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Zanthoxylum rhetsa

Zanthoxylum rhetsa is a in the citrus family , commonly known as Indian prickly ash, characterized by its spreading crown, stems armed with conical spines, and pinnate leaves with 9–23 leaflets. It produces panicles of small white flowers followed by aromatic follicles containing black seeds, and grows up to 35 meters tall with a bole reaching 75 cm in diameter. Native to —from and through to —and extending to , this species thrives in dry forests, seasonal rainforests, and thickets at elevations up to 500 meters. It is dioecious, requiring separate male and female plants for production, and its yellowish-grey wood is moderately hard and close-grained, occasionally used locally. The plant holds significant ethnomedicinal value across its range, with , fruits, seeds, and leaves employed by indigenous communities for treating ailments such as dyspepsia, urinary disorders, , , snakebites, and dental issues. In traditional practices, the aromatic serves as a and , while seed oil addresses and chest pains; tribes like the Kannikar in apply thorn paste for lactation support. Phytochemically, Z. rhetsa is rich in bioactive compounds including alkaloids like columbamine and , lignans such as yangambin and sesamin, and triterpenoids like , primarily isolated from bark and fruits. These contribute to its pharmacological properties, including antibacterial, , , and cytotoxic effects against cells, with non-toxicity to normal cells suggesting potential in dermatological applications. Culinary uses feature the immature fruits, seeds, and young leaves as spices, often substituting for , with seeds exported to markets in and ; the bark flavors rice in some regions. Though not widely cultivated, its versatility in and underscores its cultural and economic importance in native habitats.

Taxonomy and nomenclature

Taxonomy

Zanthoxylum rhetsa is a in the kingdom Plantae, phylum Tracheophyta, class Magnoliopsida, order , family , genus , and species rhetsa. The for Zanthoxylum rhetsa is Fagara rhetsa Roxb., published in William Roxburgh's Flora Indica (volume 1, page 438) in 1820. The species was transferred to the genus Zanthoxylum by in his Prodromus Systematis Naturalis Regni Vegetabilis (volume 1, page 728) in 1824, establishing the current combination Zanthoxylum rhetsa (Roxb.) . The lectotype for Zanthoxylum rhetsa is designated from Roxburgh's collections in , specifically illustration number 185 in Roxburgh's Icones (Hortus Bengalensis), representing a specimen cultivated at the in Calcutta. Accepted synonyms of Zanthoxylum rhetsa include Fagara rhetsa Roxb., Fagara budrunga Roxb., Zanthoxylum budrunga (Roxb.) DC., Zanthoxylum limonella (Dennst.) Alston, Lacuris illicioides Buch.-Ham. ex Wall., and Tipalia limonella Dennst.

Etymology and common names

The genus name Zanthoxylum derives from the Ancient Greek words xanthos, meaning "yellow," and xylon, meaning "wood," alluding to the yellowish coloration of the wood or the yellow dye extracted from the bark in certain species. The species epithet rhetsa was assigned by William Roxburgh, who first described the plant as Fagara rhetsa in 1820 based on specimens from India. Zanthoxylum rhetsa bears a variety of common names reflecting its regional distribution and cultural significance. In English, it is commonly referred to as Indian prickly ash, Indian ivy-rue, or cape yellowwood. In , names often highlight its spicy, aromatic qualities tied to culinary traditions, such as teppal in (India), tirphal in (India), bajarmani in Assamese (), and jummi in (India). In , it is known as mắc khén in , particularly among ethnic groups in the northwest where it flavors grilled meats. In the , local names include kaitana () and kasabang (Ilokano).

