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Eagle ray

Eagle rays are cartilaginous fishes primarily in the families Myliobatidae (eagle rays and bull rays) and Aetobatidae (pelagic eagle rays) within the order , distinguished by their rhomboidal, wing-like pectoral discs that form a diamond-shaped body, elevated heads with protruding snouts, ventral mouths equipped with plate-like crushing teeth, and long, slender tails often armed with one or more venomous spines. These active swimmers, adapted for pelagic and semi-pelagic lifestyles rather than strict bottom-dwelling, can attain disc widths of up to 3 meters (10 feet) and are known for their graceful, bird-like undulations through the water. Found in tropical and subtropical waters of , , and Pacific Oceans, eagle rays inhabit a range of marine environments including coastal lagoons, estuaries, coral reefs, sandy-muddy bottoms, and open shallows, typically at depths from the surface to 300 meters, though some species venture deeper. They often form schools or small groups for and , exhibiting behaviors such as breaching the surface in acrobatic leaps, possibly to dislodge parasites or communicate. Their consists primarily of benthic like bivalve mollusks, crustaceans, and , which they excavate from the using powerful jaw undulations and fin flaps to uncover prey. Reproduction in eagle rays is viviparous, with females giving live birth to 1–6 pups per after a period of 2–12 months, depending on the ; embryos develop via aplacental uterine nourishment, and pups are born well-formed and independent. The group encompasses approximately 25 across three genera—Aetobatus (Aetobatidae), Aetomylaeus, and Myliobatis (Myliobatidae)—including notable examples like the (Aetobatus narinari; Aetobatidae), recognized for its white-spotted dorsal pattern and global distribution, and the common eagle ray (Myliobatis aquila; Myliobatidae), a widespread coastal . Many eagle ray species face significant conservation challenges, with several assessed as Vulnerable, Endangered, or on the as of 2023–2025 due to intense targeted fisheries for meat, fins, and plates, bycatch in trawl and net fisheries, and habitat loss from coastal ; slow growth rates, late maturity (4–15 years), and low reproductive output exacerbate their vulnerability to . In 2024, a petition was submitted to list the whitespotted eagle ray under the U.S. Endangered Species Act. Protective measures, including fisheries regulations and marine protected areas, are increasingly implemented to support population recovery.

Taxonomy

Classification

Eagle rays belong to the family Myliobatidae within the order Myliobatiformes, a group of cartilaginous fishes characterized by their batoid body plan. The complete taxonomic hierarchy places them as follows: Kingdom Animalia, Phylum Chordata, Class Chondrichthyes, Subclass Elasmobranchii, Order Myliobatiformes, Family Myliobatidae. Traditionally, Myliobatidae was divided into subfamilies, including Aetobatinae encompassing spotted eagle rays (genus Aetobatus), Myliobatinae comprising true eagle rays (genera such as Myliobatis and Aetomylaeus), and Rhinopterinae containing cownose rays (genus Rhinoptera). However, recent phylogenetic studies have elevated Rhinopterinae to the separate family Rhinopteridae and the former subfamily Mobulinae (manta and devil rays) to Mobulidae. Additionally, a 2016 molecular and morphological analysis resurrected the family Aetobatidae for the pelagic eagle rays of genus Aetobatus. These revisions have narrowed Myliobatidae to approximately 20 species across two genera: Aetomylaeus and Myliobatis. Taxonomic distinction of Myliobatidae from related families like Dasyatidae (stingrays), Aetobatidae, and Rhinopteridae relies on key morphological traits, including a duckbill-like formed by a protruding subrostral lobe, diamond-shaped (rhomboidal) pectoral fins that are broader than long with pointed tips, and a long tail bearing a venomous serrated . These features contrast with the more rounded and shorter tail of dasyatids, the pectoral fins joining at eye level in aetobatids, and the shorter snout in rhinopterids. Eagle rays represent an evolutionary branch within the batoid rays, adapted for active swimming in open waters.

