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Pandanus tectorius

Pandanus tectorius, commonly known as screw pine, hala, or Tahitian screwpine, is a dioecious or in the family , typically growing 4–14 m tall with a similar canopy spread and supported by distinctive prop roots. It features a single or multi-stemmed trunk covered in spines, long linear leaves 1–3 m in length with spiny margins arranged in a characteristic spiral pattern, and produces separate male and female inflorescences, with females developing into large, pineapple-like syncarp fruits 8–30 cm long composed of numerous wedge-shaped drupes that ripen from green to orange or red. The species is highly variable, forming a complex with numerous local varieties selected for specific traits. Native to coastal ecosystems across (including the and ), eastern , , and the Pacific Islands from to and , P. tectorius thrives in littoral habitats such as sandy or rocky beaches, strandlines, mangroves, swamps, and brackish marshes at low altitudes (0–600 m). It tolerates a range of conditions including saltwater inundation, , waterlogging, , and poor sandy or soils, with optimal growth in tropical climates featuring high rainfall (1500–4000 mm annually) and temperatures of 24–36°C. Ecologically, it plays a role in stabilizing sandy soils, forms dense stands in coastal vegetation, and its buoyant fruits are primarily dispersed by ocean currents, with additional dispersal by crabs, birds, and bats. The plant is classified as Least Concern by the IUCN due to its wide distribution and adaptability. P. tectorius holds significant cultural and practical value in Pacific Island societies, where it has been cultivated non-commercially for millennia. Its leaves (known as lauhala in Hawaiian) are widely used for weaving mats, hats, baskets, sails, and ; the keys provide a nutritious source rich in vitamins C and B3, especially during famines; and other parts serve medicinal purposes, such as leaves for treating boils or colds and for digestive issues. The timber is employed in for houses and ladders, while the fragrant male flowers are used in leis and as laxatives; today, it is also valued ornamentally in tropical landscapes for its architectural form and salt tolerance.

Botanical Description

Overall Morphology

Pandanus tectorius is a dioecious, shrub or small characterized by a multi-stemmed growth habit, typically reaching heights of 4 to 14 meters with a canopy spread of similar dimensions. The trunk is stout and often forking, forming either a single bole up to 4-8 meters before branching or multiple clustered stems, with a ranging from 12 to 25 centimeters; its grayish or reddish-brown is smooth or flaky, marked by prominent leaf scars and occasional prickles. A key structural feature is the presence of distinctive prop roots, also known as stilt roots, which emerge from the lower portion of the trunk, typically 1 to 1.5 meters above the ground, and extend downward to anchor the plant firmly in the . These thick, slightly spreading roots, reaching up to 1-2 meters in height, provide essential stability on sandy or uneven coastal substrates by penetrating surface layers and preventing toppling in windy conditions. In some individuals, may also descend vertically from branches, further enhancing support. The branching pattern is apical, with widely forking stems that produce a symmetrical, palm-like crown where leaves are arranged in spirals at the branch tips, contributing to the plant's overall drooping appearance. Pandanus tectorius exhibits a slow to moderate growth rate, advancing 2 to 80 centimeters per year, and can achieve a lifespan of 50 to 100 years under optimal conditions, though vegetatively propagated plants may have a shorter productive phase.

Leaves

The leaves of Pandanus tectorius are linear and sword-like, typically measuring 90–300 cm in length and 3–7 cm in width, and are arranged in dense spirals of three rows at the tips of branches. These leaves feature a gradually tapering and are often V- or Y-shaped in cross-section, contributing to the plant's distinctive architecture. The leaves exhibit a bright coloration when healthy, with a leathery and prominent veins running longitudinally. Both margins and undersides are armed with small, curved spines up to 1 cm long, which are denser and larger toward the leaf tip; these spines serve to deter herbivores. Leaf adaptations enhance survival in challenging environments, including a thick —particularly on the adaxial surface—that minimizes loss, along with sunken stomata predominantly on the abaxial surrounded by papillae for stomatal control. These traits confer , enabling the plant to endure periods of up to six months without significant , and tolerance through resistance to foliar spray in coastal settings. The stomatal distribution and epicuticular waxes further support efficient under high light and windy coastal conditions by optimizing while reducing . As an , the leaves persist year-round, providing continuous canopy cover, though they may yellow under nutrient deficiencies such as iron or magnesium shortages.

