Snake
Snakes (suborder Serpentes) are limbless reptiles characterized by their elongated, cylindrical bodies covered in overlapping keratinous scales, which help prevent water loss and aid in locomotion.[1] They belong to the order Squamata within the class Reptilia and are classified as tetrapods, despite the absence of limbs, because they evolved from four-limbed ancestors.[1][2] Ectothermic vertebrates, snakes regulate their body temperature through behavioral adaptations like basking or seeking shade, and they lack external ear openings, movable eyelids, and limbs, instead relying on a highly flexible skeleton for movement via undulating or concertina locomotion.[1][3][2] With over 4,000 extant species, snakes exhibit remarkable diversity in size, from the thread snake (Tetracheilostoma carlae) at under 10 cm to the reticulated python (Malayopython reticulatus) exceeding 6 m in length.[4][5] They inhabit virtually every terrestrial and aquatic ecosystem on Earth except Antarctica, ranging from tropical rainforests and deserts to temperate grasslands and oceans, with adaptations enabling terrestrial, fossorial, arboreal, or fully aquatic lifestyles.[4][6][1] As carnivorous predators, snakes play a crucial ecological role in controlling populations of rodents, birds, amphibians, and other reptiles, using methods such as constriction to suffocate prey or venom delivered via specialized fangs in about 600 species.[3][7] Their sensory systems emphasize chemoreception, with forked tongues transferring scents to the Jacobson's organ for detailed environmental mapping, supplemented by vibration detection and, in pit vipers, infrared-sensing loreal pits for locating warm-blooded prey.[3][2] Reproduction in snakes involves internal fertilization, with most species oviparous—laying leathery, amniotic eggs that develop on land—though approximately half in regions like North America are viviparous, giving birth to live young.[1][2][7] Snakes periodically shed their entire skin, including a transparent spectacle over the eyes in place of eyelids, to accommodate growth and remove parasites, with frequency varying by age and species.[1][2] While many snakes are harmless to humans and essential for ecosystem balance, venomous species pose risks through bites, though fatalities are rare with proper medical intervention.[3][6] Conservation challenges include habitat loss and persecution, affecting nearly two-thirds of species globally.[8]Naming and Classification
Etymology
The English word "snake" originates from Old English snaca, denoting a creeping or crawling creature, which traces back to Proto-Germanic *snakô. This term ultimately derives from the Proto-Indo-European root *snegʷʰ-, meaning "to crawl" or "creeping thing," emphasizing the reptile's sinuous movement.[9] Cognates in other Indo-European languages include Sanskrit sarpa, referring to a snake or reptile that creeps along the ground, highlighting a shared linguistic focus on locomotion across ancient tongues.[9] In classical antiquity, Greek employed ophis for "snake" or "serpent," a word linked to Proto-Indo-European *h₁ógʷʰis, possibly evoking the creature's alert, watchful nature through associations with sight, though primarily descriptive of the animal itself.[10] Similarly, Latin used serpens, meaning "snake" or "creeping thing," derived from the verb serpō ("to creep" or "to slither"), directly rooted in Proto-Indo-European *serp-, which conveys the gliding, winding motion characteristic of serpents.[11] Cultural naming in non-Indo-European languages often relies on onomatopoeic elements or physical descriptions. The Chinese term shé (蛇), meaning "snake," is a phono-semantic compound featuring the "insect" or "worm" radical (chóng, 虫) paired with a phonetic component (tā, 它), descriptively likening the snake's slender, legless form to a worm or elongated insect.[12] In Nahuatl, the language of the Aztecs, coatl signifies "snake" or "serpent," potentially drawing from the creature's bifurcated tongue or dual symbolism in Mesoamerican lore, serving as a descriptive term for its serpentine duality.[13]Taxonomy
Snakes are classified within the kingdom Animalia, phylum Chordata, class Reptilia, order Squamata, and suborder Serpentes.[14] This placement positions them as a distinct subgroup of squamates, which encompass lizards, snakes, and amphisbaenians, totaling over 12,500 species as of 2025.[15] The suborder Serpentes is defined by key morphological traits, including an elongated, limbless body; overlapping keratinous scales covering the skin; and an ectothermic metabolism reliant on external heat sources for thermoregulation. These features facilitate their specialized locomotion and predatory lifestyles, distinguishing them from other squamates while adapting them to diverse terrestrial, arboreal, and aquatic environments.[14] Phylogenetically, snakes form a monophyletic clade nested within Squamata, specifically as part of the Toxicofera group, where they are sister to Anguimorpha, with this pair sister to Iguania.[16] Early morphological studies debated snake monophyly, suggesting possible polyphyletic origins from burrowing lizards, but comprehensive molecular analyses using thousands of genetic loci across hundreds of taxa have robustly confirmed their unity and derivation from lizard ancestors. Genomic datasets further support this positioning, highlighting snakes' evolutionary singularity within squamates through extreme body elongation and dietary specialization. Unlike legless lizards, which represent convergent evolution across multiple squamate lineages, snakes exhibit unique cranial kinesis and scale microstructures.[16]Families
