Senna Mill.

Leguminosae, R.K. Brummitt, A.C. Chikuni, J.M. Lock & R.M. Polhill. Flora Zambesiaca 3:2. 2007

Morphology General Habit

Trees, shrubs or woody herbs, unarmed (in the Flora area).

Morphology Leaves

Leaves paripinnate; leaflets opposite or subopposite; stipules various but often persistent and prominent.

Morphology Reproductive morphology Inflorescences

Inflorescence racemose or paniculate; bracts often prominent but usually falling at or before anthesis; bracteoles absent.

Morphology Reproductive morphology Flowers Calyx

Calyx lobes 5, equal or subequal.

Morphology Reproductive morphology Flowers Corolla

Petals 5, yellow.

Morphology Reproductive morphology Flowers Androecium Stamens

Stamens 10, all with almost straight filaments which are not more than twice the length of their anther; anthers basifixed, dehiscing by terminal pores only.

Morphology Reproductive morphology Flowers Gynoecium Pistil

Ovary stipitate, curved; ovules numerous; stigma terminal or subterminal.

Morphology Reproductive morphology Fruits

Pods cylindrical, flattened or winged, often transversely septate inside, tardily dehiscent (not elastically) or indehiscent.

Morphology Reproductive morphology Seeds

Seeds numerous, areolate.

George R. Proctor (2012). Flora of the Cayman Isands (Second Edition). Royal Botanic Gardens, Kew

Morphology General Habit

Herbs, shrubs or trees of various habit; leaves even-pinnate, often with glands on the rhachis and petiole

Morphology Reproductive morphology Flowers

Flowers solitary, or in axillary or terminal racemes, or in terminal panicles; calyx of 5 imbricate sepals, these deciduous; petals 5, subequal or the lower ones smaller

Morphology Reproductive morphology Flowers Androecium Stamens

Stamens 10, all perfect, or with 6–7 perfect and the remainder staminodial, or else 3 lacking; anthers all alike or those of the lower stamens larger, all opening by an apical pore or slit

Morphology Reproductive morphology Flowers Gynoecium Ovary

Ovary sessile, stalked, free from the calyx; ovules few or many

Morphology Reproductive morphology Fruits

Pods cylindrical or flattened, indehiscent or 2-valved, rarely with longitudinal wings, continuous or septate within, or often filled with pulp; seeds more or less compressed, with endosperm.

Distribution

Most plentiful in tropical regions.

Legumes of the World. Edited by G. Lewis, B. Schrire, B. MacKinder & M. Lock. Royal Botanic Gardens, Kew. (2005)

Note

Tribe Cercideae is basally branching in the Leguminosae (Bruneau et al., 2001; Herendeen et al., 2003a), as predicted by Wunderlin et al. (1981), and Cercis is the most basally branching genus in the tribe. While much taxonomic work has been carried out on the tribe in the past thirty years (e.g., Larsen et al., 1980, 1984; Wunderlin, 1976, 1979; Wunderlin et al., 1981, 1987; Zhang, 1995; Vaz, 2003; Vaz & Tozzi, 2003), few species have been included in phylogenetic analyses and inter- and intra-generic relationships are still largely unresolved with the exception of Cercis (Hao et al., 2001; Davis et al., 2002b).

Wunderlin (1979) and Wunderlin et al. (1981) divided the tribe into two subtribes, Cercidinae and Bauhiniinae, based on seed, floral and fruit characters. Walpers (1842) had already down-ranked Bauhinieae Benth. (1840) to subtribal status, thus the combination Bauhiniinae (Benth.) Wunderlin (1979) is superfluous. Polhill (1994) kept the Cercideae unchanged with two subtribes and five genera. While the Cercidinae contains three small distinct genera, Cercis, Griffonia and Adenolobus, the Bauhiniinae houses the monospecific Madagascan genus Brenierea and the large, diverse pantropical genus Bauhinia sens. lat. which has been segregated into as many as twenty-six genera by various authors (Wunderlin, 1976).