Species diversity

The family Myliobatidae currently includes approximately 20 across two genera, following taxonomic revisions that excluded previously included groups such as cownose rays (now Rhinopteridae), and devil rays (), and spotted eagle rays (Aetobatidae). Key genera are Aetomylaeus, with often featuring unique color patterns and shapes adapted to environments, and Myliobatis, which includes widespread coastal . Notable species highlight the family's ecological breadth, such as the zoned eagle ray (Aetomylaeus maculatus), characterized by its barred dorsal patterning in Southeast Asian waters, and the Japanese eagle ray (Myliobatis japonica), a temperate Indo-Pacific representative with a pronounced snout for bottom-feeding. Regional endemics further underscore this diversity, including the New Zealand eagle ray (Myliobatis tenuicaudatus), which inhabits cooler temperate waters around southern Australia and New Zealand, displaying adaptations like a slender tail for agile swimming in coastal habitats. The common eagle ray (Myliobatis aquila) is a widespread species in the Mediterranean and eastern Atlantic. Taxonomic updates since 2016, driven by genetic analyses, have clarified relationships within the family, particularly in the , emphasizing the role of molecular data in resolving historical misidentifications and enhancing efforts for these rays.

Physical characteristics

Body

Eagle rays exhibit a distinctive flattened adapted for pelagic lifestyles, characterized by a - or rhomboid-shaped formed by greatly expanded, wing-like pectoral fins that are broader than long. The head is elevated and protrudes anteriorly from the , featuring a short, rounded with a duckbill-like rostral projection or subrostral lobe that contributes to the overall streamlined profile. The mouth is positioned ventrally and equipped with symmetrical rows of plate-like teeth specialized for crushing hard-shelled prey. This , combined with the fused pectoral fins, creates a rigid yet flexible suited for efficient cruising in open water. The tail is long and whip-like, often exceeding the disc length and terminating in a filamentous tip, providing stability during movement. Positioned near the tail's base, just posterior to the pelvic fins, are one or more serrated, venomous spines that serve as a primary defensive . Propulsion is facilitated by the broad pectoral fins, which undulate in a wave-like motion; a is located posteriorly, typically over or behind the pelvic fins, while a small or absent caudal fin minimizes drag. Unlike in the related family (manta and devil rays), which possess cephalic fins, eagle rays typically have only the rostral lobe without fully developed cephalic appendages. Internally, eagle rays possess a cartilaginous typical of elasmobranchs, which offers lightweight support without the density of bone. They feature five pairs of gill slits for , along with two spiracles positioned dorsally behind the eyes to draw in oxygenated water, bypassing potential sediment intake during swimming. Additionally, electroreceptive are distributed across the head and , enabling detection of electrical fields for in the pelagic . These features, including the overall hydrodynamic form, distinguish eagle rays from more benthic ray species by facilitating sustained open-water locomotion rather than substrate contact.

Size and coloration

Eagle rays in the family Myliobatidae display considerable variation in adult size, with disc widths typically ranging from 1 to 2.5 meters across most species, though the (Aetobatus narinari) can reach up to 3 meters or more. Weights generally fall between 10 and 200 kilograms, depending on the species and individual; for example, the attains a maximum recorded weight of 230 kilograms. Pups are born live, measuring 30 to 50 centimeters in disc width at birth, and grow rapidly in their early years. Sexual dimorphism is pronounced in size, with females consistently larger than males, often reaching greater maximum sizes. Growth patterns reflect this, as females exhibit slower but extended growth rates, allowing them to achieve greater maximum sizes. In terms of coloration, eagle rays typically feature for , with the ventral surface uniformly white and the dorsal side darker to blend with ocean substrates. The dorsal coloration varies by genus: species in Aetobatus, such as the , have a black, dark gray, or brown background adorned with distinctive white spots, rings, or ocelli that aid in individual . In contrast, genera like Myliobatis, exemplified by the common eagle ray (Myliobatis aquila), show more subdued patterns, with a dusky , , or dark brown dorsal surface lacking prominent spots. Females may occasionally display more vivid markings than males, though this varies across populations.

Distribution and habitat

Geographic range

Eagle rays of the family Myliobatidae inhabit and subtropical waters across the world's oceans, ranging from coastal shallows to offshore pelagic zones, but they are absent from polar regions. These rays are found in , Pacific, and Oceans, as well as connected seas, primarily in tropical and warm temperate environments. Their latitudinal distribution generally spans 40°N to 40°S, though some species extend into temperate waters beyond these limits. In the Indo-Pacific region, which hosts the greatest diversity of eagle ray species, distributions include widespread occurrences such as that of the ocellated eagle ray (Aetobatus ocellatus), ranging from the and East African coasts to the and . In the Eastern Atlantic, the common eagle ray (Myliobatis aquila) occurs from the southwestern and western southward through the to , extending into the southwestern . The Western Atlantic features species like the eagle ray (Myliobatis freminvillei), distributed along coastal areas from in the United States to northern , encompassing the and parts of the . Temperate extensions are evident in species such as the New Zealand eagle ray (Myliobatis tenuicaudatus), found around and . Eagle rays exhibit seasonal migration patterns driven by water temperature changes, with individuals moving toward warmer equatorial waters during cooler months and occasionally northward into temperate zones in summer. Endemic hotspots for species diversity include the Coral Triangle in the and the region, where environmental conditions support a higher concentration of Myliobatidae taxa.