Reproductive Structures

Pandanus tectorius is dioecious, bearing separate plants with distinct reproductive structures. Male inflorescences measure 30-60 cm in length and consist of branched clusters of numerous small flowers subtended by white, fragrant bracts that attract pollinators. These male flowers feature 4-6 prominent white bracts enclosing dense aggregations of stamens, producing copious primarily dispersed by . Female inflorescences are smaller and more compact, comprising flowers embedded within a fleshy central axis that develops into a syncarpic structure upon fertilization. The of Pandanus tectorius forms an of multiple drupes, resembling a in shape, with dimensions ranging from 8-30 cm in length and 4-20 cm in width. When ripe, these heads turn orange-red and can weigh up to 6 kg, composed of 40-100 individual keys or phalanges, each typically containing 1-2 seeds (up to 10). The buoyant nature of the fruit facilitates dispersal across oceanic distances, while the hard endocarp protects the seeds from environmental stresses. Seeds are ellipsoidal, measuring 2-3 cm in length, with a hard, bony shell that aids in viability even without through in some cases. Under moist conditions, occurs with rates of 50-70% and typically takes 3-5 months. Successful leads to above-ground emergence, with seedlings initially trailing before developing upright growth supported by prop roots.

Taxonomy and Classification

Etymology and History

The genus name Pandanus derives from the word "pandan," referring to the fragrant nature of the plants or the local name for species in the group. The specific epithet tectorius comes from the Latin term meaning "of or for covering" or "roofing," alluding to the traditional use of the leaves for roofs in Pacific cultures. Common names for Pandanus tectorius include "hala" in , "screw pine" due to the spiraling arrangement of its leaf scars on the trunk, and "thatch screwpine" emphasizing its utilitarian role in construction. Pandanus tectorius was first described in 1773 by Sydney Parkinson, the natural history artist aboard HMS Endeavour during Captain James Cook's first voyage to the Pacific (1768–1771), based on observations and illustrations made in . Parkinson documented the species growing abundantly on sandy seaside hillocks and low islands, providing an early illustration of the male that later served as an epitype. Although Parkinson died before the voyage's full publication, his account appeared posthumously, with specimens collected by fellow naturalists and from in 1769 designated as the lectotype at the (BM-000956384). This description marked one of the earliest European records of the species, stemming from 18th-century Pacific explorations that documented its presence across island chains. Long before European contact, Pandanus tectorius held central place in of Pacific Island peoples, serving as a key resource for , , , and navigation, with hundreds of traditional varieties cultivated and named across . Early European botanical accounts in the built on these observations, with taxonomic revisions by scholars such as S. Kurz, who addressed and Burmese pandans including forms akin to P. tectorius in works like his 1869 contributions on , and Ugolino Martelli, whose extensive studies from the late 19th and early 20th centuries refined classifications within the through detailed morphological analyses. These efforts highlighted the ' variability and wide distribution, integrating insights with Western during an era of intensified colonial .

