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Haliotis asinina

Haliotis asinina, commonly known as the donkey's ear abalone, is a large tropical marine gastropod mollusc in the family Haliotidae, characterized by its distinctive thin, elongate-ovate, ear-shaped shell that reaches a maximum length of 12 cm, with a shiny olive-green or brown exterior, pale green or cream patches, and a highly iridescent interior featuring 5–7 open ovate respiratory pores.^[1] The species possesses a large green mantle that often covers the shell, and it is the fastest-growing among abalone species.^[2] As a herbivorous grazer, it feeds primarily on epilithic algae using a radula, exhibiting nocturnal activity and avoiding dense aggregations.^[1] Native to the Indo-West Pacific region, H. asinina ranges from East Africa through the Indian Ocean to the Philippines, Indonesia, and northern Australia, inhabiting benthic environments on rocky reefs and coral flats in intertidal zones to depths of 10 m.^[3]^[1] Ecologically, it is gonochoric with broadcast spawning and planktonic trochophore larvae, reaching sexual maturity at lengths of 4 cm or more.^[1]^[3] The species plays a role in maintaining algal balance on coral reefs but faces pressures from its preferred shallow, coastal habitats.^[3] Commercially valued in Southeast Asia for its flesh and shell, H. asinina is actively fished, contributing to population declines due to overexploitation, habitat degradation from coastal development, and pollution.^[1]^[3] Classified as Least Concern on the IUCN Red List (assessed 2020), with a 2024 global assessment confirming the status amid ongoing declines and emerging threats like ocean acidification, it prompts efforts in stock enhancement, aquaculture, and marine reserves to support wild populations.^[3]^[4] Recent genomic studies, including a chromosome-scale assembly, offer insights for conservation and breeding programs.^[2]

Taxonomy

Classification

Haliotis asinina is the binomial name assigned to this species by Carl Linnaeus in 1758.^[5] It belongs to the kingdom Animalia, phylum Mollusca, class Gastropoda, subclass Vetigastropoda, order Lepetellida, superfamily Haliotoidea, family Haliotidae, and genus Haliotis.^[5] This classification places H. asinina among the abalones, a group of marine gastropods characterized by their unique shell structure, within the exclusively marine family Haliotidae.^[6] Phylogenetically, H. asinina is positioned as the type species of the genus Haliotis, serving as a foundational taxon for the family's nomenclature.^[6] It is one of 76 accepted species in the genus, many of which form clades adapted to tropical and subtropical environments.^[6] Within the Haliotidae, H. asinina exemplifies the tropical Indo-Pacific radiation of abalones, with molecular analyses indicating its basal placement relative to temperate lineages and evidence of Pleistocene isolation followed by recent gene flow across its range.^[7]^[8] The primary synonym for H. asinina is Haliotis asinum Donovan, 1808, recognized as a junior synonym in taxonomic databases.^[5] Historical literature occasionally features minor spelling variants, such as Haliotis assinis, but these are not formally accepted and stem from early typographical errors.^[5]

Nomenclature

The scientific name Haliotis asinina was established by Carl Linnaeus in his seminal work Systema Naturae (10th edition), published in 1758, where it was described based on specimens from the Indo-Pacific region.^[9] The type locality is specified as Amboina (modern-day Ambon, Indonesia) in the Indian Ocean, reflecting the species' tropical distribution.^[9] The genus name Haliotis derives from Ancient Greek roots hali- (meaning "sea" or "marine") and otis (meaning "ear"), alluding to the ear-shaped form of the shells in this group of gastropods.^[10] The specific epithet asinina comes from the Latin asinus, meaning "ass" or "donkey," due to the elongated, curved shape of the shell resembling a donkey's ear. Common names for H. asinina include donkey's ear abalone, ass's-ear abalone, and tropical abalone, which emphasize its distinctive shell morphology and habitat.^[1]^[11] Historically, the nomenclature has seen minor revisions, with Haliotis asinum Donovan, 1808, recognized as a junior synonym, and Deridobranchus argus Ehrenberg, 1831, as a subjective synonym later resolved in favor of Linnaeus's original name.^[9] No subspecies are currently recognized, and there have been no major disputes over the primary binomial.^[9]