Ecological preferences

Eagle rays, belonging to the family Myliobatidae, exhibit a predominantly benthic-pelagic lifestyle, inhabiting a range of marine environments from warm, shallow coastal waters such as bays and estuaries to more open oceanic areas. They demonstrate tolerance to varying salinities, with species like the bullnose eagle ray (Myliobatis freminvillei) frequently occurring in brackish habitats, including river mouths and low-salinity estuaries. This adaptability allows them to exploit diverse coastal ecosystems across tropical and subtropical regions. Depth preferences vary by species but generally span from the surface to over 100 meters, with most activity occurring in shallower zones. For instance, the (Aetobatus narinari) is commonly found from the surface to approximately 60 meters, though it can dive to 80 meters or more. Other species, such as the common eagle ray (Myliobatis aquila), extend to depths of 200 meters, with occasional records up to 537 meters. Optimal temperatures range from 20 to 30°C, supporting their distribution in warm-temperate to tropical waters, while some species, like the common eagle ray, tolerate ranges as low as 15°C during migrations. Eagle rays preferentially forage over sandy or muddy substrates, which facilitate their bottom-feeding behaviors, and they maintain strong associations with structured habitats including coral reefs, seagrass beds, and systems that serve as critical nurseries for juveniles. These environments provide shelter and abundant prey resources. Additionally, eagle rays occasionally engage in symbiotic interactions at reef cleaning stations, where smaller remove ectoparasites from their bodies.

Behavior and ecology

Feeding and diet

Eagle rays primarily consume benthic , including mollusks such as bivalves (e.g., clams Macrocallista maculata and oysters Crassostrea virginica) and gastropods (e.g., milk conchs Strombus costatus), as well as crustaceans like crabs and shrimp, and polychaete worms. Occasional prey includes small , , , or , though these constitute a minor portion of the across species like the whitespotted eagle ray (Aetobatus narinari) and common eagle ray (Myliobatis aquila). Foraging occurs mainly on the seafloor, where eagle rays use their fused cephalic lobes—extensions of the pectoral fins—to manipulate water flow, uncover buried prey, and it toward the mouth via enhanced suction. These lobes create a tent-like enclosure over prey, increasing capture efficiency by constraining escape and facilitating oral intake, particularly for infaunal bivalves in sandy or muddy substrates. Once captured, hard-shelled prey is crushed by powerful, flattened dental plates arranged in up to six or seven rows, enabling durophagous feeding specialized for mollusks and crustaceans. As opportunistic bottom-feeders, eagle rays target shallow coastal waters (<10 m depth) with high prey densities, though some species exhibit benthopelagic shifts to mid-water columns for more prey. Daily intake in managed settings ranges from 1.3% to 3% of body weight, reflecting efficient processing of nutrient-dense, shelled prey to meet energetic demands. In coastal ecosystems, eagle rays serve as mid-level predators that regulate invertebrate populations, exerting top-down control on benthic communities by preferentially consuming abundant mollusks and preventing overpopulation of shellfish. Whitespotted eagle rays show limited predation on economically vital hard clams (Mercenaria spp.), minimizing conflicts with aquaculture.