While many of the Bauhinia segregates are based on minor morphological differences, others are distinguished morphologically by a suite of characters. Britton and Rose (1930), in their account of the Caesalpiniaceae for the North American Flora, divided Bauhinia into several segregate genera, including Schnella Raddi which here is treated as a synonym of Phanera, but might prove to be distinct as indicated in recent molecular analyses by Forest (unpublished data). Britton and Killip (1936) recognised Schnella as distinct from Bauhinia in Colombia. De Wit (1956), treating ‘Malaysian Bauhinieae’, recognised Bracteolanthus, Lysiphyllum, Gigasiphon, Piliostigma, Lasiobema and Phanera as separate genera and this was largely followed by subsequent flora writers in Africa and New Guinea (e.g., Brenan, 1967; Coetzer & Ross in Ross, 1977; Verdcourt, 1979). Others have retained a more inclusive Bauhinia proposed by Wunderlin et al. (1981, 1987), e.g., Macbride (1943: 207–220) for Peru; Larsen et al. (1980) for the Flora of Cambodia, Laos and Vietnam; Larsen et al. (1984) for the Flora of Thailand; Chen (1988) for China, and Larsen & Larsen in Hou et al. (1996) in Flora Malesiana. Zhang (1995) published a morphological cladistic analysis of the series of Bauhinia sens. lat., but few species of Bauhinia have been included in molecular studies. It remains equivocal as to whether Bauhinia sens. lat. is monophyletic, but preliminary molecular results indicate that some elements should be reinstated as distinct genera (Bruneau et al., in prep.; Forest, unpubl.). This runs contrary to the findings of Larsen & Larsen in Hou et al. (1996) who concluded “that Bauhinia in the sense of Linnaeus, Bentham, De Candolle, Taubert and Hutchinson is an evolutionary unit and a very natural genus”. Larsen and Larsen also noted that Bauhinia sens. lat. presents a reticulate pattern of variation across its pantropical range (this apparently conflicting somewhat with its status as a “natural genus”). While this is undoubtedly true if the genus is considered as all-inclusive, recent studies of legume distributions in general (Schrire et al., this volume and 2005) have revealed repeated patterns of generic distribution which appear to be duplicated by at least some of the segregates of Bauhinia. If these segregates are recognised as distinct genera (as several are in this treatment) then the reticulate pattern of variation of Bauhinia is far less pronounced. More sampling at the species level in molecular analyses and more morphological studies are needed across the full pantropical range of Bauhinia sens. lat. before inter- and intra-generic relationships are clearly resolved. In the current account genera that have been recognised as distinct from Bauhinia in at least one flora treatment that post-dates De Wit (1956) have been treated as separate genera, especially where these are supported by the preliminary results from a chloroplast trnL (intron and spacer) sequence analysis (Forest, unpubl.). The reader’s attention is also alerted to the detailed infra-generic division of Bauhinia by Wunderlin et al. (1987) in their reorganisation of the Cercideae which also forms a sound basis for sampling in future studies.

Palynological studies of Bauhinia (Larsen, 1975; Schmitz, 1977; Ferguson & Pearce, 1986) have all stressed the considerable variation in pollen morphology within the genus sens. lat. and there are clear correlations between pollen exine ornamentation, floral morphology and pollination. It remains to be seen just how closely these correspond to evolutionary relationships of species. Nevertheless, Schmitz (1977) made several new combinations in segregate genera of Bauhinia based on palynological type. These included new names in Lasiobema, Lysiphyllum, Pauletia, Perlebia and Phanera (Pauletia and Perlebia here considered as synonyms of Bauhinia). Zhang (1995), who analysed morphologically the series of Bauhinia proposed by Wunderlin et al. (1987), concluded that while some supraspecific segregates of the genus were supported, none of the subgenera appeared to be monophyletic. Several realignments were proposed.

The Cercideae as presented here includes 12 genera and (322)–335–(348) species. This treatment differs from Wunderlin et al. (1981, 1987) and Polhill (1994) in that Barklya, Gigasiphon, Lasiobema, Lysiphyllum, Phanera, Piliostigma and Tylosema are considered distinct from Bauhinia. While some of these may well be reincluded in Bauhinia after further study, yet other genera may be reinstated from within Bauhinia. Bracteolanthus, treated as distinct by De Wit (1956), is here included in Lysiphyllum following Wunderlin et al. (1987), while Barklya, considered congeneric with Bauhinia by Wunderlin (1979) and Wunderlin et al. (1981, 1987) is considered distinct following George (1998b) and Forest (unpublished data). The reinstatement of Lasiobema appears least well supported (Forest, unpubl.).

