copper- colored or reddish-brown. Inflorescences 1- to many-flowered; peduncles 9.3-18.5 (-25) cm long, 3-4 mm wide at the base, up to 1.0 mm wide at the apex, brown, glabrous, resinous; bracts 3, linear-lanceolate to ovate, 0.3- 1.2 cm long, apex rounded, green to brown; pedi- cels to 1.0 cm long; floral tube ca 4 mm long, 3-4 mm in diameter, green to brown; calyx lobes 5, narrowly ovate, sulcate, 0. 8-1.1 cm long, 2-3 mm wide at the base, apex rounded, outside green to red, inside reddish, sometimes puberulent; corolla (Figure 16m) ca 1.0 cm wide at the mouth, inside usually with reddish veins and maculae, or all green, pilose with glandular hairs, limb sparsely glandular, upper lobes ca 4 mm long, to 6 mm wide, margin denticulate, lateral and basal lobes 5 mm long, to 8 mm wide, margin entire; staminal filaments slightly geniculate, 1.6 cm long, green to yellow, pilose at the base, glabrescent toward the apex, anthers broadly ovate, 2 mm long, 1.5 mm wide, glandular, staminode ca 8 mm long; disc 5-angled, ca 5 mm long, 3 mm wide, green, puberulent, style ca 1.6 cm long, sparsely puberu- lent, stigma stomatomorphic. Capsule turbinate to nearly spherical, 0.8-1. 2 cm long, 8 mm wide, finely verrucose, costae obscure. Type-Collection. — La Cumbre, Jamao, Domini- can Republic, Alain Liogier 15386 (NY, holotype, Figure 786; GH, NY, isotypes). Distribution and Ecology. — Apparently endemic to the mountains of northern central Hispaniola (Figure 79), growing on limestone cliffs, 700-900 m elevation, Gesneria viridiflora subsp. quisquey- ana has been collected in flower in February, May, June, and August. In the greenhouse, this species flowers from late January to late summer. This subspecies may be pollinated by the bats, Erophylla bombifrons santacristobalensis or Monophyllus cubanus ferreus. Species Examined. — HISPANIOLA. Dominican Republic: Province of Puerto Plata: Cordillera Septentrional, Loma del Puerto, 700-800 m, 4 June 1969, Alain Liogier 15543 (NY, US). Province of Santiago: Cordillera de Yaroa, lime- stone ridge, 850 m, 11 May 1968, Alain Liogier 11204 (NY, US); Cordillera de Yaroa, near the trail to Arroyo del Toro, 800-850 m, 28-29 June 1968, Alain Liogier 11866 (NY, US); Arroyo del Toro, Puerto Plata, 3 August 1958, J. Jimenez 3728 (RDJ, US); Arroyo del Toro, Tamboril, 800 m, 20 February 1965, E. Marcano & J. Jimenez 5131 (BH, E, GH, NY 2 sheets, RDJ 2 sheets, US); north of El Toro mountain on limestone rocks above village of Arroyo del Toro, 20 February 1965, T. Talpey 34 (BH, US). Province of La Vega: La Descubierta, Constanza, 1300 m, 1-2 May 1971, Alain Liogier 18024 (NY, holotype of Gesneria sylvicola Alain; US, isotype); Cuatro Alas, NW of La Culata, 1500-1600 m, Alain Liogier 13078 (NY, US); Loma de la Sal, Jarabacoa, 17-18 June 1968, Alain Liogier 11710 (NY, US). Province of Espaillat: in wood on limestone crest, La Cumbre, Jamao, Moca, 700-800 m, 27 May 1969, Alain Liogier 15386 (NY, holotype of Gesneria quisqueyana Alain; GH, NY 2 sheets, isotypes); Cordillera Septentrional, Moca, Colonia de Jamao, ca 900 m, 21 May 1929, E. Ekman H12577 (S); near the top of a limestone cliff in moist forest, Cordillera Septentrional, 142 SMITHSONIAN CONTRIBUTIONS TO BOTANY between villages of San Victor and Jamao, near Moca- Sabaneta de Yasica road about 15 km N of Moca, 12 July 1970, L. Skog 1593 (BH, US 2 sheets). Province of Samana: vicinity of Laguna, Samana Peninsula, on the Pildn de Azucar; 100-500 m, 18 December 1920, W. Abbott 294 (US), 26 December 1920, W. Abbott 457 (US). Province of El Siebo: south shore of Samana Bay, Boca del Infierno, 3 March 1928, G. Miller sn (US); Boca del Infierno, Bahia de San Lorenzo, Bahia de Samana, 14 August 1960, J. Jimenez 4209 (US). Discussion. — Specimens lacking adequate flower- ing or fruiting material for identification, which probably belong in this subspecies, are from Haiti ( Ekman H5728 [S]) and the Dominican Republic in the provinces of San Rafeal or Independencia ( Alain Liogier, J. Jimenez 8c E. Marcano 14635 [NY, US]; Alain Liogier 12584 [NY, US]; E. Mar- cano, J. Jimenez 8c Alain Liogier 5619 [NY]), Samana ( E . Marcano & J. Jimenez 5088b [RDJ]). and El Siebo ( E . Marcano 5036 [RDJ]; E. Marcano 8c J. Jimenez 5051 [NY, RDJ]). Two sheets of the type-collection at the New York Botanical Garden have been designated as sheets one and two of the holotype. If a single sheet must be chosen as the holotype specimen in accordance with the Code, the specimen labeled “Sheet 1” would be the better specimen. -Alain Liogier (1971a) distinguished this taxon from others now included in this section by char- acters of leaf shape, calyx pubescence, and inflores- cence length, all of which may be quite variable. 44c. Gesneria viridiflora subsp. sintenisii (Urban) L. Skog, new rank Gesneria sintenisii Urban, Symb. Ant. 2:375, 1901. — Urb., Symb. Ant. 4:571, 1911. Duchartrea sintenisii (Urban) N. Britton in N. Britton & P. Wilson, Sci. Surv. P. R. & V. I. 6:206, 1925. Plants to 5 m tall: stems with nodes slightly swollen. Leaves alternate: petioles slightly sulcate, 1.0- 1.6 cm long, green; blades elliptic to obovate, 8.0- 18.2 cm long, 4. 5-7. 5 cm wide, membranous when young, becoming subcoriaceous with age, base cordate to acute, oblique, apex retuse, obtuse or mucronate, abaxial surface light green. Inflorescences 1- to many-flowered: peduncles 8.6-16.8 cm long, 2-3 mm in diameter, red, ver- rucose, glabrous; bracts 2-4, linear ca 6 mm long, reddish-brown; pedicels 5-14 mm long; floral tube ca 5 mm long, 4 mm wide, reddish-brown; calyx lobes narrowly ovate, ca 7 mm long, 1-2 mm wide at the base, apex rounded; corolla ca 1.2 cm wide at the mouth, upper lobes ca 3 mm long, 7 mm wide, lateral lobes ca 4 mm long, 6 mm wide, basal lobe ca 4 mm long, 8 mm wide, margins entire, not ciliate or glandular; staminal filaments ca 1.6 cm long, green to yellow, puberulent at the base with glandular trichomes, glabrescent toward the apex, anthers oblong, 2-3 mm long, 2 mm wide, glabrous, pollen grains isopolar, prolate, size small (20 pm long at the polar axis, 14.0-16.5 pm wide at the equatorial axis), amb almost circular (Fig- ure 17a), tricolpate, colpi 18 pm long, about 1 pm wide, sexine rugose, reticulate, heterobrochate, lumina 0.4 pm across, muri 0.5-1. 0 pm wide; disc annular, 5 mm long, 6 mm wide, puberulent with glandular trichomes. Capsule turbinate, 5-8 mm long, 4-6 mm wide at the apex, finely verrucose, costae obscure. Type-Collection. — Sierra de Naguabo, Puerto Rico, P. Sintenis 5332 (M, lectotype, Figure 80a; BM, F, G, GH, K, L, MO, NY, P, S, UCWI, US, W, Z, isolectotypes). Chromosome Number. — n — 7 (Nevling, 1969). Distribution and Ecology. — This subspecies is endemic to eastern Puerto Rico (Figure 55) in the Sierra de Luquillo, in mountain rain forest and wet ravines at 465-1065 m elevation. Gesneria viridiflora subsp. sintenisii has been collected with flowers in the field during the months of January, February, April, May, July, October, and Decem- ber. In the greenhouse flower buds have been pro- duced in December and January, but have never opened. This subspecies may be visited and pollin- ated by any of the flower-feeding bats in Puerto Rico. Specimens Examined. — PUERTO RICO. Catalina-Yunque Trail, Luquillo Mountains, 850 m, 23-26 February 1923, N. Britton & E. Bruner 7601 (NY); Luquillo Mountains, El Yunque, 900-1065 m, 26-27 July 1962, Alain Liogier 9593 (IJ); near summit of El Yunque, Sierra Luquillo, 1000 m, 7 August 1963, Alain Liogier 10071 (IJ, NY, US); Luquillo mountains, 950 m, 8 August 1963, Alain Liogier 10086 (NY); near summit of Mt. El Yunque, 19 February 1925, K. Boyn- ton 8221 (NY); trail to Pinnacle, El Yunque, 18 January 1941, J. Otero 771 (A, MO); El Yunque, 3000 ft, 31 Decem- ber 1937, F. Sargent B131 (US); Sierra de Luquillo in cacu- mine montis “Yunque,” 13 July 1885, P. Sintenis 1484 (C); along upper Bano de Oro, Luquillo Mts., 23 December 1939, L. Holdridge 85 (NY); La Mina, El Yunque, 7 April 1939, NUMBER 29 143 Figure 80. — Type specimens: a, lectotype of Gesneria sintenisii Urban and G. viridiflora subsp. sintenisii (Urban) L. Skog, new rank, Sintenis 5332 (M); b, holotype of Duchartrea viridiflora Decaisne and Gesneria viridiflora (Decaisne) O. Kuntze, Linden 1702 (P). /. Otero 618 (F, NY); lower trail, Mt. Britton, Luquillo Insu- lar Forest, 22 November 1954, B. Schubert & H. Winters 401 (GH, US); lower trail, Mt. Britton, Luquillo Insular Forest, 22 November 1954, B. Schubert & H. Winters 406 (GH, US); along trail to summit of Mt. Britton, 2400 ft, 21 August 1970, L. Skog & J. Skog 1687a (BH, E); along trail to Mt. Britton, El Yunque, 2800 ft, February 1965, T. Talpey 23 (BH, US); near the entrance to the Mt. Britton Trail from Road 930, El Yunque Forest, ca 2500 ft, 3 January 1972, J. Vivaldi 72-8 (BH); Mt. Britton, Luquillo Mts.,. 30 January 1964, R. Wag- ner 464 (BM, IJ, S, U); on trail to El Toro, 700 m, 5 June 1970, L. Skog 1516 (BH); Sierra de Naguabo, Rio Icaco and adjacent hills, 465-720 m, 30 July-5 August 1914, J. Shafer 3527 (F, NY, US); lee side of East Peak, Luquillo Mts., 6 February 1969, R. Howard 17252 (A); Sierra de Naguabo, Barrio de Maizales, ravine, 600 m, 8 March 1914, N. Britton & J. Cowell 2209 (NY, US); Sierra de Naguabo in sylva prim, montis los Rabanos, 5 November 1886, P. Sintenis 5332 (M, lectotype of Gesneria sintenisii Urban; BM, F, G 5 sheets, GH, K, L, MO, NY, P 2 sheets, S, UCWI, US, W, Z, isolectotypes); Sierra de Naguabo in sylva primaeva mon- tis Piedra pelada, 27 October 1886, P. Sintenis 5335 (C, E, GOET, P). Discussion. — Flowering specimens of the syntypes are rare, although Urban described the flowers in some detail, suggesting that the specimens at Berlin had flowers. From among the many duplicates of the syntypes, I have selected Sintenis 5332 at Mu- nich to be the lectotype. This specimen has frag- ments of a flower and is labeled in Urban’s hand. The chromosome count of n = 7 is the lowest reported in the Gesnerieae and may be a base number. 144 SMITHSONIAN CONTRIBUTIONS TO BOTANY 44d. Gesneria viridiflora subsp. viridiflora Gesneria viridiflora (Decaisne) O. Kuntze, Rev. Gen. 2:473, 1891 (“ Gesnera ”). — Fritsch in Engl. & Prantl. Nat. Pflan- zenfam. 4 (3b): 184, fig. 81C, 1894.— Urb., Symb. Ant. 2:375, 1901. — Morton in Leon & Alain, FI. de Cuba 4:457, 1957. Duchartrea viridiflora Decaisne, Ann. Sci. Nat. Bot. ser. 3, 6:109, pi. 8, 1846.— Walp., Repert. Bot. Syst. 6:737, 1847.— Hanst., Linnaea 26:205, pi. 1: fig. 31, 1854. — Griseb., Cat. PI. Cub. 199, 1866. — Sauv., Anales Acad. Ci. Med. Habana 6:316, 1869. Pentarhaphia viridiflora (Decaisne) Hanstein, Linnaea 34: 306, 1865. — Gomez de la Maza, Anales Soc. Esp. Hist. Nat. 23:279, 1894 ("viridifolia”). Gesneria viridiflora (Decaisne) O. Kuntze var. acutifolia Morton, Brittonia 9:21, 1957. — Morton in Leon & Alain, FI. de Cuba 4:457, 1957. [Type-collection: Nimanima, Cuba, C. Wright 354 (GH, holotype).] Gesneria viridiflora (Decaisne) O. Kuntze var. colorata Mor- ton, Brittonia 9:21, 1957. — Morton in Leon & Alain, FI. de Cuba 4:457, 1957. [Type-collection: Naranjo, Buenos Aires, Trinidad. Hills, Cuba, J. Jack 8111 (US, holotype: NY, isotype).] Gesneria viridiflora (Decaisne) O. Kuntze var. obovata Mor- ton, Brittonia 9:21, 1957. — Morton in Leon & Alain, FI. de Cuba 4:457, 1957. [Type-collection: Canizo, S. of Loma del Gato, Cuba, Bro. Leon 9821 (US, holotype).] Plants to 4 m tall. Leaves alternate: petioles sulcate to terete, 2.1- 2.8 cm long, 2-3 mm in diameter, red to brown; blades narrowly elliptic to obovate, 5.1-14.6 cm long, 1.9-3. 6 cm wide, coriaceous, base narrowed to cuneate, margin serrulate to serrate, apex retuse or obtuse, abaxial surface copper-colored. Inflorescences 1- to many-flowered: peduncles 3.4-14.4 cm long, 2-4 mm in diameter, reddish- brown, glabrous, resinous; bracts 2-4, ovate, ca 6 mm long, 3 mm wide, red, resinous; pedicels ca 7 mm long; floral tube ca 7 mm long, 5 mm wide, reddish-brown; calyx lobes 5, sulcate, 0.5-1. 0 cm long, 2 mm wide at the base, both sides reddish, glabrous, verrucose, apex thickened; corolla ca 1.0 cm wide at the mouth, outer surface puberulent with glandular hairs, not verrucose, resinous, inner surface glabrous, limb glandular, upper lobes ca 5 mm long, 1.3 mm wide, lateral lobes ca 5 mm long, 1.1 cm wide, margin fimbriate; staminal fila- ments 0.9-1 .2 cm long, red, glabrous, anthers ob- long, 2 mm long, 2 mm wide, pollen grains isopolar, prolate, size small (12.8-14.8 pm long at the polar axis, 8.4-10.4 pm wide at the equatorial axis), tricolpate, colpi 11.2-12.8 pm long, 0.8 pm wide, apocolpia rounded, sexine heterobrochate, reticu- late, lumina about 0.4 pm across, muri to 0.5 pm wide (Figure 185); style ca 1.3 cm long, yellow at the base, reddish acropetally, puberulent. Capsule turbinate to nearly spherical, ca 1.2 cm long, 7 mm wide, grossly verrucose, resinous, costae 5-15, not prominent. Type-Collection. — St. Yago de Cuba, Sierra Maestra, Cuba, J. Linden 1702 (P, holotype, Fig- ure 806; BM, G, K, P, W, isotypes). Distribution and Ecology. — Gesneria viridiflora subsp. viridiflora grows in the mountains of central and eastern Cuba (Figure 56), in the provinces of Las Villas and Oriente in wet forests or in and near streams. This species has been collected in every month except February, although open flowers are rarely seen or collected. The pollinators might be the bats Brachyphylla nana or Phyllonycteris poeyi, whose heads could fit into the campanulate corollas. Specimens Examined. — CUBA. Province of Las Villas (formerly Santa Clara): roadside on the way to La Chispa, Tope de Collantes, Trinidad Mts., 800 m, 1 April 1959, Alain Liogier 6651 (US); Trinidad Mts., Arroyo Cimarron, ravine, 470 m, 5 March 1910, N. Britton & E. Britton 5087 (NY); Trinidad Mts., ravine, El Porvenir, 650-750 m, 9 March 1910, N. Britton 8: P. Wilson 5270 (NY); mountains of Trinidad, slopes of Pico Potrerillo, 700-900 m, 12 June 1922, E. Ekman 13984 (S); Trinidad, mountains of the Liguanea-Trinidad group, slopes of Pico Potrerillo, ca 700-800 m, 30 March 1924, E. Ekman 18933 (S); mountains of the Liguanea-Trinidad group, in forests between Playetas (on Rio Hanabanilla) and Mameyar, 700-800 m, 15 February 1924, E. Ekman 18521 (S); Buenos Aires, Trinidad Mts., June-August 1941, R. Howard 5209 (GH, NY); Buenos Aires, Trinidad Mountains, 21 February 1956, C. Morton 10308 (US), 10310 (US); on limestone cliff at Gavilan, Trini- dad Mts., San Blas-Buenos Aires, June-August 1941, R. Howard 6464 (GH); Naranjo, Buenos Aires, Trinidad Hills, 2500-3500 ft, 24 July 1930, J. Jack 8111 (US, holotype of Gesneria viridiflora var. colorata Morton; NY, isotype). Province of Oriente: alrededores del Pico Turquino, Sierra Maestra, July 1936, J. Acuna Sc Darlington sn (IJ, US 2 sheets); top of Turquino, S. Maestra, 1-2 August 1935, /. Acuna 6768 (NY); near Cueva del Cura, Loma Cardero, Pico Turquino, 12-14 October 1924, G. Hucter 38 (NY); in Sierra Maestra inter Rio Yara et Rio Palma Mocha, 1100 m, 17 July 1922, E. Ekman 14382 (S); Sierra Maestra, Arr. Jimenez (trib. of Rio Plata), 600-900 m, 9 August 1922, E. Ekman 14811 (S); northern slopes of main ridge above Rio Yao, Sierra Maestra, 300-1000 m, 27-28 October 1941, C. Morton & J. Acuna 3627 (BM, GH, NY, US); Sierra Maestra in jugo mont. inter Loma Joaquin et R. de Palma Mocha, ca 1350 m, 8 April 1915, E. Ekman 5331 (S); Sierra Maestra, La Bayamesa, in jug. mont. inter Rio Oro et Rio Yao, 1 1 00— 1400 m. 3 May 1916, E. Ekman 7080 (S); along Rio Peladero, NUMBER 29 145 below Aserradera San Antonio de los Cumbres, crest of Sierra Maestra, ca 1300 m, 23 January 1956, C. Morton 9477 (BM, US); Sierra Maestra int. Sevilla et Baire in “Fongales,” ca 1000 m, 14 January 1920, E. Ektnan 10342 (S); Nimanima, in Cuba orientali, C. Wright 354 (GH, holotype of Gesneria viridiflora var. acutifolia Morton); Hongolosongo, Loma del Gato, Sierra Maestra, 25 September 1935, J. Acuna sn (IJ); Loma del Gato, September 1935, J. Acuna sn (US); Canizo, seashore, S of Loma del Gato, July 1921, Bro. Leon 9821 (US, holotype of Gesneria viridiflora var. obovata Morton); Loma del Gato, no date, Bro. Leon 22389 (US); Loma del Gato, Cobre Range of Sierra Maestra, 800-1000 m, 11 July- 14 August 1921, Bros. Leon, Clemente, & Roca 9821 (NY); St. Yago de Cuba, Sierra Maestra, 3000-4000 ft, 1843-1844, J. Linden 1702 (P, holotype of Duchartrea viridiflora De- caisne; BM 2 sheets, G, K 2 sheets, P 2 sheets, W, isotypes); “La Florida” prope Daiquiri, ca 750 m, 28-29 June 1914, E. Ekman 1538 (NY, S); Sierra Maestra sup. Daiquiri prope amnem, ca 700 m, 28 October 1916, E. Ekman 8055 (S); La Florida, 23 January 1919, Bro. Hioram 2310 (NY); Cordillera de la Gran Piedra, near Santiago de Cuba, 900 m, 22 April 1956, M. Lopez F. 2690 (US 2 sheets); Gran Piedra Range, Sierra