Description

Shell

The shell of Haliotis asinina is thin and lightweight relative to those of temperate abalone species, typically measuring up to 120 mm in maximum length, though individuals commonly reach about 90 mm, with weights up to 200 g.^[12]^[1]^[13] Its shape is elongated and ovate, with an arched, convex profile that resembles a donkey's ear, featuring a low, spiral form and a holostomatous aperture.^[14]^[1] The exterior surface is generally smooth, often partially obscured by the overhanging mantle in living specimens, and bears 5-7 perforations—functioning as respiratory openings—arranged in a curvilinear row along the dorsal margin.^[14]^[1] Coloration varies from olive-green to reddish-brown, typically featuring irregular triangular patches of pale green or cream on a shiny background.^[1]^[15] The interior is lined with iridescent nacre, displaying hues of pink, green, or blue.^[14]^[16] Juvenile shells are more rounded than those of adults and exhibit spiral cords adorned with rows of white, red, and blue dots, transitioning to a smoother texture with growth.^[14]

Anatomy

The body of Haliotis asinina consists of a soft, muscular structure enclosed within the shell, featuring a large foot, mantle, and epipodium adapted for locomotion, adhesion, and sensory perception in tropical marine environments. The foot is a broad, muscular organ that enables slow crawling over substrates and strong adhesion via suction, facilitated by its glandular surface secreting adhesive mucus.^[17] The epipodium, an extension of the foot margin, forms a sensory fringe lined with numerous tentacles and simple eyespots that detect light and chemical cues, aiding navigation in low-visibility conditions.^[18] The mantle, a thin epithelial layer extending over the inner shell surface, bears sensory tentacles and houses pallial organs, providing protection and supporting water circulation within the mantle cavity.^[17] The respiratory system relies on paired bipectinate ctenidia (gills) positioned within the mantle cavity to facilitate oxygen uptake and carbon dioxide expulsion. These gills, with the left one broader and longer than the right (averaging 716 filaments on the left and 702 on the right), feature ciliated columnar epithelial cells that drive water flow across their surface for efficient gaseous exchange, supplemented by mucous cells for protection against particulates.^[19] An associated osphradium on each gill assesses incoming water quality via chemosensory ridges before it contacts the gill filaments. The ctenidia align with the shell's perforations (respiratory pores), allowing exhalant water to exit through these openings after oxygenation, enhancing ventilation efficiency in shallow, variable-oxygen habitats.^[20] The digestive system is adapted for grazing on algae and includes a radula, a chitinous ribbon-like structure with rows of teeth for scraping food from surfaces. In H. asinina, the radula exhibits species-specific dentition, with central, lateral, and marginal teeth suited to algal diets, developing from larval stages to support increasing feeding efficiency.^[21] The stomach, part of the tubular digestive tract, processes ingested material through ciliated sorting and initial enzymatic breakdown, integrating closely with the surrounding hepatopancreas for nutrient absorption. The gonads are positioned adjacent to and partially enveloped by the hepatopancreas within the visceral mass, reflecting a spatial integration that supports energy allocation between digestion and reproduction.^[22] The nervous system comprises a decentralized arrangement of simple ganglia connected by commissures and connectives, typical of vetigastropods, enabling coordinated responses to environmental stimuli. Key components include paired cerebral ganglia for sensory integration, a buccal ganglion controlling mouthparts, and pleuropedal ganglia innervating the foot and mantle for locomotion and adhesion.^[23] Chemosensory capabilities are prominent in the epipodial tentacles and osphradium, with neurons containing neurotransmitters like GABA distributed across ganglia to detect chemical gradients, facilitating nocturnal foraging in dim light.^[24] Notable adaptations include the adductor muscle, a thick band of fibers anchoring the mantle to the shell for rapid closure against predators and aiding in postural adjustments during movement.^[25] The gonads are gonochoric (separate sexes), with diglandular structure in males (testis) and females (ovary); males mature earlier (7-8 months) than females (11-12 months), and the organs expand to cover portions of the digestive gland and other viscera prior to spawning, optimizing space in the compact body cavity.^[22]

