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Metopium toxiferum

Metopium toxiferum, commonly known as poisonwood or poisontree, is a tree in the family , native to southern and the . It typically grows 5 to 15 meters tall with a rounded crown, featuring reddish-brown bark that peels in large plates and exudes a black, gummy sap. The leaves are alternate, pinnately compound, 20–30 cm long, with 5–7 ovate, glossy dark green leaflets that develop distinctive black resinous spots with age. Small, white, five-petaled flowers appear in panicles during spring, followed by clusters of orange-yellow drupes about 1 cm in diameter that serve as a food source for birds such as the . The tree is highly toxic due to in its sap, leaves, bark, and , causing severe characterized by itchy rashes and blisters in sensitive individuals. This species thrives in subtropical environments, particularly in well-drained, rocky soils of coastal hammocks, pine rocklands, and disturbed uplands, where it often forms part of the or mid-canopy. Its spans the , southern mainland, , and the , including , with vouchered specimens confirming its presence in conservation areas like and . Ecologically, M. toxiferum contributes to structure in dry broadleaf evergreen forests and woodlands, supporting dispersal of its seeds while posing risks to humans and potentially to due to its irritant properties. First documented in in the mid-19th century, it remains stable in native ranges but requires caution in handling owing to its potent allergenicity, akin to that of related genera like Toxicodendron.

Taxonomy and nomenclature

Classification

Metopium toxiferum is classified within the kingdom Plantae, Tracheophyta, Magnoliopsida, Sapindales, family Anacardiaceae, genus , and M. toxiferum. This placement situates it among the flowering vascular plants, specifically the dicotyledons, in a lineage characterized by compound leaves and resinous properties. Within the Anacardiaceae, commonly known as the cashew or sumac family, Metopium toxiferum belongs to the subfamily Anacardioideae. The family encompasses approximately 80 genera, including closely related Toxicodendron (encompassing poison ivy and poison sumac) and Rhus (sumacs), which share phylogenetic ties in the Rhus complex and traits like resin canals containing irritant compounds. Like other Anacardiaceae members, M. toxiferum produces urushiol, contributing to its overall toxicity. The genus includes a small number of Neotropical species, with M. toxiferum distinguished from its congener M. brownei (black poisonwood) by key morphological differences, such as variations in leaf arrangement and sap color. Historically, M. toxiferum was first described as Amyris toxifera by in 1759 and later transferred to by Otto Karl Moritz Krug and Ignatz in 1896, reflecting revisions in taxonomy to better align it with related genera based on fruit and resin characteristics.

Etymology and synonyms

The genus name Metopium derives from the ancient Greek metōpion, the name for the resinous juice extracted from species of Ferula, reflecting the sap-producing characteristics of plants in this genus. The specific epithet toxiferum originates from the Latin words toxicus (poisonous) and ferre (to bear), alluding to the plant's irritant sap. The for Metopium toxiferum is Amyris toxifera L., published in , edition 10, volume 2, page 1000, in 1759; the currently accepted name is Metopium toxiferum (L.) Krug & Urb., published in Botanische Jahrbücher für Systematik, Pflanzengeschichte und Pflanzengeographie volume 21, page 612, in 1896. Historical synonyms include Rhus metopium L. (1759) and Metopium linnaei Engl. (1883). Common names for Metopium toxiferum encompass poisonwood, Florida poisontree, coral sumac, and hog gum, with usage varying regionally across and the islands where the plant is native.

Description

Growth habit and morphology

Metopium toxiferum is an to medium-sized that typically attains a height of 3–12 m (10–40 ft), though it can reach up to 19 m (63 ft) in favorable conditions. It exhibits a broad, rounded crown formed by widely spreading, stout branches that often droop, creating an irregular, open structure usually taller than wide. The trunk is generally short but may be erect in some individuals, with a diameter ranging from 8–60 cm (3–24 in). The bark is reddish-brown to orange-brown, flaking off in large plates to reveal a mottled gray-brown-orange surface; when damaged, it releases a black latex sap that stains surfaces and turns black upon exposure to air. Branching is spreading and often irregular, with new growth appearing reddish and the plant exhibiting periodic leaf shedding during drier periods. The resinous exudates from the bark and branches can cause characteristic black spotting on the plant and nearby surfaces. Its shallow supports to soils.