Maestra, 1 July 1956, M. Lopez F. 2760 (US 2 sheets); Firmeza to Gran Piedra, 4-5 March 1911, /. Shafer 8949 (GH, NY 2 sheets, US); Sierra Maestra, Firmeza, 750 m, 9 November 1917, E. Ekman 8745 (S); Alcarraza Arribe, Sierra Maestra, 18 July 1946, Bro. Clemente 5089 (US); Sierra de Nipe ad margin, flumin. Piloto, 4 November 1914, E. Ekman 3350 (G, K, S); Monte Verde, on the edge of cliff, 28 December (January-July 1859), C. Wright 354 (GOET, K); Paredones del Rio Moa, Moa, 15 No- vember 1945, J. Acuna 13346 (SV, US 3 sheets); El Sona- dor rivulet, near Piedra La Vela, Sierra de Moa, 800 m, 24 July 1953, Alain Liogier 3223 (US); El Sonador rivulet, near Piedra La Vela, Sierra de Moa, ca 800 m, Alain Liogier 3230 (US). Locality Unknown: in Cuba Orientali, 1859, 1860, C. Wright 354 ([“Jan. 8’’] MO, S, W); in Cuba Orientali, 1860, C. Wright 354 (G, MO, P); along rivulets, 1860-1864, C. Wright 354 (BM); in Cuba Orientali, 1856-1857, C. Wright 354 (BR, G, K, MO, NY, PH, S). Discussion. — This subspecies may be distin- guished from Gesneria (Myrmekianthe) duchar- treoides by its campanulate corolla and apically thickened calyx lobes. Section 9. Chorisanthera (G. Don) L. Skog, new transfer Conradia section Chorisanthera G. Don, Gen. Syst. 4:651, 1838. Plants acaulescent, or stems erect or decumbent to pendent, up to 1 m long, branches arising from the base or from the upper leaf axils. Leaves oblanceolate to obovate, cuneate, mem- branous to coriaceous, plane to bullate, occasion- ally resinous. Inflorescences of 1-4 flowers, shorter than the subtending leaves: peduncles often curved or pen- dent; corollas infundibuliform to narrowly campan- ulate, red, rose, yellow, green to white; stamens slightly exserted, filaments usually reddish at the base, anthers arranged side by side, or coherent in 2 pairs by their apices. Capsules nearly spherical to turbinate, costae prominent or obscure. Type-Species. — Gesneria pumila Swartz. Discussion. — Section Chorisanthera is probably derived from the ancestral stock from which section Physcophyllon evolved. At the present time, these Key to the Species of Section Chorisanthera 1. Leaf margins ciliate with erect, gland-tipped trichomes, blades densely pilose, membranous, trichomes not having broad bases; anthers arranged side by side and free; calyx lobes usually over 1.2 cm long; stems and petioles not verrucose; western Cuba 45. G. gloxinioides 1 . Leaf margins glabrous, or, if ciliate, with few appressed or spreading gland-tipped trichomes, the trichomes occasionally with broad bases, blades glabrous, glabrescent to sparsely pilose, membranous to coriaceous; anthers arranged side by side and free or coherent, or coherent apically; calyx lobes usually less than 1.0 cm long; stems and petioles often verrucose. 2. Capsule widest at the apex, turbinate, with the apex uppermost and probably forming a splash cup; corolla tube occasionally red, dark red, or yellow with red veins, or all yellow; leaves pilose, glabrous or glabrescent, bullate, abaxial surface usually reddish-brown; east- ern Cuba 47. G. shaferi 2. Capsule narrowed at the apex, nearly spherical to obovoid, often with the apex down- ward, not forming a splash cup, corolla tube and lobes rarely dark red, or with obvious red veins; leaves sparsely pilose to glabrous, subbullate, or plane, abaxial surface usually green; Jamaica 46. G. pumila 146 SMITHSONIAN CONTRIBUTIONS TO BOTANY two sections differ mainly in the form of the corolla and a complex of other characters. The name Chorisanthera as used by Don refers to the free or loosely coherent anthers in the flowers of some subspecies of Gesneria pumila and G. gloxinioides. The anthers in these plants are arranged side by side and not coherent at the apices as in other Gesneria species. 45. Gesneria gloxinioides (Grisebach) Urban Gesneria gloxinioides (Grisebach) Urban, Symb. Ant. 2:377, 1901. — Morton in Leon & Alain, FI. de Cuba 4:460, 1957. Conradia gloxinioides Grisebach, Cat. PI. Cub. 200, 1866. Pentarhaphia gloxinioides (Grisebach) G6mez de la Maza, Anales Soc. Esp. Hist. Nat. 23:279, 1894. Shrubs: stems woody, erect, to 1 m tall (fide Morton), 6 mm in diameter at 3 cm from the apex, lenticels hidden, only slightly resinous at apex, pith reddish; branches few, not verrucose, inter- nodes very short, gray-brown when dried, covered with glandular and eglandular articulate, pallid tomentum, nodes slightly swollen. Leaves alternate, crowded at branch apices: peti- oles swollen at base, slightly sulcate, 0.8-1. 0 cm long, 1 mm wide, green, pilose with glandular and eglandular trichomes; blades obovate, 8.5-15.0 cm long, 3. 5-5. 8 cm wide, membranous, base oblique, cuneate to acute, margin crenate, ciliate with numerous erect glandular trichomes, apex acute, adaxial surface dark green, densely pilose with glandular and eglandular trichomes, abaxial sur- face lighter green, densely pilose with glandular and eglandular trichomes, the pilosity becoming more dense at the prominent veins. Inflorescences in the axils of young leaves, 2- to 4-flowered: peduncles terete, 1.0-1. 2 cm long, 1.5 mm in diameter, densely pilose; bracts 2-4, linear to lanceolate, 0.7-1. 3 cm long, 0.5-3.0 mm wide, base cuneate, margin entire to slightly crenate, ciliate-glandular, apex acute, pilose with glandular and eglandular trichomes; pedicels terete, 1.2-1. 9 cm long, 1 mm in diameter; floral tube obovoid- turbinate, 2-3 mm long, ca 3 mm wide at apex, green, densely pilose with mostly glandular tri- chomes; calyx lobes 5, lanceolate, flat, membranous, connate at the base for about 1 mm, 1.0-1. 5 cm long, 1-3 mm wide at base, apex acuminate, both sides green, pilose with glandular and eglandular trichomes, veins 3, prominent; corolla obliquely subcampanulate, tube 1.2-1. 5 cm long, to 8 mm wide at mouth, outside green to cream, pilose, inside lighter green, glabrous, limb 5-lobed, 1.6-2. 2 cm broad, each lobe yellow-green, upper lobes erect, sparsely ciliate-glandular, lateral and basal lobes patent with prominent veins, 4-6 mm long, 5-8 mm wide; stamens 4, adnate to base of corolla tube for less than 1 mm, exserted beyond mouth about 1.2 cm, filaments linear, 2. 1-2.4 cm long, 0.5 mm wide, greenish-yellow to pink, glabrous, an- thers oblong, 2.5 mm long, 1 mm wide, reddish and glabrous on back, more or less coherent side by side until dehiscence, staminode not seen; ovary inferior, disc annular, 2 mm across, puberulent, Figure 81. — Holotype of Conradia gloxinioides Grisebach and Gesneria gloxinioides (Grisebach) Urban, Wright 3078 (GOET). NUMBER 29 147 Figure 82. — Distribution of Gesneria section Chorisanthera in Cuba. (G. gloxinioides = solid squares; G. shaferi subsp. depressa = solid circles; G. shaferi subsp. shaferi = open circles.) style linear, as long as the stamens at anthesis, 0.5 mm in diameter, glabrous, stigma stomatomorphic, papillate. Fruits and seeds not seen. Type-Collection. — Pinar del Rio, Cuba, C. Wright 3078 (GOET, holotype, Figure 81; BM, G, GH, K, MO, P, isotypes). Distribution and Ecology. — -Gesneria gloxinio- ides is endemic to western Cuba (Figure 82), habi- tat unknown. The large campanulate corolla could probably accommodate any of the flower-feeding bats and hummingbird species found in Cuba, and may not be adapted for any particular pollinator. Specimens Examined. — CUBA. Province of Pinar del Rio: 1860-1864, C. Wright 3078 (GOET, holotype of Conradia gloxinioides Grisebach; BM, G 2 sheets, GH, K, MO, P, isotypes). Discussion. — The arrangement of the anthers side by side, found only in a few species of Gesneria and only in section Chorisanthera , is one of the strong characters that relates Gesneria gloxinioides to the other species in this section. This species may be distinguished from other members of sec- tion Chorisanthera by its densely pilose leaves with glandular-ciliate margins. 46. Gesneria pumila Swartz Gesneria pumila Swartz, Prodr. 90, 1788. Plants acaulescent, suffruticose to frutescent; stems woody, decumbent, pendent, or erect, to 1 m long, 3-7 mm in diameter, bark rugose, reddish to brownish gray, glabrescent or glabrous, usually verrucose, sometimes resinous, pith reddish; un- branched or branches few from the base. Leaves alternate, often crowded at stem apices: petioles sulcate, flattened, or nearly terete, 0.2-2. 1 cm long, 1-2 mm wide, green to reddish-brown, glandular to densely pilose or glabrous, becoming verrucose with age, sometimes resinous; blade ob- lanceolate to subspathulate or obovate, occasionally falcate, 1.6-15.1 cm long, 0.6-4. 9 cm wide, mem- branous to coriaceous, sometimes crisped and sub- bullate, base acute, cuneate to subcordate, margin serrulate, crenate, dentate, to grossly serrate, occa- sionally ciliate, apex rounded to acute, adaxial sur- face dark green, pilose to glabrous, if pubescent, with glandular and nonglandular trichomes occa- sionally with broad bases, sometimes scabrous, glossy or dull, abaxial surface lighter green, pilose to glabrescent with reddish or colorless appressed trichomes along the prominent veins, or glabrous, often verrucose at the veins. Inflorescences few to many, axillary in a reduced compound dichasium of 1-4 flowers: peduncles terete to subquadrangular, flexuose or curved, 0.1- 5.5 cm long, 1 mm wide, green to reddish-brown, densely pilose to glabrous, occasionally with reddish articulate trichomes, resinous and/or glandular; bracts 2, linear-lanceolate to elliptic, green or red, 3-7 mm long, 0.5-1. 5 mm wide, cuneate at the base, margin sometimes ciliate, apex acute, upper surface glandular; pedicels terete, 0.3-1. 6 cm long, elongat- ing in fruit, 1-1.5 mm in diameter, green to red, pilose to glabrous, sometimes glandular-resinous; floral tube cyathiform to turbinate or nearly spheri- cal, 2-4 mm long, 2-4 mm wide, green to reddish, 148 SMITHSONIAN CONTRIBUTIONS TO BOTANY pilose with glandular and nonglandular trichomes to glabrous, sometimes resinous; calyx lobes 4-5, erect, aestivation open, basally connate for 1-2 mm, each subulate, lanceolate, elliptic, ensiform to ovate, 0.2-1. 2 cm long, 1-5 mm wide, apex acute to acuminate, margin entire to serrulate, often ciliate, outside green to reddish-brown, sparsely pilose to glabrous, occasionally resinous and glandular, in- side green or red, glandular-puberulent to glabrous, veins 5, prominent or obscure; corolla narrowly campanulate to campanulate, tube 0.8-5. 5 cm long, 2-4 mm wide at base, 0.5-1. 2 cm wide at the mouth exterior green to creamy white and reddish at base, to salmon-pink or red, pilose to glabrous, or glandular, interior essentially glabrous, but for a few glandular hairs at the mouth; limb 5-lobed, spreading, 0. 8-2.5 cm wide, each lobe semiorbicu- late, upper 2 lobes erect, 0.5-1. 5 cm wide, lateral and basal lobes reflexed, 0.5-1. 2 cm wide, margins entire to dentate, usually glandular-ciliate; stamens 4, rarely 5, adnate to the base of the corolla for less than 1 mm, seldom exserted beyond the limb, filaments linear, curved or straight, 0.8-5. 5 cm long, about 1 mm wide, slightly wider at the base, pink to red or rose, becoming lighter at the apex, sparsely pilose to glabrescent; anthers oblong or orbicular-sagittate, 0. 5-2.0 mm long, 1-2 mm wide, reddish or white abaxially, arranged side by side and seldom coherent, or connivent in 2 pairs at their apices; ovary inferior, apex sometimes tomen- tose, disc annular to pentagonal, white to reddish, 1-5 mm wide, style linear, widest at the base, 0.7- 3.5 cm long, 1 mm wide, pink to red, glabrescent or glabrous, stigma clavate, stomatomorphic, papillate, white to green or reddish. Capsule nearly spherical to elliptic, 0.3-1. 0 cm long, 2-8 mm wide, green to gray-brown, often inverted at maturity, glabrescent except occasion- ally pilose along the costae: costae usually obscure; seeds fusiform to rhombic, 0.5-1. 0 mm long, 0.5 mm wide, red to brown. Discussion. — Gesneria pumila apparently includes a complex of morphological variants, usually geo- graphically and ecologically distinctive, and con- sidered here as subspecies. These subspecies appear to be stages in the evolution of species, each evolv- ing separately and parallelly or together reticulately. Gesneria pumila subsp. pumila occurs at both the east and west ends of Jamaica. Ancestors of each of the two populations of the typical subspecies apparently have given rise to other subspecies, Gesneria pumila subsp. neglecta in the west and subsp. proctorii in the east. These two subspecies are similar to each other and different from the typical subspecies in their larger habit and flowers, glabrous and flaky-resinous foliage and inflores- cences, and in having only one maturing flower. Gesneria pumila subsp. mimuloides resembles subsp. neglecta and subsp. proctorii in its more robust habit and flowers, but has retained the pu- bescent character and few-flowered trait of the pre- sumed ancestral form. It appears that plants grown from seed in a greenhouse may vary from the parent wild plant in amount of indument, and sometimes in size (vide Talpey 14 and Stone 125, BH). The distinc- tiveness of leaf texture between the membranous subsp. pumila and the coriaceous subsp. neglecta is only apparent from living material. Chorisanthera tenera 0rsted was based osten- sibly on collections from Costa Rica. But no type has been located from that region; however, 0rsted visited Jamaica, as well as Costa Rica and the material he collected may have been mixed with plants from the latter country. From the de- scription the species resembles Gesneria pumila to such a large degree that the two species are con- sidered conspecific. This species is probably visited and effectively pollinated by hummingbirds, one of which, Mel- lisuga minima, has a mean bill length (13 mm) almost equal to the length of the corolla tube. The other hummingbirds found in Jamaica, Anthra- cothorax mango and Trochilus polytmus, having longer bills, may also visit Gesneria pumila. The hummingbirds may all be attracted by the reddish stamens and corolla base. The corolla tube of Gesneria pumila may be too narrow to accommodate the rostra of flower- feeding bats (Table 6); however, bats may still visit the flowers of G. pumila to obtain pollen or nectar with their tongues, since their extensile tongues could probably enter the corolla tube. 46a. Gesneria pumila subsp. mimuloides (Grisebach) L. Skog, new rank Conradia mimuloides Grisebach, FI. Brit. W. Ind. 467, 1862. Pentarhaphia mimuloides (Grisebach) Fawcett, Prov. List, Jam. 28, 1893. NUMBER 29 149 Gesneria mimuloides (Grisebach) Urban, Symb. Ant. 2:377, 1901.— Adams, FI. PI. Jamaica 679, 1972. Subshrubs: stems erect to decumbent, to 0.5 m tall, pubescent, apex resinous; branches few. Leaves alternate: petioles swollen at the base, flattened, 0.5-2. 1 cm long, pilose, verrucose; blades 8.5- 15.0 cm long, S. 6-4.9 cm wide, submembranous, base subcuneate, margin dentate to grossly serrate, adaxial surface sparsely pilose with articulate tri- chomes, older leaves glabrescent, abaxial surface with few scattered trichomes, more numerous along the resinous, verrucose, prominent midvein. Inflorescences 2- or 3-flowered: peduncles sub- quadrangular, flexuose, 1. 2-5.0 cm long, glabres- cent; bracts elliptic, base cuneate, surfaces green; pedicels 4-6 mm long, elongating in fruit; floral tube narrowly turbinate, 2-3 mm wide, reddish- green, densely pilose; calyx lobes elliptic-ovate, 0.6-1. 0 cm long, 3. 0-3. 5 mm wide, glabrescent, resinous, margin ciliate; corolla tube 1.0-1. 5 cm long, 6-8 mm wide at the mouth, outside white from a reddish base, pilose, inside whitish with a fine pubescence, limb 1. 5-2.0 cm wide, each lobe 5-8 mm wide, margins ciliate; staminal filaments 1.2-2. 6 cm long, reddish, nearly glabrous, anthers oblong, 1-2 mm long; ovary apex tomentose, style 1. 6- 3.0 cm long, stigma clavate. Capsule nearly spherical, 0. 