Botanical description

Growth habit and

rhetsa is a or that typically grows to heights of 10–35 meters, forming a spreading crown supported by a straight bole that can attain a of up to 75 cm. The exhibits a woody growth habit, with stems prominently armed by thick, conical spines, which serve as a distinguishing vegetative feature. Branchlets are generally glabrous or covered in fine puberulence, contributing to the overall smooth appearance of younger growth. The leaves are alternate and pinnately compound, ranging from 140 to 230 in length, and consist of 9–23 leaflets. Each leaflet is elliptic to lanceolate, measuring 40–130 long by 15–50 wide, with a glabrous surface dotted by pellucid glands that are visible under . These leaflets often display asymmetrical bases, particularly in lateral positions along the rachis, and feature a prominent midrib that is raised beneath and slightly depressed above. The nature of the foliage is evident, with new leaves emerging after or concurrently with flowering in certain populations, allowing for periodic leafless periods that highlight the plant's structural adaptations. The of Z. rhetsa is aromatic, releasing a characteristic scent when cut or disturbed, and appears as layered, with an inner blaze that darkens upon exposure; the outer surface often bears the aforementioned corky bumps or persistent bases along the . This aromatic quality arises from volatile compounds within the , though specific coloration varies regionally.

Reproductive structures

Zanthoxylum rhetsa is a dioecious , featuring unisexual flowers on separate and plants, though rare monoecious individuals occur. The inflorescences are terminal panicles measuring 80-150 mm in length, typically appearing before or coincident with the emergence of young leaves, particularly in populations. Flowers are small, ranging from 3-5 mm across, and are white to yellowish in color; they consist of 4-5 sepals and petals, with male flowers bearing 4-6 stamens and female flowers possessing a superior that is 1-5-carpellate. The fruits develop as 1-5 free or basally connate follicles that are glandular-dotted and spherical, attaining 6-7 mm in diameter; they mature from red to dark brown or black. Upon ripening, the follicles dehisce longitudinally to release 1-2 per . The seeds are ovoid to globose, glossy black, and approximately 4-6 mm long, encased in a thin, hard testa. Fresh seeds demonstrate high viability, with rapid tetrazolium chloride tests revealing 70-90% success rates in mature collections, supporting effective propagation despite challenges from premature harvesting. Germination typically requires 100-140 days under suitable conditions.

Distribution and ecology

Geographic distribution

Zanthoxylum rhetsa is native to tropical Asia, extending from the Indian subcontinent eastward through Southeast Asia to northern Australia and parts of Melanesia. In the Indian subcontinent, it occurs in India, including the Western Ghats and northeastern regions such as Assam and the East Himalaya, as well as Bangladesh and Sri Lanka. Further east in Southeast Asia, the species is found in Myanmar, Thailand (particularly the northern regions), Laos, Cambodia, Vietnam, Malaysia (Peninsular Malaysia and Borneo), Indonesia (including Sumatra, Java, Sulawesi, and the Lesser Sunda Islands), and the Philippines. The range extends into the Papuasian region, encompassing (shared between and ) and the . In , Z. rhetsa is native to the northern territories, specifically , the , and , where it inhabits coastal and monsoon forest areas. Historical records of Z. rhetsa date back to early 19th-century collections by in , , where it was first described as Fagara rhetsa in based on specimens from tropical Asian forests. These gaps highlight the species' preference for undisturbed and semi-evergreen forests in its core habitats.

Habitat and ecological role

_Zanthoxylum rhetsa thrives in wet tropical biomes, including s, forests, coastal thickets, and drier seasonal forests. It is commonly found in primary and secondary forests as well as open thickets, where it adapts to environments with seasonal rainfall variations. The species occurs from up to 200 meters in , though it has been recorded rarely at higher altitudes reaching 500 meters. It prefers well-drained, fertile soils such as sandy-loamy types that retain moisture without becoming waterlogged, supporting its growth in diverse tropical settings. As a , Z. rhetsa often colonizes disturbed areas, contributing to regeneration by providing shade and for understory organisms. In its ecosystems, Z. rhetsa plays a key role in biotic interactions, with primarily facilitated by insects such as bees. is achieved through , including hornbills, which consume the fruits and aid in propagation across forest patches. Additionally, it serves as a larval host plant for several species, notably ( banded peacock) and (red ), supporting butterfly populations in tropical forests. The plant exhibits allelopathic effects, where alkaloids in its leaves inhibit the growth of nearby competing vegetation, influencing community structure in its habitats. These interactions highlight Z. rhetsa's integral position in maintaining and ecological dynamics within tropical ecosystems.

