Hubbry Logo
NickernutNickernutMain
Open search
Nickernut
Community hub
Nickernut
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
Nickernut
Nickernut
Nickernut
View on Wikipedia
from Wikipedia
Nickernuts in fruit from G. bonduc

Nickernuts or nickar nuts are smooth, shiny seeds from tropical leguminous shrubs, particularly Guilandina bonduc and Guilandina major,[1] both known by the common name warri tree. C. bonduc produces gray nickernuts, and C. major produces yellow. Accordingly, these species are locally known in the Caribbean as "grey nickers" and "yellow nickers".

The word nicker probably derives from the Dutch word "knikker", meaning marble.[2]

In the Caribbean, nickernuts are used to play mancala games such as oware. The nickernut is marble-like and good for other uses, such as for jewellery; it is also sometimes ground up to make a medicinal tea.[1]

The seeds are often found on the beach, and are also known as sea pearls[3] or eaglestones.[4]

Guilandina and Merremia seeds sometimes drift long distances. In 1693 James Wallace referred to them being often found in Orkney: "After Storms of Westerly Wind amongst the Sea-weed, they find commonly in places expos'd to the Western-Ocean these Phaseoli . . . . [F]rom the West-Indies, where they commonly grow, they may be thrown in on Ireland, the Western parts of Scotland and Orkney".[5] In 1751 Erich Pontoppidan described one found on the coast of Norway: "It is of the size of a chestnut, orbicular, yet flat, or as it were compressed on both sides. Its colour is a dark brown yet in the middle, at the junction of the shells, it is varied with a circle of shining-black, and close by that another of a lively red, which have a very pretty effect".[6] They were known as 'sea beans' in Scandinavia, where one has been found fossilised in a Swedish bog,[7] and 'Molucca beans' in the Hebrides, where a visitor to Islay in 1772 wrote of them as seeds of "Dolichos wrens, Guilandina bonduc, G. bonducetta, and Mimosa scandens…natives of Jamaica".[8] The 1797 Edition of the Encyclopædia Britannica said that they were used only for "the making of snuff-boxes out of them";[9] however, there is a long tradition of using them as amulets for good luck,[2] banishment of ill luck[10] or to ease childbirth.[11]

[edit]

References

[edit]

Sources

[edit]
  • E. Charles Nelson and P. H. Oswald. Ed. Wendy Walsh. Sea Beans and Nickar Nuts: A Handbook of Exotic Seeds and Fruits Stranded on Beaches in North-Western Europe. Botanical Society of the British Isles, 2000. B.S.B.I. Handbooks for Physical Identification 10. ISBN 0-901158-29-1
Wikimedia Commons has media related to Nickernut.

Revisions and contributorsEdit on WikipediaRead on Wikipedia

Nickernut

View on Grokipedia
from Grokipedia
The nickernut (or nicker bean) refers to the smooth, hard, and shiny seeds produced by tropical leguminous shrubs in the genus Guilandina, particularly G. bonduc (grey nicker, with whitish-gray seeds typically measuring about 3/4 inch in diameter) and (yellow nicker, with yellowish-brown seeds). These buoyant seeds of G. bonduc, enclosed in spiny pods containing two per fruit, are dispersed by ocean currents and often wash ashore on beaches, where they can remain viable for sprouting after long voyages. Guilandina bonduc is a sprawling, vine-like shrub in the pea family (Fabaceae), characterized by thorny stems, bipinnate compound leaves with 8–10 elliptic-ovate leaflets, and clusters of fragrant yellow flowers that bloom from spring through summer, or year-round in warmer regions. Native to tropical and subtropical coastal areas, it thrives in full sun on sandy, calcareous, or brackish soils in environments such as coastal strands, dunes, and mangrove swamps, with a distribution spanning the Caribbean, Florida (from Volusia County southward to the Keys), Central and South America, Africa, and parts of Asia. The plant was reclassified from the genus Caesalpinia to Guilandina in 2016 based on phylogenetic studies. Ecologically, G. bonduc serves as a larval host for butterflies including the Miami blue (Cyclargus thomasi bethunebakeri) and nickerbean blue (Cyclargus ammon), supporting in coastal habitats. The nickernuts themselves have cultural and practical significance: they are crafted into jewelry such as necklaces and earrings due to their durability and luster, and historically used as game pieces in mancala-style board games or as makeshift marbles. Medicinally, the seeds contain bonducin, a compound employed traditionally for treating fevers and as a substitute, though they are toxic when raw and require roasting for use as a alternative; other parts of the plant have been ground into teas for colds and stomach ailments.

