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Opah

Opah are large, deep-bodied pelagic fish in the genus Lampris (family Lampridae, order Lampriformes), comprising several species; Lampris guttatus, the most widespread and studied, is also known as the moonfish and renowned as the only known fish species with whole-body endothermy, allowing it to maintain an internal body temperature 6–8°C warmer than surrounding seawater through specialized vascular structures like a rete mirabile in its gills and heat-generating pectoral muscles.^[1]^[2] It features a distinctive short and deep body covered in dark steely blue scales with silver spots, a rosy belly, and vibrant crimson-red fins, growing to a maximum length of 2 m (6.6 ft) and weighing as much as 270 kg (600 lb).^[3]^[4] Lampris guttatus inhabits epi- and mesopelagic zones of the open ocean, typically at depths of 50–150 meters in tropical and temperate waters worldwide, ranging from 75°N to 60°S latitude across the Atlantic, Pacific, and Indian Oceans, though they remain solitary and uncommon in many regions.^[3]^[2] This endothermic adaptation enhances their agility for long-range migrations and labriform swimming using pectoral fins, enabling efficient pursuit of prey in cold deep waters where most fish are ectothermic.^[2] They are opportunistic carnivores with a high trophic level of 4.2, primarily feeding on midwater squid, krill, crustaceans, and small fishes, while facing predation from species like great white sharks, mako sharks, and orcas.^[3]^[2] Reproduction likely occurs seasonally, though details remain limited due to their deep-sea habits, and the species is classified as Least Concern by the IUCN, with no major threats identified despite incidental capture in fisheries.^[3]^[5] Their striking appearance and rarity have made opah a prized bycatch in commercial tuna fisheries, particularly in the North Pacific, where they are valued for their flavorful meat.^[6]

Taxonomy

Etymology and common names

The genus name Lampris is derived from the Ancient Greek word lampros, meaning "brilliant," "radiant," or "shining," alluding to the opah's distinctive iridescent coloration.^[7] The species epithet guttatus originates from the Latin term for "spotted" or "speckled," referencing the irregular white spots on the body, though this name is now specifically applied to one species within a genus that includes several others.^[8]^[7] The opah was first scientifically described in 1788 by Danish zoologist Morten Thrane Brünnich, who placed it in the genus Zeus as Zeus guttatus, based on specimens from the North Atlantic.^[8] In scientific literature, it has since been reclassified into the monotypic family Lampridae under Lampris guttatus, reflecting its unique morphological traits.^[3] Common names for the opah vary widely by region and culture, often highlighting its round shape, vibrant hues, or rarity. In Hawaii, it is known as "opah," a term derived from the Hawaiian word for moonfish, emphasizing its disk-like form reminiscent of the moon.^[9] Other widespread English names include moonfish, sunfish (distinct from the unrelated Mola mola), kingfish, and Jerusalem haddock, while additional regional variants encompass cravo in Portuguese-speaking areas, Gotteslachs in German, and poisson lune or lampris in French.^[8] Less common aliases such as redfin ocean pan and cowfish also appear in fishing communities, particularly in the Pacific.

Classification

The opah (genus Lampris) is classified within the kingdom Animalia, phylum Chordata, class Actinopterygii (ray-finned fishes), order Lampriformes, family Lampridae, and genus Lampris.^[10] This hierarchical placement situates the opah among the teleost fishes, specifically within the diverse and specialized order Lampriformes, which includes approximately 20 genera of primarily oceanic, midwater to deep-sea species adapted to pelagic lifestyles.^[11] Lampriformes are characterized by unique morphological traits, such as reduced or absent swim bladders, elongate body forms in many taxa, and specialized dorsal fin structures that aid in buoyancy and maneuverability in open water environments.^[12] The family Lampridae, known as opahs, is a relatively small and distinctive group within Lampriformes, historically treated as monotypic with a single genus (Lampris) encompassing few species.^[10] Evolutionarily, Lampriformes as an order have a fossil record extending to the Late Cretaceous, with the diversification of living lineages coinciding with the aftermath of the Cretaceous-Paleogene extinction event around 66 million years ago, enabling their radiation into pelagic niches. Within Lampridae, the fossil record is more recent, with unambiguous family-level fossils appearing in the late Oligocene (Chattian stage) from deposits in New Zealand, represented by the large-bodied extinct genus Megalampris, indicating early adaptation to deep-sea habitats. The genus Lampris itself is documented from the Late Miocene onward, with species such as the extinct Lampris zatima known from marine sediments in Southern California, suggesting a relatively recent evolutionary origin for the modern opah lineage compared to broader lampriforms.^[14] A significant advancement in opah classification occurred in 2018, when a comprehensive taxonomic revision, integrating mitochondrial DNA sequence data and detailed morphological and meristic analyses, recognized six distinct species within the genus Lampris.^[15] This revision restricted the type species Lampris guttatus to the North Atlantic, resurrected Lampris lauta from synonymy, and described three new species (Lampris australensis, Lampris incognitus, and Lampris megalopsis), while confirming Lampris immaculatus as a separate southern hemisphere taxon. In 2021, Kukuev proposed the subgenus Paralampris for L. immaculatus based on its spotless body and other traits.^[15]^[16] These findings resolved longstanding confusion over the apparent morphological variability in what was previously viewed as a single cosmopolitan L. guttatus, highlighting cryptic diversity driven by genetic divergence across ocean basins.^[17]