Distribution and habitat

Geographic range

Haliotis asinina is a tropical and subtropical species endemic to the Indo-West Pacific Ocean, where it exhibits a broad distribution across coral reef-associated regions.^[1] Its range spans from the eastern Indian Ocean to the central Pacific, encompassing diverse island chains and continental margins.^[26] The species occurs from the Andaman and Nicobar Islands eastward through Southeast Asia to Fiji, with records extending northward to southern Japan and the South China Sea.^[26]^[11] To the south, populations are found along the northern and eastern coasts of Australia, including the Northern Territory, Queensland, Western Australia, New South Wales, and Lord Howe Island.^[26]^[3] Key countries hosting significant occurrences include Indonesia, the Philippines, Malaysia, and Vietnam, where it is commonly reported in coastal waters.^[11] H. asinina inhabits shallow waters from the intertidal zone to depths of approximately 8–10 m.^[1]^[11] This distribution pattern is enabled by its planktonic larval stage, which facilitates long-distance dispersal through ocean currents across the expansive Indo-Pacific region.^[8]

Habitat preferences

Haliotis asinina primarily inhabits shallow coral reefs, rocky intertidal zones, and subtidal boulder fields in tropical marine environments.^[17] It favors wave-exposed rocky shores where it can seek shelter in crevices, under overhangs, boulders, and stones for protection from predators and environmental stress.^[27]^[28] These microhabitats extend from the intertidal zone to depths of approximately 8–10 m, often in association with reef structures that provide hard attachment surfaces.^[17]^[11] The species thrives in warm tropical waters with temperatures typically ranging from 24°C to 30°C, showing a preference for conditions above 22°C to support optimal physiological functions.^[17] Salinity levels of 30 to 35 ppt are ideal, aligning with stable, full-strength marine conditions in its preferred reef habitats. It avoids areas with high sedimentation, as excessive sediment can hinder attachment and feeding on reef surfaces.^[28] Regarding substrate, H. asinina strongly prefers hard, stable surfaces such as coral rubble, limestone, and rocky outcrops, which facilitate adhesion via its foot and support larval settlement. Soft sediments are unsuitable, as the species requires firm substrates for locomotion and refuge.^[29] Juveniles often associate with encrusting coralline algae, such as species in the genera Amphiroa and Lithophyllum, which provide chemical cues for metamorphosis and integration into the benthic community.^[30] These associations enhance habitat suitability by offering both structural cover and inductive signals for early life stages.^[30]