Synonyms and Varieties

Pandanus tectorius belongs to the family and the genus , which encompasses approximately 600 of tropical trees, shrubs, and vines. Within the genus, it is classified in the Pandanus (sensu stricto). The accepted name is Pandanus tectorius Parkinson ex Du Roi, as recognized by (POWO, accessed 2025). It has numerous synonyms arising from 18th- to 20th-century descriptions, including Pandanus odoratissimus L.f., (Forssk.) Kuntze, Pandanus chamissonis Gaudich., Pandanus douglasii Gaudich., and Pandanus menziesii Gaudich. These reflect historical taxonomic confusion due to the species' morphological variability and wide distribution. Several infraspecific taxa have been recognized, though their status varies across classifications. Notable examples include P. tectorius var. laevis Warb., distinguished by its spineless leaves and often cultivated for ornamental or utilitarian purposes. Other regional variants exhibit differences in leaf texture, fruit morphology, and growth habit, with studies revealing clinal variation across the Pacific, driven by ocean currents and isolation. Phylogenetically, Pandanus tectorius is placed within the core clade of the family in the order . Molecular analyses using organellar DNA from the 2010s support its close relationship to P. utilis (subg. Vinsonia) in the core clade, highlighting shared evolutionary history in the family.

Geographic Distribution

Native Range

Pandanus tectorius is native to the region, encompassing the , , and , as well as Papuasia, including and surrounding islands. Its indigenous distribution extends to eastern , particularly and northern , where it occurs in coastal environments. In the Pacific, the species is widespread across , , and , with established populations on islands such as , , and in coastal zones. The native range spans approximately 10,000 km from west to east, from to the eastern Pacific, with highest population densities in lowland atolls and coastal areas. In remote Pacific islands like , Pandanus tectorius is considered indigenous, though prehistoric human dispersal by around 1000-1200 CE likely contributed to its establishment there, integrating it into the local flora. Pollen evidence from pre-human sediments in Polynesian islands, such as , confirms its presence prior to colonization in some areas, highlighting natural long-distance dispersal mechanisms like ocean currents and birds.

Introduced and Naturalized Areas

Pandanus tectorius has been dispersed beyond its native Pacific range by human activities, including ancient introductions by who utilized it for cultural purposes such as weaving sails, mats, and baskets from its leaves during their voyages across . Modern introductions, dating back to the , include plantings in southern (USA) and parts of , primarily as ornamentals and for traditional uses. The species has become naturalized in subtropical environments, such as southern , where it establishes self-sustaining populations in disturbed coastal habitats like beaches and mangroves. In urban tropical settings, including , it persists in sandy shorelines and secondary growth areas, often forming dense stands. Currently, P. tectorius occurs scattered across the (e.g., and ), (e.g., and ), and (e.g., , , , and ). It is monitored for potential invasiveness in some introduced regions due to its ability to colonize disturbed sites. Factors facilitating its establishment include high propagule pressure from the international trade, which promotes widespread planting, and its broad tolerance to subtropical and tropical climates with coastal conditions.

Habitat and Ecology

Environmental Preferences

Pandanus tectorius thrives in sandy, well-drained coastal soils, including those on dunes, strandlines, and coral atolls, where it tolerates low fertility, nutrient-poor conditions, and waterlogging for extended periods on suitable soils such as . It adapts to a broad range of 6-10, encompassing acid to alkaline substrates, as well as saline and sodic soils typical of littoral zones. The species prefers tropical to subtropical climates, with average annual temperatures of 24-28°C and minimums not falling below 12°C to avoid damage. It requires annual rainfall of 1500-4000 mm, accommodating patterns with wet and dry seasons, including extended dry periods up to 6 months, and exhibits high tolerance to salt spray and strong winds. Pandanus tectorius grows best in full sun to partial shade and is found from to elevations of about 600 m, avoiding higher or inland forested areas. In its natural habitat, it commonly occurs in coastal forests, edges, grassy woodlands, and secondary scrub, often co-occurring with species such as , Cocos nucifera, , and .