Species

The genus Lampris comprises six recognized living species, as established by a comprehensive taxonomic review utilizing genetic and morphological analyses.^[15] These species exhibit non-overlapping geographic distributions across tropical and temperate oceans, with subtle variations in body depth, fin ray counts, pectoral fin length, eye size, and spotting patterns distinguishing them. Lampris guttatus (Brünnich, 1788), the type species, inhabits the North Atlantic Ocean, featuring a deep body, prominent silvery spots in irregular rows, and a relatively short pectoral fin.^[3]^[15] Lampris immaculatus (Gilchrist, 1905) is restricted to southern oceans, characterized by fewer and smaller spots, a more elongate body shape, and longer dorsal and anal fins compared to northern congeners.^[18] Lampris australensis Underkoffler, Luers, Hyde & Craig, 2018, occurs in the Southern Hemisphere, notable for dense spotting extending onto the fins and a shallower body profile.^[19] Lampris incognitus Underkoffler, Luers, Hyde & Craig, 2018, is found in the central and northeastern Pacific, with reduced spotting, a smaller eye relative to head size, and proportionally shorter pectoral fins.^[20] Lampris lauta (Lowe, 1838) occupies the eastern Atlantic, displaying bolder coloration with larger spots and extended fin bases.^[21] Lampris megalopsis Underkoffler, Luers, Hyde & Craig, 2018, has a cosmopolitan distribution in temperate to tropical waters, distinguished by enlarged eyes, prominent spotting on the head, and a more robust body form.^[22]^[15] Two extinct species are known from the fossil record, providing insights into the evolutionary history of the Lampridae. Lampris zatima Jordan, 1908, from the Late Miocene of Southern California, is represented by fragmentary fossils including vertebral columns and partial skeletons, indicating a small-bodied form (estimated at 35–50 cm total length) with a similar deep, discoid body shape to modern Lampris but fewer preserved diagnostic traits.^[14] Megalampris keyesi Gottfried, Fordyce & Spallanzani, 2006, from the Late Oligocene (approximately 26 million years ago) of New Zealand and belonging to an extinct genus within Lampridae, is known from a large, nearly complete skeleton estimated at 4 m in total length—substantially larger than any extant opah—and exhibits an elongated dorsal fin and robust skeletal features suggestive of a giant, piscivorous relative within the lamprid lineage. Species delineation within Lampris relies on integrated evidence from mitochondrial DNA sequencing (e.g., cytochrome b and cytochrome oxidase I genes), meristic counts (such as fin ray numbers and vertebral counts), morphometrics (including body proportions and fin lengths), and pigmentation patterns like spot density and distribution, often corroborated by allopatric distributions that limit gene flow.^[15] These criteria resolved prior lumping of populations under L. guttatus into distinct taxa, emphasizing subtle but consistent inter-oceanic variations.^[15]

Physical characteristics

Size and morphology

The opah exhibits a deep, oval body that is laterally compressed, resembling a disc, with a single dorsal fin extending the length of the body and a matching anal fin.^[23]^[3] The head is blunt with large eyes encircled by gold, and the mouth is small and terminal, bearing simple teeth.^[24]^[25] The pectoral fins are long and fan-like, while the body is covered in cycloid scales that are easily shed; the opah lacks a swim bladder and relies on lipids for buoyancy control.^[3]^[26]^[27] Opah reach a maximum reported total length of 2 m (6.6 ft) and reported weight up to 270 kg (600 lb), though verified records as of 2025 reach up to 82 kg (181 lb); possible slight size differences exist between sexes, with males potentially growing slightly larger. Growth rates are estimated at 10-15 cm per year in early life.^[28]^[29]^[30]