8-1.0 cm long, 5-8 mm in diameter, costae obscure. Type-Collection. — “Moorces Gap, St. Georges,” Jamaica, W. Purdie sn (K, lectotype, Figure 83a; GOET, isolectotype). Distribution and Ecology. — Plants grow in the Blue Mountains of eastern Jamaica (Figure 84) near Morces Gap on the border of Portland and St. Andrew parishes, at 1350-1750 m altitude, on moist, shaded limestone banks and ledges. Gesneria pumila subsp. mimidoides produces flowers in February, March, April, June, July, September, and November. This subspecies may be pollinated by bats Erophylla sezekorni syops, Glossophaga sori- cina antillarum, or Monophyllus redmani redmani, whose rostra could be accommodated by the co- rolla. Visits also by the three species of humming- birds on Jamaica cannot be ruled out. Specimens Examined. — JAMAICA. Parish of St. Andrew: Vicinity of Cinchona, New Haven Gap to Vinegar Hill, 2-10 September 1906, N. Britton 168 (NY); Blue Mountains, wind- ward slopes, Cinchona, 2 March 1915, J. Harris & J. Lawrence C15323 (NY), 4 March 1915, J. Harris & J. Lawrence C15351 (US), 13 March 1915, /. Harris & J. Lawrence Cl 54 56 (NY); summit cone of John Crow Peak, Blue Mountains, 5500- 5750 ft, 24 November 1954, G. Proctor 9527 (IJ). Parish of Portland: Morces Gap, 5000 ft, April 1906, F. B0rgeson sn (C); below Morses [sic] Gap, 21 February 1894, W. Harris sn (BM, UCWI); Blue Mountains between Morces Gap and Vinegar Hill, 31 March 1916, J. Perkins 1256 (GH, K); along track between Vinegar Hill and Morces Gap, 4400-4900 ft, G. Proctor 23762 (BM); Moorces [sic] Gap, St. Georges, March 1844, W. Purdie sn (K, lectotype of Conradia mimu- loides Grisebach; GOET, isolectotype); near Morces Gap, June 1843, W. Purdie 23 (K). Locality Unknown: “Ja- maica,” 1838, J. Macfadyen sn (K 2 sheets); “Jamaica,” 1844, W. Purdie sn (K, TCD 2 sheets); “Jamaica,” no date, N. Wilson sn (K). Discussion. — Grisebach based Conradia mimulo- ides on two collections from Jamaica: one collected by Purdie and another gathered by McNab (ac- cording to Grisebach). From these syntypes, the collection by Purdie has been selected as the lecto- type; a collection by McNab of a plant resembling this subspecies has not been located. The Purdie collection is represented by an adequate specimen at Kew and a fragment in the Grisebach herbar- ium at Gottingen. Key to the Subspecies of Gesneria pumila 1. Leaves, inflorescences, and floral tubes obviously resinous, the resin flaking; plants suffruti- cose to fruticose, stems erect, rarely decumbent. 2. Plants glabrous, inflorescences of one maturing flower. 3. Corolla rose or salmon-pink; calyx lobes serrulate, ovate to elliptic 46c. subsp. proctorii, new rank 3. Corolla greenish-white from a pink base; calyx lobes entire, ensiform to elliptic 46b. subsp. neglecta, new rank 2. Plants pubescent, inflorescences of 2 or 3 maturing flowers 46a. subsp. mimuloides, new rank 1. Leaves, inflorescences, and floral tubes not resinous, or rarely, subresinous at apex, resin not flaking; plants acaulescent or if suffruticose, then stems decumbent to pendent 46d. subsp. pumila 150 SMITHSONIAN CONTRIBUTIONS TO BOTANY Figure 83. — Type specimens: a, lectotype of Conradia mimuloides Grisebach and Gesneria pumila subsp. mimuloides (Grisebach) L. Skog, new rank, Purdie sn (K); b, holotype of Conradia neglecta Hooker and Gesneria pumila subsp. negiecta (Hooker) L. Skog, new rank, Purdie sn (K). 46b. Gesneria pumila subsp. neglecta (W. Hooker) L. Skog, new rank Conradia neglecta W. Hooker, Icon. PI. 9: pi. 874, 1851. — Grisebach, FI. Brit. W. Ind. 461, 1862. Pentarhaphia neglecta (W. Hooker) Hanstein, Linnaea 34: 305, 1865. Gesneria neglecta (W. Hooker) O. Kuntze, Rev. Gen. 2:473, 1891.— Urb., Symb. Ant. 2:377, 1901.— Adams, FI. PI. Ja- maica 679, 1972. Gesneria leiocarpa Urban & N. Britton in Urban, Symb. Ant. 7:378, 1912. [Type-collection: Peckham woodland, Jamaica, W. Harris 10880 (NY, lectotype; NY, UCWI, isolecto- types).] Shrubs: stems erect, decumbent or pendent, to 1 m tall, glabrous, resinous, pith reddish; un- branched or with few short branches, buds and young leaves covered by yellowish scaly resin. Leaves alternate: petioles slightly sulcate, 0.9- 1.5 cm long; blades occasionally falcate, 3.0-12.5 cm long, 1. 1-4.6 cm wide, coriaceous, base acute to cuneate, adaxial surface glabrous, abaxial sur- face glabrous, resinous, and glandular along the prominent verrucose midvein. Inflorescences of one maturing flower: peduncles terete, 0.7-1. 4 cm long, reddish, glabrous, resinous; NUMBER 29 151 Figure 84. — Distribution of Gesneria section Chorisanthera in Jamaica. (G. pumila subsp. mimuloides = solid triangles; G. pumila subsp. neglecta = solid circles; G. pumila subsp. proctorii — open triangles; G. pumila subsp. pumila = open circles.) pedicels 0.6-1. 5 cm long, reddish; floral tube nar- rowly cyathiform, 3-4 mm long, 2.5-3 mm in dia- meter, green to reddish, glandular, resinous; calyx lobes ensiform to elliptic, 0.7-1. 2 cm long, 1. 0-2.5 mm wide, margin entire, reddish toward the base, glandular; corolla tube 1.1-1. 4 cm long, 3-4 mm wide at base, 6-8 mm wide at mouth, exterior greenish-white from a pink base, glabrous, interior greenish-white from a pink base or rose, glabrous, but for a few scattered hairs at the mouth, limb to 3 cm wide, upper lobes to 1.5 cm broad, lateral lobes to 1.2 cm wide, basal lobe to 1.2 cm broad, margins entire to dentate, glandular; staminal fila- ments 1. 6-2.7 cm long, pink to red near base, be- coming lighter near apex, sparsely pubescent, anthers orbicular-sagittate, all coherent side by side; ovary disc annular, white, style 2.5-3. 2 cm long, glabrescent, stigma stomatomorphic, white to green, papillate. Capsule 6-8 mm long, 4 mm in diameter, costae obscure. Type-Collection. — Sandy rocks above Cave Val- ley, Jamaica, W. Pardie sn (K, holotype, Figure 835). Distribution and Ecology. — Gesneria pntnila subsp. neglecta grows in central Jamaica in the parishes of Trelawny, St. Ann, and Clarendon (Figure 84), at altitudes from 600-850 m, in moist crevices of shaded limestone cliffs and ledges. This subspecies flowers in the field during the months of January, March, September, November, and December; in the greenhouse flowers are produced in the months of October and November. Pollina- tors may include hummingbirds (Table 5) and at least one bat, Monophyllus redmani redmani. Specimens Examined. — JAMAICA. Parish of Trelawny: Island View Hill, Wilson Valley district, 1.5 mi N of War- sop, 2000-2200 ft, 26 March 1960, G. Proctor 20749 (BM); Island View Hill, Wilson Valley district, 1.5 mi N of War- sop, 2000-2200 ft, 29 December 1960, G. Proctor 21862 (BM); Miss Laura's Hill, between Warsop and St. Vincent, 2000 ft, 5 November 1964, T. Talpey 20 (BH). Parish of St. Ann: rugged rocks, Pedro district, September 1843, W. Purdie sn (K). Parishes of St. Ann and Clarendon: Sandy rocks above Cave Valley, December 1843, W. Purdie sn (K, holotype of Conradia neglecta W. Hooker). Parish of Clarendon: Peck- ham woodland, 2500-2800 ft, 2 March 1910, W. Harris 10880 (NY, lectotype of G. leiocarpa Urban & N. Britton; NY, UCWI, isolectotypes); Peckham Woods, 2500 ft, 27 Decem- ber 1917, W. Harris 12763 (F, GH, K, MO, NY, UCWI, US); Peckham Woods, ca 2500 ft, 25 November 1953, G. Proctor 8213 (IJ); Peckham Woods, 2500 ft, 7 January 1955, G. Proctor 9779 (IJ, NY); Peckham Woods, north of Frank - field, below 2500 ft, 23 December 1955, IV. Steam 21 (A, BM). Locality Unknown: “Jamaica,” 1844, W. Purdie sn (K); “Jamaica,” no date, W. Purdie sn (K, TCD). Discussion. — W. J. Hooker originally described Conradia neglecta as being one-flowered, but ex- amination of the type specimen at Kew, collected by W. Purdie in 1843, shows one or more flowers on the peduncles. Observations on a living plant in the greenhouse at Cornell University (G-875) 152 SMITHSONIAN CONTRIBUTIONS TO BOTANY revealed that the second or later flowers are re- duced and may develop if the first flower does not mature or become fertilized, a trait found similarly in other species of Gesneria. Sometimes the sub- ordinate flowers on a peduncle develop almost to anthesis then wither and fall following the fertili- zation of the primary flower. Gesneria leiocarpa Urban & N. Britton was based on a specimen collected by Harris that lacked flowers. The leaf and fruit characters of the Harris specimen are similar to the type and description of Gesneria pumila subsp. neglecta, and the material is here considered conspecific. Later collections from the type-locality of Gesneria leiocarpa and bearing flowers also agree with G. pumila subsp. neglecta. The holotype of G. leio- carpa, if at Berlin, was destroyed. A duplicate col- lection at the New York Botanical Garden is selected as lectotype. 46c. Gesneria pumila subsp. proctorii (Stearn) L. Skog, new rank Gesneria proctorii Stearn in Adams, FI. PI. Jamaica 679, 1972 [nom. invalid., without Latin description]. Gesneria proctorii Stearn in Skog, Baileya 18:113, 1972. Shrubs: stems erect, to 3 dm tall, glabrous, res- inous; unbranched. Leaves alternate: petioles nearly terete, 0. 8-2.0 cm long; blades 5.0-10.5 cm long, 2-4 cm wide, subcoriaceous, base narrowly cuneate, margin ser- rulate to serrate, glabrous, midvein verrucose abaxially. Inflorescences 1-flowered: peduncles terete, re- flexed, 1.5-5. 6 cm long, reddish to brown, glabrous, verrucose, resinous; bracts 2, lanceolate, 4-7 mm long, 1 mm wide, green, resinous; pedicels re- curved, 0.7-1. 5 cm long; floral tube ca 4 mm long, 4 mm wide, glabrous, resinous: calyx lobes 4 or 5, each ovate-elliptic, 7-9 mm long, 3-5 mm wide, glabrous, resinous, margin serrulate; corolla tube about 3.5 cm long, 0.5 cm wide at base, ca 1.2 cm wide at mouth, rose or salmon-pink, outside and inside sparsely pilose with patent or appressed articulate trichomes, lobes of the limb about 1.0 cm wide, margin subentire; staminal filaments about 3. 0-3. 5 cm long, rose, glabrescent; ovary disc annular to pentagonal, style 3. 0-3. 5 cm long, red- dish toward apex, glabrous. Type-Collection. — East slope of John Crow Mountains, Jamaica, G. Proctor 5731 (IJ, holo- type; US, isotype, Figure 85a). Distribution and Ecology. — Plants of this sub- species grow in eastern Jamaica (Figure 84) in the parish of Portland from 600-900 m in dense mossy thickets or on moist limestone boulders. Gesneria pumila subsp. proctorii has been collected in flower in the field during April and August. This subspecies because of the large campanulate corolla may be visited by both bats and humming- birds, and probably by all of the species of these animals available in the local environment; no one animal species appears specifically adapted for visiting G. pumila subsp. proctorii. Specimens Examined. — JAMAICA. Parish of Portland: east slope of John Crow Mountains, 2.5 mi SW of Eccles- down, 2000-3000 ft, among moist limestone boulders, flowers salmon pink, 4 April 1951, G. Proctor 5731 (IJ, holotype of Gesneria proctorii Stearn; US, isotype), 5732 (IJ); uppermost part of Big River, John Crow Mountains, above Spring Val- ley Estate, 3000 ft, 6 August 1967, H. Osmaston 5176 (UCWI). Discussion. — Comparison of the plants included here with others now included in Gesneria pumila has shown that this taxon should not be of species rank. 46d. Gesneria pumila subsp. pumila Gesneria pumila Swartz, Prodr. 90, 1788. — Sw., FI. Ind. Occid. 2:1030, 1800.— Lunan, Hort. Jam. 1:322, 1814. — Urb. Symb. Ant. 2:378, 1901.— Adams, FI. PI. Jamaica 679, 1972. Conradia pumila (Swartz) Martius, Nov. Gen. & Sp. 3:38, 1829 & 3:191, 1832.— G. Don. Gen. Syst. 4:650, 1838.— DC., Prodr. 7:526, 1839.— Griseb., FI. Brit. W. Ind. 461, 1862. Chorisanthera pumila (Swartz) 0rsted, Cent. Gesn. 35, 1858. Chorisanthera tenera 0rsted, Cent. Gesn. 35, 1858 [ex. char.] [Type-collection: A. 0rsted sn, not seen.] Pentarhaphia tenera (0rsted), Hanstein, Linnaea 34:304, 1865. Pentarhaphia pumila (Swartz) Hanstein, Linnaea 34:305, 1865. Gesneria tenera (0rsted) O. Kuntze, Rev. Gen. 2:473, 1891 (“ Gesnera ”). Plants acaulescent or suffruticose: stems woody, decumbent, to 15 cm tall, rarely taller; bark rugose, reddish-brown, glabrescent, verrucose, pith reddish; branching from the base, internodes very short. Leaves alternate: petioles flattened, 0.2-1 .2 cm long, 1-2 mm wide, green to reddish-brown, adax- ial surface glandular to densely pilose, becoming verrucose with age, resinous; blades oblanceolate NUMBER 29 153 Figure 85. — Type specimens: a, isotype of Gesneria proctorii Steam and Gesneria pumila subsp. proctorii (Steam) L. Skog, new rank, Proctor 5731 (US); b, holotype of Gesneria pumila Swartz, Swartz sn (S). to subspathulate, 1.5-10.6 cm long, 0.8-3. 8 cm wide, membranous, sometimes crisped, bullate, base cuneate to subcordate, margin crenate-serrate, ciliate, apex rounded, adaxial surface dark green, pilose to glabrescent with glandular and non- glandular trichomes occasionally with broad bases, glossy or dull, abaxial surface lighter green, pilose to glabrescent with reddish or colorless appressed trichomes along the prominent veins. Inflorescences few to many, 1- to 3-flowered: pe- duncles terete, 0.3-3. 2 cm long, 1 mm in diameter, green to reddish, sparsely to densely pilose with reddish or colorless articulate trichomes, some- what resinous; bracts 2, lanceolate, 3-5 mm long, 1 mm wide, green or red, cuneate at the base, mar- gin ciliate, apex acute, adaxial surface glandular; pedicels terete, 0.4-1. 6 cm long, 1 mm in diameter, green to red, glandular to pilose; floral tube cyathi- form, 2-4 mm long, 2-3 mm wide, green to reddish, pilose with glandular and nonglandular trichomes, to glabrescent; calyx lobes 5, erect, connate at the base for 1 mm, aestivation open, each subulate or lanceolate to elliptic, 2-9 mm long, 1-3 mm wide, green or red outside, sparsely pilose to glabrescent, glandular, inside green or red, glandular, veins obscure, apex acute; corolla narrowly campanulate, tube 0.8-1. 6 cm long, 2-4 mm wide at base, 5-8 mm wide at mouth, exterior and interior reddish at the base, then green to creamy white toward the margin, or salmon-pink or reddish, pilose, tri- chomes more numerous at the mouth, limb 5-lobed, spreading, 0.8-2. 2 cm wide, upper two lobes erect, 154 SMITHSONIAN CONTRIBUTIONS TO BOTANY lateral and basal lobes reflexed, each lobe semi- orbiculate, 0.3-1. 1 mm wide, margin dentate and ciliate; stamens 4, occasionally 5, adnate to the co- rolla base for less than 1 mm, seldom exserted beyond the limb, filaments linear, slightly wider at the base, 0.8-2. 1 cm long, less than 1 mm wide, red, anthers oblong, 0.5-1. 5 mm long, less than 1 mm wide, seldom coherent, arranged side by side, pollen grains (Figure 18&) isopolar, prolate, size small (21.4-21.7 pm long at the polar axis, 10.2— 10.5 pm wide at the equatorial axis), amb nearly circular, tricolpate, colpi 18.4 pm long, less than 1 pm wide, apocolpia truncate, sexine reticulate, homobrochate, lumina less than 0.5 pm across, muri ca 0.25 pm wide; staminode to 6 mm long, lacking fertile anther; ovary inferior, disc reddish, 1-2 mm wide, style linear, widest at the base, 0.7- 2.4 cm long, 1 mm wide, pink, stigma clavate, papillate. Capsule nearly spherical to elliptic, 3-7 mm long, 2-6 mm wide, green-gray to brown, glabres- cent except occasionally pilose along the costae, costae obscure or nearly visible; seeds rhombic, 0.5 mm long, reddish-brown. Type-Collection. — Jamaica, O. Swartz sn (S, holotype. Figure 855; B, BM, C, G-DC, LD, LINN, M, S, UPS, isotypes). Chromosome Number. — n = 14 ( Talpey 14; Lee, 1966a). Distribution and Ecology. — Plants grow in west- ern Jamaica (Figure 84) in the parishes of Han- over, Westmoreland, St. James, St. Elizabeth, and Trelawny, and in eastern Jamaica in the parishes of Portland and St. Thomas at elevations of 300- 700 m on moist shaded limestone cliffs or ledges. Gesneria pumila subsp. pumila may produce flowers in the field during all the months of the year except May; in the greenhouse this subspecies produces flowers in April and November. Specimens Examined. — JAMAICA. Parish of Hanover: Dolphin Head, 1300 ft, 21 December 1960, C. Adams 8628 (UCWI). Parish of Westmoreland: 1.5 mi NW of Leaming- ton, 1300 ft, 31 January 1961, C. Adams 8883 (UCWI); Bush Mt. (Bush-mouth) district, ca 1 mi W of Flower Hill PO, ca 1000 ft, 30 October 1952, G. Proctor 7300 (IJ, NY); Teague Gully, 1000-1300 ft, 8 February 1961, G. Proctor & W. Mai- lings 22049 (BM, IJ); January 1844, W. Pur die sn (K). Parish of St. James: White Rock Hill, ca 1 mi S of Sweet Water, 2000-2200 ft, 2 December 1962, G. Proctor 22991 (BM, GH, IJ). Parish of St. Elizabeth: Springfield, 1500- 1750 ft, 22 March 1964, G. Proctor 24731 (IJ); near Spring- field, 1500 ft, 16 August 1970, L. Skog 1643 (BH); New Hope, Springfield, 1849, H. Wullschldgel 952 (GOET, M, W). Parish of Trelawny: Cockpit Country, near Red Mud Hole, ca 6 mi NNW of Accompong, 1100 ft, 27 April 1956, W. Steam 954 (BM); Cockpit Country, ca 8 mi N of Quickstep, 7 March 1950, G. Proctor 4131 (IJ, US); 7 mi NNW of Quickstep, 1500 ft, 18 March 1962, ]■ Poulter in Adams 10895 (UCWI); Cockpit Country, Troy, 13-18 September 1906, N. Britton 512 (F, NY); Tyre Woods, 2000 ft, 13 Janu- ary 1909, W. Hawis 10667 (F, K, NY, UCWI 2 sheets, US). Parish of Portland; spur of John Crow Mountains, oppo- site Mill Bank, 450-625 m, 18 June 1926, W. Maxon 9352 (NY, US); Ecclesdown, 1200-2000 ft, 1 March 1961, C. Adams 9091 (UCWI); Ecclesdown, 1200 ft, 29 March 1961, C. Adams 9344 (UCWI); John Crow Mountains above Ecclesdown, 900 ft, 8 April 1967, A. Katzenberger & R. Katzenberger 107 (RDJ); west slope of Crown Peak, John Crow Mountains, ca 3000 ft, G. Proctor 4007 (IJ, US); John Crow Mountains, 1. 