Producing Plants

Guilandina bonduc

, commonly known as grey nicker or fever nut, belongs to the family , subfamily , and tribe Caesalpinieae. It was originally described by in 1753 and has several synonyms, including (L.) Roxb. and Guilandina bonducella L. This species is recognized for its robust, thorny growth form, distinguishing it within the genus as a primary producer of the hard, grey seeds known as nickernuts. The plant is a perennial climbing or , typically sprawling or scrambling up to 6-10 meters in length, though it can reach 15 meters in some environments. Stems are armed with both straight and recurved prickles, providing defense against herbivores, while the leaves are bipinnate, featuring 3-10 pairs of pinnae and 4-12 pairs of small, elliptic to ovate leaflets measuring 0.8-5 cm long. Flowers are small and yellow to greenish-yellow, borne in axillary racemes up to 35 cm long, with petals 8-15 mm and blooming primarily in summer or year-round in tropical settings. The fruit consists of oval to oblong, spiny pods, 4.5-10 cm long and 3.5-6 cm wide, each containing 1-3 subglobose, leaden-grey seeds about 1.5-2 cm in diameter. Guilandina bonduc is in distribution, native to coastal regions across the (from to ), , (including and ), and , often found in seasonally dry tropical biomes at elevations of 0-800 meters. It thrives in coastal thickets, sandy beaches, dunes, scrublands, and disturbed areas, forming dense thickets that stabilize sandy soils. The species exhibits notable adaptations, including salt tolerance—its buoyant seeds remain viable after prolonged exposure to , facilitating dispersal—and drought resistance, enabling survival in arid coastal environments through symbiotic nitrogen-fixing root nodules and efficient water use.

Guilandina major

Guilandina major is a species in the genus Guilandina within the family Fabaceae, subfamily Caesalpinioideae, and is closely related to but distinct from Guilandina bonduc, sharing the tribe Caesalpinieae but differing in pod size, seed color, and leaflet dimensions. This plant is a woody vine or climber that can reach up to 15 meters in length, though it often exhibits a more shrub-like growth form in certain habitats; its stems feature branchlets that are glossy to dull, either hairy or glabrous, armed with straight or recurved prickles measuring 0.5–3 mm arising from small orbicular bases, with older stems retaining these prickles. The leaves are bipinnate, with petioles 3–10 cm long and rachises up to 45 cm, also bearing recurved prickles at the base of pinnae and on petiolules; they consist of 3–8 pairs of pinnae, each bearing 6–14 opposite or alternate leaflets that are ovate to oblong, 50–70 mm long by 27–32 mm wide, with rounded to cuneate bases, entire margins, and obtuse to rounded apices, surfaces glabrous or sparsely hairy. The flowers of Guilandina major are borne in racemes measuring 10–30 cm long on peduncles 2–10 cm, with pedicels 5–10 mm that are glabrous or sparsely hairy; the pale yellow obovate petals measure 8–10 mm, accompanied by 10 stamens 8–12 mm long with 0.5 mm hairy anthers, a , and a 9–11 mm glabrous style, all enclosed in a calyx with ovate lobes 2–3 mm long. The is a pod 8–13 cm long by 4–6 cm wide, densely covered on both faces with prickles 5–10 mm long, with a beaked apex that dehisces elastically along both sutures; each pod typically contains 2–4 seeds. These seeds are globose to subglobose, 15–25 mm in diameter, smooth with parallel concentric lines, and exhibit a yellowish to chocolate-brown color when mature, contrasting with the gray seeds of related and helping to distinguish variants of nickernuts. Guilandina major is native to the tropical (including , the , , and northern ), , tropical and subtropical , and the Pacific islands, with some introduced populations elsewhere; it occurs in vine thicket vegetation and similar habitats at low elevations of 0–20 m.