Coloration and anatomy

The opah displays vibrant live coloration, featuring a steely blue dorsally grading to rosy on the belly, with a silvery body covered in white spots scattered across the flanks and dorsum. Recent taxonomic reviews suggest that what was traditionally considered Lampris guttatus may comprise multiple cryptic species with potentially varying morphology.^[31] This iridescent pigmentation provides camouflage and signaling in the open ocean, contrasting sharply with the duller appearances of preserved specimens, where scale loss reveals underlying silvery-gray tones with blue-green dorsal sheens and rosy ventral hues. Fins exhibit vermilion to deep red tones, while the area around the eyes is golden. In some species, such as Lampris immaculatus, the white spots are absent, resulting in patchy, less brilliant patterns. Internally, the opah's skeleton is robust, composed of cellular bone tissue akin to that in tunas, which enhances structural support for its discoid body and active swimming. The fins include numerous ossified lepidotrichia (fin rays), with the dorsal fin bearing 50–55 soft rays and the anal fin 34–41, contributing to its distinctive falcate profiles. The gill apparatus is specialized, possessing a large surface area relative to body size that facilitates efficient oxygen extraction from the oxygen-poor waters of mesopelagic depths. This adaptation supports sustained aerobic performance during foraging dives.^[32] The opah's sensory systems are tuned for pelagic life, with large eyes ringed in gold that enable effective low-light vision for detecting prey in dim conditions below the thermocline. These eyes, combined with cranial adaptations, improve visual acuity during deep dives. The lateral line system, consisting of mechanoreceptors along the body, detects vibrations and pressure changes in surrounding water, aiding in navigation and predator avoidance. Unlike some fish groups, the opah lacks electroreceptors, depending instead on visual and mechanosensory inputs for environmental awareness. Sexual dimorphism is evident in the opah, particularly in the pectoral girdle, where males possess a thick, concave structure and an enlarged abdomen, while females exhibit a narrow, convex girdle. Females typically develop larger ovaries to support egg production, reflecting their role in reproduction. During breeding periods, male fin coloration may intensify, though this varies by individual condition.^[33]

Endothermy

The opah (Lampris guttatus) is the first known fish to exhibit whole-body endothermy, a trait that allows it to maintain elevated body temperatures throughout its tissues, unlike the regional endothermy seen in tunas and billfishes. This enables the opah to keep its core body temperature 5–8°C above ambient water levels, even in the cold mesopelagic zone.^[34] The phenomenon was confirmed in a landmark 2015 study, which measured brain and heart temperatures reaching approximately 36°C (97°F) in surrounding water at 10°C (50°F), highlighting the opah's ability to sustain warmth across all major organs.^[34] Heat generation in the opah occurs primarily through the continuous contraction of its dark red aerobic pectoral muscles, which power the flapping of large, wing-like fins for propulsion and produce metabolic heat as a byproduct.^[34] Retention of this heat relies on specialized vascular counter-current heat exchangers, including a rete mirabile—a dense arterial-venous capillary network—in the gills that minimizes thermal loss by transferring warmth from outgoing arterial blood to incoming cooler venous blood from the gills.^[34] Similar counter-current arrangements in the musculature further distribute warmed blood systemically, ensuring even heating of the heart, brain, and other vital tissues without reliance on external insulation like blubber.^[34] This endothermic strategy confers significant physiological advantages, including boosted red muscle contraction rates for enhanced sustained swimming performance, far exceeding those of ectothermic counterparts in similar environments.^[34] Warmer ocular tissues enhance visual sensitivity and reaction times in dim, cold depths, while elevated cardiac and neural temperatures support prolonged aerobic activity and efficient foraging in nutrient-rich waters below the thermocline.^[34] Overall, whole-body endothermy positions the opah as a high-performance predator capable of exploiting mesopelagic habitats inaccessible to many other fishes.^[34]