Leaves, flowers, and fruit

The leaves of Metopium toxiferum are alternate and odd-pinnately , typically consisting of to 7 leaflets per , with the overall length measuring 9–10 inches (22–25 cm). The leaflets are elliptic to ovate or obovate in shape, 2–5 inches (5–13 cm) long, and feature a dark , glossy, leathery texture on the upper surface. As the leaves mature, they develop characteristic black blotches caused by the oxidation of resinous sap from glandular structures on the leaf surfaces. The foliage is , with periodic shedding of most or all leaves during late winter or early spring in response to dry conditions. The flowers are small, measuring about 1/8 inch (3 ) in diameter, and are greenish-white to white with five unfused petals and sepals. They are functionally unisexual and dioecious, with flowers occurring on separate , and are arranged in terminal or axillary panicles that reach 3–6 inches (7–15 cm) in length. Flowering occurs year-round but peaks in spring, featuring actinomorphic, incomplete structures; male flowers have five functional stamens, while female flowers possess a superior that develops into . The fruit is a single-seeded, fleshy that is ovoid, approximately 0.8–1.3 cm (1/3–1/2 inch) long, and turns to yellow- upon ripening in fall. These bead-like fruits contain residues of , the allergenic compound also found in the sap, and often persist on the for several months after maturity.

Distribution and habitat

Geographic distribution

Metopium toxiferum is native to southern in the United States, the , , and select islands in the such as and the . In southern , the species ranges from the northward to County, occurring in areas such as the and pinelands across counties including Broward, , Miami-Dade, Monroe, Beach, and . It is particularly common in the hammocks of the . Throughout the and , M. toxiferum is widespread, found on all islands of the (), as well as in , , ( and ), , and Mona Island. In the , it is prevalent in pine rocklands, while in , populations are noted in coastal forests. The species has no significant introduced ranges and its distribution has been stable since pre-Columbian times, though habitat loss may have led to some contraction. NatureServe assigns M. toxiferum a global conservation rank of G4 (Apparently Secure), reflecting its relatively broad native range across these regions; in Florida, it is considered secure at the subnational level.

Habitat preferences

_Metopium toxiferum thrives in tropical to subtropical ecosystems, particularly rockland hammocks, pine rocklands, hammock edges, and coastal thickets, where it often occupies the understory in pine forests or becomes a dominant canopy species in disturbed areas. This species is well-adapted to the environmental conditions of southern Florida and the Caribbean, favoring moist, well-drained limestone or sandy soils that are nutrient-poor, with a preference for neutral to alkaline pH levels typical of limestone substrates. It exhibits tolerance to saline conditions near coastlines, enduring moderate salt wind exposure but avoiding direct saltwater spray. Climatically, M. toxiferum requires a warm, humid with annual rainfall ranging from 40 to 60 inches, and it is frost-intolerant, succeeding in USDA hardiness zones 10b to 11. As a sapling, it demonstrates , allowing establishment under light canopy cover, while mature individuals develop drought resistance through an extensive that accesses deeper . In these habitats, M. toxiferum commonly co-occurs with species such as (), (Bursera simaruba), and (Pinus elliottii), contributing to the diverse structure of tropical hardwood communities.