Ecology

Feeding

Haliotis asinina is primarily herbivorous, grazing on a variety of benthic algae using its radula, a chitinous structure equipped with rows of teeth that scrape and rasps food from substrates. Its diet consists mainly of turf-forming red and green algae, with strong preferences for species such as the red alga Hypnea pannosa and the green alga Ulva flexuosa, which together account for a significant portion of consumed biomass in choice experiments. Gut content analyses reveal that approximately 72% of algal species found in the gut are red algae (Rhodophyta), including genera like Laurencia, Hypnea, and Amphiroa, alongside lesser amounts of brown algae and diatoms, reflecting selective foraging on nutrient-dense microbial films and epiphytic communities.^[31] Foraging activity in H. asinina is predominantly nocturnal, with peak feeding occurring between 1800 and 0200 hours, during which individuals emerge to graze actively for approximately 11 hours per day. During daylight, they exhibit cryptic behavior, seeking shelter under boulders, coral fragments, or rock crevices to avoid predation, limiting movement and exposure. Consumption rates vary with food density and algal type; in laboratory assays, abalone consumed preferred algae at rates of 8–14 g fresh weight per 100 g body weight per day, equivalent to 20–35% of body weight in wet algal mass under natural conditions, with intake leveling off at higher densities to prevent overconsumption.^[31]^[32] The nutritional ecology of H. asinina is closely tied to its algal diet, which provides essential macronutrients and minerals; for instance, preferred species like Hypnea deliver approximately 69 mg protein per 100 g body weight daily, supporting metabolic demands despite limitations in amino acids such as methionine. Algae also supply calcium and other ions critical for shell biomineralization, enabling continuous growth of the aragonite-calcite nacreous structure, while selective grazing on protein- and carbohydrate-rich biofilms enhances digestive efficiency. As herbivores directly consuming primary producers, H. asinina occupies the trophic position of a primary consumer in Indo-Pacific coral reef ecosystems, influencing algal community dynamics through grazing pressure.^[31]^[32]^[33]

Reproduction and life cycle

Haliotis asinina is gonochoristic, with separate sexes and a sex ratio close to 1:1.^[34] Reproduction occurs via broadcast spawning, where males and females release gametes into the water column.^[35] Spawning is year-round but peaks from August to November in regions like southern Lombok, Indonesia, triggered by rising water temperatures, calm sea conditions, increased sunshine hours, and lunar cycles around new and full moons.^[34] Gonadal development is synchronous between sexes, with maturity reached at a shell length of approximately 35-60 mm.^[36]^[34] The life cycle begins with external fertilization, producing trochophore larvae that develop into veliger larvae within hours. The planktonic development phase lasts 2-4 days depending on water temperature (shorter at higher temperatures of 28-32°C), after which competent veligers settle onto suitable substrates such as benthic diatoms.^[37] Settlement is followed by rapid metamorphosis to post-larvae, involving shedding of the velum, shell formation, and development of structures like the mouth, radula, and digestive organs within the first few days.^[37] Post-larval stages show progressive organ development, with the heart visible by day 4 and the first respiratory pore forming between days 24-30.^[37] Juvenile growth is among the fastest recorded for abalone species, with individuals reaching sexual maturity in about one year at shell lengths of 35-60 mm. Shell growth rates in juveniles can reach up to 50 mm per year, allowing commercial sizes of around 60 mm within the first year under optimal conditions.^[38] Adults have a lifespan of 5-10 years, with females exhibiting high fecundity, producing 200,000 to 2 million eggs per spawning event, often occurring fortnightly during peak seasons.^[36]

Conservation

Status

Haliotis asinina is classified as Least Concern (LC) on the IUCN Red List (assessed 19 September 2020).^[3] A global assessment of all Haliotis species conducted in 2024, using standard IUCN criteria, reaffirmed this status, evaluating extinction risk and placing it among nine small- to medium-sized tropical species not at high risk due to wide distribution.^[4] The official IUCN assessment notes a decreasing population trend driven by regional overexploitation in some areas. However, the 2024 study suggests overall stability, supported by the species' extensive geographic range and unexploited subpopulations that offset localized pressures, with no evidence of global population collapse exceeding 30% over three generations or meeting decline thresholds under IUCN Criterion A or B.^[4]^[3] Regionally, H. asinina benefits from incidental protection within various marine protected areas (MPAs), including Australian marine parks where exploitation is low and enforcement aids recovery. Conservation efforts include stock enhancement programs, aquaculture initiatives, and protection in MPAs, particularly in the Philippines and Indonesia, to support wild populations, though no dedicated global or species-specific measures are in place.^[3]