Distribution and habitat

Geographic range

The genus Lampris, comprising several species of opah following a 2018 taxonomic revision, occurs worldwide in tropical, temperate, and some subpolar waters across all major ocean basins, from approximately 75°N to 60°S latitude.^[3]^[35] These distributions reflect an oceanic, pelagic lifestyle without incursions into freshwater or polar regions.^[3] The 2018 revision split the formerly global Lampris guttatus into five species based on genetics, morphology, and geography.^[35] Lampris guttatus is now primarily restricted to the Atlantic Ocean, including the North Atlantic and parts of the eastern Atlantic.^[35] Lampris immaculatus inhabits southern temperate waters circumglobally around southern continents, from 34°S to the Antarctic Polar Front.^[36] Lampris megalopsis is found off eastern Pacific coasts and extends into temperate and tropical waters of the Indian and Pacific Oceans.^[37] Lampris australensis occupies southern portions of the Pacific and Indian Oceans.^[38] A fifth species, L. incognitus, is known from the central Pacific.^[35] Opah display seasonal movements, migrating toward coastal waters in warmer months and withdrawing to the open ocean during winter, influenced by temperature gradients.^[39] Historical records trace opah to 18th-century Atlantic voyages, with the first formal description of L. guttatus in 1788 based on European specimens. Contemporary distribution mapping relies on fisheries landings and genetic analyses from global surveys.^[35]

Depth preferences and environment

The opah (Lampris guttatus) primarily inhabits the mesopelagic zone, occupying depths between 50 and 500 meters, though it occasionally appears near the surface and can dive as deep as 1,000 meters.^[40]^[41] It exhibits a reverse diel vertical migration pattern, descending to deeper waters (typically 200–500 meters) during the day and ascending to shallower depths, often within 10 meters of the surface, at night.^[41]^[42] Opah prefer the open pelagic zone of oligotrophic, nutrient-poor waters in tropical and temperate oceans, where they associate with thermoclines and oxygen minimum zones.^[40] Their optimal ambient temperatures range from 10 to 20°C, with captures commonly occurring in water around 13°C, though their whole-body endothermy enables tolerance of colder conditions down to approximately 5°C during deep dives.^[43]^[44] Adaptations to this habitat include efficient gill structures that support high oxygen extraction in hypoxic conditions, facilitated by countercurrent retia mirabilia that retain metabolic heat post-gill perfusion while maintaining effective gas exchange.^[45]^[46] These features allow opah to thrive in low-oxygen mesopelagic environments without significant physiological stress. Opah distribution is confirmed through captures using deep longline gear deployed at 275–550 meters, targeting areas just above the thermocline, as well as mid-water trawls that sample the 50–400 meter range.^[41]^[47] These methods reveal a consistent bathymetric preference for mid-depth pelagic layers across their global oceanic range.^[40]

Behavior and ecology

Locomotion and swimming

The opah employs a distinctive labriform locomotion, oscillating its large pectoral fins to produce both lift and thrust for propulsion, in contrast to the caudal fin-driven swimming typical of many other fishes. This fin-based mechanism enables the opah to glide, hover, and maneuver efficiently in the open ocean, supported by extensive aerobic red musculature in the pectorals that accounts for up to 16% of body weight.^[48]^[34] Endothermy enhances the opah's swimming efficiency by elevating muscle temperatures approximately 5°C above ambient water, allowing sustained activity and reducing fatigue during prolonged cruising in cold mesopelagic depths. The fish achieves typical vertical descent and ascent rates below 0.25 m/s during routine movements, with occasional bursts reaching 4 m/s to adjust position or pursue opportunities. This physiological adaptation supports active locomotion without the limitations faced by ectothermic counterparts in low-temperature environments.^[34] Opah are predominantly solitary but occasionally associate in loose schools with tunas or billfishes, likely for mutual protection during horizontal travel. They perform regular vertical migrations, tracking prey distributions or thermal gradients between 50 and 400 m depths and 8–22°C temperatures, which aligns with their pectoral-driven propulsion suited to precise depth adjustments rather than rapid horizontal sprints. The elevated metabolic rate fueled by continuous pectoral muscle activity—primarily aerobic and heat-generating—facilitates these energy-demanding excursions in nutrient-rich but thermally challenging waters.^[34]

