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Dinomyrmex
Dinomyrmex
Dinomyrmex
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Dinomyrmex
D. g. borneensis
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Formicidae
Subfamily: Formicinae
Tribe: Camponotini
Genus: Dinomyrmex
Ashmead, 1905
Species:
D. gigas
Binomial name
Dinomyrmex gigas
(Latreille, 1802)
Synonyms
  • Camponotus gigas

Dinomyrmex is a monotypic genus of ant containing the species Dinomyrmex gigas or giant forest ant. D. gigas is a large species of ant, native to Southeast Asian forests. It is one of the largest ants in existence, measuring in at 20.9 mm (0.82 in) for normal workers, and 28.1 mm (1.11 in) for the soldiers. Honeydew makes up 90% of their diet, but they will also consume insects and bird droppings. The ant is an effective forager, utilizing both efficient communication and recruitment. A handful of these ants may meet at night to engage in what has been observed to be ritual battle. These fights can continue for several months.[citation needed]

Colonies consist of typically about 7,000 workers, distributed unevenly among several nests. There are two types of workers, with the larger ones almost three times as heavy. They forage mainly at night, however, some workers will be outside the nest during the day.[citation needed]

Distribution

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This species is found in Southeast Asian rain forests from Sumatra, Singapore, Malaysia, Borneo to Thailand.[citation needed]

See also

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References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

Dinomyrmex

View on Grokipedia
from Grokipedia
Dinomyrmex is a monotypic of in the subfamily Formicinae (: Formicidae), comprising the single Dinomyrmex gigas, commonly known as the giant forest . This species is one of the largest in the world, with workers exhibiting dimorphism: minor workers averaging around 21 mm in length and major workers (soldiers) reaching up to 28 mm, while queens can measure 30 mm. Native to the rainforests of , including , , (Borneo and ), , , and the , D. gigas inhabits undisturbed lowland forests, secondary forests, and even swamps up to elevations of 1,500 m. The genus was originally established by William Ashmead in 1905 but was later treated as a of Camponotus until its to full generic status in 2016 based on phylogenetic analyses of molecular and morphological data, which revealed its distinct evolutionary lineage within Formicinae. Dinomyrmex gigas, first described as Formica gigas by in 1802, features dimorphic workers with powerful mandibles adapted for foraging and defense, though the species lacks a and relies on biting for protection. Colonies are polydomous, spanning multiple interconnected nests over areas up to 0.8 hectares and containing as many as 7,000 workers, with queens and larvae receiving trophallaxis (liquid food exchange) from foragers. Ecologically, D. gigas is predominantly nocturnal and plays a key role in forest ecosystems as an effective forager, with a diet consisting primarily of honeydew (about 90%) harvested from hemipteran , supplemented by small dead , , fruits, extrafloral nectaries, and bird droppings. The ants exhibit territorial behaviors, including prolonged ritualistic fights between colonies that can last for months, and communicate through antennal touching. Due to loss from , populations face threats, though the species remains relatively widespread in protected areas across its range.

Taxonomy

Etymology

The genus name Dinomyrmex is derived from the Ancient Greek words deinos (δεινός), meaning "terrible," "awesome," or "fearful," and myrmex (μύρμηξ), meaning "ant," a reference to the species' imposing and formidable size. The species epithet gigas originates from the Latin word for "giant," highlighting the exceptional dimensions of the ant, which was originally described as Formica gigas in 1802. Dinomyrmex is a monotypic genus, encompassing only the single species D. gigas.

Taxonomic history

The species now known as Dinomyrmex gigas was originally described as Formica gigas by in 1802, based on specimens from . In 1861, Gustav Mayr transferred it to the genus Camponotus, recognizing its affinities with other large carpenter ants. The genus Dinomyrmex was established by William Ashmead in 1905 as a monotypic genus for Formica gigas, highlighting its distinct morphology within Formicinae. In 1912, Auguste Forel proposed the subgenus Myrmogigas under Camponotus for this species, but the following year, Forel synonymized Myrmogigas with Dinomyrmex, treating the latter as a subgenus of Camponotus. In 1973, William L. Brown Jr. provisionally synonymized Dinomyrmex under Camponotus, viewing it as a junior synonym pending further study. This classification persisted until molecular phylogenetic analyses in the supported the resurrection of Dinomyrmex as a distinct , separated from Camponotus due to unique traits such as the structure of the metapleural gland and phylogenetic position within Formicinae. Key support came from a 2016 study by Philip S. Ward and colleagues, which analyzed multi-locus data from 269 formicine species and confirmed Dinomyrmex as monotypic and sister to Camponotus, reinstating it at the level. A , Dinomyrmex gigas borneensis, was described by Carlo Emery in 1887 for Bornean populations distinguished by yellow legs, but its validity has been questioned in modern checklists and phylogenetic studies, with some treating it as a color variant rather than a distinct . Currently, Dinomyrmex is placed in the tribe .