5-2.5 mi SW of Ecclesdown, 1500-2500 ft, 24 January 1956, R. Howard, G. Proctor & W. Steam 14801 (A, BM); east slope of the John Crow Mountains, 1.5 mi SW of Eccles- down, 1500 ft, 21 March 1951, G. Proctor 5616 (IJ); east slope of John Crow Mountains, 1-1.5 mi SW of Ecclesdown, 1200-1500 ft, 14 January 1955, G. Proctor 9801 (IJ, NY); SW of Ecclesdown, 1400 ft, 3 November 1964, T. Talpey 14 (BH); east slope of the John Crow Mountains, ca 1.5 mi SW of Ecclesdown, 1500 ft, 5 February 1969, R. Weaver 1926 (UCWI); Rodney Hall, 1000 ft, 26 March 1961, C. Adams 9333 (UCWI); John Crow Mountains, 1500 ft, March 1951, E. Robertson 113 (UCWI). Parish of St. Thomas: trail from Corn Puss Gap north, 2000 ft, 29 July 1966, W. Anderson & D. Sternberg 3316 (GH, UCWI); Corn Puss Gap, ca 2100 ft, 5 January 1945, A. Barry sn (IJ); north slope of Corn Puss Gap, 1750-2000 ft, 1 March 1969, G. Proctor 29992 (IJ); deep ravine in mountain forest above House Hill, 500-700 m, 6-12 June 1926, W. Maxon 8863 (NY, US); Cunna Cunna Gap, July 1843, W. Purdie 221 (K). Locality Unknown: “Jamaica,” 1844, W. Purdie sn (GH, K, TCD); “Jamaica,” 1784-1786, O. Swartz sn (S, holotype of Gesneria pumila Swartz; B, BM, C, G-DC, LD, LINN, M, S 2 sheets, UPS, isotypes). Cultivated: Cornell University, G-874, 19 April 1966, M. Stone 125 (BH). Discussion. — Although Gesneria pumila subsp. pumila is known from two geographically sepa- rated areas in Jamaica, this separation is not strik- ingly evident in the morphology of the plants. The subspecies, however, does display some variation in the size of plant organs: the flowers of a popula- tion in the Cockpit Country of Jamaica are some- what larger and the peduncles and pedicels longer. This population may be varietally distinct or a result of a response to ecological conditions. The red articulate hairs can be seen in material from both areas. NUMBER 29 155 47. Gesneria shaferi Urban Gesneria shaferi Urban, Symb. Ant. 7:541, 1913. Plants acaulescent to suffruticose: stems erect, decumbent or pendent, woody, to 2 dm long, 1-4 mm in diameter; bark reddish-brown to gray, rugose, glabrous, sometimes resinous at apex; branches few or none. Leaves rosulate, crowded at the stem apices: petioles sulcate, sometimes alate at base, nearly sessile to 5 mm long, 1-2 mm wide, reddish-brown, glandular, verrucose to nearly smooth; blades el- liptic to oblanceolate or obovate, 1. 9-9.4 cm long, 0.6-4.5 cm wide, bullate, young leaves membran- ous and pilose with appressed articulate trichomes, trichomes sometimes with broad bases, older leaves becoming subcoriaceous and sometimes glabres- cent, base acute to cuneate, margin entire or cre- nate to finely lobulate-serrate toward the acute apex, sometimes ciliate with eglandular trichomes, adaxial surface green, glossy, abaxial surface reddish-brown or green. Inflorescences of one flower: peduncles terete or subquadrangular, 1-7 mm long, 1 mm in diameter, glabrous; bracts 2, linear-lanceolate, 1-8 mm long, 1-2 mm wide, green or reddish, glabrous-glandular; pedicels terete, 0.3-3. 3 cm long, less than 1 mm in diameter, reddish, glabrous or glandular, some- times resinous; floral tube nearly spherical to tur- binate, 5-angled, 2 mm long, 2-3 mm wide, green or reddish, glandular-resinous; calyx lobes 5, con- nate at the base for about 2 mm, each lobe broadly triangular to lanceolate or ovate, 4-9 mm long, 1-4 mm wide, margin recurved, entire, apex acute to acuminate, green to red, outside glabrous, but glandular, inside pilose to glabrescent, glandular, veins 3-5, prominent; corolla campanulate, gradu- ally expanding from the base, tube 1. 0-2.2 cm long, 4 mm wide at the base, 0.8-1. 2 cm wide at the mouth, exterior yellow to red with darker veins, sparsely pubescent, interior reddish or yellow, glandular, limb bilabiate, 5-lobed, 1. 5-2.4 cm wide, upper lobes erect, connate for one-third of their length, 0.7-1. 5 cm long, 0.7-1 .5 cm wide, yellow or yellow with reddish veins, margin crenulate to sub- entire, lateral and basal lobes semiorbiculate, re- flexed or patent, 0. 6-1.0 cm long, 0.5-1 .0 cm wide, yellow with reddish veins to dark red, margin sub- entire to denticulate or suberose and sometimes ciliate; stamens 4, adnate to base of corolla tube, exserted for 3-8 mm beyond mouth, filaments linear, 1.5-2. 2 cm long, yellow to reddish, sparsely pilose or glabrous, anthers rectangular, 1. 0-2.0 mm long, 0.6-1. 0 mm wide, coherent in 2 pairs by their apices or rarely side by side, staminode 5-8 mm long; ovary inferior, apex tomentose, disc 5-angled, white, style slender, to 2.5 cm long, green or red- dish, pilose to glabrescent or glabrous, stigma cla- vate, green, papillate. Capsule broadly turbinate, forming a splash cup, 3-7 mm long, 4-9 mm in diameter, brownish-gray, glabrescent, costae 5-15, sometimes obscure; seeds fusiform, about 1 mm long, slightly twisted, black. Discussion. — Gesneria shaferi is composed of two subspecies distinct in leaf trichome quantity and color of corolla, among other characters. The sub- species are geographically separated; subsp. shaferi grows near the north coast of Oriente Province of Cuba and subsp. depressa occurs near the south coast. 47a. Gesneria shaferi subsp. depressa (Grisebach) L. Skog, new rank Conradia depressa Grisebach, Cat. PI. Cub. 200, 1866. Pentarhaphia depressa (Grisebach) G6mez de la Maza, Ana- les Soc. Esp. Hist. Nat. 23:279, 1894. Gesneria depressa (Grisebach) Urban, Symb. Ant. 2:378, 1901. — Morton in Leon & Alain, FI. de Cuba 4:460, 1957. Gesneria samuelssonii Urban, Repert. Spec. Nov. Regni Veg. 21:70, 1925. [Type-collection. — Guantanamo, in Monte Libanon, Cuba, E. Ekman 15823 (S, holotype; NY, S, isotypes).] Stems decumbent or pendent, to 2 dm long; unbranched. Leaf blades 1.9-6. 5 cm long, 0.6-2. 6 cm wide, base acute to cuneate, margin crenate to finely lobulate-serrate, ciliate with nonglandular tri- chomes, adaxial surface pilose to glabrescent, scab- rous, some trichomes with enlarged persistent whitish basal cells, abaxial surface green, pilose only along the prominent veins. Inflorescences with peduncles subquadrangular, 1-3 mm long, 1-2 mm wide, reddish, glandular, resinous; pedicels 3-5 mm long; floral tube nearly spherical or turbinate, reddish, glandular-resinous; calyx lobes lanceolate, 4-6 mm long, 1-2 mm wide; corolla tube 1.0-1. 6 cm long, 0.8-1. 1 cm wide at the mouth, yellow from a pinkish base, limb with upper lobes 9 mm wide, lateral and basal lobes 4-6 mm wide, margins denticulate to suberose, gland- 156 SMITHSONIAN CONTRIBUTIONS TO BOTANY Key to the Subspecies of Gesneria shaferi 1. Corolla yellow from a pink base, limb yellow; adaxial leaf trichomes often with broad white bases, leaves scabrous, abaxial surface green 47a. subsp. depressa, new rank 1. Corolla yellow with red veins becoming dark red at the limb; adaxial leaf trichomes lacking or if present with a few broad white bases, leaves not scabrous, abaxial color reddish-brown 47b. subsp. shaferi Figure 86. — Type specimens: a, holotype of Conradia depressa Grisebach and Gesneria shaferi subsp. depressa (Grisebach) L. Skog, new rank, Wright 3079 (GOET); b, isolectotype of G. shaferi Urban, Shafer 8436 (PH). ular and ciliate; staminal filaments 1. 5-2.0 cm long, red; style 2.5 cm long, red, glabrous. Capsule 3-4 mm long, 4-7 mm in diameter. Type-Collection. — Cuba, C. Wright 3079 (GOET, holotype, Figure 86a; BM, G, GH, K, MO, NY, P, isotypes). Distribution and Ecology. — This subspecies grows in eastern Cuba (Figure 82) in the eastern part of Oriente Province on Monte Libanon at altitudes from 700-800 m on limestone rocks. Ges- neria shaferi subsp. depressa is known to flower in the field at least during the month of November. Visitors to the flowers may include all species of hummingbirds in Cuba and two species of bats, NUMBER 29 157 Erophylla sezekorni sezekorni and Monophyllus redmani clinedaphus, whose rostra could fit into the corolla and may effectively pollinate. Specimens Examined. — CUBA. Province of Oriente: Guantdnamo, in Monte Libanon, near Monterus, 700-800 m, 28 November 1922, E. Ekman 15823 (S, holotype of Gesneria samuelssonii Urban; NY, S, 2 sheets, isotypes). Locality Unknown: “Cuba,” 1860-1864, C. Wright 3079 (GOET, holo- type; BM, G 2 sheets, GH, K, MO, NY, P, isotypes). Discussion.— This subspecies shares a few similar characters with Gesneria pumila subsp. pumila, particularly in the corolla color and in having leaf trichomes with broad bases; however, the geo- graphical range of G. shaferi subsp. depressa is in Cuba, and the subspecies of G. pumila are all in Jamaica. In morphology more of the characters resemble the typical subspecies of Gesneria shaferi. 47b. Gesneria shaferi subsp. shaferi Gesneria shaferi Urban, Symb. Ant. 7:541, 1913. — Morton in Leon & Alain, FI. de Cuba 4:461, 1957. Gesneria lindmanii Urban, Symb. Ant. 9:271, 1924. — Morton in Leon & Alain, FI. de Cuba 4:460, 1957. [Type-collec- tion: El Yunque, Cuba, E. Ekman 3913 (S, holotype).] Stems to 9 cm tall. Leaf blades 1. 9-9.4 cm long, 0.9-4.5 cm wide, margin entire or crenate toward the apex, rarely ciliate, adaxial surface not scabrous, abaxial sur- face reddish-brown. Inflorescences with peduncles terete, 1-7 mm long; floral tube 5-angled; calyx lobes 4-9 mm long, 3-4 mm wide; corolla tube 1.2-2. 2 cm long, 1.0-1. 2 cm wide at the mouth, yellow with reddish veins to dark red, limb with upper lobes 0.7-1. 5 cm wide, lateral and basal lobes 0.5-1 .0 cm wide, margin subentire; staminal filaments 1.5-2. 2 cm long, yellow to reddish; style green or reddish, pilose to glabrescent. Capsule 5-7 mm long, 6-9 mm wide. Type-Collection. — “Yamuri arriba to Bermejal,” Cuba, J. Shafer 8436 (NY, lectotype; MO, NY, PH (Figure 866), US, isolectotypes). Distribution and Ecology.- — The plants are en- demic to Oriente Province of Cuba (Figure 82) on wet serpentine rocks near streams to 600 m eleva- tion. Gesneria shaferi subsp. shaferi flowers in the field from November through March. This subspe- cies may be visited by all species of hummingbirds and flower-feeding bats found in Cuba; an adapta- tion for a single pollinator is not evident. Specimens Examined. — CUBA. Province of Oriente: Paredones del Rio Moa, Moa, 15 November 1945, J. Acuiia 13345 (SV, US); way from charrascos of Pena Prieta to Rio de Pena, Toa, 30 December 1953, Alain Liogier 3627 (NY); Baracoa in rupibus umbros. prope Rio Toa, 28 November 1914, E. Ekman 3688 (S); charrascos at km 5 from Sabanilla to Cajobabo, 17 January 1960, Alain Liogier, J. Acuiia & Ramos 7717 (US); banks of rivulet, in very moist places Via Azul, km 7 south of Sabanilla, Baracoa, 14 January 1956, Alain Liogier Sc C. Morton 5132 (GH); on the Via Azul between Sabanilla and Cajobabo, at km 7 from Sabanilla, 600 m, 14 January 1956, C. Morton Sc Alain Liogier 9083 (BM, US); bank of a rivulet, km 2 south of Sabanilla, Via Azul, 14 January 1956, Alain Liogier Sc C. Morton 5162 (IJ); Baracoa in the valley of Rio Macaguanigua, 19 January 1915, E. Ekman 4327 (F, G, K, NY, S, US); vicinity of Baracoa, 1-7 February 1902, C. Pollard, E. Palmer & W. Palmer 263 (CU, GH, MO, NY, PH, US); Cooper’s Ranch, base of El Yunque Mt, Baracoa, March 1903, L. Underwood Sc F. Earle 1174 (NY); El Yunque in rupibus calcareis arduis, 17-18 December 1914, E. Ekman 3913 (S, holotype of Gesneria lindmanii Urban), 3919 (NY); slopes and summit of El Yunque, near Baracoa, 1000-2000 ft, 30-31 January 1902, C. Pollard Sc W. Palmer 119 (F, GH, MO, NY, PH, US); El Yunque Mt., Baracoa, March 1903, L. Underwood Sc F. Earle 708 (NY); near the top of El Yunque de Baracoa, 520 qi, 14 January 1960, Alain Liogier Sc J. Acuna 7524 (US); upper valley of Rio Navas, 22 March 1910, J. Shafer 4394 (F, MO, NY, PH, US); Yamuri [sic] arriba to Bermejal, 31 January-1 February 1911, J. Shafer 8436 (NY, lectotype of Gesneria shaferi Urban; MO, NY, PH, US, isolectotypes). Discussion. — Urban based Gesneria shaferi on two collections from Cuba ( Shafer 8436 and 4394), neither of which was selected as the holotype. Spec- imens of Shafer 4394 lack corollas on all of the sheets examined. Thus, to stabilize Gesneria sha- feri, Shafer 8436 has been selected as the lectotype. If there had been specimens of this number at Berlin, they are no longer extant. A specimen from New York is selected as the lectotype sheet. Appendix 1 Excluded Species Following the publication in 1829 of Gesnera Martius, many species were named in or trans- ferred to the genus which now belong in other genera, notably Achimenes, Kohleria, Sinningia, Gloxinia , etc. Included in this Appendix are names that have been referred to Gesnera, Gesneria, or to the generic synonyms of the latter, but do not actually belong in Gesneria Linnaeus. In a recent paper, Moore (1973b) transferred the cultivated species of Rechsteineria Regel and X Gloxinera Weathers to Sinningia Nees. Many other species remain as Rechsteineria or X Gloxi- nera awaiting a revisionary study of these genera. Those species of Gesnera or Gesneria placed in Rechsteineria or X Gloxinera but not subsequently transferred to Sinningia are maintained here in Rechsteineria or X Gloxinera, rather than trans- ferred without a thorough study of the plants involved. Not all the type specimens of the names included in the following list have been examined, but from descriptions and other information, the following specific names have been excluded from considera- tion in Gesneria Linnaeus. The placement of some species in particular genera is tentative. Conradia cassioides Persoon ex Bentham in A. de Candolle, Prodr. 10:511, 1846, lapsu, pro syn. = Seymeria cassioides (Walter ex J. F. Gmelin) S. F. Blake, Rhodora 17:134, 1915. [Scrophulariaceae.] Conradia fuchsioides Nuttall, J. Acad. Nat. Sci. Philadelphia 7:88, 1834. = Macranthera flammea (Bartram) Pennell, Bull. Torrey Bot. Club 40:124, 1913. [Scrophulariaceae.] Conradia lecontei (Torrey) O. Kuntze, Rev. Gen. 2:459, 1891. = Macranthera flammea (Bartram) Pennell, Bull. Torrey Bot. Club 40:124, 1913. [Scrophulariaceae.] Gesneria acaulis Flortorum ex Hanstein, Mart. FI. Bras. 8(1): 357, 1864 ( "Gesnera ”), nom. nud. pro syn. = Sinningia tuberosa (Martius) H. E. Moore, Baileya 19:40, 1973. Gesneria acaulis FI. Mex. ex A. P. de Candolle, Prodr. 7: 536, 1839, nom. nud. pro syn. = Achimenes erecta (La- marck) H. P. Fuchs, Acta Bot. Neerl. 12:15, 1963. Gesneria acaulis Sesse & Mocino, PI. Nov. Hisp. ed. 1, 97, 1889, excl. syn. = Achimenes erecta (Lamarck) H. P. Fuchs, Acta Bot. Neerl. 12:15, 1963. Gesneria adenantha Fischer ex Hanstein, Linnaea 29:541, 1859 (‘Gesnera”) nom. nud. pro syn. = Gloxinia sylvatica (Humboldt, Bonpland & Kunth) Wiehler, Selbyana 1:33, 1975. Gesneria affinis Hortorum Petropolitanus in Herbarium Fischer ex Hanstein, Mart. FI. Bras. 8(1): 379, 1864 (“Ges- nera”), nom. nud. pro syn. = Rechsteineria bulbosa (Ker- Gawler) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria aggregata Ker-Gawler, Bot. Reg. 4: pi. 329, 1818. = Sinningia aggregata (Ker-Gawler) Wiehler, Selbyana 1:32, 1975. Gesneria allagophylla Martius, Nov. Gen. & Sp. 3:36, 1829 . (“Gesnera”). = Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria amabilis Hortorum ex L. H. Bailey, Man. Cult. PI. ed. 1, 695, 1924, nom. nud. pro syn. = Smithiantha multi- flora (W. Hooker) Fritsch in Engl. & Prantl, Nat. Pflanzen- fam. 4(3b):176, 1894. Gesneria atrosanguinea Hortorum ex Lemon, Ann. FI. Pomone 1836:275, 1836. = Rechsteineria atrosanguinea (Hortorum ex Lemon) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria aurantiaca Hanstein, Ind. Sem. Hort. Bot. Berol., App. 1861: 8, 1861 (“Gesnera”). = Rechsteineria aurantiaca (Hanstein) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria auriculata (W. Hooker) O. Kuntze, Rev. Gen. 2:473, 1891 (‘Gesnera"). = Rhytidophyllum auriculatum W. Hooker, Bot. Mag. 64: pi. 3562, 1837. Gesneria barbata D. Dietrich, Allg. Gartenzeitung 6:346, 1838. = Sinningia incarnata (Aublet) Denham, Baileya 19: 126, 1974. Gesneria barbata Nees & Martius, Nova Acta Phys.-Med. Acad. Caes. Leop.-Carol. Nat. Cur. 11(1):48, 1823. = Sin- ningia barbata (Nees &: Martius) Nicholson, 111. Diet. Gard. 3:436, 1887. Gesneria berteroana (Martius) O. Kuntze, Rev. Gen. 2:473, 1891 (“Gesnera"). = Rhytidophyllum berteroanum Martius, Nov. Gen. &: Sp. 3:39, 1829 (“Rytidophyllum”). Gesneria betonicifolia Hortorum ex Hanstein, Mart. FI. Bras. 8(1):355, 1864 (“Gesnera"), nom. nud. pro syn. = Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria bibracteata D. Cameron ex Loudon, Hort. Brit., Suppl. 2:637, 1839 (“Gesnera"), nom. nud. = ? Rechstein- eria sp. Gesneria blassii Regel, Schweiz. Z. Gartenbau 4:159, 1846 (“Gesnera”). = Rechsteineria blassii (Regel) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria breviflora Lindley, J. Hort. Soc. London 3:165, 1848 (‘Gesnera"). = Kohleria sp. Gesneria bulbosa W. Hooker, Bot. Mag. 58: pi. 3041, 1831. = Sinningia cooperi (Paxton) Wiehler, Selbyana 1:32, 1975. 