Threats

Haliotis asinina populations face significant pressure from overharvesting, primarily for human consumption and the ornamental shell trade, leading to substantial declines in wild stocks across its Indo-West Pacific range. In the Philippines, a key harvesting area, annual production peaked at approximately 448 metric tons in 1996 but has since fallen to around 300 metric tons as of 2012, reflecting intense exploitation without adequate management.^[39]^[40] Destructive fishing techniques, such as prying apart corals and the use of cyanide or blast fishing, further exacerbate this threat by damaging the shallow reef habitats where the species shelters, resulting in long-term habitat loss. Habitat degradation from coastal development and increased sedimentation also poses risks to H. asinina, as these activities smother settlement substrates and reduce water quality in intertidal and subtidal zones. In Southeast Asia, rapid urbanization and land-based pollution contribute to sediment loads that disrupt larval recruitment and juvenile survival on coralline algae-covered rocks. Additionally, poaching remains a concern in regions like the Philippines and Indonesia, where weak enforcement in marine protected areas allows illegal harvesting to persist, further depleting local populations.^[4] Climate change compounds these anthropogenic threats through ocean acidification and warming, which impair early life stages and food availability. Reduced seawater pH inhibits larval settlement and survival in H. asinina, with studies showing hatching rates and normality dropping sharply at pH levels below 7.8; for instance, survival falls to near zero at a pH reduction of 0.6 units from ambient conditions (pH ~8.0).^[41] Ocean warming, including marine heatwaves, alters the distribution and productivity of macroalgal food sources like red and green algae, potentially limiting foraging opportunities and growth in tropical habitats. Pollution from coastal runoff and anti-fouling agents adds to these stressors by contaminating feeding grounds, while competition from invasive or overabundant species, such as sea urchins, intensifies resource scarcity in degraded reefs.^[4] Despite these risks, H. asinina exhibits some resilience due to its relatively fast growth rate compared to temperate abalone species, enabling quicker population recovery in less pressured areas. However, ongoing threats could lead to localized extinctions in heavily exploited reef systems, particularly if habitat restoration and fisheries controls are not implemented.^[4]

Human uses

Fisheries

Haliotis asinina is harvested primarily through small-scale artisanal fisheries in Southeast Asia, where local fishers employ hand-collection methods in intertidal and shallow subtidal zones, often by overturning rocks and coral colonies during low tide or using free-diving techniques.^[42] These practices are prevalent in the Philippines and Indonesia, supporting marginal communities with low-technology approaches that target specimens reaching 70-75 mm in shell length.^[17] In Australia, where the species occurs in northern tropical waters, H. asinina is primarily subject to aquaculture research and trials rather than commercial wild harvest.^[43] The economic value of H. asinina derives mainly from its flesh, which is consumed locally for its high protein content—approximately 20 grams per 100 grams—and nutritional benefits including omega-3 and omega-6 fatty acids, making it a valued protein source in coastal diets.^[44] Shells, prized for their iridescent mother-of-pearl, are utilized in traditional crafts, jewelry, and ornaments, contributing to secondary income streams for harvesters in Southeast Asia.^[45] Annual wild catches in the Philippines, a key producer, have been approximately 300 metric tons annually since the mid-1990s, with ongoing declines attributed to overexploitation (as of 2020 data), though exact figures vary by locality and year.^[11] More recent production data (post-2021) is limited, but declines continue due to overexploitation. Culturally, H. asinina holds significance as a traditional food in the Philippines, known locally as "sobra-sobra" or "kapinan," and in Indonesia, where it features in coastal cuisines and supports customary gathering practices among indigenous fishers.^[46] These uses underscore its role in local economies and heritage, distinct from larger-scale commercial abalone trades elsewhere.^[47]