Feeding habits and diet

The opah (Lampris guttatus), formerly known as Lampris regius, is an opportunistic predator with a diet dominated by soft-bodied prey in the pelagic zone. Stomach content analyses indicate that cephalopods, particularly squid and octopuses, form the bulk of its consumption, often comprising the majority of identifiable remains, alongside crustaceans such as krill and shrimp, and smaller fishes including epipelagic species like saury and anchovies, as well as deeper-water forms like barracudinas.^[2]^[6]^[49] This broad prey selection reflects the opah's adaptability to available resources in mid- to deep-water environments, where it targets both epipelagic and mesopelagic organisms. The opah's feeding strategy involves active pursuit in mid-water layers, where it swims efficiently to chase down agile prey. Its large eyes and endothermic physiology enhance visual acuity in low-light conditions, allowing detection of bioluminescent cephalopods and other prey during dives to depths of 200 meters or more.^[50]^[51] Studies of stomach contents from specimens in the central Mediterranean Sea, for instance, show highly digested remains primarily of meso-bathypelagic cephalopods like Galiteuthis armata, underscoring a reliance on these soft-bodied invertebrates.^[49] As a mid-level predator, the opah occupies a trophic level of 4.2, preying on secondary consumers such as smaller pelagic fishes and invertebrates, thereby linking lower trophic tiers to higher marine predators in the open ocean ecosystem.^[3] This position highlights its role in maintaining balance within epipelagic food webs, though specific quantitative data on daily intake remain limited due to the challenges of studying this solitary, deep-diving species.^[2]

Reproduction and life cycle

Little is known about opah reproduction. The opah (Lampris guttatus) is an oviparous broadcast spawner, with females releasing pelagic eggs into open water where external fertilization by males occurs. These eggs are small and buoyant, with mature ova measuring up to 0.82 mm in diameter and containing a single oil droplet that aids flotation in the water column.^[41] The size and age at maturity, as well as fecundity, remain unknown. Spawning likely occurs in spring in subtropical and temperate zones, and year-round in tropical regions when sea surface temperatures exceed 24°C.^[41]^[52] Following fertilization, eggs hatch into planktonic larvae that remain in the epipelagic zone for several weeks, feeding primarily on zooplankton and growing from lengths under 4.7 mm to about 10.5 mm, at which point fin rays develop and they resemble miniature adults. These larvae eventually settle to midwater depths of 50–100 m as post-larvae. Juveniles grow rapidly in their initial years before growth slows, with the overall lifespan estimated at 5–10 years and low natural mortality rates supporting resilience.^[41]^[3] No parental care is provided, resulting in high mortality of eggs and early larvae due to predation and environmental factors.^[41]

Predators and parasites

Adult opah fall prey to large pelagic predators, including shortfin mako and great white sharks, as evidenced by tagging data showing predation events.^[2] Some marine mammals also prey on adults.^[6] Juveniles are particularly vulnerable to smaller predatory fishes, such as other midwater species.^[6] Opah serve as hosts to various metazoan parasites, including trematodes, nematodes, and copepods, which inhabit sites such as the gills, intestines, and external surfaces like the fins.^[53] Specific examples include the copepod Peniculus fistula, recorded on the body surface of opah.^[54] Metazoan parasites have also been documented in the olfactory organs of opah, potentially affecting sensory functions.^[53] These parasites generally cause minor tissue lesions but are seldom lethal, contributing to low overall parasitic impact on host fitness.^[53] Predation represents a significant natural mortality factor for opah, particularly among adults, though exact rates remain unquantified due to limited population assessments.^[24] To mitigate these threats, opah exhibit schooling behavior with faster-swimming species like tunas and billfishes, which may provide associative protection against predators.^[55] Their unique whole-body endothermy further aids defense by enabling rapid escape bursts, enhanced swimming speeds, and quicker reactions to approaching threats compared to ectothermic prey fish.^[44]

Human interactions

Fisheries and commercial use

Opah are primarily captured as bycatch in longline fisheries targeting tunas and swordfish, with deep-set longlines deployed in the Pacific Ocean accounting for the majority of U.S. landings. In Hawaii, these operations yield the bulk of the catch, while off California, opah are incidentally taken in drift gillnet fisheries aimed at swordfish. Occasional targeted hook-and-line fishing occurs in Hawaii and California, though it represents a minor portion of total harvest due to the species' pelagic and unpredictable distribution.^[24]^[24]^[39] Commercially, opah are valued for their firm, flavorful meat, particularly the tender top loin, which is suitable for sashimi due to its light salmon-orange color, sweet taste, and lean texture. Annual U.S. landings, predominantly from Hawaii, averaged around 400-800 metric tons in the 2010s, peaking above 800 metric tons by 2017 before declining to approximately 209 metric tons in 2021; these are exported primarily to Japan for high-end markets, with smaller volumes to Europe and the U.S. mainland. The species' nutritional profile, including high levels of omega-3 fatty acids (about 1,800 mg of DHA and EPA per 4-ounce serving), protein, and low sodium, enhances its appeal in health-conscious markets.^[56]^[57]^[58]^[59] Opah are sold fresh or frozen, with the Hawaii fishery reaching its commercial height in the 2010s when ex-vessel prices ranged from approximately $3-9 per kilogram, generating values up to $3 million annually at peak landings. Historically, opah have been a traditional food in Hawaiian cuisine, often prepared grilled, in poke, or as sashimi, reflecting their cultural significance in local diets. Modern aquaculture trials for opah remain limited, constrained by the species' preference for deep, open-ocean habitats that complicate captive rearing.^[58]^[9]^[24]

