Nymphalidae
The Nymphalidae, commonly known as brush-footed or four-footed butterflies, represent the largest family in the superfamily Papilionoidea within the order Lepidoptera, comprising approximately 7,200 species found on all continents except Antarctica.[1] These medium- to large-sized butterflies are characterized by their reduced forelegs, which are modified into non-functional, brush-like structures and held against the body, allowing adults to walk primarily on their four hind and middle legs; this feature, along with a unique five-branched radial vein in the forewing, readily distinguishes them from other butterfly families.[2] Their wings often display vibrant, patterned uppersides in shades of orange, black, and white, contrasted by cryptic, camouflaged undersides that aid in predator avoidance.[3] With over 630 genera organized into 13 recognized subfamilies—such as the Heliconiinae (longwings), Satyrinae (wood nymphs and satyrs), Nymphalinae (true brush-footed), Danainae (milkweed butterflies), and Charaxinae (leafwings and emperors)—the Nymphalidae exhibit remarkable morphological and ecological diversity.[3][1] Larvae are typically cylindrical and spinose, feeding on a wide range of host plants including nettles, violets, and milkweeds, while many adults sequester toxic chemicals from these plants, rendering them unpalatable or poisonous to predators and facilitating Müllerian mimicry complexes among species.[3] The family's global distribution spans from Arctic-alpine habitats to equatorial rainforests, with peak diversity in the Neotropics.[4] Notable species within the Nymphalidae include the monarch butterfly (Danaus plexippus) of the subfamily Danainae, renowned for its long-distance migrations spanning thousands of kilometers between breeding and overwintering sites; the blue morpho (Morpho peleides) of the Morphinae, celebrated for its iridescent blue wings; and various fritillaries (Argynnis spp.) in the Heliconiinae, which contribute to biodiversity hotspots through specialized pollination and mimicry. These butterflies play key ecological roles as pollinators and indicators of environmental health, though many face threats from habitat loss, climate change, and pesticides, prompting conservation efforts for migratory and endemic taxa.[3]Taxonomy
Nomenclature
The family Nymphalidae was established by Constantine Samuel Rafinesque in 1815, as part of his broader contributions to natural history nomenclature.[5][6] The name derives from New Latin, combining the genus Nymphalis (the type genus) with the suffix -idae, denoting a family in zoological taxonomy.[7] The genus Nymphalis itself stems from Latin nympha, referring to nymphs—mythical nature spirits in Greek and Roman lore—likely alluding to the butterflies' graceful, woodland associations.[8] Nymphalis Linnaeus, 1758, serves as the type genus for Nymphalidae, encompassing species like the mourning cloak (Nymphalis antiopa), which exemplifies the family's characteristic foreleg reduction and colorful wing patterns.[9] Early classifications treated Nymphalidae loosely, often as a subfamily under broader Papilionoidea groupings, with unstable subfamilial divisions due to morphological similarities across genera.[10] By the late 19th century, the family encompassed diverse tribes, but inconsistencies persisted until cladistic approaches refined boundaries. A pivotal advancement occurred in 1991, when D.J. Harvey provided a comprehensive higher classification, reorganizing subfamilies based on larval and adult morphology, which stabilized the nomenclature for subsequent phylogenetic studies.[11] This framework recognized 14 subfamilies, influencing modern taxonomy; for instance, it separated Heliconiinae and Satyrinae as distinct from Nymphalinae.[12] Subsequent molecular phylogenies, such as those by Wahlberg et al. (2004), have further validated and adjusted Harvey's scheme, incorporating DNA sequence data to resolve polyphyletic groups without altering the core family name.[12] Common names for Nymphalidae include "brush-footed butterflies," reflecting the brush-like, reduced forelegs in adults, and "four-footed butterflies," emphasizing the functional hind and middle legs.[13] The family currently comprises approximately 7,200 described species in about 630 genera, with ongoing discoveries in tropical regions refining nomenclatural details.[1] No major synonyms exist for the family rank, though historical groupings like Satyridae have been subsumed into Nymphalidae.[10]Phylogeny