Description

Morphology

Dinomyrmex exhibit a general body structure typical of the subfamily Formicinae, featuring elongate antennae composed of 12 segments in workers and , which facilitate sensory detection in diverse environments. Their legs are notably long and slender, supporting both arboreal and ground-level movement. Prominent metapleural glands are present on the metapleura, secreting chemicals that contribute to defense and . Caste-specific morphological variations are pronounced within the . possess large ocelli and fully developed wings prior to the , enabling mate location and dispersal. Workers display bimorphism, with minor workers having proportionally smaller heads and majors featuring enlarged mandibles suited for defensive roles. Males are characterized by reduced mandibles and elongated antennal scapes, adaptations aligned with their reproductive function. As members of the Formicinae, Dinomyrmex lack a functional sting, a subfamily-wide trait, and instead rely on powerful biting with their mandibles and the ejection of from the acidopore at the gaster's apex for defense. Larvae of Dinomyrmex undergo five instars, distinguished by progressive increases in head-capsule width and overall size, with mature individuals adopting a distinctive hook-shaped to facilitate pupation within silk cocoons. Unique structural features include a polished appearance on the head and , providing a sleek , and a gaster with a smooth, reflective sheen. The petiole is elongated and bears a single node, contributing to the 's overall streamlined profile. Despite their large size relative to other , these traits emphasize functional adaptations over bulk.

Size and coloration

Dinomyrmex gigas queens represent the largest caste, with total lengths ranging from 30 to 35 mm. Workers display polymorphism, featuring minor workers measuring 20–25 mm and major workers or soldiers reaching 28–30 mm. Males are smaller, approximately 20 mm in length, and exhibit a slimmer build relative to other castes. The species' coloration is characterized by a shiny black head, thorax, and legs, contrasted by a gaster that varies from bright orange-red to light brown. In the subspecies D. g. borneensis, individuals from Bornean populations show yellow legs and a paler gaster. Sexual dimorphism is prominent, with males appearing paler overall and possessing translucent wings; alate forms display iridescent sheen under sunlight. Elongate appendages enhance the perceived size across castes.

Distribution and habitat

Geographic distribution

Dinomyrmex, comprising the species D. gigas and its subspecies, is primarily distributed across , with confirmed records spanning , , , Sumatra in , Borneo (encompassing , , and ), and in . This range reflects its adaptation to environments, where populations are most abundant in undisturbed lowland and montane forests. The latitudinal extent covers approximately 7°N to 5°S, aligning with the equatorial belt of the region. The elevational distribution of Dinomyrmex gigas extends from in coastal and swamp forests up to 1500 m in montane habitats, allowing it to occupy diverse forested landscapes within its geographic bounds. D. g. borneensis, distinguished by its yellow legs, is restricted to southern , where it inhabits similar forested areas but shows localized endemism. Records from the remain unconfirmed, with sightings potentially attributable to misidentifications. Conservation concerns affect Dinomyrmex in urbanized regions, particularly , where habitat loss from development has led to declining populations and a vulnerable status in local assessments, though it persists in remnant forests. In contrast, populations remain stable in protected rainforests across , , and , with no evidence of invasive spread beyond its native tropical range.

Habitat preferences

Dinomyrmex species, particularly D. gigas, inhabit tropical rainforests across , ranging from lowland swamps and forests to montane forests up to 1,500 meters elevation. These ants favor undisturbed primary and secondary forests with dense canopies that provide shaded understories and consistently high levels, typically 80-100%, which are characteristic of these ecosystems. They avoid open, disturbed habitats such as agricultural plantations or heavily urbanized areas, showing limited adaptation to environmental alterations. Colonies prefer microhabitats at the base of large trees, often nesting between buttress roots or within hollow, decaying logs on the , where moisture is retained. Foraging occurs primarily on the ground and low vegetation in these shaded areas, supporting their nocturnal and crepuscular activity patterns. These sites offer protection from and predators while facilitating access to arboreal resources. Optimal temperatures for D. gigas range from 22-28°C, with low tolerance for extremes; laboratory studies indicate mortality after 1.5 hours at 34°C and within 48 hours at 28°C under low , while cooler conditions below 18°C reduce activity. Consistent rainfall is essential, as the species avoids dry seasons and relies on the moist of rainforests to maintain health; activity peaks at night when humidity is higher and temperatures lower. Symbiotic associations with honeydew-producing hemipterans, such as leaf-footed bugs, are common, with up to 90% of the ants' diet derived from this carbohydrate source, often near trees hosting these . This mutualism enhances foraging efficiency in the humid forest . Habitat fragmentation due to selective logging and conversion to oil palm plantations poses significant threats, altering canopy structure, reducing microhabitat availability, and disrupting moist forested sites essential for colony persistence. Urban forest edges exacerbate microclimatic stress, though some populations persist in fragmented patches with suitable vegetation.