Conservation status

The opah (Lampris guttatus) is classified as Least Concern on the IUCN Red List, with the assessment conducted in 2013.^[5] This status reflects its wide global distribution across tropical and temperate oceans and the absence of evidence indicating significant population declines.^[5] No major threats are currently identified for the species, though it is occasionally caught as bycatch in pelagic longline fisheries targeting tuna and swordfish.^[5] In the United States, opah landings occur primarily as incidental catch in these fisheries around the Pacific Islands and off southern California, with no directed commercial fishery established.^[24] Regulations, including gear modifications and observer programs, help minimize bycatch impacts on opah and other non-target species.^[60] Population size and trends remain unknown due to limited data, but there is no indication of overfishing or habitat degradation affecting the species.^[5] U.S. wild-caught opah is considered sustainably managed under federal regulations, supporting its continued Least Concern status as of the latest IUCN version in 2025.^[24] Ongoing monitoring in key fishing regions is recommended to track any potential future changes.^[10]

References

[1]
https://www.science.org/doi/full/10.1126/science.aaa8902
[2]
Opah: The Warmest Fish in the Cold Blue Sea
Jan 16, 2023 · The lack of a large fishery for opah, combined with their deep-water habitat and tendency to seemingly avoid members of their own species, means ...
[3]
Lampris guttatus, Opah : fisheries, gamefish - FishBase
Oceanic and apparently solitary (Ref. 6737). Epi- and mesopelagic (Ref. 58302). Feeds on midwater fishes and invertebrates, mainly squids (Ref.Missing: characteristics | Show results with:characteristics
[4]
The IUCN Red List of Threatened Species
**Summary of Opah (Lampris guttatus) from IUCN Red List:**
[5]
Opah - California Sea Grant
Opah occur worldwide in temperate and tropical seas. Formerly believed to be two species (Lampris guttatus and L. · Range of individual species is currently ...Missing: characteristics | Show results with:characteristics
[6]
Family LAMPRIDAE Gill 1862 (Opahs) | The ETYFish Project
... Lampris Retzius 1799 from lamprós (λαμπρός), bright, radiant, brilliant or shining, referring to brilliant coloration of L. guttatus. Subgenus Lampris. Lampris ...
[7]
WoRMS - World Register of Marine Species - Lampris guttatus (Brünnich, 1788)
- **Original Combination**: Zeus guttatus
[8]
Moonfish (Opah) - Hawaii-Seafood.org
The moonfish's large, round profile may be the origin of its name. An opah has three types of flesh, each a different color. Behind the head and along the ...
[9]
Lampris guttatus, Opah : fisheries, gamefish - FishBase
Teleostei (teleosts) > Lampriformes (Velifers, tube-eyes and ribbonfishes) > Lampridae (Opahs) ... Lampridae) with descriptions of three new species.
[10]
Taxonomy browser (Lampriformes) - NCBI - NIH
Lampris australensis (southern spotted opah) · Lampris guttatus (North Atlantic opah) · Lampris immaculatus (southern opah) · Lampris incognitus (smalleye Pacific ...
[11]
Opahs - Explore the Taxonomic Tree | FWS.gov
Location in Taxonomic Tree ; Infraphylum, Gnathostomata ; Superclass, Actinopterygii ; Class, Teleostei ; Superorder, Lamprimorpha ; Order, Lampriformes.
[12]
A review of the fossil record of the Labridae | Request PDF
This extinct species is reported from the Miocene sediments of France (Sauvage, 1875;Gagnaison, 2017), Portugal , Poland (Bellwood et al. 2019 ) and the ...Missing: Lampridae | Show results with:Lampridae
[13]
https://doi.org/10.1671/0272-4634(2006)26%5B544:MKAGMT%5D2.0.CO;2
[14]
Clues At Fish Auction Reveal Several New Species Of Opah
Jun 7, 2018 · Each species is distinguished by different characteristics such as eye size, fin length, and other measurements, Underkoffler, Hyde, and their ...
[15]
Distribution of the Order Lampriformes in the Mediterranean Sea ...