Ecological Role and Interactions

Pandanus tectorius is dioecious, with male plants featuring wind-pollinated inflorescences that produce copious lightweight lacking pollenkitt, facilitating anemophily as the primary mechanism. Female plants produce syncarps that serve as the dispersal unit, with fruits adapted for hydrochory via ocean currents, enabling long-distance dispersal across Pacific islands. These fruits are also dispersed by animals, including rats that consume and relocate diaspores, flying foxes acting as pure dispersers, and birds such as the Pacific pigeon (Ducula pacifica), which ingests and deposits seeds. Seed viability is enhanced by exposure to salt water, as the buoyant fruits remain afloat for extended periods while maintaining potential, supporting of remote atolls. The species hosts several herbivores and pests that interact with its foliage and structure. It serves as the primary host for the peppermint stick insect (Megacrania batesii), which feeds on leaves throughout its lifecycle, potentially defoliating young plants. Planthoppers like Jamella australiae (Pandanus planthopper), suck sap from leaves, causing , distortion, and premature drop, which can weaken stands in coastal areas. In coastal ecosystems, Pandanus tectorius contributes to stability by binding sandy soils with its prop roots, reducing from waves and storms in littoral zones. It provides critical , offering nesting sites for seabirds on and shelter for within its layered foliage, enhancing local trophic interactions. As a in ecosystems, Pandanus tectorius structures by supporting over 20 invertebrate species, from sap-feeders to leaf herbivores, which in turn sustain higher trophic levels. Recent studies highlight its role in within Pacific and swamp forests, where it contributes to storage through accumulation and sediment trapping, with estimates indicating moderate but significant sequestration rates in mixed stands.

Conservation Status

Threats and Vulnerabilities

Habitat loss poses a significant threat to wild populations of Pandanus tectorius, primarily through coastal development and in Pacific islands, where human activities have converted suitable littoral into settlements and . In regions like , ongoing human-induced habitat degradation has directly impacted endemic plant communities, including P. tectorius, by fragmenting coastal forests essential for its survival. Additionally, projected sea-level rise, estimated at 15 cm by 2050 for Pacific Island nations such as , , and , contaminates soils with saltwater, rendering environments increasingly unsuitable for this coastal species. Biological threats include invasive pests and climate-induced stressors that weaken P. tectorius populations. The flatid planthopper Jamella australiae has caused widespread dieback since the 1990s in eastern Australia, where outbreaks lead to leaf drop, growth point death, and eventual tree mortality by feeding on sap and transmitting sooty mold. Climate change exacerbates vulnerabilities through prolonged droughts, which, despite the species' moderate tolerance, induce physiological stress, reduced growth, and heightened susceptibility to secondary pests in Pacific habitats. Overharvesting for traditional weaving materials contributes to population declines in key regions. In and , unsustainable collection of leaves for mats, baskets, and roofing has led to reduced regeneration in wild stands, particularly where community exploitation converts natural habitats to managed or degraded areas. Although globally assessed as Least Concern by the IUCN due to its wide distribution, P. tectorius remains locally vulnerable in isolated island populations facing cumulative pressures. Emerging risks from include intensified activity and . Recent 2024 research highlights that increasing frequency and intensity in the Pacific drive higher rates of fruit drop, uprooting, and mortality in species like P. tectorius, despite observed in canopy post-events. On small islands, fragmented populations exhibit reduced , as evidenced by analyses showing low genetic variation in isolated stands such as those in the , heightening risks of erosion from limited and environmental pressures.