Snakes are classified into approximately 25 extant families, encompassing 4,203 species worldwide (as of September 2025).[15] These families are broadly grouped into two infraorders: Scolecophidia, which includes the blind snakes and comprises about 500 species across five families characterized by fossorial lifestyles, reduced eyes, and specialized burrowing adaptations; and Alethinophidia, the true snakes, which account for the remaining diversity with a wide array of ecologies from aquatic to arboreal.[17] The classification reflects phylogenetic relationships based on molecular and morphological data, emphasizing monophyletic groups.[17] The Scolecophidia, often called worm snakes or blind snakes, are primarily subterranean and exhibit cylindrical bodies, small mouths, and vestigial limbs in some cases. Representative families include Anomalepididae (~18 species), small New World burrowers with rigid skulls for soil penetration, exemplified by Liotyphlops beui; Gerrhopilidae (~18 species), African and Asian fossorial snakes with unique cranial features, such as Gerrhopilus mirus; Leptotyphlopidae (~120 species), thread-like snakes with translucent scales, like Leptotyphlops humilis; Typhlopidae (~300 species), the most diverse blind snake group with cylindrical forms and scale-covered eyes, including Typhlops vermicularis; and Xenotyphlopidae (1 species), a Madagascar endemic with primitive traits, Xenotyphlops grandidieri.[17] These families collectively represent less than 15% of snake diversity but highlight early divergences in snake evolution.[17] Within Alethinophidia, the family Colubridae stands out as the largest, comprising over 50% of all snake species (approximately 2,000+ species), mostly non-venomous or mildly venomous with rear fangs, and exhibiting vast morphological and ecological variation from racers to tree snakes.[15][17] Distinguishing traits include Duvernoy's glands in some for mild envenomation and diverse scale patterns; representative species are the corn snake (Pantherophis guttatus), a common North American constrictor, and the boomslang (Dispholidus typus), an arboreal African rear-fanged species. Other notable Alethinophidian families include Boidae (~60 species), robust New World constrictors without venom that subdue prey by constriction, such as the boa constrictor (Boa constrictor); and Pythonidae (~40 species), Old World counterparts with similar constricting habits and oviparous reproduction, exemplified by the reticulated python (Python reticulatus), one of the longest snakes at up to 6 meters.[17] Venomous families dominate in ecological impact, with Viperidae (~340 species) featuring hinged fangs for efficient venom delivery and often heat-sensing pits in pit vipers; key examples are the western diamondback rattlesnake (Crotalus atrox) from the subfamily Crotalinae and the puff adder (Bitis arietans) from Viperinae.[17] Elapidae (~380 species) possess fixed front fangs and potent neurotoxic venom, including terrestrial forms like the king cobra (Ophiophagus hannah) and aquatic sea kraits (Laticauda spp.).[17] Additional families contribute to niche adaptations, such as Acrochordidae (3 species), fully aquatic file snakes with loose, wrinkled skin for gill-like breathing, like Acrochordus javanicus; Uropeltidae (~55 species), short-tailed shieldtail snakes from South Asia specialized for burrowing, represented by Uropeltis phipsonii; and Homalopsidae (~50 species), mangrove-dwelling mud snakes with keeled scales, such as Homalopsis buccata. Lesser-known groups like Aniliidae (2 species), primitive pipe snakes (Anilius scytale), and Tropidophiidae (~34 species), dwarf boas (Tropidophis melanurus), underscore the infraorder's basal diversity.[17]| Family | Approx. Species | Distinguishing Traits | Representative Species |
|---|---|---|---|
| Anomalepididae | 18 | Small, rigid-skulled burrowers | Liotyphlops beui |
| Gerrhopilidae | 18 | Unique skull, fossorial | Gerrhopilus mirus |
| Leptotyphlopidae | 120 | Thread-like, translucent | Leptotyphlops humilis |
| Typhlopidae | 300 | Cylindrical, scale-covered eyes | Typhlops vermicularis |
| Xenotyphlopidae | 1 | Primitive Madagascar form | Xenotyphlops grandidieri |
| Acrochordidae | 3 | Aquatic, wrinkled skin | Acrochordus javanicus |
| Aniliidae | 2 | Pipe-like, burrowing | Anilius scytale |
| Anomochilidae | 3 | Dwarf pipe snakes | Anomochilus leonardi |
| Boidae | 60 | Robust constrictors | Boa constrictor |
| Bolyeriidae | 2 | Round island boas | Bolyeria multocarinata |
| Calabariidae | 1 | Burrowing constrictor | Calabaria reinhardtii |
| Colubridae | 2,000+ | Diverse, mostly non-venomous | Pantherophis guttatus |
| Cylindrophiidae | 14 | Asian pipe snakes | Cylindrophis rufus |
| Elapidae | 380 | Fixed fangs, neurotoxic | Naja naja |
| Homalopsidae | 50 | Aquatic mud snakes | Homalopsis buccata |
| Lamprophiidae | 315 | African, often rear-fanged | Lamprophis fuliginosus |
| Loxocemidae | 1 | Mexican burrowing python | Loxocemus bicolor |
| Pareatidae | 33 | Slug-eaters, arboreal | Pareas carinatus |
| Pythonidae | 40 | Oviparous constrictors | Python reticulatus |
| Tropidophiidae | 34 | Dwarf boas | Tropidophis melanurus |
| Uropeltidae | 55 | Shield-tailed burrowers | Uropeltis phipsonii |
| Viperidae | 340 | Hinged fangs, venomous | Crotalus atrox |
| Xenodermatidae | 9 | Odd-scaled, terrestrial | Xenodermus javanicus |
| Xenophidiidae | 2 | Rare odd-scaled | Xenophidion schaeferi |
| Xenopeltidae | 2 | Iridescent sunbeam snakes | Xenopeltis unicolor |