Only Lampris guttatus (Brünnich, 1788) is appreciated and prized as by-catch in some areas [48]. The rest of the lampriform species are considered inedible; ...Missing: etymology | Show results with:etymology
[16]
Opah - NOAA Fisheries
Opah are found in tropical and temperate waters around the world. Habitat. Opah live in deep open ocean waters. Fishery Management. NOAA Fisheries and the ...
[17]
(PDF) First Record of Lampris guttatus (Brünnich, 1788) in North ...
Aug 9, 2019 · head length. Fish with a large, deep, compressed and oval-shaped body. Mouth small and toothless. Dorsal and anal ...
[18]
[PDF] New Record of the Opah, Lampris guttatus(Lampriformes
Body oval-shaped and compressed and covered with minute cycloid scales; pectoral fins elongate, placed high on side and horizontally; dorsal and anal fins long ...Missing: rate | Show results with:rate
[19]
[PDF] Swim bladder
Other fishes like the Opah and the Pomfret use their pectoral ... The cartilaginous fish (e.g. sharks and rays) and lobe-finned fish do not have swim bladders.
[20]
Lampris guttatus captured off Coco Beach, at the fish market of Ghar ...
However, a maximum length of 2 m and a maximum weight of 270 kg have been reported by Gon (1990, in Ergüden, 2019.
[21]
None
No readable text found in the HTML.<|separator|>
[22]
https://www.fishbase.se/summary/Lampris-megalopsis.html
[23]
[PDF] An update on opah and monchong life history and ecology studies
Status of research on the biology and ecology of opah, Lampris guttatus. Donald Hawn1, Michael Seki2, Robert Nishimoto2, Evan Howell2, and Jeffrey Polovina2.<|separator|>
[24]
Whole-body endothermy in a mesopelagic fish, the opah, Lampris guttatus
### Abstract
[25]
Opah (Lampris megalopsis) genome sheds light on the evolution of ...
Nov 3, 2021 · The opah, Lampris megalopsis (Lampridiformes), is the only known fish to exhibit whole-body endothermy. Currently, however, the underlying ...
[26]
Lampris immaculatus, Southern opah : fisheries - FishBase
Circumglobal in the southern hemisphere between 34°S and the Antarctic Polar Front. Size / Weight / Age Maturity: L m ? range ? - ? cm Max length : 110 cm
[27]
Lampris megalopsis Underkoffler, Luers, Hyde, and Craig 2018 - GBIF
Lampris megalopsis Underkoffler, Luers, Hyde, and Craig 2018 in Underkoffler K E, Luers M A, Hyde J R, Craig M T, plazi (2018). A taxonomic review of Lampris ...
[28]
Lampris australensis - Fishes of Australia
Etymology. Lampris is from the Greek "lamprós", meaning radiant, brilliant or ... Whole-body endothermy in a mesopelagic fish, the opah, Lampris guttatus.
[29]
[PDF] Opah
its West African name, opah; however, it may also be called African pompano, giant pompano, Hawaiian moon- fish, moonfish, mariposa or Jerusalem haddock.
[30]
Whole-body endothermy in a mesopelagic fish, the opah, Lampris ...
Aug 6, 2025 · Some lampriforms, such as the opahs (Lampris spp.), evolved specialized gill morphologies and cellular bone that facilitate whole-body ...
[31]
[PDF] Essential Fish Habitat Descriptions for Pacific Pelagic Fishery ...
Dec 1, 2005 · terms of size at birth and growth rate. These strategies can be ... A history of the opah, lampris guttatus (Bri.innich). Scottish ...
[32]
Diets of five important predatory mesopelagic fishes of the central ...
However, a single study from the South- ern Ocean details the dietary preferences of the southern opah Lampris immaculatus (Jackson et al. 2000b). Information ...Missing: sources | Show results with:sources
[33]
Evidence for cranial endothermy in the opah (Lampris guttatus) - PMC
The opah, Lampris guttatus, is a large epipelagic–mesopelagic predator that makes repeated dives into cool waters to forage. To determine if L. guttatus ...Missing: etymology | Show results with:etymology
[34]
Warm Blood Makes Opah an Agile Predator - NOAA Fisheries
May 12, 2015 · New research by NOAA Fisheries has revealed the opah, or moonfish, as the first fully warm-blooded fish that circulates heated blood throughout its body much ...Missing: Linnaeus 1758