The family Nymphalidae, comprising approximately 7,200 species of brush-footed butterflies, exhibits a complex evolutionary history shaped by major geological events. Phylogenetic analyses, combining morphological and molecular data, indicate that Nymphalidae originated in the Late Cretaceous around 90 million years ago (Ma), with significant diversification occurring after the Cretaceous-Paleogene (K-Pg) boundary extinction event approximately 66 Ma. This near-demise at the boundary reduced ancestral diversity, but surviving lineages rapidly speciated in the Paleogene, particularly in tropical regions of the Neotropics and Oriental realms.[14] Early morphological cladistic studies, such as Wahlberg et al. (2004), resolved Nymphalidae into six primary lineages based on 234 characters from all life stages across 95 species: Libytheinae as the basalmost group, followed by a danaoid clade (Danainae + Ithomiinae), a heliconiine-nymphaline clade (Heliconiinae + Nymphalinae), Limenitidinae, Biblidinae, and a diverse satyroid lineage encompassing Apaturinae, Charaxinae, Brassolinae, Morphinae, Calinaginae, and Satyrinae. This phylogeny, supported by 16,632 equally parsimonious trees with a consistency index of 0.21, highlighted conflicts between adult and immature stage characters but affirmed the monophyly of most subfamilies. Subsequent molecular analyses refined this framework, elevating the satyroid components and others to 13 recognized subfamilies.[12] Comprehensive phylogenomic reconstructions using hundreds of nuclear loci, as in Espeland et al. (2018) and Kawahara et al. (2023), corroborate Libytheinae (snout butterflies) as the sister group to all other nymphalids, with Danainae (milkweed butterflies) diverging next. The remaining subfamilies form a polytomy-like radiation post-K-Pg, including: Satyrinae (browns and satyrs, the most species-rich with over 3,000 species), Heliconiinae (longwings), Nymphalinae (true brushfoots), Limenitidinae (admirals), Biblidinae, Apaturinae (emperors), Cyrestinae, Pseudergolinae, Brassolinae (owl butterflies), Charaxinae (leafwings), Calinaginae, and Morphinae (knights). These studies, sampling over 2,000 species and 391 genes, show strong nodal support (ultrafast bootstrap >95% for most subfamilies) and reveal elevated speciation rates in the Neotropics around 60-34 Ma, driven by host plant shifts and biogeographic dispersals; Kawahara et al. (2023) further confirms this structure with a global phylogeny emphasizing ancestral host associations. Mitogenomic data occasionally place Danainae as basal but align overall with nuclear topologies when combined.[14][15][16] This hierarchical structure underscores Nymphalidae's adaptive radiation, with basal lineages like Libytheinae retaining plesiomorphic traits such as elongated palpi, while derived groups exhibit innovations in wing patterns and behaviors linked to mimicry and pollination. Ongoing taxonomic revisions, informed by these phylogenies, continue to address paraphyly in smaller subfamilies like Cyrestinae.[15]Classification
The family Nymphalidae, commonly known as brush-footed butterflies, comprises approximately 7,200 species distributed across about 630 genera worldwide.[1] This classification is based on a phylogenetic framework derived from molecular data, which has stabilized the familial structure since the late 20th century.[17] Nymphalidae is divided into 13 subfamilies, reflecting evolutionary relationships established through analyses of nuclear and mitochondrial genes. These subfamilies vary in size and distribution, with some containing cosmopolitan groups and others restricted to specific regions such as the tropics. The subfamilies are: Libytheinae, Danainae, Brassolinae, Morphinae, Satyrinae, Calinaginae, Heliconiinae, Limenitidinae, Nymphalinae, Biblidinae, Apaturinae, Cyrestinae, Pseudergolinae, and Charaxinae.[1] Within these subfamilies, further subdivision occurs into tribes and subtribes, totaling around 50 tribes overall. For instance, Satyrinae, one of the largest subfamilies with over 2,500 species, includes tribes such as Morphini, Brassolini, and Satyrini, the latter encompassing 16 subtribes like Euptychiina and Pronophilina. Similarly, Nymphalinae features 11 tribes, including Nymphalini (which houses genera like Nymphalis and Vanessa) and Melitaeini (fritillaries). Heliconiinae, known for mimicry complexes, contains tribes like Heliconiini and Argynnini. This hierarchical structure supports biodiversity studies and conservation efforts by delineating monophyletic groups.[17] Recent revisions, such as the recognition of Calinaginae as a distinct subfamily for the Asian genus Calinaga, underscore ongoing refinements driven by genomic data, though the core 13-subfamily system remains widely accepted as of 2023.[17][18][1]Morphology and life stages
Adult morphology