Description

Seeds

Nickernut seeds, produced by the shrubs and G. major, are smooth, hard, and shiny, typically spherical to ovoid in shape with a diameter of 1-2 cm. Seeds from G. bonduc are characteristically grey, while those from G. major exhibit yellow to brown hues upon maturity. The seeds feature a tough outer coat known as the testa, which is impermeable to and contributes to physical by preventing . This durable testa encloses an inner kernel rich in oils and proteins, with internal cavities that enhance . The overall structure renders the seeds highly resistant to environmental stresses during dispersal. As , nickernuts exhibit exceptional buoyancy and durability, capable of floating in for up to 19 years without losing viability or germinating, which enables extensive long-distance . This longevity is attributed to the air pockets within the and the impermeable testa that protects against saltwater penetration. Chemically, the seeds contain high levels of starch (approximately 35% as carbohydrates) and oil (around 24%), alongside substantial protein content (about 18%). These components are concentrated in the kernel, making the seeds nutritionally dense, though toxic when raw and requiring mechanical or thermal processing to reduce toxicity and render them usable (e.g., as a coffee substitute). Nickernut seeds are frequently collected on beaches worldwide as "sea beans" or , identifiable by their polished appearance and a distinctive rattling when shaken, resulting from the loose kernel moving within the rigid shell.

Plant Morphology

Nickernut-producing exhibit a woody habit as vines or shrubs, typically to heights of 5–15 meters with thorny branches that facilitate support on surrounding vegetation. These develop extensive root systems, often forming nodules in with nitrogen-fixing , which enhance stability in nutrient-poor substrates. The growth form allows for dense thicket formation, providing structural resilience in dynamic environments. Leaves are arranged alternately along the stems and are bipinnately compound, with petioles and rachises up to 50 cm long, bearing 3–10 pairs of pinnae and 4–14 ovate to elliptic leaflets per pinna, measuring 0.8–7 cm in length. This compound structure, with shiny, membranous to subcoriaceous leaflets, optimizes light capture and photosynthetic efficiency in shaded understories typical of tropical settings. The large leaf size and bipinnate arrangement reduce water loss while maximizing surface area for carbon assimilation. Stems are robust and branched, often brown-pubescent when young, with irregular patterns of recurved or straight prickles up to 9 mm long arising from orbicular or bases, serving as a primary mechanical defense against herbivory by impeding access to foliage and fruits. These prickles also aid in anchoring the during , promoting a sprawling that enhances survival amid competition. Branching occurs supra-axillary, supporting prolific vegetative spread. Inflorescences form as terminal or lateral racemes, up to 50 cm long and sometimes branched, with subulate bracts 1–14 mm and pedicels 6–12 mm, bearing yellow to greenish-yellow flowers approximately 8–14 mm across. These structures attract insect pollinators such as bees and butterflies through their bright coloration and nectar rewards, facilitating cross-pollination in the species' dioecious or unisexual floral arrangements. Flower development progresses from hairy ovaries to mature blooms clustered densely for efficient pollinator visitation. Pod development begins post-pollination with the elongation of the hairy into an elliptic-oblong , maturing over several months to 4.5–13 cm long and densely covered in spines up to 9 mm, which deter . The woody pod wall thickens and dries, leading to dehiscence along the sutures that splits the open to release 1–4 subglobose , ensuring dispersal while protecting the developing embryos from environmental stresses. This maturation process underscores the plant's adaptation for persistent fruiting in tropical conditions. Minor variations exist between species, such as featuring fewer leaflets per pinna compared to the larger, more numerous leaflets in .

Ecology

Habitat and Distribution

Nickernut-producing plants, primarily and , favor coastal habitats including dunes, beaches, strandlines, mangroves, and disturbed tropical areas. These species exhibit strong tolerance to saline conditions, sandy or rocky soils, and poor nutrient availability, often thriving in well-drained substrates exposed to full sun and salt spray. They are adapted to tropical and subtropical climates, requiring average temperatures above 20°C and warm, humid conditions, though they occasionally extend inland along riverbanks or into secondary forests up to 800 m elevation. G. bonduc grows in lowland thickets and roadsides near seashores, while prefers vine thickets and coastal strands at low elevations (0–20 m). The global distribution of these plants spans the Old and New World , with G. bonduc native to regions including tropical , , , the , Central and , and both species occurring in the West , (e.g., ), islands (e.g., ), Pacific islands, and . They have been introduced to regions like , , and the Galápagos, where G. major persists in only a few populations. Seeds dispersed by currents facilitate this range. Ecologically, these plants serve as in succession, stabilizing dunes and coastal soils while providing food and shelter for wildlife through their seeds and foliage; G. bonduc also forms symbiotic relationships with nitrogen-fixing , enhancing , and serves as a larval host for butterflies such as the Miami blue (Cyclargus thomasi bethunebakeri) and nickerbean blue (Cyclargus ammon). However, G. bonduc exhibits invasive potential in non-native areas like and Pacific islands, where its thorny stems and rapid spread form dense thickets that outcompete native vegetation. Although resilient to storms due to their salt and drought tolerance, allowing quick recolonization of disturbed sites, these are threatened by habitat loss from coastal development and . In , G. major is state-listed as endangered (as of 2022), with few remaining populations in conservation areas impacted by .

