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Inga edulis

Inga edulis, commonly known as the bean or guaba, is a fast-growing, in the family (subfamily ), native to the tropical lowlands of , including countries such as , , , , , and , and widely introduced and cultivated in . It typically reaches heights of 10–20 meters (occasionally up to 30 meters) with a broad, spreading crown as wide as its height, featuring compound pinnate leaves with 4–6 pairs of leaflets each 5–15 cm long. The tree produces fragrant white flowers and distinctive cylindrical tomentose pods, often spirally twisted and measuring 50–100 cm (up to 2 meters) in length by 3–4 cm in diameter, which contain multiple large purple-black seeds embedded in a sweet, translucent-white, cottony pulp that tastes like . Thriving in warm, wet tropical climates on poor , floodplains, and other lowland habitats up to 1,500 meters elevation, Inga edulis is notably resilient to and mild , flowering and fruiting 2–3 times per year, with pods ripening mainly from to . As a nitrogen-fixing , it forms symbiotic relationships with to enrich , making it a valuable agroforestry tree widely planted for shade over , , , , and plantations, as well as for on degraded lands. The edible pulp, with a value up to 25°, provides a nutritious rich in carbohydrates and low in fat, while the seeds can be cooked and eaten like chickpeas, though they contain bitter compounds and enzyme inhibitors that require preparation. Additionally, its light wood (density 0.3–0.4 g/cm³) serves as , and various parts, including leaves rich in defensive chemicals, have traditional medicinal uses among indigenous communities for treating ailments like headaches and arthritis. Valued by Amazonian peoples for food, timber, and ecological benefits, Inga edulis exemplifies the genus 's approximately 300 , which are integral to neotropical and sustainable . It is assessed as Least Concern on the .

Taxonomy

Classification

Inga edulis belongs to the kingdom Plantae, phylum Tracheophyta, class Magnoliopsida, order Fabales, family Fabaceae (the legume family), genus Inga, and species edulis. The genus Inga encompasses approximately 300 species of neotropical trees and shrubs, primarily distributed in humid tropical forests of Central and South America. The Inga edulis was established by the German Carl Friedrich Philipp von Martius in 1837, with the original published in Flora 20(2 Beibl.): 113. The specific epithet "edulis" originates from the Latin word for "edible," alluding to the palatable, sweet pulp that encases the seeds within the fruit pods. The type specimen, designated as lectotype, is Burchell 9610 collected from and housed at the Royal Botanic Gardens, (K000328467).

Synonyms

Inga edulis Mart. is the currently accepted name for this species, as confirmed by authoritative databases including the International Plant Names Index (IPNI) and Plants of the World Online (POWO). The name was originally published by Carl Friedrich Philipp von Martius in 1837 based on material from Brazil. Several historical synonyms have been recognized due to morphological variations in traits such as pod shape, leaflet size, and indumentum, as well as early misclassifications in related genera. Key synonyms include Feuilleea edulis (Mart.) Kuntze (1891), a homotypic synonym arising from Otto Kuntze's broad revision of Leguminosae genera, which was later rejected in favor of Inga. Inga ynga (Vell.) J.W. Moore (1923), derived from Mimosa ynga Vell. (1825), was synonymized after comparisons showed it encompassed the same variable populations as I. edulis. Although Inga edulis is the accepted name, a 2013 proposal by Jørgensen et al. suggested Inga ynga as an alternative based on nomenclatural priority. Other notable synonyms are Inga benthamiana Meisn. (1857), invalidated through 20th-century taxonomic revisions that emphasized the species' wide ecological amplitude and clinal variation across its range. Inga ynga var. pallidior represents a historical varietal name for paler-leaved forms, now considered part of the species' natural variability. Post-1837 updates, including Bentham's treatments in the and Standley's Central American revisions in the , progressively consolidated these names under I. edulis, with modern databases like maintaining the current synonymy. POWO lists 14 synonyms in total.

Description

Morphology

Inga edulis is a fast-growing, that can reach heights of up to 30 meters, with a of up to 60 cm, and typically branches low to form a broad, umbrella-shaped canopy that provides substantial shade. The bark is smooth and pale gray, while young twigs are angular and covered in fine hairs. The leaves are alternate and , pinnate with 4 to 6 pairs of , to elliptic leaflets measuring 3 to 15 cm in length and 2 to 8 cm in width, with the terminal pair often larger than the basal ones; a distinctive is present between each pair of leaflets, and the rachis is winged. Flowers are small, white to cream-colored, and fragrant, arranged in dense, axillary spikes up to 10 cm long, featuring a and numerous united stamens up to 4.5 cm long; in tropical regions, flowering occurs year-round. The is a long, straight or slightly curved measuring 50-100 cm (up to 2 meters) in length and 3-4 cm wide, initially green and turning brown when mature, with a ribbed and sometimes twisted surface; inside, it contains 10 to 20 soft, green to black seeds embedded in a sweet, white, cottony pulp that is edible and often compared to in flavor. The root system includes a deep taproot for anchorage, supplemented by extensive lateral roots and occasional deep brace roots extending up to 2 meters, which contribute to soil stability; these roots also form nitrogen-fixing nodules in symbiosis with bacteria.