Adult Nymphalidae, commonly known as brush-footed butterflies, exhibit a distinctive body plan characterized by reduced forelegs and elaborate wing patterns, with adults ranging in forewing length from 10 to 50 mm, though some tropical genera like Morpho and Caligo reach up to 75 mm.[3] The head features clubbed antennae that are rigid and tipped with small knobs, often displaying three longitudinal ridges (carinae) on the ventral surface of the flagellum, a synapomorphy unique to the family among Lepidoptera.[3][19] The proboscis is typically long and coiled, adapted for nectar feeding, while the eyes are large and multifaceted for enhanced vision.[20] The thorax is robust, supporting the family's hallmark reduced forelegs, which are vestigial and nonfunctional for locomotion in both sexes; males possess only two tarsal segments covered in dense sensory hairs forming a brush-like structure, whereas females have four segments, also lacking claws.[2][20] These forelegs are held against the body and serve chemosensory roles, aiding in host plant selection and environmental navigation.[21] The mid- and hindlegs are fully developed with five tarsal segments each, often bearing spines on the tibiae and tarsi for gripping surfaces during perching or feeding. Wing venation is diagnostic, with the forewing radius typically five-branched and the medial vein branching into three veins (M1–M3); hindwings feature an open cell and include humeral and precostal veins.[2][20] Wings are generally broad and rounded, except in elongate forms like Heliconiinae, and covered in scales that produce vibrant colors and patterns, including orange, black, and white in many species, or subdued browns and tans in Satyrinae for camouflage.[3][20] Undersides often mimic dead leaves or display eyespots for predator deflection, with some taxa like glasswings showing transparent, sparsely scaled areas. The abdomen is elongated and segmented, scaled dorsally and ventrally, housing reproductive and digestive organs, with sexual dimorphism evident in size and coloration in certain subfamilies.[3][20]Immature stages
The immature stages of Nymphalidae encompass the egg, typically five (but varying from 4 to 7) larval instars, and pupa, forming a complete metamorphosis adapted to specific host plants and environmental pressures across the family's diverse subfamilies. These stages exhibit significant morphological variation, which serves as key taxonomic characters and reflects ecological adaptations such as crypsis or warning coloration.[22][23][24] Eggs are predominantly laid singly or in small clusters on the underside of host plant leaves or stems, ensuring protection from desiccation and predators. Morphologically, they range from hemispherical to barrel-shaped, often with a smooth to ribbed exochorion featuring longitudinal keels, aeropyles for respiration, and a micropylar plate at the apex; in subfamilies like Biblidinae, shapes include acicular, globose, or carinate forms. Initially translucent or pale yellow, eggs darken and may develop a hairy coating post-oviposition. Hatching occurs after 3–7 days, influenced by temperature and humidity, with first-instar larvae consuming the chorion before transitioning to foliar feeding.[22][25][26] Larvae are cylindrical and onisciform in early instars, progressing through typically five molts over 10–60 days or more, depending on species, temperature, and conditions, with body length increasing from ~2 mm to 30–50 mm in most species, up to 160 mm in larger genera like Caligo. The head capsule is prognathous and sclerotized, often bearing ocelli and sometimes branched setae; thoracic and abdominal segments feature scoli or spines that elongate and branch in later instars, providing defense or sensory functions— for instance, in Heliconiinae, these are prominent and toxic, while Satyrinae larvae tend toward smoother, grass-like forms for mimicry. Coloration varies from green or brown for crypsis to bold yellow-black patterns signaling unpalatability, as in Danainae. Early instars (I–II) typically construct frass chains to deflect parasitoids, and feeding occurs nocturnally in some taxa to avoid diurnal predators. The prepupal phase involves fasting, shrinkage, and silk production for attachment.[22][27][23][28][29] Pupae, or chrysalides, form after the larva secures itself via a cremaster to a silk pad on leaves, twigs, or stems, often reinforced by a silken girdle around the thorax; duration spans 4–14 days, shorter in warmer conditions. They are typically obtect and angular, with a keel along the dorsum and wing cases delineated by ridges, colored green, brown, or metallic for substrate matching—hanging downward in most subfamilies like Nymphalinae, but upward in some Satyrinae. Transparency in the wing pads allows visualization of developing adult structures, and the stage is vulnerable to predation, prompting behaviors like twitching for deterrence. Emergence involves splitting the pupal cuticle along the ecdysial line, with adults expanding wings post-eclosion.[22][30]Distribution and habitat
Global distribution