Social structure and locomotion

Eagle rays, members of the family Myliobatidae, typically exhibit solitary foraging behavior but form dynamic social groupings that vary by species, context, and life stage. Studies on the (Aetobatus narinari) reveal that individuals often occur in pairs or small groups of 2–3 during coastal movements, with no evidence of kin-structured sociality based on genetic analyses of microsatellite markers from sampled aggregations. Larger schools, numbering up to several hundred, form during migrations or large-scale travel, potentially to reduce predation risk through diluted individual exposure in a fission-fusion social model. Locomotion in eagle rays relies on undulatory oscillations of their diamond-shaped pectoral fins, enabling efficient cruising through undulating waves that propel the body forward in a bird-like flight pattern. This motion supports steady travel along reef systems and coastal habitats, with individuals demonstrating high site fidelity to preferred foraging grounds while undertaking seasonal migrations that track warm ocean currents. For instance, whitespotted eagle rays along Florida's Gulf Coast exhibit repetitive annual patterns, moving southward from Sarasota in fall and returning in spring, whereas Atlantic Coast populations, such as those in the Indian River Lagoon, show stronger residency with less extensive movements. A notable behavior is breaching, where rays propel themselves entirely out of the water, often in series of leaps; this serves multiple functions, including parasite dislodgement, communication during social interactions, and evasive maneuvers against predators. Communication among eagle rays likely involves body language, such as tail whipping or positional displays during group formations, supplemented by electroreception via to detect conspecifics in low-visibility conditions. For predation avoidance, these rays rely on rapid acceleration bursts to flee threats, complemented by a venomous barbed on the whip-like tail, which can be deployed defensively against attackers like hammerhead sharks. This combination of speed and armament enhances survival in open-water environments where solitary individuals may face heightened vulnerability.

Reproduction

Mating behaviors

Mating in eagle rays is typically annual and occurs during warmer months, such as or summer in temperate regions, often triggered by increasing water temperatures that stimulate reproductive activity. This timing aligns with environmental cues that promote aggregation and , allowing for efficient pairing in coastal waters. The reproductive strategy is polygynous, with males mating with multiple females during the season to maximize genetic dissemination, while females may also engage with several males over short periods. Courtship displays are dynamic and involve intense pursuit by one or more males following a receptive female for extended periods, sometimes up to 30 minutes. Males employ nipping or behaviors on the female's pectoral fins or dorsum to grasp and maneuver her, often rolling to her ventral side in a somersault-like motion to achieve the venter-to-venter position required for copulation. Once positioned, the male performs abdominal thrusts to insert one of his claspers for transfer, with the entire event lasting 30-90 seconds. Females can reject advances by vigorously shaking or fleeing, potentially using body maneuvers to deter persistent suitors. Internal fertilization is facilitated by the male's paired claspers, which deliver sperm directly into the female's , supporting the ovoviviparous development of embryos. periods vary by species and environmental conditions, typically ranging from 8 to 12 months and influenced by water temperature. Eagle rays demonstrate site fidelity during , forming temporary aggregations at preferred locations such as bays or reefs that offer suitable conditions; for instance, whitespotted eagle rays (Aetobatus narinari) have been observed aggregating in areas like Sarasota Bay, Florida, potentially for reproductive purposes. Post- parental investment is minimal, with males providing no care and females exhibiting limited interaction after birth.

Life cycle stages

Reproduction varies across eagle ray species, but is generally viviparous with internal ; details below primarily for the (Aetobatus narinari) as a representative example. Eagle rays exhibit an ovoviviparous reproductive mode, in which embryos develop internally within eggs retained in the mother's and are nourished initially by yolk sacs before receiving additional nutrients from uterine secretions. Females typically produce litters of 1-4 pups, with family-wide ranges up to 10 depending on species and conditions. periods vary from 8 to 12 months, influenced by water temperature and location, with shorter durations observed in warmer regions. At birth, pups emerge tail-first, fully formed and independent, equipped with functional spines for defense; newborn disc widths typically range from 17-35 cm in wild individuals, though captive-born may measure up to ~50 cm. Post-birth, juvenile eagle rays experience rapid , particularly in their early years, reaching disc widths of about 1 m within 1-2 years through annual increments of 10-15 cm in shallow waters. Growth rates follow a von Bertalanffy model, with wild individuals showing coefficients of 0.28-0.30 per year, slower than in captivity (0.36-0.46). is attained at 4-6 years of age, with males at ~130 cm disc width and females at ~135 cm disc width. Overall lifespan in the wild is estimated at 15-25 years, though aquarium-housed rays can exceed 20 years. Newborn and young juveniles preferentially inhabit nursery areas in shallow, protected coastal environments, such as estuarine beds, beaches, and near reefs, where abundant prey supports rapid growth and structural complexity offers refuge. These habitats reduce exposure to large predators, yet juvenile mortality remains high, primarily due to predation by sharks, which target the vulnerable young rays before they develop sufficient size and mobility for evasion.