Reproduction

Inga edulis exhibits hermaphroditic flowers arranged in crowded heads, spikes, or panicles at the tips of stems or in leaf axils, which are self-incompatible and thus require cross-pollination between genetically distinct individuals for successful fruit set. These flowers are fragrant and rich in nectar, primarily attracting pollinators such as bees, hummingbirds, and beetles, though other insects like butterflies and skippers may also visit. Flowering often occurs with substantial overlap among Inga species in tropical environments, enhancing pollination efficiency, and tends to peak during wetter periods to align with favorable conditions for pollinator activity and subsequent fruit development. Following , fruit pods develop over a few months, typically maturing 2–3 months later, and may produce crops nearly continuously or twice annually in suitable climates. The resulting indehiscent pods, measuring 50-100 cm (up to 2 m) in length and 3-4 cm in diameter, contain multiple seeds embedded in a sweet, white (pulp) that serves as a reward for animal dispersers, who consume the pulp and discard the seeds, aiding dispersal. Seeds of I. edulis demonstrate recalcitrant storage behavior, remaining viable for only a short period—often weeks to months—after maturity and frequently germinating immediately upon dispersal or while still within the pod, which limits long-term storage potential. rapidly reduces viability, with embryos sensitive to moisture loss below approximately 34% content. in I. edulis is rare and limited, with poor rooting success in cuttings; while root suckers and may occur under disturbance, they do not commonly contribute to .

Distribution and Habitat

Native Range

Inga edulis is native to the tropical regions of , with its range extending from northwestern and in the south to , , , North, Northeast, South, Southeast, and West-Central, , Galápagos, , , and in the north. This distribution encompasses lowland rainforests and riparian zones within the wet tropical biome, where the species thrives in humid environments. The plant's generic name derives from the spoken by , reflecting pre-Columbian use for its edible fruits and other resources by local communities. The species has been widely introduced beyond its native range, including to (such as , , , , , , and ), where it is often planted in similar tropical settings. In the Old World, Inga edulis is cultivated in parts of (e.g., , DR Congo, , , , ), (e.g., , Indonesia's and , ), and the Pacific islands (e.g., Cook Islands, , ), primarily for applications like shade provision and soil improvement. These introductions accelerated in the , driven by colonial agriculture, particularly as an intercropped tree for and plantations. Globally, Inga edulis is classified as Least Concern (LC) as of 2021 on the due to its extensive natural distribution and adaptability, indicating no immediate threat to its overall population. Nonetheless, local declines occur in fragmented habitats, such as Brazil's , where and agricultural expansion have led to over 80% habitat loss in some areas, affecting regional populations.

Ecological Preferences

_Inga edulis thrives in tropical lowland rainforests and humid tropical environments, primarily at altitudes ranging from 0 to 1,500 meters above . It prefers regions with hot, humid conditions, where temperatures typically range between 23°C and 30°C, and it is sensitive to , with damage occurring below 0°C. The species is most common in areas without a pronounced or with a short dry period of 3-4 months, requiring a minimum annual rainfall of 1,200 mm to support its growth, though it can tolerate up to 2,500 mm or more in wetter habitats. Regarding soil preferences, Inga edulis favors well-drained, fertile loamy soils but demonstrates notable tolerance for acidic and nutrient-poor conditions, enabling its persistence in less ideal substrates. It is sensitive to waterlogging and prolonged flooding, though it can endure temporary inundation in riverine floodplains for 2-3 months. Optimal falls between 5.0 and 6.5, but the tree accommodates a broader range from 4.5 to 8.0, including limestone-derived soils. In terms of light requirements, young saplings of Inga edulis are shade-tolerant, allowing establishment under forest canopies or in dappled light, but mature individuals demand full sun to reach their potential height and productivity. As a , it often regenerates in forest gaps and disturbed areas, transitioning to canopy positions in maturing secondary forests. Ecologically, Inga edulis is frequently associated with secondary forests, riverine zones, forest edges, and wooded swamps across its native range in . It occurs in diverse settings such as moist, wet, or even seasonally dry forests and thickets, contributing to the structure of these habitats at elevations up to 1,500 meters.