Biology and ecology

Nesting behavior

Dinomyrmex colonies are polydomous, typically consisting of 8–14 interconnected subterranean nests spaced 10–20 meters apart and linked by well-defined trunk trails that facilitate worker movement across the colony's . These nests are primarily constructed in the at the bases of large emergent trees, often between buttress roots, though some may be located in the bases of smaller trees, hollow trunks up to 2.5 meters high, or decaying logs. The central nest, which houses the queen, serves as the core of the trail system and is distinguished by the presence of brood, such as eggs, and occasional nuptial flights. Established colonies can encompass territories up to 0.8 hectares in the forest canopy, with a total worker population of approximately 7,000 individuals distributed unevenly among the nests, where minor nests support peripheral activities. Nest construction involves excavation by workers, particularly the larger majors with their powerful mandibles, creating simple chambers without the elaborate architectural features seen in species like leaf-cutting . Chambers are maintained at high levels by workers, likely through behavioral such as clustering and minimal ventilation, to support brood development in the humid tropical environment. Entrances to these nests are typically concealed under leaf litter or soil debris, providing against predators and reducing detectability. Unlike arboreal species, Dinomyrmex nests lack complex or leaf-based structures, relying instead on the natural shelter of features. Over time, colonies dynamically adjust their nest distribution: some peripheral nests may be abandoned due to or disturbance, while new ones are established to expand or consolidate territorial control, often guided by pheromone-marked trails. Defense of nests and trails is primarily handled by major workers, who act as sentinels at key points such as territorial and bridgeheads along routes, often maintaining posts for weeks or months. These majors vigorously, engaging in ritualized intraspecific combats like "front leg " at fixed sites, particularly at dawn and , to resolve disputes without high mortality. Against interspecific intruders or threats, majors deploy aggressive attacks, including with their large mandibles and spraying from their venom glands to repel or incapacitate adversaries. Nest entrances are guarded by clusters of majors, ensuring rapid response to potential breaches, which aligns with the colony's nocturnal activity patterns that limit daytime exposure.

Foraging and diet

Dinomyrmex gigas, the primary species in the , maintains a diet dominated by liquid sugars derived from honeydew produced by trophobiotic hemipterans, such as flatids (Bythopsyrna circulata) and coreids (Mictis spp.), which constitute the bulk of its foraging efforts. The remainder of the diet includes protein sources from scavenging small like and other arthropods, as well as droppings and carrion. This sugar-rich composition supports the colony's high energy demands while minimizing protein intake, reflecting adaptations to abundant carbohydrate resources in canopies. Foraging in D. gigas is predominantly nocturnal, with workers ascending trunks and low branches to access canopy resources, where 93% of activity occurs after to avoid diurnal predators and high temperatures. Trails are established along these arboreal paths, facilitating efficient movement, and chemical pheromones are employed for to rich food sources, such as productive hemipteran aggregations. Minor workers primarily scout and collect, carrying liquids in their social stomach () for transport back to the nest via trophallaxis, while major workers are recruited for heavier loads or defense during exploitation. Polydomous nests serve as distributed hubs, optimizing access to these foraging routes. Territorial disputes over prime honeydew-producing trees involve ritualized combats between major workers from neighboring colonies, characterized by non-lethal "" with front legs at fixed border points, which can persist over extended periods to establish stable boundaries. These encounters, averaging around 86 seconds per bout but recurring in sequences, help maintain exclusive access to resources without high mortality. Foraging efficiency is enhanced by polyethism, with minors handling scouting and initial collection, and majors aiding in transport and territorial enforcement. Seasonal variations influence , with increased hemipteran abundance during wet periods leading to heightened honeydew collection, supplemented by greater predation to meet protein needs when liquid sources peak.

Reproduction and life cycle

Colonies of Dinomyrmex are monogynous and claustral, with a single queen founding the nest independently. Nuptial flights occur with a circa-semiannual of approximately 188 days, with alates emerging from the nest at . The life cycle consists of , larval, pupal, and stages. Queens periodically produce alates for after colony establishment. Males are short-lived, serving solely for during nuptial flights, after which they die.