158 NUMBER 29 159 Gesneria bulbosa W. Hooker, Bot. Mag. 68: pi. 3886, 1842. = Sinningia magnified (Otto 8c Dietrich) Wiehler, Selbyana 1:32, 1975. Gesneria bulbosa Ker-Gawler, Bot. Reg. 4: pi. 343, 1819. = Rechsteineria bulbosa (Ker-Gawler) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria bullata Urban 8c Ekman, Ark. Bot. 22A(5):50, 1926. = Rhytidophyllum sp. Gesneria calcarata Sesse 8c Mocino, FI. Mex. ed. 2, 143, 1894. = ? Achimenes sp. Gesneria calycina Sieber ex Steudel, Nom. Bot. ed. 2, 1:680, 1840, nom. nud. = Besleria lutea Linnaeus, Sp. PL, ed. 1, 2:619, 1753. Gesneria canescens Martius, Nov. Gen. 8c Sp. 3:36, 1829 (“ Gesnera ”). = Sinningia canescens (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria caracasana Otto & Dietrich, Allg. Gartenzeitung 6: 346, 1838 (“ Gesnera ”). = Rechsteineria caracasana (Otto 8c Dietrich) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria cardinalis Lehmann, Neue Allg. Deutsche Garten- Blumenzeitung 6:454, 1850. = Sintiingia cardinalis (Leh- mann) H. E. Moore, Baileya 19:39, 1973. Gesneria chelonioides Humboldt, Bonpland 8c Kunth, Nov. Gen. 8c Sp. 2:392, 1818 (1817). = Sinningia incarnata (Aublet) Denham, Baileya 19:126, 1974. Gesneria chilensis Molina, Sagg. Stor. Nat. Chili, ed. 2, 140, 1810. = Mitraria coccinea Cavanilles, Anales Ci. Nat. 3:231, 1801. Gesneria X chromatella Hortorum ex Nicholson, 111. Diet. Gard. 2:65, 1885. = Smithiantha X hybrida ‘Sulphurea.’ Gesneria cinnabarina (Linden) Galeotti, J. Hort. Prat. Bel- gique, ser. 2, 1:145, 1857. = Smithiantha cinnabarina (Lin- den ex Hanstein) O. Kuntze, Rev. Gen. 2:978, 1891. Gesneria clausseniana Brongniart ex Decaisne, Rev. Hort. ser. 3, 1:363, 1847. = Rechsteineria claussenii (Brongniart ex Decaisne) Decaisne, Rev. Hort. ser. 3, 2:468, 1848. Gesneria coccinea Hortorum Germanicus ex Hanstein, Mart. FI. Bras. 8(1):373, 1864 (“Gesnera”), nom. nud. pro syn. = Sinningia incarnata (Aublet) Denham, Baileya 19:126, 1974. Gesneria coccinea Rojas, Cat. Hist. Nat. Corrient. 72, 1897. = ? Rechsteineria sp. Gesneria cochlearis W. Hooker, Bot. Mag. 66: pi. 3787, 1840. = Rechsteineria cochlearis (W. Hooker) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria confertifolia Hanstein, Mart. FI. Bras. 8(1):360, 1864 (“Gesnera”). = Rechsteineria confertifolia (Hanstein) O. Kuntze, Rev. Gen. 2:474, 1891 (“confertiflora”). Gesneria cooperi Paxton, Paxton’s Mag. Bot. 1:224, 1834. = Sinningia cooperi (Paxton) Wiehler, Selbyana 1:32, 1975. Gesneria cooperiana Hortorum Woburnensis ex Lehmann, Neue Allg. Deutsche Garten- Blumenzeitung 6:454, 1850, nom. nud. — Sinningia cooperi (Paxton) Wiehler, Selbyana 1:32, 1975. Gesneria cordata W. Baxter ex Loudon, Hort. Brit. ed. 3, Suppl. 3:554, 1850 (“Gesnera”), nom. nud. = ?Rechsteineria sp. Gesneria coruscans Paxton, Paxton’s Mag. Bot. 16:194, 1849 (“Gesnera”). = Rechsteineria coruscans (Paxton) O. Kuntze, Rev. Gen. 2:474, 1891 [as R. corruscans (Hanstein) O. Kuntze], Gesneria corymbosa Sieber ex Steudel, Nom. Bot. ed. 2, 1:681, 1840, nom. nud. = Nautilocalyx melittifolius (Linnaeus) Wiehler, Phytologia 27:307, 1973. Gesneria corymbosa Swartz, Prodr. 89, 1788. = Pheidonocarpa corymbosa (Swartz) L. Skog. Gesneria crenulata A. de Candolle ex A. P. de Candolle, Prodr. 7:524, 1839, nom. nud. pro syn. = Rhytidophyllum crenulatum A. P. de Candolle, Prodr. 7:524, 1839 (“Rytido- phyllum"). Gesneria cumanensis (Hanstein) O. Kuntze, Rev. Gen. 2:473, 1891 (“Gesnera”). = Rhytidophyllum cumanense (Han- stein) L. Skog. Gesneria cynocephala De Von ex Morren, Hort. Beige 3:320, 1836. = ? Gesneria dentata Hornschuch, Allg. Gartenzeitung 2:354, 1834 (“Gesnera”). = Rechsteineria dentata (Hornschuch) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria deppeana Schlechtendal & Chamisso, Linnaea 5:110, 1830. = Moussonia deppeana (Schlechtendal 8c Chamisso) Hanstein, Linnaea 34:284, 1865. Gesneria discolor Lindley, Bot. Reg. 26: pi. 63, 1841 (“Ges- nera"). = Rechsteineria discolor (Lindley) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria donkelaariana Lemaire, Jard. Fleur. 4: pi. 382, 1854. = X Gloxinera donkelaariana (Lemaire) H. E. Moore, Gentes Herb. 8:397, 1954. Gesneria donklarii Hortorum ex Hooker, Bot. Mag. 84: pi. 5070, 1858. = X Gloxinera donkelaariana (Lemaire) H. E. Moore, Gentes Herb. 8:397, 1954. Gesneria douglasii Lindley, Trans. Hort. Soc. London 7:62, 1826. = Rechsteineria douglasii (Lindley) O. Kuntze, Rev. Gen. 2:474. 1891 [as R. douglasii (Loddiges) O. Kuntze]. Gesneria douglasii Martius, Nov. Gen. 8c Sp. 3:33, 1829 (“Ges- nera”). = Rechsteineria sp. Gesneria earlei Urban 8c Britton, Symb. Ant. 7:380, 1912. = Rhytidophyllum earlei (Urban & Britton) Morton, Brit- tonia 9:23, 1957. Gesneria eggersii J. D. Smith, Bot. Gaz. (Crawfordsville) 61: 384, 1916 (“Gesnera"). = Rechsteineria sp. Gesneria X eg regia Hortorum ex Lemaire, 111. Hort. 4:129, 1857, nom. nud. pro syn. = X Heppiantha naegelioides (Lemaire) H. E. Moore, Gentes Herb. 8:399, 1954. Gesneria ekmanii Urban, Ark. Bot. 17(7):55, 1922. = Rhytido- phyllum sp. Gesneria elatior Humboldt, Bonpland 8c Kunth, Nov. Gen. 8c Sp. 2:393, 1818 (1817). = Rechsteineria elatior (Hum- boldt, Bonpland 8: Kunth) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria eliptica Ramirez Goyena, FI. Nicar. 2:606, 1911. = ? Rechsteineria sp. Gesneria elliptica W. Hooker, Bot. Mag. 72: pi. 4242, 1846. = Rechsteineria elliptica (W. Hooker) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria elongata Humboldt, Bonpland 8c Kunth, Nov. Gen. 8c Sp. 2:396, 1818 (1817). = Kohleria trianae (Regel) Han- stein, Linnaea 34:442, 1865. 160 SMITHSONIAN CONTRIBUTIONS TO BOTANY Gesneria eriantha Bentham, PI. Hartweg. 228, 1846. = Kohleria eriantha (Bentham) Hanstein, Linnaea 34:442, 1865. Gesneria erubescens Hanstein, Ind. Sem. Hort. Bot. Berol., App. 1861:8, 1861 (“ Gesnera ”). = Rechsteineria erubescens (Hanstein) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria X exoniensis Hortorum ex Dombrain, FI. Mag. (London) 7: pi. 381, 1868 (‘Gesnera”). = Smithiantha ‘Exoniensis.’ Gesneria fascialis W. Hooker, Bot. Mag. 65: pi. 3659, 1838 (“Gesnera") sphalm. = Rechsteineria faucialis (Lindley) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria faucialis Lindley, Bot. Reg. 21: pi. 1785, 1835 (“Ges- nera"). = Rechsteineria faucialis (Lindley) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria flacourtifolia Hortorum ex Hanstein. Mart. FI. Bras. 8(1):355, 1864 (“Gesnera”) nom. nud. pro syn. — Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria flavescens Hanstein, Ind. Sem. Hort. Bot. Berol., App. 1861:8, 1861 (“Gesnera”). = Rechsteineria flavescens (Hanstein) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria fragilis Poeppig in Poeppig Sc Endlicher, Nov. Gen. 8c Sp. 3:7, 1840 (“Gesnera”). = Sinningia sceptrum (Mar- tius) Wiehler, Selbyana 1:32, 1975. Gesneria fruticulosa Glaziou, Bull. Soc. Bot. France 58, Mem. 3:514, 1911 (“Gesnera”), nom. nud. = Rechsteineria fruti- culosa Glaziou ex Hoehne, Sellowia 10:66, 1958. Gesneria gardneri W. Hooker, Bot. Mag. 70: pi. 4121, 1844. = Vanhouttea gardneri (W. Hooker) Fritsch, Bot. Jahrb. Syst. 29, Beibl. 65:14, 1900. Gesneria gerardiana Hortorum ex Lemaire, FI. Serres Jard. Eur. 2(4): sub pi. 4, 1846, nom. nud. pro syn. = Smithian- tha geroltiana (Kunth Sc Bouche) O. Kuntze, Rev. Gen. 2: 978, 1891. Gesneria geroltiana Kunth 8c Bouche, Ind. Sem. Hort. Bot. Berol. 1844:11, 1844. = Smithiantha geroltiana (Kunth 8c Bouche) O. Kuntze, Rev. Gen. 2:978, 1891. Gesneria glaucophylla Nicholson, 111. Diet. Gard. 2:66, 1885 (‘Gesnera”). = Rechsteineria sp. Gesneria gollmeriana Hanstein, Ind. Sem. Hort. Bot. Berol., App. 1861:7, 1861 (‘Gesnera"). = Rechsteineria gollmeriana (Hanstein) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria gracilis (Brongniart ex Regel) Hanstein, Linnaea 34: 272, 1865 (‘Gesnera"). = Rechsteineria gracilis (Brongniart ex Regel) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria grandis Hortorum ex Hanstein, Mart. FI. Bras. 8(1): 355, 1864 (“Gesnera”) nom. nud. pro syn. = Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria grandis Sprengel, Syst. Veg. ed. 16, 2:838, 1825 (“Ges- nera"). = Rhytidophyllum auriculatum W. Hooker, Bot. Mag. 64: pi. 3562, 1837. Gesneria grandis Swartz, Prodr. 89, 1788. = Rhytidophyllum grande (Swartz) Martius, Nov. Gen. & Sp. 3:39, 1829 & 3:196, 1832. Gesneria guazumifolia Bentham, PI. Hartweg. 147, 1846 (“Ges- nera"). = Kohleria guazumifolia (Bentham) Regel, Garten- flora 3:348, 1854. Gesneria guianensis Bentham, London J. Bot. 5:360, 1846. = Rechsteineria schomburgkiana (Kunth Sc Bouche) O. Kuntze, Rev. Gen. 2:474, 1891 (“schomburgkii”). Gesneria hahnii Hortorum Paris ex Baillon, Bull. Mens. Soc. Linn. Paris 1:719, 1887. = Kohleria sp. Gesneria herbertiana Lemaire, FI. Serres Jard. Eur. 2(4): sub pi. 4, 1846, nom. nud. pro syn. = Smithiantha geroltiana (Kunth Sc Bouche) O. Kuntze, Rev. Gen. 2:978, 1891. Gesneria hirsuta Humboldt, Bonpland 8c Kunth, Nov. Gen. & Sp. 2:394, 1818 (1817). = Kohleria hirsuta (Humboldt, Bonpland 8c Kunth) Regel, Flora 31:250, 1848. Gesneria hondensis Humboldt, Bonpland 8c Kunth, Nov. Gen. Sc Sp. 2:395, 1818 (1817). = Kohleria hondensis (Hum- boldt, Bonpland 8c Kunth) Regel, Flora 31:250, 1848. Gesneria hookeri Decaisne ex Planchon, FI. Serres Jard. Eur. 7:167, 1851-1852. = Sinningia verticillata (Vellozo) H. E. Moore, Baileya 19:40, 1973. Gesneria hookeri Hanstein, Linnaea 34:276, 1865 (“Gesnera"). = Reschsteineria hookeri (Hanstein) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria houttei De Von ex Morren, Hort. Beige 3:320, 1836. = Rechsteineria sp. Gesneria houttei Dumortier, Bull. Acad. Roy. Sci. Bruxelles 3:362, 1836. = Sinningia magnifica (Otto 8c Dietrich) Wiehler, Selbyana 1:32, 1975. Gesneria ignorata Kunth Sc Bouche, Ind. Sem. Hort. Bot. Berol. 1848:13, 1848 (“Gesnera”). = Kohleria ignorata (Kunth Sc Bouche) Regel, Bot. Zeitung (Berlin) 9:893, 1851. Gesneria inaequalis Bentham, PI. Hartweg. 230, 1846. = Kohleria sp. Gesneria incurva Bentham, Bot. Voy. Sulphur. 131, 1845. = Kohleria sp. Gesneria lasiantha Zuccarini, Abh. Math.-Phys. Cl. Konigl. Bayer. Akad. Wiss. 1:300, 1832 (“Gesnera”). = Moussonia deppeana (Schlechtendal Sc Chamisso) Hanstein, Linnaea 34:284, 1865. Gesneria lateritia Lindley, Bot. Reg. 23: pi. 1950, 1837. = Rechsteineria lateritia (Lindley) O. Kuntze, Rev. Gen. 2: 474, 1891. Gesneria lateritia Paxton, Paxton’s Mag. Bot. 9:245, 1842 (‘Gesnera"). = Sinningia cardinalis (Lehmann) H. E. Moore, Baileya 19:39, 1973. Gesneria latifolia Martius ex Otto Sc Schlechtendal, Verh. Vereins Befdrd. Gartenbaues Konigl. Preuss. Staaten 5:219, 1829 (‘Gesnera”). = Rechsteineria macrostachya (Lindley) L. B. Smith, J. Wash. Acad. Sci. 45:200, 1955. Gesneria lehmannii J. D. Smith, Bot. Gaz. (Crawfordsville) 41:384, 1916 (‘Gesnera"). = Rechsteineria sp. Gesneria leopoldi Scheidweiler ex Planchon, FI. Serres Jard. Eur. 7:167, 1851. = Rechsteineria leopoldii (Scheidweiler ex Planchon) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria leptopus Gardner, London J. Bot. 4:129, 1845. = Vanhouttea gardneri (W. Hooker) Fritsch, Bot. Jahrb. Syst. 29, Beibl. 65:14, 1900. Gesneria leucomalla (Hanstein) O. Kuntze, Rev. Gen. 2:473, 1891 (‘Gesnera"). = Rhytidophyllum leucomallon Han- stein, Linnaea 34:312, 1865. Gesneria lindeniana Brongniart, Rev. Hort. ser. 3, 1:363, 1847. NUMBER 29 161 = Sinningia incarnata (Aublet) Denham, Baileya 19:126, 1974. Gesneria lindleyi W. Hooker, Bot. Mag. 64: pi. 3602, 1837. = Sinningia claybergiana H. E. Moore, Baileya 19:39, 1973. Gesneria linkiana Kunth & Bouche, Ind. Sem. Hort. Bot. Berol. 1848:13, 1848. = Kohler ia longifolia (Bindley) Han- stein, Linnaea 29:524, 1858. Gesneria lobulata Hortorum Botanicum Berolinensis ex Han- stein. Mart. FI. Bras. 8(1):377, 1864 (“ Gesnera ”). = Sin- ningia macrorrhiza (Dumortier) Wiehler, Selbyana 1:32, 1975. Gesneria lomensis Urban, Repert. Spec. Nov. Regni Veg. 21: 70, 1925. = Rhytidophyllum lomense (Urban) Morton, Brittonia 9:23, 1957. Gesneria longiflora Humboldt, Bonpland & Kunth, Nov. Gen. & Sp. 2:396, 1818 (1817). = Kohleria longiflora (Humboldt, Bonpland 8c Kunth) Hanstein, Linnaea 34:442, 1865. Gesneria longiflora FI. Mex. ex A. P. de Candolle, Prodr. 7: 536, 1839, non:, nud. pro syn. = Achimenes longiflora A. P. de Candolle, Prodr. 7:536, 1839. Gesneria longiflora Sesse & Mocino, PI. Nov. Hisp. ed. 1, 97, 1889. = Achimenes longiflora A. P. de Candolle, Prodr. 7:536, 1839. Gesneria longifolia Lindley, Bot. Reg. 27, Misc. 92, 1841 (‘Gesnera”). = Kohleria longifolia (Lindley) Hanstein, Lin- naea 29:524, 1858. Gesneria longipes Bentham, PI. Hartweg. 229, 1846. = Kohleria longipes (Bentham) Hanstein, Linnaea 34:442, 1865. Gesneria longirostris Martius ex Hanstein, Mart. FI. Bras. 8(1):380, 1864 (‘Gesnera”), nom. nud. pro syn. = Sinningia magnifica (Otto 8c Dietrich) Wiehler, Selbyana 1:32, 1975. Gesneria macrantha Hortorum Berolinensis ex Walpers, Ann. Bot. Syst. 2:1066, 1852, nom. nud. pro syn. = Sinningia cardinalis (Lehmann) H. E. Moore, Baileya 19:39, 1973. Gesneria macrantha Lemaire, Hort. Universe! 6:127, 1845. = Rechsteineria lateritia (Lindley) O. Kuntze, Rev. Gen. 2: 474, 1891. Gesneria macrantha Sprengel, Syst. Veg. ed. 16, 1825 (‘Ges- nera”). = Rechsteineria sp. Gesneria macrorrhiza Dumortier, Bull. Acad. Roy. Sci. Bruxelles 3:361, 1836. = Sinningia macrorrhiza (Dumortier) Wiehler, Selbyana 1:32, 1975. Gesneria macrostachya Lindley, Bot. Reg. 14: pi. 1202, 1828. = Rechsteineria macrostachya (Lindley) L. B. Smith, J. Wash. Acad. Sci. 45:200, 1955. Gesneria maculata Martius, Nov. Gen. & Sp. 3: pi. 215, 1829 (“Gesnera"), nom. nud. pro syn. = Rechsteineria sp. Gesneria maculata Hanstein, Mart. FI Bras. 8(1):361, 1864 (“Gesnera"). = Sinningia verticillata (Vellozo) H. E. Moore, Baileya 19:40, 1973. Gesneria maculata Mocino 8c Sesse ex A. P. de Candolle, Prodr. 7:532, 1839. = Kohleria lanata Lemaire, 111. Hort. 8:287, 1861. Gesneria maculata Sesse & Mocino, PI. Nov. Hisp. ed. 1, 97, 1889. = Kohleria lanata Lemaire, 111. Hort. 8: pi. 287, 1861. Gesneria magnifica Otto 8c Dietrich, Allg. Gartenzeitung 1: 265, 1833 (‘Gesnera"). = Sinningia magnifica (Otto 8c Dietrich) Wiehler, Selbyana 1:32, 1975. Gesneria marchii Wailes ex W. Hooker, Bot. Mag. 66: pi. 3744, 1839 (‘Gesnera"). = Rechsteineria marchii (Wailes ex W. Hooker) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria melittifolia Brongniart, Rev. Hort. ser. 3, 1:363, 1847. = Rechsteineria sp. Gesneria merckii H. Wendland, Allg. Gartenzeitung 6:49, 1838 (“Gesnera”). = Rechsteineria merckii (H. Wendland) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria mollis Hortorum Berolinensis ex Kunth, Ind. Sem. Hort. Bot. Berol. 1848:14, 1848. = Kohleria ignorata (Kunth 8c Bouche) Regel, Bot. Zeitung (Berlin) 9:893, 1851. Gesneria mollis Humboldt, Bonpland 8c Kunth, Nov. Gen. 8c Sp. 2:395, 1818 (1817). = Kohleria mollis (Humboldt, Bonpland 8c Kunth) Hanstein, Linnaea 29:528, 1859 (“molle”). Gesneria montevidensis Hortulanorum ex Decaisne, Rev. Hort. ser. 3, 2:468, 1848, nom. nud. pro syn. = fRechstein- eria sp. Gesneria mortonii Wiehler, Baileya 18:4, 1971. = Pheidono- carpa corymbose subsp. cubensis (Morton) L. Skog. Gesneria X naegelioides Hortorum ex Nicholson, 111. Diet. Card. 2:66, 1885 (“Gesnera”). = X Achimenantha naegelio- ides (Van Houtte) H. E. Moore, Baileya 19:36, 1973. Gesneria X nigrescens Hortorum ex Nicholson, 111. Diet. Gard. 2:66, 1885 (“Gesnera”). [This garden hybrid cannot presently be assigned to a genus.] Gesneria nigrina Linnaeus ex Jackson, Index Linn. Herb. 80, 1912, nom. nud. = Melasma scabrum Bergius, Descr. PI. Cap. Bonae Spei. 162, 1767. [Scrophulariaceae.] Gesneria nitida Hortorum ex Hanstein, Mart. FI. Bras. 8(1): 355, 1864 (‘Gesnera"), nom. nud. pro syn. = Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria oblongata Hortulanorum Young ex W. Hooker, Bot. Mag. 66: sub pi. 3725, 1839, nom. nud. pro syn. = Kohleria trianae (Regel) Hanstein, Linnaea 34:442, 1865. Gesneria oblongata Hortorum Berolinensis ex Hanstein, Lin- naea 34:284. (“Gesnera”) nom. nud. pro syn. = Moussonia deppeana (Schlechtendal 8c Chamisso) Hanstein, Linnaea 34:284, 1865. Gesneria oblongata Paxton, Paxton’s Mag. Bot. 6:103, 1839. = Kohleria sp. Gesneria onacaensis Rusby, Descr. S. Amer. PI. 123, 1920. = Rhytidophyllum onacaense (Rusby) L. Skog, new combina- tion. Gesneria organa Hortulanorum ex Decaisne, Rev. Hort. ser. 3, 2:462, 1848, nom. nud. pro syn. = Vanhouttea gardneri (W. Hooker) Fritsch, Bot. Jahrb. Syst. 29, Beibl. 65:14, 1900. Gesneria oxyphylla A. P. de Candolle, Prodr. 7:531, 1839. = Gloxinia sylvatica (Humboldt, Bonpland 8c Kunth) Wiehler, Selbyana 1:33, 1975. Gesneria palustris Hortorum ex Hanstein, Mart. FI. Bras. 8(1):355, 1864 (‘Gesnera”), nom. nud. pro syn. = Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria palustris Hortorum ex Regel, Gartenflora 4:247, 1855, nom. nud. pro syn. = Sinningia sceptrum (Martius) Wiehler, Selbyana 1:32, 1975. 