Conservation Measures

Pandanus tectorius populations are incorporated into several protected areas across its native range, including coastal forests within Australia's Great Barrier Reef Marine Park, where the species forms strandline vegetation on islands and cays. In Hawaii, extensive hala (Pandanus tectorius) forests along the coast of Hawaiʻi Island are managed under state forestry programs, contributing to broader ecosystem protection efforts. Restoration initiatives focus on replanting to address habitat loss from pests, fires, and development. In Queensland, Australia, the Friends of Ironbark Dieback Organisation (FIDO) has led a program on K’gari (Fraser Island) since 2023, planting 691 Pandanus tectorius individuals across 19 sites and collecting 3,314 seeds for nursery propagation to recover from leafhopper infestations and bushfires. In Hawaii, community-led out-planting occurs in areas like Kaimū Black Sands on 30-year-old lava flows, where natural recolonization is limited, supporting biocultural restoration of coastal ecosystems. Research efforts emphasize resilient varieties and habitat monitoring. A 2024–2026 project funded by the Sea Grant develops a biocultural management plan for coastal Pandanus forests, integrating to mitigate like sea-level rise and erosion through community surveys and restoration guidelines. studies, such as those using ISSR markers on Pandanus populations in (published in 2025 but building on 2023 fieldwork), aim to identify resilient strains for conservation amid environmental pressures. The species is classified as Least Concern by the IUCN, with action plans recommending ex-situ conservation via botanic gardens like the National Tropical Botanical Garden in . Policy frameworks support local protection without international trade restrictions, as Pandanus tectorius is not listed under . Awareness programs in incorporate traditional mo‘olelo (oral histories) to educate on the species' cultural and ecological roles, fostering community stewardship in areas like Puna.

Cultivation and Propagation

Suitable Conditions

_Pandanus tectorius thrives in tropical climates corresponding to USDA hardiness zones 10 to 12, where temperatures remain above 12°C and mean annual averages range from 24°C to 28°C. It prefers full sun exposure for optimal growth, though it tolerates partial shade, and requires well-drained sandy soils to prevent . During establishment, regular is essential to support rooting, but mature plants exhibit strong , enduring up to 3 to 6 months without water. In exposed coastal sites, windbreaks are recommended for young plants to mitigate damage from strong winds, despite the species' overall resilience to tropical cyclones. Soil management for cultivated P. tectorius involves maintaining a range of 6 to 10, with moderate fertility levels suitable for coastal sands or loams. Annual application of a balanced NPK , such as 10-10-10, supports vigorous and trunk development during the . The demonstrates notable to saline conditions in brackish or coastal soils, adapting well to environments with electrical up to moderately saline levels. For planting, space individuals 3 to 5 meters apart when establishing hedges or windbreaks to allow for their spreading habit and prop root development. Maintenance includes regular of dead or damaged leaves to promote air circulation and , as well as monitoring for pests such as scale insects (Thysanococcus pandani), which can be managed with insecticidal soaps or applications. In , P. tectorius begins yielding harvestable leaves suitable for within 3 to 5 years from vegetative propagation, producing 10 to 300 leaves per tree annually. Female typically initiate production after 5 to 10 years, with fruits maturing in about 12 months post-pollination. Recent recommendations emphasize with coconuts to enhance and productivity in coastal systems.

Propagation Techniques

Pandanus tectorius can be propagated through both sexual and methods, with propagation being the traditional approach in regions like and the Pacific Islands. For propagation, ripe fruits are collected, and the individual seed-bearing segments, known as keys, are extracted after removing the fleshy outer layer to prevent rot. These keys are then soaked in cool or warm water for 1 to 5 days, with the water changed daily to enhance viability; viable seeds typically float during this process. The soaked keys are sown in a moist, well-draining medium such as sterile potting mix or at a depth twice their diameter, or partially buried if the flesh is retained. rates vary but can reach 70% or higher under optimal conditions, occurring between 37 to 90 days, though it may take up to 12 months in some cases. is not typically required, but the soaking step serves a similar purpose by softening the for faster sprouting. Vegetative propagation is preferred for maintaining specific varieties, especially in cultivation where genetic uniformity is desired, as it avoids the variability of seed-grown plants. This method involves using root suckers, which are offsets at the base of mature plants, or cuttings of 15 to 30 cm from lateral shoots, ideally collected in . Cuttings should include the terminal bud and some if present, with about two-thirds of the leaves trimmed to reduce water loss; they are then planted in a shaded area in a moist medium like a 2:1:1 mix of sand, seaweed compost, and topsoil. Rooting hormone is optional but can improve success, with roots forming in approximately 4 weeks and overall establishment rates exceeding 70%. Suckers root more readily and are dug out directly for replanting. This approach is particularly useful for the dioecious nature of P. tectorius, allowing cultivators to select and propagate both plants to ensure fruit production. Propagation is best timed for the to support initial , with seedlings or rooted cuttings transplanted to larger pots or after 6 to 12 months when they reach about 30 cm in height. During this juvenile , require consistent moisture and partial to establish, but overwatering should be avoided to prevent . Challenges include the slow , often taking 1 to 2 years for to become robust enough for permanent planting, which can limit rapid scaling in horticultural settings. Recent advances in offer solutions for producing disease-free stock; for instance, a 2024 study demonstrated efficient shoot proliferation using Woody Plant Medium supplemented with 2.0 mg/L benzyladenine, achieving multiple multiplication cycles with over 80% survival upon and no morphological abnormalities. This method supports mass and conservation efforts by bypassing slow natural rooting.