Biology

Growth and Physiology

Inga edulis exhibits rapid growth, characteristic of in tropical environments, with height increments reaching up to 23 cm per month under optimal conditions in sites. This fast growth allows the tree to attain heights of 3 m within 3 years on acid soils and potentially 10 m over 4–5 years based on sustained annual increments of approximately 2–3 m. The species typically has a lifespan of 20–30 years, after which it may succumb to disease or structural decline in settings. The physiology of I. edulis is adapted to humid tropical conditions, employing the photosynthetic pathway that facilitates efficient carbon assimilation under diffuse light and moderate temperatures prevalent in its native range. This pathway supports reassimilation of internally respired CO₂, enhancing overall photosynthetic efficiency in shaded understories common to systems. Once established, the tree demonstrates tolerance to short periods, maintaining water use efficiency through stomatal regulation suitable for regions with seasonal rainfall variability. Nutrient dynamics in I. edulis emphasize high production, contributing substantial leaf litter for enrichment in managed fallows. Leaf litter in such systems releases nutrients like and supports in acid, low-fertility , though rates vary with density and management. This turnover aids in and buildup without requiring external inputs once rooted. Phenology of I. edulis features continuous vegetative growth in consistently humid , punctuated by flushes that coincide with cambial activity and increment. These flushes enhance canopy recovery and photosynthetic capacity post-stress, aligning with ecological cues like increased to optimize resource capture in dynamic forest edges.

_Inga edulis, a leguminous tree, establishes mutualistic with bacteria, primarily fast-growing strains of species closely related to B. japonicum and B. liaoningense, forming root nodules that enable biological . These nodules exhibit activity, allowing I. edulis to fix atmospheric at rates of 45-157 kg N ha⁻¹ year⁻¹ in systems such as alley cropping. This is particularly effective in acidic, low-fertility soils, where I. edulis thrives without external inputs, contributing to its in tropical environments. In addition to rhizobial associations, I. edulis forms symbiotic relationships with arbuscular mycorrhizal fungi (AMF), which enhance uptake in -poor, acidic . These fungi colonize the root cortex, extending the root system's reach to access insoluble forms, thereby improving acquisition and supporting plant in -limited habitats. Studies on I. edulis seedlings have shown that AMF influences responses, with and fungal origins affecting and efficiency. Beyond microbial symbioses, I. edulis engages in protective mutualisms with via extrafloral nectaries on leaves and stems, which secrete to attract ant species such as Pheidole spp. In exchange for , patrol the foliage, deterring herbivores and reducing pest damage, thereby enhancing plant defense in biodiverse tropical ecosystems. This interaction also promotes broader by providing resources that support colonies and associated fauna. These symbiotic relationships collectively improve in agroecosystems, as fixed from and enhanced cycling via AMF enrich the soil nutrient pool, facilitating sustainable integration of I. edulis in shaded plantations and systems. By supporting nutrient cycling and protective services, these mutualisms enable I. edulis to restore degraded lands and bolster .

Cultivation

Propagation

Inga edulis is primarily propagated by , which are recalcitrant and exhibit short viability, typically lasting up to two weeks under ambient conditions unless stored at low moisture and cool temperatures. To enhance , undergo by soaking in hot water at 80°C for 10 minutes, promoting rates of 70-90% within 10-20 days under suitable moist conditions. is hypogeal, with often observed, allowing a to produce multiple seedlings. Seeds are sown in shaded nurseries using well-draining , maintained at consistent until . Seedlings are transplanted to when they reach 30-50 cm in height, typically after 2-3 months, to ensure establishment in systems. Vegetative propagation, though less common due to the efficacy of methods and the short seed viability that favors rapid of selected genotypes, can be achieved through stem cuttings or for preserving desirable traits. Mini-cuttings from mature plants demonstrate high success, with 100% survival and over 85% rooting, independent of (IBA) concentrations. Key challenges in propagation include predation by , which can remove substantial numbers of seeds in tropical habitats, necessitating protective measures during collection and phases. Proper timing of seed collection from mature pods and immediate processing mitigate viability loss.

Management Practices

Inga edulis is commonly established in plantations with spacing of 3 to 6 meters between trees to optimize growth and yield while minimizing competition. In systems, wider spacing of 10 to 15 meters is used when as shade trees for crops like and , allowing sufficient light penetration for plants. Pruning is essential to maintain shape, promote branching, and facilitate access for harvesting or intercropped ; are typically coppiced every two years in alley systems or lightly to manage shade density. Fertilization requirements are minimal due to the ' nitrogen-fixing capabilities, which can derive up to 40% of from the atmosphere, though moderate applications of other nutrients may enhance productivity on poor soils. The tree is susceptible to pod-boring and fungal , which can cause rots in humid conditions; , including monitoring and cultural practices like improved airflow through , is recommended to mitigate these issues. Pods are harvested by hand when fully mature and rounded; the timing varies by region, with one reported period from May to August and multiple fruiting cycles occurring annually; yields can reach 200–800 pods (up to several hundred kg of fresh pods) per tree annually after three years under favorable conditions, with reports of over 1000 kg per tree under ideal conditions. Since the 1980s, Inga edulis has been integrated into alley cropping systems for sustainable farming, where trees are planted in hedgerows spaced 4 meters apart with 0.5 meters within rows, pruned to provide mulch that suppresses weeds and enriches soil.

