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Adenium multiflorum
Adenium multiflorum
Adenium multiflorum
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Sabi star
Adenium multiflorum in cultivation at the University of California Botanical Garden.
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Gentianales
Family: Apocynaceae
Genus: Adenium
Species:
A. multiflorum
Binomial name
Adenium multiflorum

Adenium multiflorum is small, succulent tree native to central and eastern Southern Africa. It may be deciduous or evergreen, and is found in dry woods or grassland in its native habitat.[1] It is typically 0.5–3 m tall.[2] Like other succulent members of the family Apocynaceae, A. multiflorum has a milky latex with toxic alkaloids, specifically Cardiac glycosides. This latex is used as an arrow poison and as a fish stunning poison.[3]

The leaves are simple, with smooth edges, typically oppositely arranged.[4] The flowers, which appear in winter, are typically 5-petaled and may be red, pink, white, or bi-color.[5] The two-capsuled fruits contain long, grooved, hairy brown seeds.[4]

Sometimes called the impala lily, A. multiflorum requires full sun and excellent drainage. It is extremely drought tolerant, but susceptible to the tobacco whitefly.[6] Though frequently used as a bonsai plant indoors, it may be grown outside in USDA hardiness zones 10 and 11.[7]

It is sometimes treated as a variety or subspecies of Adenium obesum.[2]

References

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Adenium multiflorum

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from Grokipedia
Adenium multiflorum, commonly known as the impala lily or sabi star, is a succulent shrub or small tree in the family, typically growing to 0.5–3.5 meters tall with a distinctive swollen underground resembling a miniature baobab. It features glossy, obovate to oblong leaves clustered at branch tips, measuring 3.5–12.5 cm long, and produces showy, tubular flowers in shades of pink, red, or white with scarlet margins, blooming prolifically from May to before the leaves emerge. Native to southern tropical and , including , southeastern , , , , and northeastern (KwaZulu-Natal and provinces), A. multiflorum thrives in hot, dry environments such as , open , and rocky or sandy soils at low altitudes up to 1,200 meters. Its habitat preferences include brackish flats, riverine , and areas with seasonal rainfall, where it often grows among rocks or on slopes, contributing to the arid biome's . The plant's latex-bearing stems and roots contain toxic cardiac glycosides, making all parts poisonous and historically used by indigenous communities for and poisoning, as well as in traditional for treating and eye ailments. Despite its toxicity, A. multiflorum is valued ornamentally for its striking winter blooms and sculptural form, and it can be propagated from seeds or cuttings, though it requires well-drained soil and protection from in cultivation.

Taxonomy

Classification

_Adenium multiflorum is classified within the kingdom Plantae, phylum Tracheophyta, class Magnoliopsida, order Gentianales, family Apocynaceae, genus Adenium, and species A. multiflorum. The genus Adenium belongs to the Apocynaceae family, which comprises herbs, shrubs, trees, or vines typically featuring milky latex in their tissues and, in some taxa, succulent stems adapted to arid conditions. These traits align with Adenium's succulent habit and latex production, supporting its placement in the family. Although accepted as a distinct species, A. multiflorum has historically been treated as Adenium obesum subsp. multiflorum or var. multiflorum due to morphological similarities and hybridization potential; however, its recognition as a separate species is justified by unique morphological features, such as specific and flower dimensions, and a restricted distribution in southern tropical .

Nomenclature

The genus name derives from the city of in (now part of Arabia), where the type species A. obesum was first collected, or possibly from the vernacular name "Oddaeyn" for that species. The specific multiflorum originates from Latin roots "multi-" (many) and "florum" (of flowers), alluding to the species' abundant flowering habit. Adenium multiflorum was formally described by the German botanist Johann Friedrich Klotzsch and published in 1861 within the botanical volume of Wilhelm Carl Hartwig Peters' Naturwissenschaftliche Reise nach Mossambique. This description established it as a distinct within the family, based on specimens from southern African regions. Accepted synonyms include Adenium obesum subsp. multiflorum (Klotzsch) G.D. Rowley and var. multiflorum (Klotzsch) L.E. Codd, reflecting historical taxonomic treatments that sometimes subsumed it under the more widespread A. obesum. In English, common names for Adenium multiflorum encompass impala lily, Sabi star, lily, and , evoking its striking floral displays and associations with African ; in , it is known as impalalelie.