The Nymphalidae, commonly known as brush-footed butterflies, exhibit a cosmopolitan distribution, with approximately 7,200 species occurring on all continents except Antarctica and across a wide array of habitats ranging from tropical rainforests to temperate grasslands.[31] This family is particularly diverse in tropical regions, where species richness peaks due to historical factors such as niche conservatism and extended time for speciation following the Eocene climatic optimum.[32] At least 83% of nymphalid species are concentrated in the Neotropics, Afrotropics, and Indomalaya (including Southeast Asia), with the Neotropics alone harboring about 37% of extant species and serving as a major center of diversity.[32] In contrast, the Nearctic and Palearctic realms together support only around 15% of species, reflecting lower diversification rates and higher extinction influenced by post-Eocene cooling in higher latitudes.[32] Biogeographic analyses indicate an origin in Laurasia during the Late Cretaceous, with early diversification in Southeast Asia acting as a key dispersal hub to other regions.[32] While nymphalids are absent from polar extremes, they thrive in varied ecosystems globally, from montane cloud forests in the Andes— a secondary hotspot for diversification—to arid savannas in Africa and urbanized temperate zones in Europe and North America. This broad adaptability underscores their evolutionary success, though tropical concentrations highlight vulnerability to habitat loss in biodiversity hotspots.[32]Habitat preferences
The Nymphalidae family, comprising approximately 7,200 species of brush-footed butterflies, displays remarkable adaptability in habitat preferences, occupying a wide array of terrestrial ecosystems across all continents except Antarctica and some remote islands. They are distributed from arctic tundras and high-elevation alpine meadows to equatorial rainforests, demonstrating tolerance to extreme climatic variations including cold temperatures and arid conditions.[4][23] This family's habitat utilization is heavily influenced by the distribution of larval host plants, adult nectar sources, and suitable microclimates for oviposition and roosting. Common environments include temperate and tropical forests, where many species thrive in shaded understories or canopy layers; grasslands and prairies, particularly for grass-feeding subfamilies; deserts and semi-arid scrublands; and open woodlands or forest edges. Urban and suburban settings, such as parks and gardens, also support populations due to introduced or native flowering plants providing nectar.[3][33][23] Subfamily-specific preferences further diversify their ecological niches. For example, Satyrinae and Morphinae often favor monocot-dominated habitats like grassy meadows and savannas, reflecting their dependence on Poaceae and Cyperaceae as host plants. In contrast, Heliconiinae and Ithomiinae are predominantly tropical, preferring humid forest interiors with access to toxic dicot host plants such as Passifloraceae, which provide chemical defenses against predators. Nymphalinae species, including fritillaries and admirals, commonly inhabit woodland clearings, riverine areas, and montane zones where willow, poplar, or violet hosts are abundant. These preferences underscore the family's polyphagous tendencies and flight capabilities, enabling colonization of fragmented or disturbed landscapes.[3][23][34]Biology and ecology
Life cycle
The life cycle of Nymphalidae, commonly known as brush-footed butterflies, follows the complete metamorphosis typical of Lepidoptera, consisting of four distinct stages: egg, larva, pupa, and adult. This holometabolous development allows for dramatic morphological changes, with each stage adapted to specific ecological roles, such as feeding and dispersal. The total duration varies widely, typically ranging from 20 to 35 days under optimal conditions, but can extend due to environmental factors like temperature and season.[22][4] Eggs are laid by females singly or in small clusters on the leaves or stems of host plants, often selected for their suitability to the emerging larvae. Initially translucent or white, the eggs harden post-oviposition and may develop a hairy texture for camouflage or protection. Oviposition sites are precise, with females using chemoreceptors to identify appropriate hosts; for instance, species in the subfamily Danainae, like Danaus chrysippus, preferentially lay on milkweed species. Hatching occurs within a few days to a week, depending on temperature, releasing first-instar larvae.[22][4] The larval stage, or caterpillar phase, is the primary feeding period and lasts the longest, typically spanning several weeks across five instars. Larvae are highly specialized herbivores, consuming the epidermis of host plant leaves; early instars may feed on eggshells before transitioning to foliage. Morphological adaptations include branched spines, banded patterns, and darker coloration in later instars for defense against predators, often rendering them distasteful or camouflaged. In subfamilies like Satyrinae, larvae exhibit seasonal polyphenism, with forms adapted to wet or dry conditions. Prepupation involves a brief 8-10 hour period where the larva ceases feeding and prepares to pupate.