One of three genera in subtribe Cassiinae; see under Cassia for comments on phylogenetic placement. In arid areas in Australia taxonomic distinctions are blurred by polyploidy, hybridisation and apomixis (Randell & Barlow, 1998b)

Habit

Trees, shrubs or herbs (some monocarpic)

Ecology

Arid scrubland, rocky hillsides and deep desert sands, deciduous woodland, thorn woodland (including caatinga), wooded grassland (savanna and cerrado), few in Amazonian forest; some endemics on limestone (especially in Madagascar), coastal tropical and su

Distribution

206 spp. native to the New World (c. 45 spp. restricted to C and N America, 10 spp. in the Greater Antilles [including 6 endemic in Cuba], c. 30 restricted to NW South America [Venezuela, Colombia, Ecuador, Peru], 3 restricted to the Guianas and Venezuela, c. 28 in southern S America [Argentina, Uruguay, Paraguay, including 8 spp. endemic in Chile], 5 spp. endemic in Bolivia, c. 20 spp. restricted to SE Brazil and 13 to NE Brazil, c. 25 spp. widespread across S America, and c. 25-30 on either side of the Panama isthmus [either disjunctly or widespread] ), c. 18-20 spp. native to Africa (many in Somalia-Masai E and NE Africa [including 2 extending to Socotra; 1 sp. endemic on Socotra and 3 extending to the Middle East and Asia], others more widespread in dryland phytochoria), 9 spp. endemic in Madagascar, 3 spp. indigenous in Malesia, 3 spp. restricted to India, 1 sp. in Myanmar [Burma] and Thailand (and possibly also native in Cambodia, Laos and Vietnam); 33 spp. endemic in Australia plus 16 endemic so-called 'form taxa'; c. 3-5 spp. widely cultivated and of unknown certain origin

Timothy M. A. Utteridge and Laura V. S. Jennings (2022). Trees of New Guinea. Kew Publishing. Royal Botanic Gardens, Kew

Distribution

A pantropical genus of c. 300 species with 11 cultivated or introduced in New Guinea. The genus was treated by Verdcourt (1979) within Cassia, but generic limits have been clarified since that treatment and the two genera are kept distinct.

Morphology General Habit

Herbs, shrubs, or small trees to 8(–20) m

Morphology Leaves Stipules

Stipules c. 1 cm long, persistent or caducous

Morphology Leaves

Leaves paripinnate, leaflets opposite; leaf rachis and petiole with or without glands

Morphology Reproductive morphology Inflorescences

Inflorescences in axillary or terminal racemes; bracteoles absent

Morphology Reproductive morphology Flowers

Flowers: sepals 5; petals 5, subequal, usually yellow; stamens 10, filaments of all stamens straight, sometimes all 10 fertile, subequal, sometimes 3 adaxial staminodes, plus (6 or)7 fertile stamens; anthers dehiscing by short slits or apical pores

Morphology Reproductive morphology Fruits

Fruit elongate, cylindrical or sometimes distinctly ridged or winged, either indehiscent or inertly dehiscent through 1 or both sutures, rarely with valves breaking up into 1-seeded articles

Morphology Reproductive morphology Seeds

Seeds numerous.

Ecology

Senna species are found as cultivated or ornamental plants, but also along rain forest edges, on waste ground, and roadsides; from sea level to 500(–2100) m.

Recognition

Members of Senna can be recognised by the imparipinnate leaves with opposite leaflets, the yellow flowers with stamens that can be either all fertile or some staminodal, but all with short, straight filaments. The most widespread member of the genus in New Guinea is S. alata (L.) Roxb. which has very distinct black fruits up to 20 cm long, with a wavy marginal wing running the length of each valve.

Use

Senna alexandrina Mill. (= Cassia senna L.), or true senna is well-known as a laxative; many species are multi-purpose shrubs with numerous medicinal uses, especially as purgatives; S. alata (L.) Roxb. is universally used against parasitic skin diseases; timber of some species is used in construction and for charcoal; occasionally seeds are roasted and ground as a coffee substitute, less often used as fish poisons and for tanning leather; many are ornamentals and shade trees widely introduced throughout the tropics; for a detailed account of uses in W Africa see Burkill (1995)