Conservation status

Major threats

Eagle rays face significant threats from fisheries, both targeted and incidental, across their range in the and Atlantic oceans. They are frequently caught in gillnets, trawls, and longlines, where they are retained for meat and fins or discarded as , leading to high mortality rates due to their slow growth and low reproductive rates. In regions like and the eastern Atlantic, artisanal and commercial fisheries exacerbate these pressures, with eagle rays often comprising a notable portion of non-target catches in shrimp trawls and demersal nets. Habitat degradation from coastal development poses another critical risk, as it destroys essential areas such as estuaries, mangroves, and shallow bays where juvenile rays aggregate. Urban expansion and in these coastal zones fragment habitats and increase vulnerability to other stressors. , particularly heavy metals like mercury and , bioaccumulates in eagle ray tissues through their benthic feeding habits, posing sublethal effects on health and reproduction; studies in the have detected elevated levels in whitespotted eagle ray muscle samples, indicating widespread contamination from runoff and industrial discharge. Climate change further compounds these issues by altering ocean conditions; warming waters disrupt prey distributions, forcing range shifts that expose eagle rays to new pressures, while acidification reduces populations—a key dietary component—affecting and growth. Additional localized threats include strikes in shallow coastal waters, where injuries have been documented in like the Pacific eagle ray, impairing mobility and increasing predation risk. Illegal in ray parts, such as spines for curios, occurs sporadically but contributes to localized declines. These threats have resulted in substantial population reductions for many eagle ray species; IUCN assessments indicate declines of 50-80% over the past three generations in parts of the Atlantic and Indo-Pacific, driven primarily by overexploitation and habitat loss.

Protection measures

Several species within the Myliobatidae family, which encompasses eagle rays, are assessed under the IUCN Red List as facing significant extinction risks due to overfishing and habitat degradation. Note that the former widespread "spotted eagle ray" was taxonomically split in 2017 into Aetobatus narinari (Atlantic whitespotted eagle ray) and Aetobatus ocellatus (Indo-Pacific spotted eagle ray), each assessed separately. For instance, the common eagle ray (Myliobatis aquila) is classified as Critically Endangered globally, reflecting severe population declines in the Mediterranean and eastern Atlantic. The spotted eagle ray (Aetobatus narinari) is classified as Endangered globally, though regional assessments indicate varying risks. The Indo-Pacific counterpart (Aetobatus ocellatus) is also Endangered globally. Other species, such as the purple eagle ray (Myliobatis hamlyni), are rated Near Threatened globally but Vulnerable in Australian waters, while some remain Data Deficient due to limited data on population trends. Legal protections for eagle rays have been bolstered internationally through the Convention on International Trade in Endangered Species of Wild Fauna and Flora (), which lists all species in the Myliobatidae family under Appendix II since to regulate trade and prevent . Nationally, measures include prohibitions on gillnet fishing in the U.S. Atlantic, where states like have banned the harvest and landing of spotted eagle rays to curb and impacts. Similar bans exist in parts of and the , targeting unsustainable fishing gear. Conservation actions emphasize habitat safeguards and sustainable practices, with marine protected areas (MPAs) playing a central role in reducing human-induced pressures. The in encompasses critical habitats for multiple eagle ray species, enforcing no-take zones that limit fishing activities and promote population recovery. In the Galápagos Marine Reserve, comprehensive protections cover aggregation sites for spotted eagle rays, integrating enforcement against illegal fishing with guidelines to minimize boat disturbances. Panama's recent expansions of MPAs, including Coiba National Park, further shield coastal nurseries from , supporting regional . Ongoing and initiatives utilize advanced technologies to inform targeted . Acoustic tagging studies in have revealed site fidelity and migration patterns of whitespotted eagle rays (Aetobatus narinari), demonstrating seasonal movements along coastlines that guide MPA design. Multi-sensor biologging tags deployed on eagle rays have captured fine-scale behaviors, such as foraging depths and interactions with prey, aiding in the assessment of use amid clam expansions. Genetic analyses of Pacific populations have identified between sites, highlighting the need for transboundary protections to maintain . Recovery potential for eagle rays remains limited by their K-selected life history traits, including low reproductive rates with litters of 1–5 pups after a 12-month and maturity delayed until 4–6 years. However, successes in bycatch reduction through modified fishing gear, such as turtle excluder devices adapted for rays, have shown promise in regions like the U.S. Atlantic, where population stabilization is observed in protected areas. These efforts underscore the importance of continued enforcement and international collaboration to enhance resilience against ongoing threats.

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