Solanum spirale Roxb.

  • Authority

    Knapp, Sandra D. 2002. section (Solanaceae). Fl. Neotrop. Monogr. 84: 1-404. (Published by NYBG Press)

  • Family

    Solanaceae

  • Scientific Name

    Solanum spirale Roxb.

  • Type

    Type. India. Silhet, Wallich cat. no. 2619a (lectotype, K, here designated; isolectotypes, BM, K, possible frag. MPU [ex G-DC]).

  • Synonyms

    Solanum apoense Elmer, Solanum superficiens Adelb., Solanum callium R.J.F.Hend.

  • Description

    Species Description - Shrubs 1-4 m tall; young stems green and glabrous, occasionally minutely papillose with rusty brown papillae; bark of older stems dark brown, white-lenticellate. Sympodial units difoliate, geminate. Leaves narrowly elliptic to elliptic, widest at or just distal to the middle, glabrous above, with tufts of uniseriate trichomes 0.5-1 mm long in the axils of the main lateral veins beneath, originating both from the veins and the lamina; major leaves 12-21 x 3.6-8.8 cm, with 5-7 pairs of main lateral veins, the apex acuminate, the base attenuate; petioles 1.2-2.5 cm long; minor leaves differing from the major ones only in size, 5.3-7.5 x 1.6- 2.8 cm, the apex acuminate, the base attenuate; petioles 0.5-1 cm long. Inflorescences opposite the leaves, often somewhat intemodal, simple, glabrous, shiny dark brown (white in live plants), 0.5-6 cm long, 5-30-flow-ered; pedicel scars evenly spaced ca. 1 mm apart, beginning very near the base of the inflorescence. Buds globose to obovoid, white, appearing strongly 5-angled from the ridged calyx tube. Pedicels at anthesis de-flexed, 1.2-1.6 cm long, tapering from the base of the calyx tube to a slender base ca. 0.5 mm diam. Flowers with the calyx tube 1.5-2 mm long, 5-angled, the angles extending down the pedicel in dried specimens, the lobes broadly triangular, apiculate, 0.5-1 mm long, minutely papillose on the apices; corolla white, 1.3-1.6 cm diam., lobed ca. 3/4 of the way to the base, the lobes planar or only slightly reflexed at anthesis, the interpetalar sinuses membraneous, curled and undulate, the tips of the lobes minutely papillose; anthers 3-3.5 x 0.75-1 mm, poricidal at the tips, the pores teardrop shaped; free portion of the fdaments c a. 0.25 mm long, the filament tube ca. 0.5 mm long; ovary glabrous; style straight, 67 mm long; stigma bilobed, minutely papillose. Fruit a globose berry, 1.1-1.6 cm diam., dull yellow-orange when ripe; fruiting pedicels deflexed, woody, 1.9-2.3 cm long, ca. 1 mm diam. at the base. Seeds yellow or tan, flattened-reniform to nearly round in outline, 3-3.5 x 2.5-3 mm, the margins incrassate, paler, the surfaces pitted, the pits ca. 0.02 mm long. Chromosome number: n = 24 (Randell & Symon 1976; Knapp unpubl., voucher BH 81:139, both from Australian populations).

  • Discussion

    Local names. India, titikuchi (Assam), oko-oing (Miri), lara-tita (Goalpara), sohjaring, soh-jhari (Khasia), khlein-deng (Synt.). Thailand, pak dip, puk dip (Lao), pak dit. Laos, mak dit.

    Solanum spirale is the only paleotropical and the only tetraploid member of sect. Geminata. No specimens of S. spirale have been collected in the New World, and its widespread use in India, Thailand, and Laos points to its being either native there or an old introduction. Henderson (1978) speculates on the status of S. spirale in Queensland and concludes that if it is an introduction, it has not spread as a weedy species should. Symon (pers. comm.) however, feels that the range of S. spirale is expanding in Australia, perhaps indicative of its being an introduction.

    Another instance of a close relative of an otherwise neotropical group occurring in the Old World tropics (in this case in the Society Islands) is Solanum repandum G. Forst. of sect. Lasiocarpa (Whalen et al., 1981; Bruneau et al., 1995). Solanum repandum, however, is found only in association with humans, and may be a recent introduction (see discussion in Whalen et al. 1981).

    Solanum spirale is most similar, and perhaps most closely related, to S. nudum, a widespread neotropical species (see above). It differs from that species in its larger leaves, inflorescences, buds, and flowers, and in its bright orangish-red berries. Material from Australia is tetraploid with n = 24, but no authentic chromosome counts exist for S. spirale from other parts of its range. The count of n = 12 (Gerasimenko & Reznikova, 1968) for plants from Bogor certainly refers to S. diphyllum, a widely cultivated species often confused with S. spirale. More living collections of S. spirale are needed to determine its relationships to New World taxa. Crossing studies would be very useful in solving this problem. Despite its brightly colored berries, S. spirale is not closely related to S. pseudocapsicum or the members of that species group. Solarium spirale differs from those species in its deflexed fruiting pedicels, flower shape, and leaf trichome morphology.

    As mentioned above, Solarium spirale is widely used and cultivated in dooryard gardens in India, Thailand, and Laos. No uses appear to have been reported from Indonesia or Australia. In Assam (Knajilal et al. 1939) the roots are employed as a narcotic and diuretic, and the leaves and berries are eaten. Berries are eaten either raw or cooked, while leaves are eaten cooked. In Laos (Poilane 260 74) the bark of S. spirale is broken and soaked in cold water, then used as a febrifuge for adults and infants. Other members of the S. nudum species group are also used as febrifuges in tropical America (S. pseudoquina in Brazil, S. nudum in Colombia).

    Species described by Roxburgh are often difficult to lectotypify, as he did not cite specimens in the original descriptions (Sealy 1956-1957). For many of the species described in Flora Indica (Roxburgh, 1820, 1824), drawings were made by native artists and these are housed at K. A drawing was not made for Solanum spirale, so this makes the choice of a lectotype difficult. Many of Roxburgh’s specimens and types are in the Wallich herbarium at K (Stafleu & Cowan, 1983). I have chosen to lectotypify this species with a specimen (Fig. 57) in the Wallich herbarium (formerly the herbarium of the East India Company in Calcutta). Roxburgh was the curator of this herbarium from 1793 until 1813, and deposited many specimens there. The lectotype I have chosen is from Silhet, the locality cited by Roxburgh in the Flora Indica, and is the only specimen of S. spirale from that locality in the catalog of the plants in the East India Company’s herbarium (Wallich, 1830). The sheet matches the description very well and is probably that collected by Roxburgh.

  • Distribution

    Paleotropical, in mid-elevation forests from southern China to Queensland, Australia.

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