Uses

Culinary Applications

The fruit of Inga edulis, commonly known as the ice cream bean or guama, is prized for its edible components, reflecting its long-standing role in regional cuisines across Latin America. The sweet, cottony white pulp surrounding the seeds within the long pods is typically consumed fresh, offering a creamy texture and flavor often compared to vanilla ice cream due to its mild sweetness and subtle vanilla notes. This aril-like pulp is eaten directly from the pod after splitting it open, providing a refreshing, low-calorie snack that is popular among both indigenous communities and modern consumers. The seeds themselves are not edible raw due to potential but become safe and nutritious when boiled, roasted, or baked, developing a nutty reminiscent of chestnuts or chickpeas. Boiled seeds can be eaten as a or ground into for use in and other dishes, such as tamales or porridges, particularly in traditional and Peruvian preparations where they are sometimes roasted and sold like at markets. These preparation methods highlight the versatility of the seeds in extending the plant's culinary value beyond the pulp. Nutritionally, the pulp is low in calories at approximately 60 kcal per 100 g, with a high moisture content of 83% and 15.5 g of carbohydrates, predominantly sugars that contribute to its sweet taste. It also provides modest amounts of vitamins, supporting its role as a hydrating and antioxidant-rich fruit in diets. The seeds, when cooked, offer higher protein content, approximately 19 g per 100 g dry weight, making them a valuable plant-based protein source in resource-limited settings. In culinary applications, the pulp is incorporated into desserts like sorbets, ice creams, and fruit salads, or blended into juices and smoothies for a natural sweetener in countries such as , , and . Fermented drinks, such as the traditional cachiri beverage among Amazonian groups, utilize the pulp for its fermentable sugars, producing a mildly alcoholic refreshment. These uses trace back to pre-Columbian times, where Inga edulis fruits formed part of the staple diet in Andean and Amazonian societies, as evidenced by depictions on ancient and archaeological finds in Peruvian dating to around 1000 BCE. preparations often involved simple consumption of the fresh pulp or boiled seeds, integrating the fruit into daily meals without complex processing.

Agroforestry and Environmental Roles

Inga edulis plays a vital role in systems as a for perennial crops such as and , a practice established in and other parts of northern since the early . Its broad canopy mitigates excessive solar radiation and reduces maximum coffee leaf temperatures by up to 5.3°C compared to unshaded monocultures, thereby alleviating heat stress on crops and improving their physiological performance. The species enhances soil quality through via root nodules containing bacteria, which can increase total soil nitrogen by up to 10% in improved systems. Prunings from I. edulis provide nutrient-rich that suppresses weeds, minimizes , and promotes accumulation, leading to improvements of 34% or more in alley cropping arrangements relative to traditional fallows. In reforestation initiatives, facilitates the restoration of degraded tropical landscapes, notably through projects like the Cameroon Inga Project launched in 2009 by Rainforest Saver and local partners, which employs alley cropping to regenerate soils and boost on slash-and-burn sites across . bolsters in settings by drawing pollinators such as hummingbirds, bees, and bats to its brush-like flowers, while its fruits and habitat structure support seed-dispersing birds. The tree also aids in systems, contributing to climate mitigation in humid tropics.

Medicinal and Other Uses

In , particularly in regions of Central and , the leaves of Inga edulis are prepared as an tea to alleviate conditions such as and . The bark is utilized in folk remedies for treating and , often as a , with documented use among indigenous communities in . Post-2000 studies have identified bioactive compounds including and phenolic acids in the leaves and bark, supporting potential antitumor, , , and antiviral activities. The wood of I. edulis has a of 0.3–0.4 g/cm³ and is employed as fuelwood due to its moderate burning qualities, as well as for light construction purposes such as tool handles and rural building materials. Leaves and pods of I. edulis provide valuable for , with protein content ranging from 20% to 25% in , making them a nutritious in silvopastoral systems. Indigenous Amazonian communities attribute cultural significance to I. edulis, incorporating it into rituals and as a of abundance in their cosmovision. Additionally, the species shows promise in , effectively reducing soil residues of herbicides like sulfentrazone and accumulating such as and those from contamination; as of 2025, bark-derived adsorbents have been developed for removing (VI) from aqueous solutions. Recent studies (as of 2024) highlight the biotechnological potential of seeds, rich in protein and carbohydrates, for environmental and industrial applications.