Human Uses

Material and Edible Uses

The leaves of Pandanus tectorius are a primary resource for traditional crafting in Pacific Island cultures, where they are harvested and processed into durable materials. Known as lauhala in traditions, the broad, fibrous leaves are stripped, dried, and woven into items such as hats, mats, baskets, and sails for canoes, providing lightweight yet strong products valued for their longevity. These leaves also serve as for roofs and walls in traditional dwellings, with structures lasting up to 15 years under regular maintenance, and the extracted fibers are twisted into cordage for ropes and bindings. A single mature plant yields 10–300 leaves annually, depending on environmental conditions and variety, supporting sustainable harvesting in coastal systems. The fruit of P. tectorius, a compound structure composed of 40–80 wedge-shaped drupes or "keys," holds significant edible value, particularly in Micronesian and Polynesian diets where it functions as a staple source. Immature keys are consumed raw or cooked, offering a sweet flavor reminiscent of with hints of , while the surrounding pulp provides a fragrant, slightly acidic taste suitable for fresh eating or juice extraction. seeds, embedded within the keys, are roasted to yield a nutty, protein-rich kernel containing 20–34% protein and 44–50% , though extraction requires effort due to the fibrous casing; the overall flesh is high in carbohydrates (approximately 19–20% per 100 g edible portion) and serves as a notable source of (up to 10.8 mg per 100 g in processed forms). Cooking methods, such as or , neutralize crystals that can irritate if eaten raw in excess. Additional plant parts contribute to material applications, including the highly fragrant flowers, which are distilled for oils used in perfumery and to scent in traditional Pacific practices. yield a black for coloring woven , derived from scrapings or extracts, enhancing the aesthetic of mats and baskets in and other regions. Historically, leaf-derived sails and cordage facilitated inter-island trade and fishing across the Pacific, enabling voyaging canoes to cover vast distances and supporting net construction for marine harvests. In modern contexts, leads commercial production of P. tectorius leaves for export-oriented woven crafts, bolstering local micro, through value-added processing. Fruit-based products, such as jam and dried paste, appear in tourism-driven foods in Pacific destinations, capitalizing on the plant's unique flavor for preserves and confections.

Medicinal and Other Applications

In traditional Polynesian medicine, leaf extracts of Pandanus tectorius are applied topically for due to their properties, attributed to compounds such as and phenolics. The fruit is used as a digestive aid to alleviate stomach cramps and disorders, often consumed in decoctions or fresh form. Roots serve as a in remedies for urinary issues and upset stomach, prepared as infusions in various Pacific Island cultures. Scientific studies have validated some of these uses, with research confirming the antioxidant properties of the fruit, including high phenolic content that contributes to free radical scavenging. A 2023 study on self-nanoemulsifying drug delivery systems of fruit extract demonstrated enhanced in vitro antioxidant activity, with IC50 values indicating potent radical inhibition compared to crude extracts. Leaf extracts show potential anti-diabetic effects, linked to saponins and other phytochemicals that improve glucose utilization and reduce hyperglycemia in animal models. Phytochemical screening confirms the presence of saponins in leaves, supporting their role in metabolic regulation. Recent studies as of 2025 have further explored the plant's pharmacological potential, including anti-cancer effects through inhibition of Hippo and Notch signaling pathways in leaf and flower extracts, and antimicrobial activities against oxidative cell damage. Beyond medicinal applications, young leaves of P. tectorius provide for such as pigs and horses in tropical regions. Fibrous from the , including seeds and stems, holds potential for production, with studies exploring extraction via ultrasound-assisted yielding viable fuel properties. Environmentally, its high salt enables use in stabilizing saline coastal soils, aiding in and habitat restoration in affected areas. Safety considerations include irritation from the plant's sharp leaf spines, which can cause mechanical skin injury during handling. Unripe fruit keys contain crystals that may lead to or if consumed. No major systemic toxicities have been reported from traditional or studied uses.