[22][4] Pupation occurs when the mature larva attaches to a substrate such as a twig or leaf using silk, forming a chrysalis that provides protection during transformation. The pupal stage is relatively short, lasting 2-3 days in tropical species but longer in temperate ones, where diapause may occur to overwinter. The chrysalis is often angular and camouflaged, with subtle wing patterns visible through the cuticle as adult structures develop. Eclosion follows, where the adult butterfly emerges, expands its wings, and hardens its exoskeleton over several hours.[22][4] Adults, the reproductive and dispersive stage, have reduced forelegs characteristic of the family, earning them the name brush-footed butterflies. Lifespan varies from days to weeks, during which they feed on nectar, sap, fruit, or dung via a proboscis, fueling mating and egg production. Courtship involves males pursuing females in flight or perching displays, with mating often occurring soon after emergence. In many species, multiple generations (broods) are produced annually, with cycle length shortening in warmer seasons; for example, in Apaturinae like Rohana paristis, summer cycles are prolonged due to high temperatures. Temperate Nymphalidae may overwinter as diapausing larvae or pupae to synchronize with host plant availability.[22][4]Behavior and interactions
Nymphalidae butterflies exhibit diverse behavioral patterns adapted to their ecological niches, including diurnal activity, territorial defense, and varying resting postures. Adults are primarily active during daylight hours, with many species engaging in patrolling or perching behaviors to locate mates and resources. For instance, males of several species, such as those in the genus Apatura, employ hill-topping strategies, congregating at elevated sites to intercept passing females during courtship. Resting behavior often involves holding the wings flat over the body for camouflage, particularly in woodland species, while others display wings to reveal eyespots as a startle defense against predators. Sedentary montane species may hibernate as eggs or larvae, whereas nomadic forms undertake seasonal movements triggered by resource availability or climate shifts.[33] Mating interactions in Nymphalidae are characterized by visual cues, pheromones, and agonistic displays, with courtship typically initiated by male attraction to moving objects potentially signaling receptive females. Courtship sequences are often brief and stereotyped, involving approach flights, wing displays, and copulation attempts, as observed in species like Euphydryas aurinia where clasping and direct mounting predominate. Some genera produce mating plugs, known as sphragides, to guard against female remating, a trait prevalent in Heliconiinae and Satyrinae to ensure paternity. Mate choice can be influenced by learning, with females in Bicyclus anynana showing biased preferences based on prior exposures, potentially driving sexual selection. Territorial contests among males may escalate to chasing or grappling, blurring lines between agonistic and courtship behaviors in lek-like assemblies.[35][36][37][38][39] Interactions with predators form a cornerstone of Nymphalid behavior, mediated through chemical defenses, mimicry, and morphological adaptations. Many species, particularly in subfamilies Danainae and Heliconiinae, sequester toxins from host plants, rendering adults unpalatable and enabling Müllerian mimicry complexes where co-mimics share warning patterns to reinforce predator aversion learning. Batesian mimics, such as some Vanessa species, exploit these models without toxicity, with efficacy depending on relative abundances and predator familiarity. Eyespots on wings serve dual roles: deflection of attacks to non-vital areas or intimidation via resemblance to vertebrate eyes, reducing predation risk in genera like Satyrinae. Migration behaviors, exemplified by Danaus plexippus traveling up to 4,000 km using a time-compensated sun compass, enhance survival by escaping local predators and exploiting seasonal resources, though mass aggregations like those of Vanessa cardui increase vulnerability to avian predation.[40][33][41][42]Host plants and diet