Conservation

Status and threats

Zanthoxylum rhetsa is classified as Least Concern on the (as of the 2019 assessment, which remains current), indicating a stable global population with a wide distribution across and . Regionally, it is assessed as not threatened in . The primary threats to Z. rhetsa include driven by and agricultural expansion, particularly in and , where forest conversion for cultivation has fragmented natural stands. Overharvesting for its aromatic fruits used as a spice and in exacerbates these pressures, leading to depletion in accessible wild populations across its range. As a dioecious species requiring separate plants for , Z. rhetsa faces challenges in regenerating within fragmented habitats, where isolation reduces success and production. Additionally, stored seeds exhibit low viability, hindering efforts and limiting propagation for restoration. In vulnerable hotspots such as the of , ground surveys indicate status due to high and , with significant population declines reported in these biodiversity-rich areas.

Conservation measures

Zanthoxylum rhetsa is protected within several key natural habitats across its range, including national parks and reserves that safeguard its populations from habitat loss and . These protected zones help maintain amid regional pressures like fragmentation. efforts focus on propagation and to address challenges in the species' dioecious reproduction, which requires both trees for viable production. Propagation trials utilize rapid viability testing with 2,3,5-triphenyl tetrazolium (TTZ) at 1% concentration and 35°C for 24 hours, achieving up to 96% correlation with rates for fresh seeds, enabling efficient establishment. While dedicated seed banks are limited due to poor storage viability in tropical conditions, accessions are maintained in field and botanical gardens, such as those under the Forest Research Institute in , to support reintroduction programs. Research initiatives emphasize and sustainable utilization to guide conservation. Studies on the genus, including rhetsa, employ phylogenomic approaches like capture to assess in fragmented habitats, revealing insights into evolutionary and . screenings of fruits and identify key compounds like alkaloids and lignans, informing protocols for sustainable harvesting that minimize impact on wild populations while supporting medicinal and . Overharvesting for these uses underscores the need for such research-driven strategies. Legal protections vary regionally, with the species listed as Endangered in parts of , such as , under state red lists that regulate collection and trade to prevent depletion. Community-based management by indigenous groups, including tribes in northeastern , integrates of propagation and harvesting into local forest stewardship, promoting alongside wild . No global trade restrictions apply under , but regional assessments highlight the value of these localized efforts. Restoration projects incorporate Z. rhetsa into of monsoon forests, often through systems that blend with economic benefits from spice production. The International Tropical Timber Organization (ITTO) supports initiatives like project PD 386/05 Rev.1 (F) in , providing guidelines for nursery techniques, planting densities, and management to restore degraded habitats while ensuring long-term viability. These efforts enhance and provide alternatives to wild harvesting.

Human uses

Culinary applications

Zanthoxylum rhetsa, known locally as "teppal" or "tirphal" in and "mắc khén" in , has been utilized as a spice derived from its pericarp for centuries in various Asian culinary traditions. In , particularly among coastal communities in , , and , the dried fruits are a key agent in fish curries and vegetable preparations with coconut-based masalas, imparting a distinctive woody aroma when used whole or lightly crushed during tempering of oils. In , Naga tribal communities incorporate it into chutneys and pickles, often combined with chilies and garlic for fermented or spicy condiments. In and Thai cuisines, especially in the mountainous Northwest regions, the spice—harvested as wild "mắc khén" berries—is essential for marinating meats like , , and before or in soups and stews, adding depth to dishes such as the iconic Thai grilled pa pỉnh tộp. The flavor profile is characterized by an aromatic, citrusy note with a numbing, tingling sensation attributed to sanshool compounds, akin to that of , which enhances the sensory experience without overwhelming heat. Fruits are typically sun-dried and either used whole to infuse oils or ground into a powder for seasoning, preserving their volatile essential oils that contribute to the dish's fragrance. Nutritionally, the dried pericarp serves as a low-calorie rich in essential oils and vitamins, making it a valuable addition to traditional diets in these regions. Its cultural significance is profound, forming an indispensable element in and tribal cooking in , while in Vietnam's ethnic Thai communities, it embodies the "soul" of highland cuisine.