Description

Growth habit

Adenium multiflorum is a or succulent or small that typically reaches heights of 0.5 to 3.5 meters, exhibiting a distinctive baobab-like form with a thickened base and branching upper structure. This growth habit allows it to thrive in arid conditions, where it often appears nearly leafless for much of the year, conserving resources during dry periods. The plant develops from a substantial underground , a tuberous that can attain diameters of up to 1 meter, serving as the primary site for water storage and enabling survival through extended droughts. Above ground, stems emerge from this caudex, often multiple and branched, with the main stems swollen to 5–10 cm in diameter near the base. These stems are succulent, featuring silvery-grey to brown, shiny bark that contains a toxic, watery , which further contributes to the plant's defense mechanisms in harsh environments. The overall succulence of the stems and represents a key adaptation for , allowing A. multiflorum to store water efficiently in its native semi-arid habitats.

Foliage and stems

Adenium multiflorum produces simple leaves that are obovate to oblong-obovate in shape, with a leathery texture and glabrous surface. These leaves measure 7.5–12.5 cm in length and 2–7.5 cm in width, featuring pinnate venation, a short petiole of 3–7 mm, a cuneate base, and an acute to rounded apex that is often apiculate or mucronate, with entire margins. They are arranged spirally and crowded in clusters at the tips of young branchlets, appearing shiny green above and paler beneath. The stems of Adenium multiflorum emerge from a large, thickened or tuberous that can reach up to 1 m in at the base, supporting a succulent or small typically 0.6–3.5 m tall. Branching is erect to spreading, with stout, glabrous branches covered in shiny grey to silvery-grey bark that contains poisonous watery . The is spineless and thickset, adapted for in arid environments. Adenium multiflorum exhibits a pattern, shedding its leaves at the onset of the cool or and remaining leafless for much of the year. Flowers typically emerge before new leaves reappear, with foliage absent during the flowering period and growth resuming after a of at least four months. This seasonal leaf drop aligns with the plant's to periodic in its native habitats.

Flowers and fruits

The flowers of Adenium multiflorum are borne in terminal inflorescences, typically forming dense cymes or corymbs that can produce 5–15 flowers per cluster, contributing to the species' profuse blooming and its specific epithet multiflorum, meaning "many-flowered" in Latin. Each flower is bisexual and showy, with a tubular corolla measuring 2.2–3.9 cm long and 1–1.3 cm wide at the base, expanded 2.5–4 times the length of the calyx; the corolla tube is pink to white with red stripes in the throat serving as nectar guides, while the five lobes are narrowly ovate to obovate, 1.3–2.9 cm long and 1–1.9 cm wide, crispate, and colored white to pale pink with deep pink to scarlet margins. These trumpet-shaped flowers, often white with bold pink or crimson edges, distinguish A. multiflorum from its close relative Adenium obesum (desert rose), which has similar trumpet-shaped flowers but typically solid-colored pink or red. Reaching 5–7 cm in diameter, they are sweetly scented and appear primarily during the winter to spring season in their native range, from May to September, often when the plant is leafless. The corolla tube of A. multiflorum exhibits adaptations for , including its pubescent exterior and internal red striping that directs visitors toward the at the base, with the overall structure suited to accommodate long-tongued pollinators. Following , the plant produces paired follicles as , which are cylindrical to spindle-shaped, pale grey to pale grey-brown, and measure 10–20 cm long by 0.8–1.5 cm thick, initially covered in soft grey hairs and turning brown at maturity before dehiscing longitudinally. Each follicle contains numerous seeds—often more than 50 per —that are very pale to brown, glabrous or minutely pubescent, approximately 1–1.5 cm long by 0.2–0.3 cm wide, and equipped with a of dirty white to light brown hairs 2–3 cm long to facilitate wind dispersal.

Distribution and habitat

Geographic range

_Adenium multiflorum is native to southern tropical and subtropical regions of , with its distribution centered south of the River. The species ranges from southeastern and , extending eastward through and , and southward into and northeastern . In , it occurs primarily in the provinces of and , with additional records in the northern parts of . Within this range, populations are concentrated in lowland areas, particularly the Lowveld regions of , , and , where the plant favors frost-free environments. It is also found in riverine settings, such as along sandy banks of rivers and marshes in and , contributing to its preference for well-drained, open landscapes. Elevations typically do not exceed 1000 meters above , with most occurrences between and 700 meters. The overall extent of A. multiflorum is characterized by scattered populations rather than continuous coverage, primarily within savanna and dry woodland zones across its native countries. This discontinuous distribution reflects adaptation to specific microhabitats in arid to semi-arid conditions, limiting widespread abundance.