Reproduction and Dispersal

Nickernut-producing plants, such as Guilandina bonduc and Guilandina major, undergo seasonal flowering, typically from August to March for G. bonduc with a peak in January–February, and October to March for G. major. These species exhibit andromonoecy, producing both hermaphroditic and functionally male flowers, with pollination primarily achieved through biotic means involving insects, particularly bees attracted by nectar in the calyx and UV-guiding petals. Successful fertilization leads to fruit set, where falcate pods develop, each containing 1–3 seeds. Seed production follows pollination, with pods maturing over several months and becoming elastically dehiscent, twisting upon ripening to release hard, buoyant seeds. In G. bonduc, woody pods measure 5.5–7.3 cm long and typically hold 1–2 seeds, while G. major produces similar 3–5.5 cm pods with ovate seeds 8–12 mm long. The primary dispersal mechanism for nickernut seeds is hydrochory, facilitated by their dense, pebble-like structure that enables long-distance transport via ocean currents. These remain viable after floating in seawater for over one year, allowing distribution from origins in tropical America to distant coasts like those of . Secondary methods include limited zoochory, where spiny pods may attach to animals, and anemochory through explosive pod dehiscence that scatters seeds short distances by wind, though water dispersal dominates in coastal habitats. Germination requires overcoming physical dormancy imposed by the impermeable seed coat, typically achieved through mechanical or natural abrasion from wave action and sand. Exposure to freshwater further promotes and emergence, with occurring in 14–33 days under suitable conditions of moisture and 25°C . Establishment involves , phaneroepigeal with persistent cotyledons, followed by slow growth in the first year as pinnate eophylls develop.

Human Uses

Crafts and Games

Nickernuts, the hard, polished seeds of plants in the genus Guilandina (formerly Caesalpinia), have been utilized in various non-medicinal crafts and recreational activities across tropical and coastal regions due to their durability and attractive, marble-like appearance. In jewelry and ornamentation, nickernuts are frequently polished and strung into necklaces, bracelets, and earrings, a practice employed by indigenous communities in the and Pacific islands. Historical records indicate their use as coat buttons in and as amulets by Hebrides Islanders off to ward off evil spirits, with the seeds believed to darken as a warning sign. Modern artisans continue this tradition, crafting decorative items and good luck charms from drift-found seeds, leveraging their robust shells for long-lasting wear. For games and toys, nickernuts serve as playing pieces in traditional variants, such as awale in and bao in , where 48 seeds are distributed across board pits for strategic sowing and capture. In , they substitute for s in children's games, reflecting their nickname "nicker" derived from the term for . Their internal kernel allows for rattling sounds when incorporated into simple toys, enhancing sensory play. Beyond these, nickernuts feature in other crafts like beads for decorative purposes and as part of hobbies, where collectors seek them along high-tide lines in regions like and . Culturally, they hold symbolic value in coastal communities as emblems of ocean voyages and resilience, often traded historically as "sea beans" among islanders and seafarers. Today, polished nickernuts are available for purchase at craft markets and online, supporting artisanal economies in tropical areas.