162 SMITHSONIAN CONTRIBUTIONS TO BOTANY Gesneria paluviensis Hortorum ex Hanstein, Mart. FI. Bras. 8(1):355, 1864 (“ Gesnera ”) nom. nud. pro syn. = Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria pardina Decaisne ex Planchon, FI. Serres Jard. Eur. 7:167, 1851-1852. = Sinningia verticillata (Vellozo) H. E. Moore, Baileya 19:40, 1973. Gesneria pardina W. Hooker, Bot. Mag. 74: pi. 4348. = Van- houttea salviifolia (Gardner) O. Kuntze, Rev. Gen. 2:478, 1891. Gesneria pendulina Lindley, Bot. Reg. 12: pi. 1032, 1827. = Rechsteineria pendulina (Lindley) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria petiolaris Bentham, Bot. Voy. Sulphur. 131, 1845. = Kohleria longifolia var. petiolaris (Bentham) Morton, Publ. Field Mus. Nat. Hist., Bot. Ser. 18:1180, 1938. Gesneria petiolaris (A. P. de Candolle) O. Kuntze, Rev. Gen. 2:473, 1891 (“Gesnera”). = Rhytidophyllum sp. Gesneria picta W. Hooker, Bot. Mag. 75: pi. 4431, 1849. = Kohleria tubiflora (Cavanilles) Hanstein, Linnaea 34:442, 1865. Gesneria pilosa Glaziou, Bull. Soc. Bot. France 58, Mem. 3: 513, 1911 (‘Gesnera”), nom. nud., = Amasonia hirta Bentham, Ann. Nat. Hist. 2:451, 1839. [Verbenaceae.] Gesneria pilosa Hortorum ex Lemaire, FI. Serres Jard. Eur. 3:223, 1847, nom. nud. pro syn. = Columnea aureonitens W. Hooker, Bot. Mag. 73: pi. 4294, 1847. Gesneria plumeriana (A. P. de Candolle) O. Kuntze, Rev. Gen. 2:473, 1891 (‘Gesnera”). = Rhytidophyllum sp. Gesneria polyantha A. P. de Candolle, Prodr. 7:528, 1839. = Rechsteineria polyantha (A. P. de Candolle) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria polyantha W. Hooker, Bot. Mag. 69: pi. 3995, 1843. = Rechsteineria discolor (Lindley) O. Kuntze, Rev. Gen. PI. 2:474, 1891. Gesneria prasinata Ker-Gawler, Bot. Reg. 5: pi. 428 1820. = Paliavana prasinata (Ker-Gawler) Bentham in Bentham & Hooker, Gen. PI. 2:1003, 1876. Gesneria pulchella Hortorum ex Hanstein, Mart. FI. Bras. 8(1):355, 1864 (“Gesnera") nom. nud. pro syn. = Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria pulchella Swartz, Prodr. 90, 1788. = Achimenes erecta (Lamarck) H. P. Fuchs, Acta Bot. Neerl. 12:15, 1963. Gesneria punctata Hortorum ex Hanstein, Linnaea 34:273, 1865 (‘Gesnera"), nom. nud. pro syn. = Rechsteineria gracilis (Brongniart ex Regel) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria punctata Hortulanorum ex Decaisne, Rev. Hort. ser. 3, 2:466, 1848, nom. nud. pro syn. = Rechsteineria gracilis (Brongniart ex Regel) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria punctata H. Jacquin, Ann. FI. Pomone 1837:254, 1837. = Rechsteineria sp. Gesneria purpurea Lindley, Paxton’s FI. Gard. 3: pi. 76, 1853 (‘Gesnera"). = Sinningia verticillata (Vellozo) H. E. Moore, Baileya 19:40, 1973. Gesneria X pyramidalis Hortorum ex Nicholson, 111. Diet. Gard. 2:66, 1885 (“Gesnera"). = Rechsteineria sp. Gesneria quadrifolia Warszewicz ex Hanstein, Linnaea 29:541, 1859 (“Gesnera"), nom. nud. pro syn. = Gloxinia sylvatica (Humboldt, Bonpland 8c Kunth) Wiehler, Selbyana 1:33, 1975. Gesneria quaterniflora FI. Mex. ex A. P. de Candolle, Prodr. 7:528, 1839, nom. nud. pro syn. = Moussonia deppeana (Schlechtendal 8c Chamisso) Hanstein, Linnaea 34:284, 1865. Gesneria reflexa Knowles 8c Westcott, FI. Cab. 2:65, 1838. = Rechsteineria reflexa (Knowles 8c Westcott) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria X refulgens Hortorum ex Nicholson, 111. Diet. Gard. 2:66, 1885 (“Gesnera"). = Smithiantha ‘Refulgens.’ Gesneria regalis L. H. Bailey, Man. Cult. PI. ed. 1, 695, 1924, nom. nud. pro syn. = Smithiantha zebrina (Paxton) O. Kuntze, Rev. Gen. 2:978, 1891. Gesneria regeliana Warsczewicz ex Planchon, FI. Serres Jard. Eur. 9:213, 1853, nom. nud. pro syn. = Kohleria warsze- wiezii (Regel) Hanstein, Linnaea 34:441, 1865. Gesneria regina Hortorum ex L. H. Bailey, Stand. Cycl. Hort. 3169, 1917, nom. nud. pro syn. = Sinningia regina Sprague, Gard. Chron. Ser. 3, 36:87, 1904. Gesneria rhynchocarpa Bentham, Bot. Voy. Sulphur. 131, 1845. = Kohleria tubiflora (Cavanilles) Hanstein, Linnaea 34:442, 1865. Gesneria robusta Hortorum ex Semaine Hort. 3:71, 1899 (“Gesnera"). = Smithiantha ‘Robusta.’ Gesneria rubricaulis Kunth 8c Bouche, Ind. Sem. Hort. Bot. Berol. 1847: 12, 1847. = Kohleria rubricaulis (Kunth 8c Bouche) Hasskarl, Bonplandia 8:97, 1860. Gesneria rugata Scheidweiler in Otto 8c Dietrich, Allg. Gar- tenzeitung 15:226, 1847 (“Gesnera”). = Kohleria sp. Gesneria rupestris Martius ex R. Graham, Edinburgh New Philos. J. 24:193, 1838. = Sinningia tuberosa (Martius) H. E. Moore, Baileya 19:40, 1973. Gesneria rupicola Martius, Nov. Gen. 8c Sp. 3:30, 1829 (“Ges- nera"). = Rechsteineria rupicola (Martius) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria rupincola (C. Wright) Urban, Symb. Ant. 2:382, 1901. = Rhytidophyllum rupincola (C. Wright) Morton, Brittonia 9:22, 1957. Gesneria rutila Lindley, Bot. Reg. 14: pi. 1158, 1828. = Sinningia incarnata (Aublet) Denham, Baileya 19:126, 1974. Gesneria salviifolia Gardner, London J. Bot. 4:129, 1845. = Vanhouttea salviifolia (Gardner) O. Kuntze, Rev. Gen. 2:478, 1891. Gesneria sartorii Liebmann, Ind. Sem. Hort. Bot. Haun. 1853: 20, 1853. = Kohleria sp. Gesneria scabra Sprengel, Syst. Veg. ed. 16. 2:838, 1825 (“Ges- nera"). = Rhytidophyllum berteroanum Martius, Nov. Gen. 8c Sp. 3:39, 1829 (“Rytidophyllum"). Gesneria sceptroides Hanstein, Ind. Sem. Hort. Bot. Berol., App. 1861:7, 1861 (“Gesnera"). = Rechsteineria sceptroides (Hanstein) O. Kuntze, Rev. Gen. 2:474, 1891 (“sceptrodes”). Gesneria sceptrum Martius, Nov. Gen. 8c Sp. 3:32, 1829 (“Ges- nera"). = Sinningia sceptrum (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria schiedeana (A. P. de Candolle) W. Hooker, Bot. Mag. 71: pi. 4152, 1845. = Kohleria schiedeana (A. P. de Candolle) Hanstein, Linnaea 29:518, 1859. Gesneria schomburgkiana Kunth 8c Bouche, Ind. Sem. Hort. NUMBER 29 163 Bot. Berol. 1844:11, 1844. = Rechsteineria schomburgkiana (Kunth & Boucfae) O. Kuntze, Rev. Gen. 2:474, 1891 (“schomburgkii”). Gesneria seemannii W. Hooker, Bot. Mag. 76: pi. 4504, 1850. = Kohleria seemannii (W. Hooker) Hanstein, Linnaea 26: 203, 1854. Gesneria selloi Hortorum ex G. Don, Sweet’s Hort. Brit. ed. 3, 527, 1839, nom. nud. pro syn. = Rechsteineria lateritia (Lindley) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria sellovii Martius, Nov. Gen. Sc Sp. 3:36, 1829 (“ Ges - nera”). = Rechsteineria sellovii (Martius) O. Kuntze, Rev. Gen. 2:474, 1891 (“selloi”). Gesneria spicata Hortorum ex Hanstein, Mart. FI. Bras. 8(1): 355, 1864 (“ Gesnera ”) nom. nud. pro syn. = Sinningia allagophylla (Martius) Wiehler, Selbyana 1:32, 1975. Gesneria spicata Hortorum Berolinensis ex Hanstein, Mart. FI. Bras. 8(1):371, 1864, (‘Gesnera”), nom. nud. pro syn. = Sinningia strict a (W. Hooker & Arnott) Wiehler, Selbyana 1:33, 1975. Gesneria spicata Humboldt, Bonpland & Kunth, Nov. Gen. Sc Sp. 2: 393, 1818 (1817). = Kohleria spicata (Humboldt, Bonpland & Kunth) 0rsted, Cent. Gesn. 27, 1858. Gesneria splendens L. H. Bailey, Man. Cult. PI. ed. 1, 695, 1924, nom. nud. pro syn. = Smithiantha zebrina (Paxton) O. Kuntze, Rev. Gen. 2:978, 1891. Gesneria splendens Van Houtte ex Hanstein, Mart. FI. Bras. 8(1):374, 1864 (‘Gesnera”). = Rechsteineria splendens (Van Houtte ex Hanstein) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria splendidissima Regel, Cat. PI. Hort. Aksakov. 63, 1860, nom. nud. = Rechsteineria sp. Gesneria stachydifolia Bentham, PI. Hartweg. 230, 1846. = Sinningia incarnata (Aublet) Denham, Baileya 19:126, 1974. Gesneria stachyfolia Hanstein, Linnaea 34:263, 1865 (“Ges- nera”), sphalm. = Sinningia incarnata (Aublet) Denham, Baileya 19:126, 1974. Gesneria stricta W. Hooker 8c Arnott, J. Bot. (Hooker) 1:280, 1834. = Sinningia stricta (W. Hooker & Arnott) Wiehler, Selbyana 1:33, 1975. Gesneria sulcata Rusby, Mem. Torrey Bot. Club 4:237, 1895 (‘Gesnera"). = Rechsteineria sulcata (Rusby) Fritsch, Bot. Jafarb. Syst. 50:436, 1913. Gesneria suttoni Booth ex Lindley, Bot. Reg. 19: pi. 1637, 1833 (“Gesnera"). = Rechsteineria suttonii (Booth ex Lind- ley) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria sylvatica Humboldt, Bonpland & Kunth, Nov. Gen. & Sp. 2:393, 1818 (1817) (“silvatica”). = Gloxinia sylvatica (Humboldt, Bonpland & Kunth) Wiehler, Selbyana 1:33, 1975. Gesneria ten si la FI. Mex. ex A. P. de Candolle, Prodr. 7:536, 1839, nom. nud. pro syn. = Achimenes erecta (Lamarck) H. P. Fuchs, Acta Bot. Neerl. 12:15, 1963. Gesneria tenella Hortorum ex Hanstein, Mart. FI. Bras. 8(1): 366, 1864 (“Gesnera"), nom. nud. pro syn. = Sinningia aggregata (Ker-Gawler) Wiehler, Selbyana 1:32, 1975. Gesneria tetraphylla Hortorum ex Hanstein, Mart. Fl. Bras. 8(1): 359, 1864 (“Gesnera”), nom. nud. pro syn. = Rech- steineria leopoldii (Scheidweiler ex Planchon) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria tomentosa N. Jacquin, Select. Am. 179, pi. 175: fig. 64, 1763 (excl. syn.). = Rhytidophyllum crenulatum A. P. de Candolle, Prodr. 7:524, 1839. Gesneria tomentosa Linnaeus, Sp. PI. ed. 1, 2:612, 1753 (pro parte, excl. syn. Plum.). = Rhytidophyllum tomentosum (Linnaeus) Martius, Nov. Gen. 8c Sp. 3:39, 1829 8c 3:196, 1832. Gesneria tomentosa Mocino ex A. P. de Candolle, Prodr. 7: 528, 1839, nom. nud. pro syn. = Moussonia deppeana (Schlechtendal & Chamisso) Hanstein, Linnaea 34:284, 1865. Gesneria trianaei (Regel) Herincq, Horticulteur Franq. 5:30, 1863. = Kohleria trianae (Regel) Hanstein, Linnaea 34:442, 1865. Gesneria tribracteata Otto 8c Dietrich, Allg. Gartenzeitung 2: 194, 1834. = Rechsteineria sp. Gesneria triflora W. Hooker, Bot. Mag. 73: pi. 4342, 1847. — Kohleria tubiflora (Cavanilles) Hanstein, Linnaea 34:442, 1865. Gesneria triflora Martens & Galeotti, Bull. Acad. Roy. Sci. Bruxelles 9(2): 33, 1842. = Moussonia triflora (Martens & Galeotti) Hanstein, Linnaea 34:286, 1865. Gesneria trifoliata Martens, Linnaea 18:165, 1845. = Rech- steineria trifoliata (Martens) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria tuberosa Martius, Nov. Gen. Sc Sp. 3:29, 1829 (“Ges- nera”). = Sinningia tuberosa (Martius) H. E. Moore, Baileya 19:40, 1973. Gesneria tubiflora Cavanilles, Ic. Sc Descr. PI. 6:61, 1801. = Kohleria tubiflora (Cavanilles) Hanstein, Linnaea 34:442, 1865. Gesneria tubiflora Endlicher in Halting., Parad. Vindob. pi. 64, 1844-1847. = Sinningia tubiflora (W. Hooker) Fritsch in Engl. & Prantl, Nat. Pflanzenfam. 4(3b): 182, 1894. Gesneria tubiflora Grisebach, Abh. Konigl. Ges. Wiss. Got- tingen 24:263, 1879. = Sinningia tubiflora (W. Hooker) Fritsch in Engl. Sc Prantl, Nat. Pflanzenfam. 4(3b):182, 1894. Gesneria tweediana Hortorum ex Hanstein, Mart. Fl. Bras. 8(1):396, 1864 (‘Gesnera”), nom. nud. pro. syn. = Paliavana prasinata (Ker-Gawler) Bentham in Bentham 8c Hooker, Gen. PI. 2:1003, 1876. Gesneria ulmi folia Humboldt, Bonpland Sc Kunth, Nov. Gen. & Sp. 2:394, 1818 (1817). = Heppiella ulmifolia (Humboldt, Bonpland & Kunth) Hanstein, Linnaea 29:512, 1858. Gesneria umbellata Decaisne, Fl. Serres Jard. Eur. 7:167, 1851-1852. = Rechsteineria umbellata (Decaisne) Hjelm- qvist, Bot. Not. 1937:297, 1937. Gesneria ? uni flora Mocino 8c Sesse ex A. P. de Candolle, Prodr. 7:532, 1839. = Achimenes longiflora A. P. de Can- dolle, Prodr. 7:536, 1839. Gesneria vargasii A. P. de Candolle, Prodr. 7:527, 1839. = Rechsteineria vargasii (A. P. de Candolle) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria vauthieri A. P. de Candolle, Prodr. 7:530, 1839. = Rechsteineria vauthieri (A. P. de Candolle) O. Kuntze, Rev. Gen. 2:474, 1891. Gesneria velutina Willdenow ex A. P. de Candolle, Prodr. 7: 528, 1839, nom. nud. pro syn. = Kohleria trianae (Regel) Hanstein, Linnaea 34:442, 1865. 164 SMITHSONIAN CONTRIBUTIONS TO BOTANY Gesneria velutina Poeppig ex Hanstein, Linnaea 34:290, 1865 (“ Gesnera ”), nom. nud. pro syn. = Kohleria sp. Gesneria ventricosa Hortorum Berolinensis ex Hanstein, Lin- naea 29:529, 1859 (‘‘Gesnera’’), nom. nud. pro syn. = Koh- leria ventricosa (Hanstein) Hanstein, Linnaea 34:441, 1865. Gesneria verdi Hortorum ex Hanstein, Mart. FI. Bras. 8(1): 396, 1864. (“Gesnera”), nom. nud. pro syn. = Paliavana prasinata (Ker-Gawler) Bentham in Bentham 8c Hooker, Gen. PI. 2:1003, 1876. Gesneria verticillata Cavanilles, Ic. 8c Descr. PI. 6:62, 1801. = Heppiella verticillata (Cavanilles) Cuatrecasas, Anales Ci. Univ. Madrid 4:259, 1935. Gesneria verticillata W. Hooker, Bot. Mag. 54: pi. 2776, 1827. = Sinningia verticillata (Vellozo) H. E. Moore, Baileya 19: 40, 1973. Gesneria verticillata Hortorum ex Hanstein, Mart. FI. Bras. 8(1):366, 1864 (‘Gesnera"), nom. nud. pro syn. = Sinningia aggregata (Ker-Gawler) Wiehler, Selbyana 1:32, 1975. Gesneria vestita Bentham, Bot. Reg. 31, Misc. 19, 1845 (“Ges- nera”) = Kohleria vestita (Bentham) Hanstein, Linnaea 34:442, 1865. Gesneria warmingii Hiern, Vidensk. Meddel. Dansk. Natur- hist. Foren. Kjpbenhavn 1877-1878:90, 1877-1878 (‘Ges- nera"). = Rechsteineria warmingii (Hiern) Hjelmqvist, Bot. Not. 1937:297, 1937. Gesneria warszewiczii Bouche 8c Hanstein, Ind. Sem. Hort. Bot. Berol., App. 1861:9, 1861 (‘Gesnera”). = Sinningia warszewiczii (Bouche 8c Hanstein) H. E. Moore, Baileya 19:40, 1973. Gesneria xanthophylla Poeppig in Poeppig 8c Endlicher, Nov. Gen. 8c Sp. 3:7, 1840 (‘Gesnera”). = Anodiscus xanthophyl- lus (Poeppig) Mansfeld, Repert. Spec. Nov. Regni Veg. 36: 124, 1934. Gesneria zebrina Paxton, Paxton’s Mag. Bot. 8:271, 1841 (“Gesnera”). = Smithiantha zebrina (Paxton) O. Kuntze, Rev. Gen. 2:978, 1891. Pentarhaphia corymbosa (Swartz) Hanstein, Linnaea 34:307, 1865. = Pheidonocarpa corymbosa (Swartz) L. Skog. Pentarhaphia cumanensis Hanstein, Linnaea 34:300, 1865. = Rhytidophyllum cumanense (Hanstein) L. Skog, new com- bination. Appendix 2 Numerical List of Taxa Pheidonocarpa 1. P. corymbosa (Swartz) L. Skog a. subsp. corymbosa b. subsp. cubensis (Morton) L. Skog Gesneria Section 1. Pentarhaphia 2. G. aspera Urban & Ekman 3. G. binghamii Morton 4. G. brevifolia Urban 5. G. clarensis N. Britton & P. Wilson 6. G. cubensis (Decaisne) Baillon a. var. cubensis b. var. truncata (Alain) L. Skog 7. G. glandulosa (Grisebach) Urban 8. G. haitiensis L. Skog 9. G. harrisii Urban 10. G. heterochroa Urban 11. G. hypoclada Urban & Ekman 12. G. jamaicensis N. Britton 13. G. lanceolata Urban & Ekman 14. G. odontophylla Urban & Ekman 15. G. parvifolia Alain 16. G. pulverulenta Alain 17. G. salicifolia (Grisebach) Urban a. var. ferruginea (C. Wright) L Skog b. var. salicifolia c. var. spathulata L. Skog 18. G. ventricosa Swartz a. subsp. cymosa (Urban) L. Skog b. subsp. ventricosa 19. G. wrightii Urban Section 2. Stenochonanthe 20. G. scabra Swartz a. var. fawcettii (Urban) L. Skog b. var. scabra c. var. sphaerocarpa (Urban) L. Skog d. var. viridicalyx L. Skog Section 3. Lachnoblaste 21. G. decapleura Urban Section 4. Myrmekianthe 22. G. duchartreoides (C. Wright) Urban Section 5. Gesneria 23. G. brachysepala Urban 24. G. citrina Urban 25. G. humilis Linnaeus 26. G. pauciflora Urban Section 6. Physcophyllon 27. G. acaulis Linnaeus a. var. acaulis b. var. glabrata Urban 28. C. barahonensis Urban 29. G. christii Urban 30. G. cuneifolia (A. P. de Candolle) Fritsch 31. G. hybocarpa Urban & Ekman 32. G. libanensis Linden ex Morren 33. G. pedicellaris Alain 34. G. purpurascens Urban 35. G. reticulata (Grisebach) Urban Section 7. Dittanthera 36. G. alpina (Urban) Urban 37. G. calycina Swartz 38. G. calycosa (W. Hooker) O. Kuntze 39. G. clandestina (Grisebach) Urban 40. G. exserta Swartz 41. G. fruticosa (Linnaeus) O. Kuntze 42. G. onychocalyx L. Skog 43. G. pedunculosa (A. P. de Candolle) Fritsch Section 8. Duchartrea 44. G. viridiflora (Decaisne) O. Kuntze a. subsp. acrochordonanthe L. Skog b. subsp. quisqueyana (Alain) L. Skog c. subsp. sintenisii (Urban) L. Skog d. subsp. viridiflora Section 9. Chorisanthera 45. G. gloxinioides (Grisebach) Urban 46. G. pumila Swartz a. subsp. mimuloides (Grisebach) L. Skog b. subsp. neglecta (W. Hooker) L. Skog c. subsp. proctorii (Stearn) L. Skog d. subsp. pumila 47. G. shaferi Urban a. subsp. depressa (Grisebach) L. Skog b. subsp. shaferi 165 Appendix 3 List of Exsiccatae (Numbers in parentheses refer to species numbers in systematic treatment and in Appendix 2) Abbott, W., 294(44b); 457(44b); 1173(6a); 1182(6a); 2087(35); 2623(35) Acuna, J„ 6768(44d); 6787(10); 9712(10); 12720(22); 13345(47b); 13346(44d); 13347(22); 13348(17c); 14940(25); sn(25); sn(47b); sn(44d) Acuna, J„ Sc Alain Liogier, 15686(25); 15687(17a); sn(25); sn(17a) Acuna, J., Alain Liogier & M. Lopez F„ sn(22) Acuna, J., & Darlington, sn(44d) Acuna, J., Sc Diaz Barreto, 17355(17b); 17379(34); 17384(22); 17453(25) Acuna, J., Sc Maza, 19352(25) Acuna, J., C. Morton Sc Alain Liogier, 20118(l7a) Acuna, J., Pino, Alonso Sc Venning 