Environmental conditions

Adenium multiflorum thrives in the hot, dry climate of southern African savannas, where seasonal rainfall typically ranges from 400 to 800 mm, concentrated in the summer months from October to March, followed by dry winters. This subtropical environment features high temperatures during the day, often exceeding 30°C in summer, with cooler nights in winter that can drop to around 10°C, promoting the plant's deciduous behavior during the dry season. The species prefers sandy, well-drained soils that are often rocky or gravelly, with a ranging from neutral to slightly acidic (6.1–7.8), facilitating root development in arid conditions. It commonly occurs along riverbanks and marshes, where soils may retain some moisture during wet periods, as well as on brackish flats and outcrops that prevent waterlogging. In its natural landscape, Adenium multiflorum inhabits dry woodlands, grasslands, and edges of open forests at low altitudes from 0 to 1000 m, adapting to the open, sunny exposures of these ecosystems. As a drought-resistant succulent, it endures prolonged dry spells but shows tolerance for occasional flooding in proximity to watercourses, reflecting its occurrence in varied microhabitats within the biome.

Ecology

Seasonal behavior

Adenium multiflorum exhibits a distinct phenological cycle adapted to the seasonal rainfall patterns of its native southern African habitats, where summers are wet and winters are cool and dry. The plant is deciduous during the dry season, typically shedding its leaves from June to October as water availability declines, entering a period of dormancy to conserve resources. This dormancy is marked by reduced water consumption and yellowing foliage. Flowering occurs profusely during the cool, dry winter months from May to September, producing clusters of trumpet-shaped blooms on leafless branches. Following the dry season, a new leaf flush emerges with the arrival of summer rains in late or , initiating active vegetative growth that continues through the wet summer period from to April. During these growth phases, the plant relies on and nutrients stored in its swollen —a bulbous, -storing basal stem—to support rapid development of stems, leaves, and new branches. This storage mechanism enables survival through prolonged dry periods without external input, with the expanding over time to enhance resilience. Reproductively, fruits develop after the winter flowering peak, maturing during the summer months from July to January in natural conditions. The paired, cylindrical follicles split open upon maturation, releasing numerous brown seeds equipped with tufts of silky hairs that facilitate wind dispersal across open landscapes. This timing aligns seed release with the , promoting under favorable moist conditions.

Biological interactions

Adenium multiflorum exhibits a specialized pollination mechanism typical of the Apocynaceae family, where flowers feature an anther cone with slits that deposit pollen on the proboscis of visiting insects, facilitating cross-pollination. This process is aided by nectar rewards that attract pollinators such as bees and butterflies, which access the floral structures during foraging. Despite containing toxic cardiac glycosides in its leaves, stems, and flowers, A. multiflorum is frequently browsed by herbivores including goats, cattle, baboons, and kudu, which may tolerate low levels of the compounds. Heavy browsing pressure often results in a multi-stemmed, shrubby growth form rather than a single-trunked tree, limiting the plant's stature in grazed landscapes. In its native and ecosystems, A. multiflorum supports small by providing nectar-rich flowers that serve as sites, contributing to local networks. The plant's toxic latex, harvested by indigenous communities for arrow poisons and , indirectly impacts through traditional hunting practices that target game species. A. multiflorum forms arbuscular mycorrhizal associations, which enhance nutrient uptake—particularly —in the nutrient-poor, sandy soils of its , aiding survival in arid environments.

Uses

Traditional applications

Indigenous communities in have long utilized the latex of Adenium multiflorum, which contains cardiac glycosides, as a for and ing. The milky sap extracted from the bark and fleshy trunk parts is applied to arrow tips to immobilize large game, such as , by disrupting cardiac function upon penetration. Similarly, the latex is introduced into rivers to stun , allowing them to be easily collected, a practice documented in regions including , , , and . Despite its potent toxicity, A. multiflorum has limited traditional medicinal applications among indigenous groups, with parts used in magic potions for cultural rituals in some communities. In , it is used as a male . Additionally, root and stem latex extracts are employed in in to treat and eye diseases in domestic birds. Such uses carry significant risks of due to the plant's cardiac glycosides and narrow therapeutic window. Although the leaves and flowers are poisonous to , causing cardiac issues if ingested in quantity, A. multiflorum is occasionally browsed by and in its native habitats without widespread toxicological concern, precluding its use as .

Ornamental value

_Adenium multiflorum is highly prized for its ornamental appeal, featuring showy clusters of trumpet-shaped flowers that typically bloom in white with reddish-pink margins, providing vibrant displays during the flowering season. Its sculptural —a swollen, water-storing basal stem—creates a striking, bonsai-like form that resembles a miniature baobab , making it particularly suitable for container and cultivation. This species enjoys global popularity in and succulent gardens, especially in arid-adapted landscapes of the and the , where its and low-maintenance nature enhance water-efficient designs. In non-tropical regions, it is frequently grown indoors as an attractive , valued for its compact size and decorative trunk. Horticultural selections of Adenium multiflorum emphasize flower color variations, including pure white, pink, and bi-colored forms, allowing gardeners to choose cultivars that suit diverse aesthetic preferences in ornamental settings.