Medicinal Applications

The nickernut, derived from the seeds of Guilandina bonduc (syn. Caesalpinia bonduc), has been utilized in ethnomedicine across the Caribbean, India, and Africa since pre-colonial times, with enslaved Africans contributing to the adoption of its therapeutic uses in the New World during the transatlantic slave trade. In traditional systems such as Ayurveda, Siddha, Unani, and African folk medicine, the seeds—known as "fever nuts"—are employed to treat fevers and malaria, often as a substitute for quinine, as well as stomach disorders like diarrhea and indigestion, and conditions such as diabetes. Preparations typically involve powdered seeds taken orally in decoctions or pastes for antidiabetic and effects, while seed oils are applied topically for ; root and leaf extracts are occasionally used for supplementary remedies like or menstrual issues. The seeds contain bioactive compounds including alkaloids such as bonducin, , glycosides, , , and phenolics, which contribute to their reported pharmacological properties. Studies have demonstrated anti-inflammatory effects, with seed extracts inhibiting carrageenan-induced in rats by up to 50% at 1000 mg/kg, antidiabetic activity through hypoglycemic effects in alloxan-induced diabetic models at 300 mg/kg, and action against worms like posthuma in vitro. In vitro assays also reveal properties, scavenging free radicals and protecting against , alongside limited evidence for and hepatoprotective benefits. Recent studies (as of 2025) continue to explore its , antidiabetic, and potential primarily in animal and in vitro models. However, clinical trials in humans remain scarce, with most data derived from animal and in vitro models, necessitating further research for validation. Overconsumption poses risks, as the seeds are poisonous in large doses, potentially causing , , and liver strain; toxicity studies indicate no acute effects below 200 mg/kg but adverse symptoms at higher levels in .

References

  1. https://www.waynesword.net/nicker.htm
  2. https://www.herbs2000.com/herbs/herbs_bonduc.htm
  3. https://www.flawildflowers.org/flower-friday-guilandina-bonduc/
  4. https://powo.science.kew.org/taxon/urn:lsid:ipni.org:names:114706-2/general-information
  5. https://www.worldfloraonline.org/taxon/wfo-0000214186
  6. https://tropical.theferns.info/viewtropical.php?id=Caesalpinia+bonduc
  7. http://nativeplants.hawaii.edu/plant/view/Caesalpinia_bonduc/
  8. https://floranorthamerica.org/Guilandina_major
  9. https://www.waynesword.net/PalomarCaesalpinia.htm
  10. https://explorer.natureserve.org/Taxon/ELEMENT_GLOBAL.2.130350/Caesalpinia_major
  11. https://www.researchgate.net/publication/352881789_Effect_of_physical_and_chemical_treatments_on_breaking_the_seed_dormancy_of_Caesalpinia_bonduc_L_Roxb
  12. https://lkcnhm.nus.edu.sg/app/uploads/2017/06/2011nis043-048.pdf
  13. https://environmentamericas.org/2024/07/11/the-spilled-beans-of-biscayne/
  14. https://ijeab.com/detail/chemical-composition-and-functional-properties-of-caesalpina-bonduc-and-monodara-myristica-seed-flours/
  15. https://tpwd.texas.gov/publications/nonpwdpubs/young_naturalist/plants/sea_beans/
  16. https://tropical.theferns.info/viewtropical.php?id=Caesalpinia%2Bbonduc
  17. https://www.cabidigitallibrary.org/doi/full/10.1079/cabicompendium.10699
  18. https://www.nparks.gov.sg/florafaunaweb/flora/6/1/6102
  19. https://tropical.theferns.info/viewtropical.php?id=Guilandina+bonduc
  20. https://floranorthamerica.org/Guilandina_bonduc
  21. https://www.fnai.org/PDFs/FieldGuides/Guilandina_major.pdf
  22. https://regionalconservation.org/ircs/Database/plants/PlantPage.asp?TXCODE=Caesmajo
  23. https://research-repository.st-andrews.ac.uk/bitstream/handle/10023/14134/GwilymPeterLewisPhDThesis.pdf
  24. https://archive.bsbi.org.uk/Wats12p103.pdf
  25. https://www.horizonepublishing.com/journals/index.php/PST/article/view/1049
  26. https://apps.lucidcentral.org/rainforest/text/entities/guilandina_bonduc.htm
  27. https://www.jetir.org/papers/JETIR2002363.pdf
  28. http://www.ibiblio.org/photo/webb/portfolio/print/science/seabeans.pdf
  29. https://ncseagrant.ncsu.edu/coastwatch/naturalists-notebook-knowing-beans-about-the-beach/
  30. https://momaa.org/awale-mancala-game-board/
  31. https://drew.edu/wp-content/uploads/2024/04/First-Pieces-PR_GG.pdf
  32. https://geog.ucla.edu/sites/default/files/users/carney/426.pdf
  33. https://www.researchgate.net/publication/267097784_Review_on_pharmacological_properties_of_Caesalpinia_bonduc_L
  34. https://pubmed.ncbi.nlm.nih.gov/38280683/
  35. https://pubmed.ncbi.nlm.nih.gov/37987793/
Add your contribution
Related Hubs
User Avatar
No comments yet.