19422(17b) Acuna, J., & J. Roig, sn(17a); sn(25) Acuna, J., Sc F. Zayas, 19786(22) Adams, C„ 5570(27a); 5821(40); 6476(27a); 6967(la); 7283(40); 7545(27a); 8451(27b); 8628(46d); 8883(46d); 9091(46d); 9096(37); 9333(46d); 9343(37); 9344(46d); 10197(38); 10700 (36); 10910(40); 11471(27a); 12212(40); 12644(27a); 12745 (27a); 13097(38) Alain Liogier (Brother Alain), 1185(25); 2360(17a); 3181(22); 3223 (44d); 3230(44d); 3627(47b); 3647(32); 3879(17a); 4322 (25); 4434(25); 4491(25); 6651(44d); 9069(43); 9593(44c); 9581(30); 10071(44c); 10086(44c); 10187(30); 10685(43); 11028(35); 11204(44b); 11234(35); 11710(44b); 11866(44b); 12584(44b); 12965(35); 13078(44b); 13672(16); 13864(15); 13871(16); 13949(35); 14321(6b); 14494(6a); 14507(6a); 15386(44b); 15537(6a); 15543(44b); 16150(33); 16154(33); 17372(6a); 17752(35); 17913(16); 18024(44b); 18118(15); 18132(16); 18467(33); 18513(41); 18526(6a) Alain Liogier & J. Acuna, 1134(17a); 7524(47b); 7533(34); 7541(34); 7543(35); 7546(34); 7609(35); 7626(22); 7696(34); 7707(22); 7710(22) Alain Liogier, J. Acuna & M. Lopez F., 7402(32); 7406(6a); 7441(10) Alain Liogier, J. Acuna Sc Ramos, 77l7(47b) Alain Liogier & Bro. Clemente, 899(22) Alain Liogier, J. Jimenez & E. Marcano, 14635(44b) Alain Liogier Sc E. Killip, 2010(25) Alain Liogier Sc M. Lopez F., 4640(22); 4802(22); 7105(lb); 7130(41); 7151(35); 7178(34); 7179(22); 7247(35); 7318(22) Alain Liogier 8c C. Morton, 5082(17b); 5092(34); 5101(34); 5129(22); 5132(47b); 5140(22); 5162(47b) Alexander, R. (later Prior), sn(27a); sn(40) Allard, H„ 17795(35); 18902(35) Ambrose, J., 121(30) Anderson, A., sn(18a) Anderson, W. & D. Sternberg, 3316(46d) Arnoldo, Frater, 778(18b); 3260(18b) Armstrong, Dr., sn(40) Bailey, L„ 705(27a); 12433(25); 15153(34) Baker, C., 3832(25) Barkley, F„ 22J236(27a) Barry, A., sn(40); sn(46d) Basilio Augusto, Bro., 736(35) Beard, J., 404(18b) Beard, P., 1107(18b); 1341(18a) Beaupertuis, sn(18b) Bengry, R., sn(20d); sn(40) Bertero, C., 873(18b); 2183(27a); sn(18b); sn(40) Bijhouwer, J., 428(25) Bingham, C., 7247(3) Blain, J., 50(25) Boldingh, I., 471B(18b); 479aB(18b); l758B(18b); l783B(18b) Box, H„ 1921 (18b) Bprgesen, F., sn(46a) Boynton, K., 8221 (44c) Britton, E., 5102(30) Britton, E., Sc D. Marble, 662(30); 666(43); 2254(43) Britton, N„ 150(36); 168(46a); 512(46d); 677(9); 733(27a); 1000 (27b); 2487(27a); 2500(27a); 2720(27a); 3452(40); 3732 (27b); 3941(39); 8583(30); 8594(30) Britton, N., 8c E. Britton, 5087(44d); 7525(30); 7938(43); 7976(24); 8791(30); 9003(43); 9093(43) Britton, N„ E. Britton Sc K. Boynton, 8184(30) Britton, N., E. Britton & M. Brown, 5915(43); 6534(43) Britton, N„ E. Britton Sc J. Cowell, 9723(25); 9765(25) Britton, N„ E. Britton & C. Gager, 7216(25); 7220(25); 7358 (25); 7359(25) Britton, N„ E. Britton Sc W. Hess, 2735(30); 2745(43) Britton, N., E. Britton Sc P. Wilson, 4695(25); 14241(25) Britton, N„ & Bruner, 7601 (44c) Britton, N„ Sc J. Cowell, 124(18b); 403(43); 1458(30); 2012(30); 2042(30); 2209(44c); 4192(26); 12771(6a) Britton, N„ J. Cowell Sc S. Brown, 4546(26) Britton, N„ F. Earle Sc C. Gager, 6740(25); 6889(25) Britton, N„ Sc A. Hollick, 2214(20b); 2804(27a) Britton, N., F. Stevens Sc W. Hess, 2442(26); 2561(43) Britton, N„ & P. Wilson, 5270(44d); 5274(25) Britton, N„ P. Wilson & Bro. Leon, 14127(25) Brown, S„ 68(27b); 205(38); 239(27b) Browne, P., sn(27a) Buch, W„ 765(35) Bucher, G., 10529(3) Burrowes, W„ 13047(40) 166 NUMBER 29 167 Caldwell, H„ 8c C. Baker, 7029(25) Caley, G., sn(18a) Calvino, M., in Leon 22385(25) Calvino, M., 8c E. Manueli, 7988(25) Campbell, E., 6136(40); 6246(40) Carabia, J., 3527(32) Christ, H„ 1888(29) Churchill, J„ sn(27a) Clark, R., sn(la); sn(30); sn(26); sn(35); sn(40) Clemente, Bro., 2956(32); 5089(44d); 6998(25) Clemente, Bro., Alain Liogier & Bro. Chrysogone, 4066(22) Cooley, G„ 8233(18a); 8573(18b) Cornman, I., sn(38) Cowell, J„ 802(30) Cowles, H., 223(30) Crawford, J„ 662(38); 668(38); 832(27a) Crosby, M., H. Hespenheide 8c W. Anderson, 1171 (27a); 410 (27a) Davidse, G„ 2660(35) Davidse, G., & E. Conroy, 3270(27a) Distin, H., sn(27a) Don, G., sn(25) Duke, J„ 7045(43) Duss, Pere, 329(18b); 330(18b); 3275(18b); 4071(18b); 4543(18b) Edmondo, Bro., 7(6a) Eggers, H„ 469(18b); 469b(18b); 731(18b); 3764(40); 4892(25); 6662(18a); sn(18a) Ekman, E., H132(35); H198(41); 1538(44d); H1550(2); 1598(10); H1877(ll); H1973(41); 1993(25); 2115(22); H2429(41); H2972 (35); 3324(25); 3350(44d); 3564(22); 3611(22); 3622(17b); 3636(34); 3653(34); 3688(47b); 3697(17b); H3711(35); 3730 (22); 3753(35); H3809(21); 3813(22); 3912(35); 3913(47b); 3919(47b); 3953(22); 4296(22); 4327(47b); 4328(34); H4382 (31); H4719(21); H5003(6a); 5022(6a); 5331(44d); H5457(35); H5475(29); H5480(29); H5503(6a); H5728(44b); 5738(22); H6332(21); H6517(29); H6629(29); 6822(22); 8055(44d); 7080(44d); 7384(6a); 7405(32); H7572(44a); H7851(35); H7861 (13); H7923(35); 8090(10); H8192(29); 8741(10); 8745(44d); 9061(22); 9146(6a); 9148(32); H9236(44a); H9328(6a); 9528 (22); 9615(25); 10110(6a); 10112(32); 10194(14); 10243(25); 10257(22); 10270(6a); 10282(32); 10342(44d); 10500(l7a); H10776(23); 11134(25); HI 1334(41); H11526(41); H11544(35); Hll755(6a); H11827(41); 12496(25); H12577(44b); 12760(4); 13226(25); H13511(6a); H13738(6a); 13984(44d); 14382(44d); 14705(3); 14705b(3); 14706a(3); 14811(44d); H14926(6a); 15113(32); HI5344(6a); H15523(6a); 15823(47a); 15918(22); 16020(22); 16231(5); 17311(25); 17314(17a); 18521(44d); 18683(25); 18933(44d) Ernst, W„ 106I(18b); 1616(18b) Euphrasen, B., sn(18b) Fawcett, W„ 7986(40); 8127(27a); sn(27a) Forsstrom, J„ sn(18b) Fosberg, F„ 42635(la); 42920(27a) Fredholm, A., 3172(27a) Fuertes, M„ 1049(28); 1399b(28); 141 lb(35); 1860(21); 1925(21); 1926 (6a) Garber, A., 59(43) Gamier, M., sn(30); sn(18a) Gastony, G., 113(39) Gleason, H„ 8c O. Cook, G-41(43) Goll, G„ 225(43); 459(43) Goods, sn(40) Gower, W„ sn(27a) Greville, R., sn(18a) Grosourdy, R. de. Cat. n. 13(43) Guilding, L„ 20(18a), sn(18a) Hahn, L., 362(18b) Hanson, C., sn(27a); sn(40) Harris, J„ & J. Lawrence, C15129(36); C15323(46a); C15324 (36); C15351(46a); C15394(36); C15456(46a); C15470(36) Harris, W„ 5547(40); 6136(40); 6322(27b); 6453(27a); 7547(36); 8415(27b); 8485(27a); 8670(9); 8723(46b); 8886(27a); 9003 (27a); 9066(9); 9124(40); 9178(38); 9249(20b); 9621(la); 9883 (20a); 9956(20c); 10026(27a); 10053(la); 10559(27a); 10667 (46d); 10880(46b); 11184(9); 11427(la); 12004(38); 12314(la); 12361 (20c); 12374(12); 12509(12); 12763(46b); 12782(9); sn(27a); sn(36); sn(46a) Harris, W„ 8c N. Britton, 10559(27a); 10679(39) Hart, J., 1136(40); 1219(27a); sn(27a) Hartweg, C„ 1551(27a) Heller, A., 4559(43) Hespenheide, H„ 923(27a) Hess, W„ 3431(43); 4137(30) Hioram, Bro., 8(32); 1380(25); 2310(44d); 14076(32); sn(30) Hioram, Bro., & Bro. Angel, 1510(32) Hioram, Bro., 8c Bro. Btiste, 1380(25) Hitchcock, A., sn(27a); sn(36) Hodge, W., 835(18b); 1185(18b) Hodge, W„ 8c B. Hodge, 1551(18b) Hogg, T„ sn(27b) Holdridge, L„ 85(44c); 2184(35) Howard, R., 4480(25); 5209(44d); 5716(25); 6123(22); 6464(44d); 1 114Q(18a); 11741(18b); 11912(18b); 12017(27a); 12192(35); 12283(6b); 15663a(18b); I5663b(18b); 17252(44c) Howard, R., Briggs, Kamb, Lane 8c Ritand, 148(25) Howard, R., G. Cooley 8c R. Weaver, I7646(18a); 1787 1 (18a) Howard, R„ 8c E. Howard, 8120(16); 15175(18b); 15195(18b) Howard, R., 8c L. Nevling, 15372(43); 15775(35) Howard, R„ 8c G. Proctor, 13444(27a) Howard, R., G. Proctor Sc W. Stearn, 14780(42); 14797(27a); 14801(46d) Hucter, G„ (44d) Hunnewell, F., 15356(27a) Hunnewell, F„ 8c L. Griscom, 14385(27a); 14386(27a); sn(27a) Imray, J., 40(18b); 87(18b); 193(18b) Jack, J., 5951(25); 8035(25); 8067(25); 8111(44d) Jackson, B., sn(la) Jimenez, J., 2563(33); 2607(35); 3240(16); 3728(44b); 4209(44b) 168 SMITHSONIAN CONTRIBUTIONS TO BOTANY Johnson, D., sn(40) Johnston, J„ 922(43); 957(30); 974(24) Katzenberger, A., 8c R. Katzenberger, 107 (46d); 108(37); 112 (38); 113(27b) Kidder, N„ sn(27a) Killip, E., 448(27a); 13579(25); 43050(25); 43088(25); 44616(25); 45830(25); 45270(25) Kohaut, F., sn[Sieber, Flor. Martin. No. 394](18b); sn[Sieber, Flor. Mixta No. 407] (18b) Kramer, K„ 1691(27b); 1718(38); I750(20c) Krauss, C„ 399(18b); sn(18b) Lamarck Herbarium, 198(29) Lambert Herbarium, sn(18b) Lane, W., 84(27a); 443(27a) Lehmann, F„ 982(40) Leon, Bro., 948(25); 4410(25); 4426(5); 4957(17a); 9821(44d); 11990(17b); 11685(lb); 11812(lb); 12180(35); 16808(25); 16960(25); 17249(34); I7322(l7b); I7579(17b); 17971(22): 19045(25); 19142(22); 19236(22); 19510(32); 19830(22); 19973 (22); 20408(22); 22389(44d) Leon, Bro., 8c Alain Liogier, 17971(22); 19236(22) Leon, Bro., 8c Bro. Charles, 4957(17a) Leon, Bro., 8c Bro. Clemente, 6504(5); 20153(22) Leon, Bro., Bro. Clemente 8c Alain Liogier, 22639(22) Leon, Bro., Bro. Clemente Sc R. Howard, 20408(22) Leon, Bro., Bro. Clemente 8c M. Roca, 9821(44d) Leon, Bro., & Bro. Marie-Victorin, 17748(lb) Leon, Bro., Bro. Marie-Victorin Sc Bro. Clemente, 20931(22) Leon, Bro., Sc M. Roca, 7992(5) Leonard, E., Sc G. Leonard, 14245(35); 14248(35); 14472(35) Leva, L„ 37(18b); 38(30); 39(27a) Lewis, C., sn(38) L’Herminier, F., sn(18b) Linden, J„ l702(44d); 1833(32); 1841(6a); 2076(6a) Lloyd, F., 468(18b); 806(18b) Lopez F„ M., 84(22); 273(22); 1111(32); 1787(32); 1979(32); 2573(22); 2690(44d); 2760(44d); 2838(6a); 2850(6a); 2854(32); 2873(32) Luna, A„ 116(5); 217(25) M. B., sn(30) Macfadyen, J., sn(27a); sn(27b); sn(40); sn(37); sn(46a) Marble, D„ 242(27a); 709(27b); 856(27a) Marcano, E„ 5036(44b); 5207(35); 4518(16); 5261(16); 5274(35) Marcano, E„ Sc J. Jimenez, 3656(35); 5051(44b); 5088b(44b); 5121(35); 5131(44b) Marcano, E., J. Jimenez 8c Alain Liogier, 5619(44b) Marcano, E„ Sc T. Talpey, 5394(35); 5428(35); 5435(41) March, W„ 1197(27a); 1516(40) Marie-Victorin, Bro., 21339(3) Marie-Victorin, Bro., 8c Alain Liogier, 21440(22) Marie-Victorin, Bro., 8c Bro. Clemente, in Leon 22093(22) Masson, F., sn(18b); sn(40) Matos, P., in Leon I7579(l7b) Maxon, W„ 2105(27a); 8863(46d); 9153(39); 9352(46d); 10424 (27a); 10449(27a); 10485(27a) Maxon, W„ 8c E. Killip, 785(27a); 976(40); 1351(40); 1460(27a) Maxwell, I., sn(40) McKee, H„ 10616(24); 10617(30); 10619(43) McNab, G„ sn(27a); sn(40) Meagher, M„ 189(30); 295(35) Meisner Herbarium, sn(6a) Miller, G„ 1244(35); 1479(38); sn(44b) Millspaugh, C„ 1927(27a) Moore, H„ 7172(30); sn(30) Morley, B., 83(40); 387(la) Morton, C„ 4110(25); 4283(25); 5299(18a); 5479(18a); 5673(18a); 6027(1 8a); 6287(18a); 9477'(44d); 9669(32); 9714(6a); 9773(25); 9825(17a); 9918(25); 9927(25); 10308(44d); 10309(25); 10310 (44d); 10446(25) Morton, C., 8c J. Acuna, 3276(22); 3492(3); 3627(44d) Morton, C„ 8c Alain Liogier, 8992(22); 9023(34); 9038(34); 9046(44b); 9077(22); 9083(47b); 9089(22); 9121(22); 9154(lb) Morton, C., Alain Liogier, 8c M. Lopez F., 8759(32) Nash, G„ 196(35) Nash, G„ 8c N. Taylor, 1353(35) Nicolson, D„ 2065(18b) Norman, C„ 188(40) Osmaston, H„ 5004(20b); 5176(46c) Otero, J., 356(30); 422(43); 618(44c); 771(44c) Palmer, W„ 8c J. Riley, 153(25); 520(25) Parker, C., sn(18a) Pavon Herbarium, sn(30); sn(43) Peele, J., 635(30); 408(30) Perkins, J., 487a(27a); 1025(27a); 1256(45a) Perrottet, G„ 230(18b); sn(18b) Plee, A., 409(43); 866(43) Poeppig, E., sn(25) Pollard, C„ 8c W. Palmer, 119(47b); 137(35) Pollard, C„ E. Palmer Sc W. Palmer, 42(34); 263(47b) Ponthieu, de, sn(18b) Porten, A. van der, sn(la); sn(40) Poulter, J., in Adams 10895(46d) Poulter, J., et al., 8c C. Adams, 10893(20d) Powell, D„ 140(27a); 1642(27a); 1669(20b) Prior, R. (earlier Alexander), 558(40); 559(40); 560(27a) Proctor, G., 4007 (46d); 4131(46d); 4896(20b); 5616(46d); 5682 (37); 5731 (46c); 5732(46c); 6428(27a); 6614(27a); 6926(27a); 7273(20b); 7300(46d); 7635(37); 7684(40); 7870(40); 8148(27a); 8213(46b); 8287(40); 8496(40); 9445(36); 9526(36); 9527(46a); 9619(36); 9770(9); 9779(46b); 9799(42); 9800(37); 9801(46d); 9841(40); 10024(38); 10050(20b); 10205(la); 11228(38); 11424 (40); 11732(12); 11781(40); 15684(38); 15756(20d); 16357(25); 16403(25); 16641(20b); I7856(18b); 19228(18b); 20688(38); 20749(46b); 20845(20c); 20856(20d); 21443(27a); 21517(38); 2l750(18b); 21862(46b); 22125(37); 22145(27a); 22160(27a); 22238(20c); 22762(27a); 22965(40); 22974(9); 22991(46d); 231 37(20b); 23313(40); 23762(46a); 24271(27a); 24429(40); 24493(27a); 24513(40); 24731(46d); 24755(9); 25618(12); 25623(9); 25912(18a); 26320(9); 26617(27b); 26688(20b); 26844(40); 27755(39); 27785(39); 28559(27a); 29306(27a); 29329(27a); 29991(39); 29992(46d); 31212(40); 31232(38) NUMBER 29 169 Proctor, G., & W. Mailings, 22001(38); 22049(46d) Proctor, G„ Sc W. Steam, 11451(36); 11859(27a); 11923(27a) Purdie, W„ 23(46a); 221(46d); 635(38); sn(9); sn(20b); sn(27a); sn(38); sn(40); sn(46a); sn(46b); sn(46d) Quesnay, M. du, 257(27a) Questel, A., 5111(18b); sn(18b) Ramage, G„ sn(18b) Rehder, A., sn(36); sn(40) Richard, L„ 48(27a); sn(18b) Ridley, H., sn(27a) Riedle, A., sn(43) Robbins, R„ 1513(27a); 1514(40); 1516(27a); I517(27a) Robertson, E., 113(46d); 2996(1 a); 3220(40); 5374(27b) Rohr, J. von, sn(18b) Roig, J., 5054(6a); 14224(27a) Roig, J., J. Acuna & Naranjo, sn(25) Roig, J., & G. Bucher, 53(10); 59(10) Rothrock, J., 87(27a) Ryan, J., sn(18b) Sagra, R. de la, 647(25); 816(6a); 907(3); sn(25) Sargent, F„ 131(30); B131(44c); 613(26); 703(24); 710(43); 3235(24); 3248(30) Schomburgk, R., sn(35) Schubert, B„ 8c H. Winters, 312(43); 401(44c); 406(44c) Schubert, B., H. Winters 8: I. Velez, 329(43) Senn, H„ 331(25) Shafer, J., 187(18b); 3201(22); 3527(44c); 3916(34); 4202(47b); 4394(47b); 7695(25); 7755(l7b); 7786(34); 7838(l7b); 7984(34); 8012(41); 8135(22); 8171(22); 8420(22); 8436(46b); 8547(32); 8949(44d); 11171(25); 11956(25); 12000(25); 12002(25); 12165 (25); 12254(25) Shafer, J., & Bro. Leon, 13601(25) Shakespear, R., sn(36); sn(40) Shillingford, C., 191(18b) Sintenis, P„ 44(43); 327(26); 1343(35); 1484(44c); 2311(43); 2314(43); 2950(43); 3153(43); 5332(44c); 5335(44c); 5782(43); 5832(43); 5827(30); 5829(30); 5845(30); 5910(43); 5935(30); 6096(30); 6568(30); 6590(24); 6755(43); sn(30) Skelding, A., 6705(40); 5450(40); in Adams 10857(27a); sn(40) Skog, L„ 1406(43); 1408(24); 1409(33); 1410(27a); 1411(30); 1412(35); 1413(35); 1415(33); 1516(44c); 1517(35); 1539(26); 1586(35); 1542(26); 1544(26); 1583(18b); 1589(33); 1593(44b); 1606(35); 1620(la); 1623(39); 1630(40); 1633(27a); 1634(27a); 1642 (27b); 1643(46d); 1731(27b); 1737(41); 1749(33); 1751(16); 1817(18b); 1819(33); 1829(41); sn(33) Skog, L., 8: G. Proctor, 1636(9); 1639(20c); 1640(12) Skog, L., Sc J. Skog, 1644(35); 1687a(44c); 1688(43); 1704(26); 1705(43); 1706(43); 1707(30); 1715(30); 1716(24) Skog, L., T. Talpey 8: D. Pfister, 1608(29); 1610(25); 1615(41); 1616(8) Sloane, H„ Horti Sicci 3:27(27a) Smith, H., 8: G. Smith, 55(18a) Smith, L„ A. Hodgdon & F. Gonzales, 3248(25) Spetzman, L., Sc J. Diaz Colon, 23(43) Squire, F., sn(18b) Stahl, A., 605b(30); 675(43); sn(43) Steam, W., 3(la); 4(9); 21(46b); 62(40); 100(36); 155(27a); 246 (27a); 350(27b); 411(40); 442(12); 446(20c); 469(27a); 491(40); 510(27a); 546(27a); 552(27a); 694(la); 712(27a); 954(46d) Stehle, H„ 565(18b); 568(18b); 2261(18b); 1637(18b) Stehle, H„ 8: M. Stehle, 5l73(18b) Stern, W., 8: D. Wasshausen, 2401(18b) Stevens, F„ Sc W. Hess, 3257(43); 3716(26); 4694(30); 4872(26); 5154(30); 5163(24) Stevenson, J., 547(43) Stevenson, J., Sc J. Johnston, 2060(30) Stoffers, A., 3172(18b); 3248(18b); 3605(18b); 4255(18b) Stone, M„ 117(35); 123(30); 125(46d); 126(20c); 130(24); 132 (33); 134(40); 197(I8b); 215(30); 216(27a); 234(27a); 235(29); 350(35); 412(43) Suringar, W„ sn(18b) Swartz, O., sn(la); sn(18b); sn(20b); sn(27a); sn(37); sn(38); sn(40); sn(41); sn(46d) Talpey, T„ lla(30); llb(30); 12(35); 13(37); 14(46d); 15(27a); 16(12); 17(20c); 18(27b); 19(9); 20(46b); 22(40); 23(44c); 25(35); 26(43); 27(30); 28(24); 30(26); 33(33); 34(44b); 35(35); 41(24); 43(29); 62(43); 63(30); 64(30); 71(41); 77(35); 81(16); 92(35); 94(41); 5120(33) Talpey, T., Sc J. Jimenez, 5120(33) Thompson, W„ 7986(40) Tiirckheim, H. von, 5381(18b) Tussac, F. de, sn(40) Underwood, L„ Sc F. Earle, 235(34); 622(35); 690(35); 708(47b); 1062(35); 1174(47b) Underwood, L., 8: R. Griggs, 803(30) Valenzuela, J., sn(25) Valeur, E., 569(35) Van Hermann, H., 42(25); 332(25); 1848(25) Van Houtte, Hort. sn(6a) Velez, I., 1606(24); 3673(43) Vivaldi, J., 72-8(44c) Wagner, R„ 353(35); 412(43); 464(44c); 640(43); 1233(24); 1234 (43); 1664(43) Wall, E„ sn(27a) Weaver, R„ 1926(46d) Webster, G., 4079(3); 5570(42); 13627(38) Webster, G„ J. Ellis Sc K. Miller, 8087(27a); 8416(9); 8421(27b); 941 l(18b); 9455 (18b) Webster, G., 8: G. Proctor, 5317(40) Webster, G., 8: K. Wilson, 5017(27a) Wight, A., 130 (27a) Wilbur, R., E. Dunn, H. Hespenheide Sc D. Wiseman, 7871 (18b) Wiles, J., sn(27a); sn(40) Wilson, K„ 8: W. Murray, 594(27a) Wilson, N., 463(37); sn(39); sn(40); sn(46a) Wilson, P„ & Bro. Leon, 2847(25); 11617(25) Wolle, J., sn(27a) 170 SMITHSONIAN CONTRIBUTIONS TO BOTANY Wrbna, F., sn(18b) Wright, C., 377(32); 382(6a); 647(25); 354(44d); 355(25); 355a (25); 1335(32); 3072(19); 3073(3); 3074(l7b); 3075(7); 3076 (6a); 3077(25); 3078(45); 3079(47a); 3080(32); 3080(34); 3081 (35); 3643(17a); sn(17a); sn(22); sn(35) Wright, W., sn(27b); sn(38) Wullschlagal, H„ 952(46d); 957(27b); sn(27b) Wydler, H„ 453(30) Wynter, L., 5669(27a) Yuncker, T., 17404(40); 17781(27a); 18215(27a); 18349(la); 18541(37) Without collector, sn(40) Literature Cited Adams, C. D. 1972. Flowering Plants of Jamaica. 