Hippeastrum idimae Dutilh & R.S.Oliveira, 2017

Oliveira, Renata S., Urdampilleta, Juan D. & Dutilh, Julie H. A., 2017, A new Hippeastrum (Amaryllidaceae) species from Brazil, Phytotaxa 307 (2), pp. 147-152 : 147-149

publication ID

https://doi.org/ 10.11646/phytotaxa.307.2.6

persistent identifier

https://treatment.plazi.org/id/03AA4B3F-FFFF-FFB3-FF02-D2CDFA98FDD6

treatment provided by

Felipe

scientific name

Hippeastrum idimae Dutilh & R.S.Oliveira
status

sp. nov.

Hippeastrum idimae Dutilh & R.S.Oliveira View in CoL , sp. nov. ( Fig. 1A–I View FIGURE 1 & Fig. 2A–B View FIGURE 2 )

It is similar to Eithea blumenavia , but differs from it by the seeds which are flat and winged (not globose, with an expansion), and by the basic chromosome number x = 11 (not x = 9 with no bimodality). The flowers are the smallest in Hippeastrum .

Type:— BRAZIL. Rio de Janeiro: Cardoso Moreira, Santissimo, 18 August 2006, Dutilh et al. s.n. (holotype UEC 174130!)

Bulb ca. 2.5–3.5 cm long, oval to round, subterraneous. Leaves up to 10–15(–20) × 1.2–2.3 cm, narrower at the base and broader at the distal third part, resulting in a slightly spatulated form, similarly green colored abaxially and adaxially. Inflorescence 1–7 flowers in different stages of maturity; scape 14–30 cm long; spathe with 2 free bracts, 1.4–3 cm long. Flowers with pedicels 0.8–3.2 cm long at anthesis, with different lengths in flowers of the same inflorescence; hypanthium tube 0.4–0.6 cm long, with many fimbriae, 0.1–0.2 cm long, above the junction of the filament with the tepals; tepals white with longitudinal rose colored to magenta stripes and yellowish green base; upper sepal 3.2–4.5 × 0.9–1.6 cm, lower sepals 3–4.2 × 0.5–1.3 cm, upper petals 3–4.3 × 0.4–0.9 cm, lowermost petal 2.7–3.7 × 0.2–0.4 cm. Stamen filaments 1.7–2.8 cm long, in two or three different lengths; pollen cream colored. Ovary trilocular, 0.2–0.4 cm long; style 2.7–3.6 cm long ascending distally; stigma trifid, with lobes 0.1–0.2 cm. Fruit trilocular, 1.4–2.1 × 0.4–0.8 cm dehiscent dry capsule, flat winged seeds 0.4–0.6 cm, dark brown to black. 2n = 22 chromosomes.

Distribution and ecology:— Hippeastrum idimae was found near the town of Cardoso Moreira, State of Rio de Janeiro, an area with low hills and granitic rock outcrops. It is an area that has been deforested a long time ago, just a few small wooded areas remain. The climate is classified as warm tropical sub humid, with about five dry months, during the winter, when the vegetation loses all its leaves. Two small populations were found on the sides of a few hills, each with at most about 40 flowering individuals. The plants grow in half shade, near rock outcrops, above and not far from humid areas, with bulbs completely buried in the soil.

Etymology:—The specific epithet was chosen after its discoverer, Idimá Gonçalves da Costa, a self-taught amateur botanist who has been very helpful for many years to scientists investigating the species composition of the areas in the northern part of the State of Rio de Janeiro, an area where most of the original cover was removed, but where many unique species have been discovered by Idimá.

Additional specimens examined (paratypes):— BRAZIL. Rio de Janeiro: Cardoso Moreira, Santissimo, 17 August 2008, Dutilh et al. s.n. (UEC170593!).

Taxonomic remarks:—The flowers of Hippeastrum idimae have a very unique morphology; they resemble closely Eithea blumenavia , in color, shape and in the corona type, being the smallest flowers found in Hippeastrum . The leaves are also narrow near the base, resembling the leaves of Eithea and of some Griffinia , but they grow more prostrate than in these genera. The main external morphological difference, however, lies in the seeds, which are round and with an expansion in Eithea and in Griffinia , flat and winged in Hippeastrum , with the exception of H. reticulatum Herbert (1824: sub t. 2475), that has completely round black seeds, without any expansion.

Cytological aspects of the new species:—The cytological investigation was crucial for the confirmation of the position of the new species in the genus. Hippeastrum idimae has 2n = 22 chromosomes and a karyotype typical of Hippeastrum ( Fig. 3A – B View FIGURE 3 ). The karyotype, according to the nomenclature of Levan et al. (1964) shows 4m, 3sm and 4st chromosome pairs ( Table 1; Fig. 3C View FIGURE 3 ). Chromosome size ranges from 10.6 to 5 μm, and interphasic nuclei are reticulate. Based on ITS rDNA data, this species is phylogenetically close to other Hippeastrum species (Oliveira 2012). In Amaryllidaceae chromosome number and karyotype are very characteristic and distinguish several different genera (Naranjo & Andrada 1975, Arroyo 1981, Poggio et al. 2007). In Griffinia there are x = 10 chromosomes (Preuss 1999), with at least one pair of the larger ones with a metacentric centromere. In Eithea blumenavia , x = 10 ( Arroyo 1982), x = 11 (Sato 1938), and x = 9 ( Garcia et al. 2014) have been reported. Arroyo (1981) found no tendency to bimodality of the chromosomes in Eithea , as is common in Hippeastrum . An investigation by the last author of the present paper on the karyology of some individuals from a population of Eithea blumenavia in the Southern part of the State of São Paulo revealed 2n = 18 (x = 9), with sometimes one or two extranumerary chromosomes (J.H.A. Dutilh, unpublished data). These B chromosomes have been found in several species of Amaryllidaceae and sometimes lead to mistaken interpretations ( Dutilh 1989, Williams 1984, Guerra 1983). In Hippeastrum , a basic number of x = 11 and a unique bimodal karyotype, with seven larger metacentric to submetacentric or subterminal and four smaller metacentric to submetacentric chromosome pairs has been described for all the species analyzed so far (Naranjo & Andrada 1975, Laksmi 1980, Arroyo 1982, Williams 1982, Brandham & Bhandol 1997, Poggio et al. 2007). This character was also decisive in confirming Hippeastrum reticulatum in the genus (Sharma & Jash 1958; Naranjo & Andrada 1975). Poggio et al. (2007) suggest an internal homeostasis that conserves bimodality and genome organization in Hippeastrum , however interspecific differences in nuclear DNA amount might result in variations in the chromosome size.

UEC

Universidade Estadual de Campinas

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