[35]
Lampris guttatus - an overview | ScienceDirect Topics
Lampris guttatus is different from all other regionally heterothermic fishes. Rather than isolate a tissue to keep it warm like all other endothermic fishes.Missing: ETYFish | Show results with:ETYFish
[36]
(PDF) Evidence for cranial endothermy in the opah (Lampris guttatus)
Aug 6, 2025 · Some of these environmental challenges have been shown to impair their sensory systems, including the olfactory, visual, and auditory systems.
[37]
[PDF] MOONFISH (MOO) - Fisheries New Zealand
Mid-water trawling accounts for 18% of the catch, bottom trawling 8% and bottom longlining 1%. The main target fisheries using mid-water trawling are for ...
[38]
https://fishesofaustralia.net.au/home/species/1870
[39]
[PDF] preliminary notes on the diet of lampris guttatus (brünnich, 1788) in ...
Feeding habits of opah mainly consisting on mesopelagic preys, such as cephalopods, especially teutids, bony fishes and less frequently crustaceans and ...Missing: regius scientific
[40]
Fun Science FRIEDay – “A cold-water fish with a warm heart!”
May 15, 2015 · Once thought of as slow, ungainly predators, in reality opah's are swift, actively chasing down and feasting on agile deep ocean prey like squid ...
[41]
First fully warm-blooded fish: The opah or moonfish | ScienceDaily
May 14, 2015 · The fish had an average muscle temperature about 5 degrees C above the surrounding water while swimming ... Whole-body endothermy in a mesopelagic ...<|control11|><|separator|>
[42]
Lampris guttatus, Opah : fisheries, gamefish - FishBase
Trophic level (Ref. 69278): 4.2 ±0.62 se; based on food items. Generation time: 5.0 ( na - na) years. Estimated as median ln(3)/K based on 1 growth studies ...
[43]
Reproduction and Development in Epipelagic Fishes - DOI
Maximum size exceeds 240 cm in body length and 70 kg in weight. IGFA all-tackle record 41.2 kg. Nothing is known about the biology of this species. Probably ...Missing: reliable | Show results with:reliable
[44]
Lampris guttatus summary page
### Summary of Reproduction, Maturity, Spawning, Fecundity, Eggs, Larvae, Life Cycle, Lifespan for *Lampris regius* (Opah)
[45]
The Journal of Fish Disease | Wiley Online Library
Jan 26, 2020 · Metazoan parasites and ... Olfactory organs of two pelagic teleost fish—opah (Lampris guttatus) and dolphin fish (Coryphaena hippurus).
[46]
Hosts and Distribution of Peniculus fistula Von Nordman, 1832
Sep 22, 2009 · Metazoan parasites in wild fish and farmed salmon from aquaculture sites in southern Chile. ... Lampris guttatus Brünnich, opah 1“Lampris luna, ...
[47]
Opah (Lampris guttatus): First Known Warm-Blooded Fish Species
May 15, 2015 · The opah, also known as the spotted moonfish, cravo, kingfish, and Jerusalem haddock, is a deep-bodied, compressed fish found in eastern North ...Missing: ETYFish | Show results with:ETYFish
[48]
Opah Fish Taste - Chefs Resources
The tender top loin of Opah is a light salmon-orange or pink-rose color and is often used for sashimi. The flavor of the top loin is sweet & lean with a ...
[49]
[PDF] Spatiotemporal catch patterns and population distributions of bigeye ...
Apr 29, 2022 · commercially valuable, non- target fish that are regularly landed in pelagic longline fisheries in the central and eastern North Pacific Ocean.
[50]
Opah: Resources - NOAA Fisheries
Commercial fishery: In 2021, commercial landings of opah in Hawaii totaled 460,000 pounds and were valued at $1.8 million, according to the NOAA Fisheries ...
[51]
[PDF] 11-Hawaii-Moonfish-Nutrient-Label-Claims.pdf
It is also low in sodium. Hawaii Moonfish also provides about 1800 mg of omega-3's (DHA and EPA) per 4 ounce serving of fresh fish.
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Opah Opah seafood recommendation
Opah caught by Hawaiian fleets in the Eastern Central or Northeast Pacific with deep-set longlines is rated yellow.