848 pages. Mona, Jamaica: University of the West Indies. Allen, G. M. 1939. Bats, x + 368 pages. Cambridge, Massachusetts: Harvard University Press. Ashton, P. S. 1969. Speciation among Tropical Forest Trees: Some Deductions in the Light of Recent Evidence. Bio- logical Journal of the Linnean Society, 1:155-196. Baillon, H. 1888. Gesneriac^es. Volume 10, pages 59-112, in Histoire des Plantes. 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Index (New names and new combinations in italics) X Achimenantha naegelioides, 161 Achimenes, 158 erecta, 158, 162, 163 longiflora, 161, 163 Amasonia hirta, 162 Anodiscus xanthophyllus, 164 Anthracothorax dominicus, 26-28, 30, 86 mango, 26, 30, 41, 148 viridis, 26, 30 Apis mellifera, 27 Arbol de navidad, 135 Archilochus colubris, 26, 30 Bignoniaceae, 30 Besleria lutea, 159 Bombax malabaricum, 30 Brachyphylla, 30 cavernarum, 27, 31, 32, 135 nana, 27, 32, 144 pumila, 27, 32, 122, 128, 132, 134 Calyptae helenae, 26, 30, 88 Canelon, 52 Caryophyllaceae, 33 Chiroptera, 29 Chlorostilbon maugaeus, 26, 30, 93 ricordii, 26, 30, 88 swainsonii, 26, 30, 86 Chorisanthera, 4, 5, 44, 146 hispida, 4, 102 pumila, 4, 44, 152 tenera, 4, 148, 152 Clavellina, 95 Codonanthe, 18 Codonophora, 3 grandiflora, 3 lanceolata, 3 Codonoraphia, 4, 5, 44, 46 albiflora, 134 calycosa, 44, 46, 125 catalpiflora, 128 craniolaria, 131 lessertiana, 128 parviflora, 128 Coerebidae, 28 Coleoptera, 27 Columnea, 17 aureonitens, 162 Conradia, 3-5, 36, 43, 46, 98 section Chorisanthera, 3, 4, 6, 145 section Dittanthera, 3, 4, 121 section Synanthera, 3, 6, 90 calycina, 123 calycosa, 125-127 cassioides, 158 celsioides, 94, 95 clandestina, 124, 127, 128 corrugata, 113, 115 craniolaria, 131 cuneifolia, 4, 109 depressa, 155, 156 exserta, 128 floribunda, 113 fuchsioides, 158 gloxinioides, 146, 147 hispida, 102, 104 humilis, 46, 90, 94, 98 lecontei, 158 libanensis, 102, 113, 115, 118, 119 mimuloides, 148-150 neglecta, 4, 150, 151 pedunculosa, 3, 134-137 var. |3 lutea, 134 var. a pallida, 134 pumila, 4, 94, 152 reticulata, 109, 119, 120 P obovata, 119, 120 scabra, 83 sloanei, 4, 102, 104 verrucosa, 54, 57 ventricosa, 76 P Pangustior, 76, 77 Craniolaria fruticosa, 2, 131, 132 Cyanophaia bicolor, 26 Cyrtandroideae, 1 Digitalis folio oblongo serrato . . ., 2 Diptera, 27 Drepanididae, 28 Duchartrea, 4, 5, 43 sintenisii, 142 viridifiora, 43, 143-145 Erophylla bombifrons bombifrons, 27, 32, 135 bombifrons santacristobalensis, 27, 32, 141 sezekorni sezekorni, 27, 32, 157 sezekorni syops, 27, 32, 149 Eugesnereae, 3, 36 Eulampis jugularis, 26 Flor de cueva, 110 176 NUMBER 29 177 Gesneria [Gesnera], 1-7, 9-11, 13, 18, 19, 22, 24-32, 34-36, 38-40, 43-46, 51, 52, 54, 56, 57, 94, 97, 98, 112, 120, 127, 134, 146, 147, 158 section Chorisanthera, 45, 100, 145, 147, 151 section Codonoraphia, 121 section Conradia, 6, 46, 90 section Dittanthera, 18, 45, 87, 121, 122, 125, 136 section Duchartrea, 18, 39, 45, 87, 94, 96, 137, 138, 141 section Gesneria, 18, 45, 90, 91, 93, 94, 96, 100 section Lachnoblaste , 45, 85, 87, 122 section Myrmekianthe, 45, 86, 89, 122, 138 section Pentarhaphia, 6, 18, 29, 45, 46, 48, 51, 77, 78, 80, 85, 87, 90, 122 section Physcophyllon, 29, 45, 90, 93, 100, 105, 111, 115, 145 section Stenochonanthe, 45, 46, 80, 81 acaulis, 2, 4, 8, 11, 13, 15, 16, 24, 30-33, 35, 37, 54, 100-105, 107, 109, 113, 119, 158 var. acaulis, 20, 21, 23, 35, 37, 102, 103, 105 var. glabrata, 19, 20, 22, 23, 29, 34, 35, 37, 101, 103, 105, 107 var. grandifolia, 102, 104 acuminata, 94, 97, 98 adenantha, 158 affinis, 158 aggregata, 158 albiflora, 134, 137 allagophylla, 158 alpina, 7, 23, 122, 123, 125, 128 amabilis, 158 amplo digilatis folio tomentoso, 2 angustior, 76 arborescens, amplo flore fimbriato & maculoso, 2, 132 aspera, 45, 46, 48, 49, 59, 67 atrosanguinea, 158 aurantiaca, 158 auriculata, 158 barahonensis, 93, 101, 106, 107, 116, 119 barbata, 158 berteroana, 158 betonicifolia, 158 bibracteata, 158 biflora, 134, 136 binghamii, 47, 49-51, 80 blassii, 158 bonaoana, 54-56 brachysepala, 45, 90-93 bracteosa, 87, 89 breviflora, 158 brevifolia, 46, 50-52 bulbosa, 158 bullata, 159 calcarata, 159 calcicola, 54-56 calycina, 3, 22, 23, 123, 125, 126, 159 calycosa, 7, 10, 16-18, 21-23, 30-32, 35, 37, 123-127 var. alpina, 122-124 canescens, 159 caracasana, 159 cardinalis, 159 catalpiflora, 128 celsioides, 94, 97 chelonioides, 159 chilensis, 159 christii, 11, 13, 19, 23, 24, 28, 33, 37, 93, 101, 107-109, 113, 116, 117 X chromatella, 159 cinnabarina, 159 citrina, 7, 13, 19, 22, 30, 35, 37, 38, 56, 91, 92, 94, 100 clandestina, 12, 18, 21, 32, 37, 123-125, 127, 128 clarensis, 47, 51-53, 62, 67 var. turquinensis, 61, 62 clausseniana, 159 coccinea, 159 cochlearis, 159 confertifolia, 159 cooperi, 159 cooperiana, 159 cordata, 159 coruscans, 159 corymbosa, 25, 40, 42, 43, 128, 159 craniolaria, 3, 131 crenulata, 159 cubensis, 30, 43, 47, 51-57, 61, 65, 67, 69 var. cubensis, 48, 54-56 var. truncata, 17, 48, 53, 54, 57 cumanensis, 159 cuneifolia, 4, 7, 16, 19, 21-24, 30, 32, 35-37, 100, 101, 109-112, 121, 137 cv. El Yunque, 121 cv. Quebradillas, 112 var. disjuncta, 119, 121 var. obovata, 119 cymosa, 74, 75 cynocephala, 159 decapleura, 30, 85, 86, 133 dentata, 159 deppeana, 159 depressa, 155 discolor, 159 dolichostyla, 54-57 domingensis, 54, 56 donkelaariana, 159 donklarii, 159 douglasii, 159 duchartreoides, 17, 23, 30, 54, 86-90, 145 earlei, 159 eggersii, 159 X egregia, 159 ekmanii, 159 elatior, 159 eliptica, 159 elliptica, 159 elongata, 159 eriantha, 159 erubescens, 159 exogonia, 134, 136 X exoniensis, 160 exserta, 3, 7, 13, 32, 36, 37, 79, 121-123, 125, 128-131, 136 178 SMITHSONIAN CONTRIBUTIONS TO BOTANY fascialis, 160 faucialis, 160 fawcettii, 81, 82 ferruginea, 70 filisepala, 67, 69 fimbriata, 131 flacourtifolia, 160 flavescens, 160 fragilis, 160 fruticosa, 2, 7-9, 12, 16, 19, 25, 32, 34, 35, 37, 44, 67, 85, 123, 131-133 fruticulosa, 160 gardneri, 160 gerardiana, 160 geroltiana, 160 gibberosa, 71 glandulosa, 46, 51, 57-59 glaucophylla, 160 gloxinioides, 32, 39, 145-147 gollmeriana, 160 gracilis, 160 grandis, 3, 160 guazumifolia, 160 guianensis, 160 hahnii, 160 haitiensis, 12, 37, 45, 47-49, 59, 60, 67 harrisii, 11, 12, 37, 47, 60-62, 65 herbertiana, 160 herminieri, 76 heterochroa, 23, 47, 51, 58, 61-63 heteroclada, 54-56 hirsuta, 160 hispida, 102 hondensis, 113, 160 hookeri, 160 houttei, 160 humilis, 2, 3, 7, 8, 10-12, 16, 19-24, 30, 33, 35, 37, 44-46, 90, 91, 93-98, 100 humilis, flore flavescente, 2, 97 hybocarpa, 93, 101, 112, 113 hypoclada, 47, 48, 63, 64 ignorata, 160 inaequalis, 160 incisa, 94, 97, 98 incurva, 50, 160 jamaicensis, 37, 47, 61-65 lanceolata, 47, 48, 65, 66 lasiantha, 160 lateritia, 160 latifolia, 160 lehmannii, 160 leiocarpa, 150-152 leopoldii, 160 leptopus, 160 lessertiana, 128 leucomalla, 160 libanensis, 4, 13, 22, 33, 43, 57, 101, 113-115, 118, 119 var. corrugata, 113 lindeniana, 160 lindleyana, 76 lindleyi, 160 lindmanii, 157 linkiana, 160 lobulata, 161 lomensis, 161 longiflora, 76, 161 longifolia, 161 longipes, 161 longirostris, 161 lopezii, 113, 114 macrantha, 161 macrorrhiza, 161 macrostachya, 161 maculata, 161 magnifica, 161 marchii, 161 melittifolia, 161 merckii, 161 mimuloides, 149 mollis, 161 montana, 76 montevidensis, 161 mornincola, 54, 55, 69 mortonii, 25, 43, 161 X naegelioides, 161 neglecta, 150 X nigrescens, 161 nigrina, 161 nipensis, 87, 89 nitida, 161 norlindii, 87, 89 oblongata, 161 odontophylla, 47, 48, 52, 65-67 onacaensis, 39, 76, 161 onychocalyx, 17, 123, 125, 128, 129, 133, 134 organa, 161 oxyphylla, 161 pachyclada, 87, 89 palustris, 161 paluviensis, 161 pardina, 161 parviflora, 128 parvifolia, 46, 48, 49, 67, 68 pauciflora, 7, 19, 21, 25, 30, 32, 37, 91, 94, 98-100 pedicellaris, 8, 11, 13, 14, 16, 19, 20, 22, 28-30, 33, 35, 37, 93, 101, 115-117 pedunculosa, 3, 8, 11, 16-19, 21, 22, 30, 32, 35-37, 56, 123, 131, 134-137 pendulina, 162 petiolaris, 162 picta, 162 pilosa, 162 plumeriana, 162 polyantha, 162 portoricensis, 109 prasinata, 3, 162 proctorii, 152, 153 pulchella, 162 NUMBER 29 179 pulverulenta, 13, 19, 21, 30, 35, 37, 45, 47, 48, 67-69 pumila, 3, 4, 31-33, 44, 145-149, 152-154, 157 subsp. mimuloides, 16, 32, 148-151 subsp. neglecta, 4, 6, 8, 22, 32, 37, 148-152 subsp. proctorii, 148, 149, 151-153 subsp. pumila, 21, 37, 148, 149, 151-154, 157 punctata, 162 purpurascens, 33, 58, 101, 112, 115, 117-119 purpurea, 162 X pyramidalis, 162 quadriflora, 128 quadrifolia, 162 quaterniflora, 162 quisqueyana, 140, 141 reflexa, 162 X refulgens, 162 regalis, 162 regeliana, 162 regina, 162 reticulata, 6-8, 13, 28, 32, 33, 35, 37, 49, 93, 101, 106, 111, 115, 119-121, 137 rhynchocarpa, 162 robusta, 162 rubricaulis, 162 rugata, 162 rupestris, 162 rupicola, 162 rupincola, 162 rutila, 162 salicifolia, 47, 58, 59, 69-71, 73 var. ferruginea, 47, 51, 70-72 var. salicifolia, 51, 70, 71 var. spathulata, 51, 70-72 salviifolia, 162 samuelssonii, 155, 157 sartorii, 162 saxatilis, 67, 69 scabra, 3, 80-83, 162 var. fawcettii, 24, 30, 81, 82 var. scabra, 30, 81-83 var. sphaerocarpa, 15, 19, 20, 22, 29, 34, 35, 37, 65, 81-84 var. viridicalyx, 81, 82, 84, 85 sceptroides, 162 sceptrum, 162 schiedeana, 162 schomburgkiana, 162 scopulorum, 54, 55 seemannii, 162 selloi, 163 sellovii, 163 shaferi, 32, 145, 155-157 subsp. depressa, 11, 33, 147, 155-157 subsp. shaferi, 147, 155-157 sintenisii, 140, 142, 143 sphaerocarpa, 83, 84 spicata, 163 splendens, 163 splendidissima, 163 stachydifolia, 163 stachyfolia, 163 stricta, 163 subalata, 54, 55 sulcata, 163 suttoni, 163 sylvatica, 163 sylvicola, 140, 141 tenella, 163 tenera, 152 tetraphylla, 163 tomentosa, 2, 3, 36, 45, 46, 163 trianaei, 163 tribracteata, 163 triflora, 79, 163 trifoliata, 163 truncata, 53, 57 tuberosa, 163 tubiflora, 163 tweediana, 163 ulmifolia, 163 umbellata, 163 uniflora, 163 vargasii, 163 vauthieri, 163 velutina, 163 ventricosa, 3, 4, 7, 12, 16, 24, 25, 30, 43, 45-47, 72-76, 79, 98, 137, 163 f. montana, 76 f. obovata, 76 f. ovata, 76, 77, 79 subsp. cymosa, 74, 75, 78 subsp. ventricosa, 19, 20, 23, 35, 37, 74, 76-79 var. y obovata, 76 var. (3 ovata, 76 verdi, 164 verrucosa, 54, 57 verticillata, 164 vestita, 164 viridiflora, 30, 90, 137-139, 143, 144 subsp. acrochordonanthe, 138-141 subsp. quisqueyana, 7, 14, 16, 18, 19, 22, 32, 35, 37, 138-141 subsp. sintenisii, 19, 20, 32, 35-37, 94, 137-139, 142, 143 subsp. viridiflora, 21, 22, 32, 62, 87, 96, 138, 139, 144 var. acutifolia, 144, 145 var. colorata, 144 var. obovata, 144, 145 warmingii, 164 warszewiczii, 164 wrightii, 47, 51, 73, 79, 80 xanthophylla, 164 yumuriensis [yamuriensis], 117-119 zebrina, 164 Gesneriaceae, 1, 5, 7, 9, 18, 22, 24, 28, 29, 32-36 Gesnerieae [Gesnereae], 1-6, 19, 22, 24-26, 29, 33, 34, 36, 38-40, 143 subtribe Conradieae, 3, 36 subtribe Pentarhaphieae, 36 subtribe Rhytidophylleae, 36 180 SMITHSONIAN CONTRIBUTIONS TO BOTANY Gesnerioideae, 1, 6, 7 Glaucis hirsuta, 26, 30, 74 Glossophaga, 30 soricina antillarum, 27, 31, 32, 130, 149 Glossophaginae, 29 X Gloxinera, 158 donkelaariana, 159 Gloxinia, 158 calycina, 123 lindleyi, 123 sylvatica, 158, 161-163 X Heppiantha naegelioides, 159 Heppiella, 6, 9, 25, 38, 40 corymbosa, 40, 42 cubensis, 40, 43 ulmifolia, 163 verticillata, 164 Herincquia [Henrincquia], 4, 5, 43 floribunda, 43, 113 Hymenoptera, 27 Kigelia, 30 Kohleria, 158 eriantha, 159 guazumifolia, 160 hirsuta, 160 hondensis, 160 ignorata, 160, 161 lanata, 161 longiflora, 161 longifolia, 160, 161 var. petiolaris, 162 longipes, 161 mollis, 161 rubricaulis, 162 schiedeana, 162 seemannii, 162 spicata, 163 trianae, 159, 161, 163 tubiflora, 162, 163 ventricosa, 163 vestita, 164 warszewiczii, 162 Lepidoptera, 27 Leptonycteris nivalis, 30 Macranthera flammea, 158 Marchantia, 33, 100 Martynia fruticosa, 131 Melasma scabrum, 161 Mellisuga minima, 26, 30, 41, 42, 81, 148 Mitella, 33 Meliphagidae, 28 Microchiroptera, 29 Mitraria coccinea, 159 Monophyllus cubanus ferreus, 141 redmani, 31 redmani clinedaphus, 27, 32, 157 redmani portoricensis, 27, 32, 135 redmani redmani, 27, 32, 149, 151 Moussonia deppeana, 159-163 triflora, 163 Nautilocalyx melittifolius, 159 Nectariniidae, 28 Nidulariales, 33 Ophianthe, 4, 5, 44 libanensis, 4, 44, 113 Orthorhynchus cristatus, 26, 30, 93 Paliavana, 3 prasinata, 162-164 Pentarhaphia [Pentaraphia], 3-5, 7, 36, 43, 46 section Codonoraphia, 5, 121 section Duchartrea, 5, 137 section Eupentarhaphia, 5, 6, 46 section Synanthera, 5 section Vaupellia, 5, 121 acaulis, 102 albiflora, 134, 136 calycina, 123 calycosa, 125 catalpiflora, 128, 131 celsioides, 94 clandestina, 127 corrugata, 113 ? corymbosa, 42, 164 craniolaria, 131 cubensis, 54, 55 var. (3 corollae limbo regulari, 54 cumanensis, 164 cuneifolia, 109 depressa, 155 duchartreoides, 87-89 exserta, 76, 128 ferruginea, 70, 72 floribunda, 113 florida, 76, 77, 79 glandulosa, 57, 58 gloxinioides, 146 herminieri, 76, 77 hispida, 102 humilis, 94 incurva, 49, 50 lessertiana, 128, 131 libanensis, 102, 113 lindleyana, 76, 78 longiflora, 3, 7, 43, 46, 74, 76, 134, 137 var. lindleyana, 76 mimuloides, 148 montana, 76, 77 neglecta, 150 parviflora, 128, 131 pedunculosa, 134 pumila, 152 NUMBER 29 181 reticulata, 119 |3 obovata, 119 salicifolia, 71, 73 scabra, 83 sloanei, 102 swartzii, 76 tenera, 152 triflora, 73, 79, 80 ventricosa, 76 verrucosa, 54, 55 viridiflora, 144 Pentarhaphieae, 5 Pentarrhaphis, 43 Pheidonocarpa, 6, 7, 10, 11, 22, 24, 25, 36, 38-40 corymbosa, 7-9, 13, 22, 35, 37, 40, 41, 43, 159, 164 subsp. corymbosa, 21, 41, 42 subsp. cubensis, 41, 43, 161 Phyllonycterinae, 29 Phyllonycteris aphylla, 27, 32, 122, 127, 128, 134 poeyi, 27, 32, 144 Phyllostomidae, 29, 31, 32 Quercus, 131 Rapunculo affinis anomala vasculifera . . ., 2, 103, 104 Rechsteineria, 17, 158 atrosanguinea, 158 aurantiaca, 158 blassii, 158 bulbosa, 158, 159 caracasana, 159 claussenii, 159 cochlearis, 159 confertifolia, 159 coruscans, 159 dentata, 159 discolor, 159, 162 douglasii, 159 elatior, 159 elliptica, 159 erubescens, 159 faucialis, 160 flavescens, 160 fruticulosa, 160 gollmeriana, 160 gracilis, 160, 162 hookeri, 160 lateritia, 160, 161, 163 leopoldii, 160, 163 macrostachya, 160, 161 marchii, 161 merckii, 161 pendulina, 162 polyantha, 162 reflexa, 162 rupicola, 162 sceptroides, 162 schomburgkiana, 160, 162 sellovii, 163 splendens, 163 sulcata, 163 suttonii, 163 trifoliata, 163 umbellata, 163 vargasii, 163 vauthieri, 163 warmingii, 164 Rhytidophylleae, 4, 36 subtrib© Eurhytidophylleae, 4 Rhytidophyllum [Rytidophyllum], 3-7, 9-11, 13-15, 18, 19, 22, 24, 25, 34-36, 38-40, 45, 46, 76, 138 acunae, 11 auriculatum, 9, 10, 13, 14, 17, 19, 27, 28, 33, 35, 37, 38, 158, 160 berteroanum, 3, 11, 13, 16, 27, 28, 35, 37, 46, 158, 162 bicolor, 39 crenulatum, 159, 163 cumanense, 159, 164 earlei, 25, 159 floribundum, 4, 113 grande, 7, 8, 23, 30, 35, 37, 39, 138, 160 lanatum, 11 leucomallon, 8, 11, 13, 19, 35, 37, 38, 160 lomense, 25, 161 onacaense, 15, 161 plumerianum, 7 rupincola, 25, 162 tomentosum, 2, 7-11, 13, 15, 20-24, 29, 31, 33-38, 104, 105, 163 Rousettus aegyptiacus, 30 Sagina, 33 Saxifragaceae, 33 Scrophulariales, 1, 9 Sericotes holosericeus, 26, 30, 100 Seymeria cassioides, 158 Sinningia, 17, 158 aggregata, 56, 158, 163, 164 allagophylla, 158, 160-163 barbata, 158 calycina, 123 canescens, 159 cardinalis, 159-161 claybergiana, 160 cooperi, 158, 159 incarnata, 158-160, 162, 163 macrorrhiza, 161 magnifica, 158, 160, 161 regina, 162 sceptrum, 160-162 stricta, 163 tuberosa, 158, 162, 163 tubiflora, 163 verticillata, 160-162, 164 warszewiczii, 164 Smithiantha cinnabarina, 159 geroltiana, 160 X hybrida cv. Sulphurea, 159 182 SMITHSONIAN CONTRIBUTIONS TO BOTANY multiflora, 158 zebrina, 162-164 Tupa acuminata, 134 cv. Exoniensis, 160 cv. Refulgens, 162 cv. Robusta, 162 Spanish Tea, 135 Vanhouttea gardneri, 160, 161 salviifolia, 162 Vaupellia, 4, 44, 125 calycina, 4, 5, 44, 123 Trochilidae, 28, 30 Trochilus polytmus, 26, 30, 41, 81, 148 Yerba parrera, 110 ☆ U.S. GOVERNMENT PRINTING OFFICE: 1975 586-384/43 Publication in Smithsonian Contributions to Botany Manuscripts for serial publications are accepted by the Smithsonian Institution Press, sub- ject to substantive review, only through departments of the various Smithsonian museums. Non- Smithsonian authors should address inquiries to the appropriate department. If submission is invited, the following format requirements of the Press will govern the preparation of copy. 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