The larvae of Nymphalidae exhibit phytophagous feeding habits, relying on specific host plants that vary by subfamily and often reflect phylogenetic patterns of specialization. Across the family, approximately 100 families of angiosperms serve as hosts, with most species showing oligophagy or monophagy at the genus or species level.[23] Host plant selection is influenced by plant chemistry, such as toxins or secondary metabolites that larvae can tolerate or sequester for defense.[43] Subfamily-specific preferences are prominent. Satyrinae and Morphinae larvae primarily consume monocots; temperate species favor grasses (Poaceae) and sedges (Cyperaceae), while tropical ones utilize palms (Arecaceae) and bananas (Musaceae).[3][44] Heliconiinae specialize on dicots rich in cyanogenic glycosides, mainly passionflowers (Passifloraceae) and violets (Violaceae).[3] Danainae feed on latex-producing plants, including milkweeds (Apocynaceae) and figs (Moraceae), sequestering cardenolides for adult toxicity.[3] In Nymphalinae, diversity is higher: the mourning cloak (Nymphalis antiopa) uses willows/poplars (Salicaceae), elms (Ulmaceae), and roses (Rosaceae), while Melitaeini species target iridoid glycoside-containing families like Plantaginaceae, Orobanchaceae, Acanthaceae, and Asteraceae.[3][43] Morpho species (Morphinae) often feed on legumes (Fabaceae) or moonseeds (Menispermaceae).[3] Evolutionary analyses indicate host range expansions and shifts have driven diversification, with conservatism within clades but multiple independent transitions between plant orders.[45][46] Adult diet centers on carbohydrates for flight and reproduction, primarily from floral nectar in most species, but varies ecologically. Nectar feeding predominates in temperate and open-habitat nymphalids, providing quick energy via sucrose and fructose.[47] Tropical subfamilies like Charaxinae, Brassolinae, and certain Satyrinae are fruit-feeders, consuming fermenting or overripe fruit for richer nutrients including amino acids and lipids, which enhance longevity and fecundity.[48][49] Some species, including Morpho (Morphinae), feed on tree sap flows, while many engage in puddling on mud, dung, or carrion to ingest sodium and minerals critical for mating and egg production.[50][51] Heliconiinae uniquely mash and ingest pollen for proteins, supporting extended adult lifespans.[52] These behaviors underscore the family's adaptability, with adult feeding influencing dispersal, survival, and host plant interactions in offspring.[53]Diversity and notable species
Subfamily diversity
The family Nymphalidae encompasses 13 recognized subfamilies, comprising approximately 7,200 species across over 630 genera and 40 tribes.[1] This classification, stabilized through molecular phylogenetic analyses, reflects a diverse array of morphological, ecological, and behavioral adaptations, with subfamilies distributed globally but concentrated in tropical regions. Phylogenetic studies using mitogenomic data confirm Danainae as the basal subfamily, sister to all others, while Libytheinae occupies a variable position near the base; the remaining subfamilies form several major clades, including the diverse satyrine group and the heliconiine-nymphaline assemblage. Diversity varies markedly among subfamilies, from small, relictual groups to hyperdiverse ones dominating certain ecosystems, such as grasslands and forests.[1]| Subfamily | Approximate Number of Species | Number of Genera | Key Characteristics and Distribution |
|---|---|---|---|
| Libytheinae | 13 | 2 | Snout butterflies with elongated palpi resembling moths; cosmopolitan but sparse, with one species per major region; feed on Celtis (Ulmaceae).[54] |
| Danainae | 300 | 26 | Milkweed butterflies, including monarchs; toxic from host plants in Apocynaceae; tropical Asia, Africa, and Americas; known for long migrations.[55] |
| Calinaginae | 1 | 1 | Monotypic (Calinaga buddha); restricted to Southeast Asia; limited ecological data available.[1] |
| Pseudergolinae | 3 | 1 | Small African group; poorly known, with cryptic habits in forest understories.[1] |
| Cyrestinae | 4 | 1 | Neotropical, with transparent wings; associated with humid forests.[1] |
| Biblidinae | 340 | 38 | Tropical, mainly Neotropical; fast-flying with metallic markings; larvae feed on various dicots.[56] |
| Apaturinae | 86 | 21 | Emperors; Old World temperate to tropical; sap-feeding adults; requires global revision for phylogeny.[57] |
| Charaxinae | 402 | 17 | Leafwings and emperors; Neotropical and African tropics; canopy dwellers with robust bodies.[58] |
| Satyrinae | 2,848 | 110 | Largest subfamily; browns and satyrs, often with eyespots; worldwide, dominant in grasslands; monocot feeders.[59] |
| Morphinae | 160 | 20 | Morphos and owl butterflies; mainly Neotropical with some Oriental; large size, iridescent wings; associated with forests, larvae feed on palms and monocots.[1] |
| Nymphalinae | 473 | 50 | True brushfoots, including fritillaries and checkerspots; Holarctic to tropical; variable wing patterns for mimicry.[60] |
| Heliconiinae | 548 | 32 | Longwings and passion-vine butterflies; Neotropical, with Müllerian mimicry rings; pipevine feeders (Aristolochiaceae).[61] |
| Limenitidinae | 1,100 | 41 | Admirals and white admirals; pantropical, with some temperate; fruit and sap feeders; diverse in Old World.[62] |