Ecology

Pollination and dispersal

Metopium toxiferum is dioecious, with flowers occurring on separate trees, necessitating cross-pollination for fruit production. is primarily entomophilous, facilitated by a variety of attracted to the small, nectar-rich flowers arranged in panicles. Bees, particularly honey bees (Apis mellifera) and other hymenopterans, are the most frequent visitors to the flowers, with pollen from M. toxiferum commonly detected on their bodies. Butterflies, such as the Bahamian swallowtail (Papilio andraemon) and mangrove skipper (Phocides pigmalion), also visit for nectar, though less frequently than bees, while flies (Diptera) contribute at low levels. These generalist pollinators are drawn to the inflorescences in the shaded understories of hammocks, where the plant commonly occurs. Flowering occurs year-round in M. toxiferum, though it peaks in , aligning with increased activity and enhancing opportunities for cross-pollination among scattered individuals. The panicles of tiny, yellowish-green flowers provide accessible rewards, supporting visitation despite the flowers' modest size, typically around 3-5 mm in diameter. This timing and floral presentation promote effective transfer in the plant's fragmented habitats. Seed dispersal in M. toxiferum is predominantly zoocorous, achieved through the consumption of its fleshy, orange-brown drupes by birds. The (Patagioenas leucocephala) serves as the primary disperser, ingesting the fruits and carrying viable seeds to new locations, such as distant islands or isolated habitat patches in the and . Other frugivorous birds contribute secondarily, but the pigeon's long-distance flights are crucial for across the species' range. The drupes, measuring about 1 cm in length, are produced abundantly, with trees yielding fruits irregularly in response to environmental cues like rainfall. Seeds within the drupes exhibit enhanced after passing through digestive tracts, which scarify the hard endocarp and remove inhibitory pulp. Viability persists for up to several months post-dispersal, though specific longevity varies with storage conditions. While M. toxiferum lacks adaptations for fire-dependent , such as serotinous cones or smoke-stimulated , it demonstrates through basal resprouting following low-intensity burns, allowing recovery in fire-prone pine rockland habitats. The reproductive strategy of M. toxiferum emphasizes , enforced by its dioecious nature, which prevents self-fertilization and promotes . Some degree of may further restrict ineffective attempts, though primary reliance is on spatial separation of sexes. Abundant fruit production supports episodic dispersal events, compensating for the irregularity of availability and ensuring in patchy, insular environments.

Interactions with wildlife

Metopium toxiferum plays a significant role in the of its native ecosystems, primarily through its fruits, which provide a source for birds. The (Patagioenas leucocephala) relies heavily on these fruits, with studies showing they comprise approximately 61% of the fruit mass in nestling diets and occur in 78% of crop samples during the breeding season from to September. Other birds, such as various frugivores, also consume the ripe orange drupes, which ripen mid-summer and support avian nutrition despite the plant's toxicity to many mammals. Due to the presence of and other irritants, the plant has few specialized herbivores, limiting browsing to tolerant species and reducing overall herbivory pressure. The plant's dense, canopy offers shelter and nesting opportunities for small mammals, reptiles, and birds in tropical hammocks and rocklands. Its broad crown provides protective cover, contributing to complexity for wildlife. Branches support epiphytes and vines, enhancing vertical structure in these forests. Additionally, M. toxiferum serves as a nectar source for various , including the white (Appias drusilla) and Julia heliconian () butterflies, attracting pollinators to its small flowers. It also hosts insect larvae, such as those of the poison ivy (Arge humeralis), which feed on the foliage despite the chemical defenses. As a mid-story species in pine rocklands and hammocks, M. toxiferum contributes to by supporting diverse interactions and maintaining structure. Its root system aids in within these often rocky or sandy habitats, preventing in coastal environments. The plant is susceptible to fungal blights during prolonged wet periods, though its deters many pests.