Cultural Significance

Traditional Roles in Societies

In Pacific Island societies, Pandanus tectorius, known locally as hala or lauhala in , has been integral to crafts and social exchanges. In culture, lauhala —using the plant's flexible leaves to create mats, baskets, hats, and sails—formed a cornerstone of women's traditional activities, passed down through generations via oral instruction and serving as both a practical skill and a medium for among communities. Similarly, in , the plant's fruit holds cultural value in ceremonial contexts, where dried segments are painted red and strung into ula fala necklaces worn by leaders during special gatherings, including feasts that embody and communal bonds. The plant's leaves also played key roles in rituals and daily practices across the region, reflecting gendered divisions of labor and spiritual significance. In traditions, tough varieties of P. tectorius leaves were woven into durable sails for voyaging canoes, enabling long-distance travel essential to cultural connectivity. In , mats served in practices, wrapping bodies or lining graves to honor the deceased and facilitate transitions to the . Harvesting often fell to men, who climbed trees to gather leaves and fruits, while women specialized in the intricate , reinforcing social structures and knowledge transmission within families. Pre-colonial Pacific economies heavily depended on P. tectorius for sustenance and material needs, particularly on resource-scarce atolls where its fruits provided a second only to , supporting and settlement patterns. Oral traditions across islands credit the plant's origins to , embedding it in creation myths that underscore its role in human prosperity and environmental harmony. Contemporary community initiatives continue this legacy, with groups employing dozens to produce crafts that sustain livelihoods and preserve skills amid modernization. However, modernization exacerbates the of associated cultural practices and threatens identity, as highlighted in recent ethnobotanical assessments of Pacific ecosystems.

and Modern Representations

In Hawaiian folklore, Pandanus tectorius, known as hala, is depicted as a divine gift that originated through the goddess Pele, who tore branches from a floating island's tree during her voyage, scattering pieces that took root across the islands, including fossilized remnants on dating back approximately 1.2 million years. This legend underscores the plant's role as a provider of and resources, symbolizing against misfortune when fashioned into leis worn during transitions like graduations or the to cleanse past troubles. Across the Pacific, including regions like , the tree's stilt roots anchoring it in harsh coastal soils evoke resilience against storms and environmental challenges, embodying endurance in Polynesian oral traditions. In contemporary Pacific and adornments, motifs inspired by the tree's spiraling leaves and prop denote themes of perseverance and cultural continuity, often incorporated into tattoos that honor heritage. In modern contexts, hala leis crafted from the plant's fruit are a staple in Hawaiian , greeting visitors as symbols of and transition, evoking paradise in global perceptions of the islands. The tree appears in Polynesian media of the , such as Museum's 2025 digital storytelling "Mau ka Leo," which highlights its ecological and cultural narratives to preserve . campaigns increasingly position P. tectorius as a for , emphasizing its role in stabilizing coastlines against rising seas and erosion in Pacific island initiatives. Globally, P. tectorius is valued as an ornamental in tropical gardens for its dramatic form, while 2025 art installations, including works by Japanese artist Mariko Ikeda, spotlight its indigenous significance and ecological adaptations.

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