Cultivation

Requirements

Adenium multiflorum requires full sun exposure, ideally receiving at least six hours of direct sunlight daily to promote healthy growth and flowering, though young plants or those acclimating may benefit from partial shade to prevent sunburn on the caudex. It thrives in warm temperatures between 20°C and 35°C (68°F to 95°F), corresponding to USDA hardiness zones 10a to 12, where frost protection is essential as the plant is highly sensitive to freezing conditions and should be brought indoors or covered during cold snaps. For , a well-draining mix formulated for cacti or succulents—incorporating sand and for —is critical to mimic the sandy, rocky substrates of its native southern African habitats and prevent waterlogging. Watering should be infrequent and thorough, allowing the to dry out completely between sessions to accommodate its drought-tolerant ; overwatering leads to , so reduce frequency during cooler periods or . Fertilization during the active growing season calls for a low-nitrogen formula high in and , applied at half-strength monthly to encourage development and blooming without excessive foliage growth. Common pests include , mealybugs, and spider mites, particularly in indoor or container settings; monitor regularly and treat with or horticultural oil, applying cautiously due to the plant's sensitivity to chemicals. General succulent care practices, like good air circulation and avoiding overcrowding, help mitigate these issues.

Propagation

Adenium multiflorum is primarily propagated through , stem cuttings, and , with propagation being the most common method in cultivation to produce genetically diverse . For propagation, fresh are sown superficially on the surface of a moist, well-draining mix or sand-based substrate at temperatures of 25–30°C, where they typically germinate within 5–7 days. This method ensures the development of a robust in seedlings, though viability decreases if are not used promptly due to their short shelf life. Stem cuttings provide a means of clonal propagation but are slower and less reliable, with success rates ranging from 50–70%. Semi-ripe stems about 10 cm long are selected, the cut end allowed to dry for 1–2 days to prevent rot, then dipped in rooting hormone and inserted into a perlite-sand mixture under high humidity and bottom heat. Rooting may take several weeks, and survival can be lower compared to related species due to the plant's sensitivity to excess moisture. Grafting is widely used for faster establishment and to create hybrids, typically onto of the closely related , which enhances growth vigor and disease resistance. The scion and should be of similar for a successful union, often performed in spring using a cleft or side-veneer technique. Optimal timing aligns with the plant's growth cycle: seeds are sown in spring to leverage warmer conditions, while cuttings and are ideally done post-flowering in late spring or early summer to minimize stress.

Toxicity and conservation

Toxic properties

Adenium multiflorum produces a milky throughout its tissues that contains toxic cardiac glycosides characteristic of the family. These compounds exert their effects by inhibiting the sodium-potassium pump in cardiac cells, leading to disrupted ion balance and electrical activity in the heart. The toxins are distributed across all parts of the , including stems, leaves, and flowers, with the highest concentrations found in the exuded from wounds or cuts. This serves as a primary defense mechanism against herbivores and is particularly abundant in the bark and fleshy trunk sections. Ingestion of even small amounts of material can cause severe gastrointestinal symptoms such as and vomiting, followed by cardiac effects including arrhythmias, , and potentially fatal . Skin contact with the often results in , , or rashes due to the irritant properties of the glycosides. These toxins pose a significant risk to and humans, particularly children and pets, where fatal outcomes have been reported from accidental . Due to these potent toxins, handling A. multiflorum requires precautions such as wearing gloves to avoid exposure, and the should be kept inaccessible to children and pets to prevent accidental . In traditional contexts, the has been used in preparing poisons, though such applications are highly dangerous.

Conservation status

Adenium multiflorum is assessed as Least Concern on the globally (as of 2022), reflecting its widespread distribution across . However, it faces more severe threats at national levels; it is classified as Vulnerable in (Zambia Red Data List) due to ongoing habitat pressures and collection. In (Flora of Zimbabwe Red Data List) and (Red List 2002), the is Endangered, primarily from localized declines driven by activities and limited subpopulations. The primary threats to A. multiflorum include overcollection for horticultural and medicinal trade, which targets its attractive flowers and tuberous roots. Habitat loss from and further fragments populations, particularly in border regions between countries. Additionally, heavy browsing by livestock and wild animals such as baboons poses a significant risk, with reports of baboons uprooting entire plants to consume the roots. Conservation efforts provide some protection, especially in where much of the species' range falls within , safeguarding core populations from exploitation. through seeds and cuttings is straightforward and widely practiced, helping to meet demand for ornamental and medicinal uses without relying on wild harvesting. In , it is listed under the Flora Protection Act as a Schedule B medicinal , offering legal safeguards against unregulated collection. Population trends indicate stability in protected core areas like national parks, where numbers remain steady due to reduced threats. However, populations are increasingly fragmented in peripheral and border regions, exacerbated by habitat degradation and poaching, necessitating ongoing monitoring to track declines and inform targeted interventions.

References

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