Toxicity and human impact

Toxic compounds

The primary toxic compound in Metopium toxiferum is urushiol, a mixture of catechol derivatives characterized by alkyl side chains, primarily consisting of pentadecylcatechols with 15-carbon chains (n-C15-substituted) and smaller amounts of heptadecylcatechols (n-C17-substituted). These compounds include alkenes and alkynes, such as 3-pentadecylcatechol, and are concentrated in the sap within resin canals of the leaves, bark, and fruit. Urushiol's structure is analogous to that found in related Toxicodendron species, reflecting shared traits across the Anacardiaceae family. The of M. toxiferum is a black that contains along with other ; upon exposure to air, it rapidly oxidizes and hardens into a black residue. This compound is distributed throughout all plant parts, including leaves, stems, , and , with visible black spots often indicating exuded . can also be aerosolized in smoke from burning plant material and carried in residues by rainwater dripping from foliage. Urushiol is biosynthesized in specialized glandular cells as a mechanism against herbivores. It is detected and characterized through chemical assays, such as gas chromatography-mass spectrometry (GC-MS) on derivatized samples, which confirm its alkenylcatechol composition and reactivity profile.

Effects and avoidance

Exposure to Metopium toxiferum primarily causes in humans due to , an present in the plant's leaves, , and . Approximately 50% to 70% of adults are sensitive to , leading to an allergic reaction characterized by itchy red papules, vesicles, blisters, and potential weeping or crusting upon skin contact. Inhalation of smoke from burning the plant can irritate the , causing coughing, wheezing, or severe inflammation, while oral , though rare, may result in gastrointestinal distress including and . The rash typically peaks within 1 to 3 days and lasts 1 to 3 weeks, though severe cases in hypersensitive individuals can involve significant swelling, secondary infections, or rare anaphylactic reactions requiring medical intervention. In animals, most mammals avoid M. toxiferum due to its bitter taste and irritant properties, but birds such as the tolerate and consume the fruit as a food source without adverse effects. Pets like dogs and can develop rashes from direct contact with the plant's sap or foliage, similar to human reactions, though they are generally less sensitive than humans. To avoid , individuals should identify the plant by its black sap streaks on the and blotchy, resinous leaves, and steer clear during outdoor activities in affected regions. Preventive measures include applying barrier creams like IvyX before potential to block absorption, and using protective or heavy-duty vinyl gloves for handling. If occurs, immediately wash the affected area with degreasing soap such as Dawn dish soap and lukewarm water to remove the , followed by laundering contaminated separately. Burning the plant should be avoided due to the risk of airborne particles causing widespread irritation. For landscape management, professional removal by arborists is recommended to prevent accidental . Treatment for involves over-the-counter remedies like lotion or topical corticosteroids for mild cases, with oral prescribed for severe or widespread reactions, tapered over 7 to 21 days. Due to its potent , M. toxiferum has no established medicinal uses and has been historically shunned; attempts to brew teas from its parts for purposes like inducing abortions have proven fatal.

Conservation status

Threats

Although Metopium toxiferum faces general pressures from and in southern ecosystems, the assessment identifies no major threats currently or in the future. Broader environmental changes, such as altered fire regimes and potential impacts from on coastal habitats, may affect associated ecosystems like pine rocklands and hardwood hammocks. Populations are considered across the species' range, including .

Protection efforts

Metopium toxiferum is not listed as threatened or endangered globally, holding a Least Concern status on the (assessed 2020) and a G4 (apparently secure) rank from NatureServe due to its relatively widespread distribution across southern , , and parts of the . In , it is considered secure by for Regional . The species benefits from legal protections afforded to its habitats within federal and state conservation lands, including and Dagny Botanical , where it occurs naturally in tropical hammocks and rocklands. Conservation programs emphasize habitat management rather than species-specific interventions. Efforts include prescribed burns in pine rocklands to mimic natural fire regimes, control of , and promotion of native plant diversity, thereby supporting populations of M. toxiferum. These practices align with broader initiatives under Florida's ecosystem restoration programs, such as those in the Comprehensive Restoration Plan, which indirectly safeguard the species' preferred environments. Ex situ conservation for M. toxiferum is limited, given its stable status, but propagation techniques have been explored to support general habitat enhancement in degraded hammocks. Internationally, in , M. toxiferum receives protection through such as Lucayan National Park and the Exuma Cays Land and Sea Park, where it contributes to coppice forest ecosystems; these areas are managed to preserve under the . The species is monitored through regional assessments, including NatureServe's Caribbean elements.

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