Traditional medicine

In various indigenous communities, Zanthoxylum rhetsa has been employed in for treating a range of ailments, particularly those related to , urinary issues, and infections. Among the tribes in northeastern , the plant's bark and fruits are used as a remedy, with decoctions or pastes prepared from leaves and fruits to expel intestinal parasites. The fruits are also applied for urinary diseases and dyspepsia, often in infusions to alleviate digestive discomfort and urinary complaints. Additionally, the roots serve as chewing sticks to address dental caries and in some tribal practices, including those of the Kanikkar tribe, where spine pastes are rubbed for relief. In Southeast Asian traditions, different parts of the plant contribute to remedies for infectious and inflammatory conditions. Leaves are utilized in decoctions to treat , , and bloating, with the plant's aromatic properties aiding in symptom relief across folk medicine. bark functions as a and , often prepared as bark decoctions for stomachic effects to improve and tone the . Fruit infusions are commonly employed for broader digestive issues, such as and , reflecting the plant's role in regional . Cultural variations highlight the plant's versatility in local healing practices. In , it is incorporated into remedies for and abdominal discomfort, drawing on longstanding use as both and . Philippine traditions employ the in pounded mixtures with as a general for pains, while fruits address urinary issues and act as digestive tonics. Historical records from 19th-century note the bark's aromatic qualities in treatments for urinary disorders, underscoring early recognition of its therapeutic potential.

Phytochemistry and pharmacology

Chemical composition

Zanthoxylum rhetsa contains a diverse array of across its bark, fruits, leaves, and stems, including alkaloids, , coumarins, lignans, , and . These secondary metabolites contribute to the plant's characteristic aroma and potential bioactivity, with compositions varying by plant part and extraction method. Alkaloids are prominent in the bark and roots, with identified compounds including columbamine, allocryptopine, reticuline, dihydronitidine, nitidine, chelerythrine, N-methyllaurotetanine, and usambanoline. These benzophenanthridine and protoberberine alkaloids have been isolated from stem bark extracts, highlighting the genus's typical alkaloid richness. Terpenes dominate the essential oils, particularly in and bark, where monoterpenes and sesquiterpenes predominate. Major constituents include (up to 41.13% in fresh ), limonene (6.02–25.01% across leaves and petioles), terpinen-4-ol (5.35–19.07%), β-phellandrene (6.32–19.40%), and terpinolene (up to 30.37% in dried ). Essential oil yields from range from 1.3% to 9.5% (v/w) via hydrodistillation, with higher yields (8.1–13.6%) reported from fresh fruit skins in samples. Geraniol and β-caryophyllene appear in trace amounts in some fruit oils. Coumarins such as scoparone, , , , imperatorin, xanthotoxin, and marmesin have been detected in stem bark, roots, and fruits, contributing to the plant's chemical profile. These compounds are part of a broader set of 42 coumarins evaluated in Z. rhetsa extracts. Lignans are abundant in the bark, with key isolates including yangambin (30.4% of fraction), eudesmin (26.7%), kobusin, epi-eudesmin, mangnolin, 8-hydroxy-4′-methoxy-pinoresinol, and sesamin. Secoisolariciresinol derivatives have been noted in seeds, aligning with lignan diversity in the . Flavonoids and phenolic acids are present in various extracts, with hesperetin identified as a flavonoid in bark and quercetin reported in leaf and stem analyses. Phenolic acids, though not quantified specifically, form part of the overall polyphenolic content, estimated at around 339 mg GAE/100 g in seed coat extracts. Phytochemical variation occurs between populations, with Indian samples showing higher essential oil yields and terpene diversity compared to those from Vietnam or other regions, potentially due to environmental factors. Alkaloid content may also differ, though specific comparative data remains limited.