Social structure

Dinomyrmex colonies exhibit a bimorphic consisting of minor workers, which primarily engage in and activities as well as trophallaxis for , and major workers, which specialize in excavation, nest , and defense. Each is monogynous, featuring a single queen responsible for , while males are transient, present mainly during nuptial flights and alate dispersal phases. This caste differentiation supports efficient within the polydomous structure, where multiple interconnected nests facilitate the spread of social activities across territories. Division of labor in Dinomyrmex follows age polyethism, with young workers focusing on in-nest tasks such as brood care and , transitioning to and exterior duties as they age; major workers, regardless of age, predominantly specialize in territorial and sentry roles. Communication relies on pheromones for trail marking during recruitment and alarm signaling in response to threats, enabling coordinated responses without high levels of intra-colony aggression, as nestmates are recognized through cuticular hydrocarbons and antennation. Cooperative trophallaxis ensures equitable food sharing, particularly of liquid resources like honeydew, strengthening colony cohesion. Inter-colony interactions are characterized by strict territoriality, with polydomous nesting enhancing defensive capabilities by distributing majors across border "barrack" nests. Encounters between colonies often involve ritualized fights among majors, typically consisting of front-leg or that lasts around 86 seconds on average and results in no fatalities, instead establishing buffer zones to minimize ongoing conflict. Queen pheromones play a key role in colony dynamics by suppressing reproduction in workers, maintaining the single-queen system.

References

  1. https://doi.org/10.11646/zootaxa.4072.3.4
  2. https://iopscience.iop.org/article/10.1088/1755-1315/736/1/012044/pdf
  3. https://www.thewildmartin.com/dinomyrmex
  4. https://www.antwiki.org/wiki/Dinomyrmex_gigas
  5. https://www.antcat.org/catalog/507606
  6. https://www.antwiki.org/wiki/Dinomyrmex
  7. https://www.antcat.org/catalog/507605
  8. https://www.antwiki.org/wiki/Myrmogigas
  9. https://www.inaturalist.org/taxa/531645-Dinomyrmex-gigas-borneensis
  10. https://lkcnhm.nus.edu.sg/wp-content/uploads/sites/11/app/uploads/2017/04/44rbz247-251.pdf
  11. https://www.sciencedirect.com/topics/agricultural-and-biological-sciences/formicinae
  12. https://www.thewildmartin.com/ant-ecology/dinomyrmex
  13. https://www.ourbreathingplanet.com/giant-forest-ant/
  14. https://entomologysingapore.wordpress.com/2018/03/03/the-giant-forest-ant-jewel-of-southeast-asia/
  15. https://www.nparks.gov.sg/nature/species-list/hymenoptera-%28formicidae%29-ants
  16. https://www.researchgate.net/publication/351490680_Dinomyrmex_gigas_Latreille_1802_A_Potential_Icon_for_Taman_Negara_Johor_Endau_Rompin
  17. https://link.springer.com/content/pdf/10.1007/s101640170002.pdf
  18. https://iopscience.iop.org/article/10.1088/1755-1315/736/1/012044
  19. https://www.antbase.net/english/ants-of-southeast-asia/ecology/camponotusgigas.html
  20. https://photos.chienclee.com/image?_bqG=36&_bqH=eJxL8o13qjQOjjIOc4sq9S1JiixMCfOMzKvK8ku3sjS2MjQwAGEg6RnvEuxs65OZk5lfUJyZkqgGFoh39HOxLQGyQ4Ndg.I9XWxDQYpDPC0TS5JDC0sjfNXiHZ1DbItTE4uSMwA6WyIL
  21. https://www.researchgate.net/publication/378957837_Vegetation_structure_and_relative_humidity_drive_the_diurnal_foraging_activity_of_Malaysian_giant_ant_workers_in_urban_fragmented_forests
  22. https://www.academia.edu/82051916/Selectively_Logging_Old_Growth_Rain_Forest_Twice_Changes_Canopy_Ant_Species_Composition_While_Conversion_to_Oil_Palm_Changes_Composition_and_Reduces_Species_Richness_and_Diversity
  23. https://www.researchgate.net/publication/248023599_Contributions_to_the_life_history_of_the_Malaysian_giant_ant_Camponotus_gigas_Hymenoptera_Formicidae
  24. http://www.antbase.net/pdf/pfeiffer-2001.pdf
  25. http://www.antbase.net/pdf/camponotus-gigas.pdf
  26. https://onlinelibrary.wiley.com/doi/10.1111/eea.13236
  27. http://www.asian-myrmecology.org/publications/pfeiffer-linsenmair-am-01-10.pdf
  28. https://www.tandfonline.com/doi/abs/10.1080/00222939200770471
  29. https://www.researchgate.net/publication/232276444_Reproductive_synchronization_in_the_tropics_the_circa-semiannual_rhythm_in_the_nuptial_flight_of_the_giant_ant_Camponotus_gigas_Latreille_HymForm
  30. https://www.researchgate.net/publication/233600428_Foraging_in_the_giant_forest_ant_Camponotus_gigas_Smith_Hymenoptera_Formicidae_Evidence_for_temporal_and_spatial_specialization_in_foraging_activity
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