Biological activities

Extracts of Zanthoxylum rhetsa have demonstrated a range of pharmacological activities in preclinical studies, primarily attributed to its bioactive compounds such as alkaloids, , and terpenoids. These activities include , , cytotoxic, , hypoglycemic, and anti-photoaging effects, with low profiles supporting potential therapeutic exploration. Scientific investigations have focused on and models, revealing mechanisms that align with traditional uses for relief, , and metabolic disorders. Bark extracts of Z. rhetsa exhibit and properties, particularly through inhibition of (COX-2) enzymes in models. In lipopolysaccharide-stimulated RAW 264.7 mouse macrophage cells, methanolic stem bark extract suppressed COX-2 and inducible (iNOS) expression via pathway inactivation, reducing pro-inflammatory mediators like and E2. effects were observed in acetic acid-induced writhing tests in mice, where bark extracts at 250–500 mg/kg reduced abdominal contractions by 47–59%, comparable to standard analgesics like aspirin. These findings suggest potential for managing inflammatory conditions such as , though human validation remains pending. Antioxidant activity is prominent in fruit and bark extracts, driven by that scavenge free radicals. Ethanolic root bark extract showed potent radical scavenging with an IC<sub>50</sub> of 42.65 μg/mL, outperforming some synthetic antioxidants and indicating strong electron-donating capacity to neutralize . This activity correlates with reduced in cellular models, supporting cytoprotective roles against reactive oxygen species-induced damage. Cytotoxic and antitumor effects have been linked to alkaloids in Z. rhetsa extracts, particularly against lines. Certain alkaloids, such as skimmianine and dihydrochelerythrine, from root displayed activity against cells with IC<sub>50</sub> values of 10–50 μM, inducing through activation and arrest. Fruit further inhibited HeLa proliferation at an IC<sub>50</sub> of 296.73 μg/mL, suppressing migration and colony formation . These selective effects highlight potential as adjuncts in , with minimal impact on normal cells. Essential oils from Z. rhetsa fruits possess antimicrobial properties, effective against bacterial and fungal pathogens. Against Escherichia coli, the oil exhibited a minimum inhibitory concentration (MIC) of 8 mg/mL, disrupting cell membranes via terpenoid components, while showing similar efficacy against Candida albicans through inhibition of fungal growth and biofilm formation. This broad-spectrum action supports applications in combating antibiotic-resistant strains. Additional activities include hypoglycemic effects in diabetic models and anti-photoaging via UV protection in skin cells. In alloxan-induced diabetic mice, ethanolic root bark extract (250–500 mg/kg) significantly lowered blood glucose levels over 31 days (p < 0.05), comparable to glibenclamide, by enhancing insulin sensitivity and reducing oxidative stress. For anti-photoaging, bark ethyl acetate extract protected human dermal fibroblasts from UVB-induced damage, inhibiting matrix metalloproteinases (MMP-1, -3, -9) and pro-inflammatory cytokines (IL-6, TNF-α) in a dose-dependent manner, with hesperidin as a key active constituent. Toxicity studies indicate low acute risk, with methanolic leaf and fruit extracts showing LD<sub>50</sub> >5000 mg/kg in mice, and no adverse effects on behavior, organ , or biochemistry at therapeutic doses. As of 2025, while preclinical data is robust, clinical trials remain limited to preliminary topical applications for , with no large-scale systemic studies reported.

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