Aquaculture

Aquaculture of Haliotis asinina, commonly known as the donkey's ear abalone, primarily occurs in Southeast Asia, leveraging its rapid growth in tropical conditions. Farming methods include land-based hatcheries for seed production and grow-out systems such as cage culture and integrated multi-trophic aquaculture (IMTA). In hatcheries, broodstock are maintained in flow-through tanks with sand-filtered seawater and fed red algae like Gracilariopsis heteroclada at 5-10% of body weight daily; spawning is induced in large tanks with a 4:1 female-to-male ratio, followed by larval rearing in settlement tanks stocked at 250,000-300,000 larvae per ton using diatom feeds and corrugated plates for settlement, yielding juveniles of 10-15 mm shell length after 90 days.^[40] Grow-out often employs suspended mesh cages in coastal waters or tanks, where juveniles (25-30 mm) are stocked at densities of 75-113 individuals per square meter of shelter surface area and fed excess Gracilariopsis weekly, achieving daily growth rates of 132 μm in shell length and 188 mg in body weight.^[48] IMTA systems integrate abalone cages with seaweed cultivation, such as Gracilaria heteroclada and Eucheuma denticulatum, on floating platforms; abalone juveniles (initially 17 mm shell length) reach marketable sizes of 53.8 mm and 37.8 g in 12 months while seaweeds biofilter waste, reducing nitrate and ammonia levels without significant water quality impacts.^[49] This rapid life cycle, with sexual maturity in one year, supports efficient production cycles.^[50] Production is centered in the Philippines and Indonesia, where H. asinina aquaculture addresses demand for this gourmet species while relieving pressure on wild stocks. In the Philippines, hatchery and grow-out operations have enabled exports of approximately 300 metric tons annually, valued at US$1.5 million as of 2012, with juveniles reaching marketable sizes (50-60 mm shell length) in about one year under optimal feeding.^[40] Indonesia targeted at least 1 billion seeds annually by 2023 for H. asinina and related species to bolster farming, though actual achievement and tonnage remain emerging as of 2025 and contribute to regional output.^[51] Global aquaculture production for H. asinina is modest compared to temperate abalone species, estimated in the low hundreds of tons yearly, emphasizing its role in tropical markets. More recent production data (post-2021) is limited, but global abalone aquaculture continues to grow, with H. asinina contributing modestly in tropical regions. Advantages of H. asinina aquaculture include its suitability for tropical environments due to fast growth rates exceeding 40 mm per year, allowing harvest at smaller "cocktail" sizes (50-60 mm) in 12-18 months, which reduces culture duration and costs compared to slower-growing species.^[17] Recent genetic advancements, such as the 2024 chromosome-scale genome assembly (1.14 Gb across 16 pseudo-chromosomes with 25,422 protein-coding genes), provide a reference for breeding programs to enhance traits like growth and disease resistance, supporting sustainable intensification.^[2] Challenges persist, including disease susceptibility—particularly to bacterial pathogens like Vibrio harveyi, which causes high mortalities in intensive systems—and reliance on wild collection for seed supply due to inconsistent hatchery yields, limiting scalability.^[52]^[51] These issues underscore the need for improved biosecurity and hatchery technologies to ensure reliable production.

References

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Haliotis asinina, Donkey's ear abalone : fisheries - SeaLifeBase
Actively collected in the Southeast Asian countries, for its shell and large fleshy animal (Ref. 349). Found in intertidal, on corals (Refs. 75835, 128042).
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Chromosome-scale genome assembly of the tropical abalone ...
Sep 12, 2024 · The Donkey's ear abalone, Haliotis asinina (Linnaeus, 1758), is the largest of the tropical abalone species. It is also the fastest-growing ...
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**Summary of IUCN Assessment for Haliotis asinina:**
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Full article: The complete mitogenome of Haliotis asinina ...
Haliotis asinina (Linnaeus Citation1758) is a tropical abalone species, commonly known as the Donkey's Ear Abalone and mainly found within intertidal coral reef ...
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World Register of Marine Species - Haliotis asinina Linnaeus, 1758
Biota · Animalia (Kingdom) · Mollusca (Phylum) · Gastropoda (Class) · Vetigastropoda (Subclass) · Lepetellida (Order) · Haliotoidea (Superfamily) · Haliotidae (Family) ...
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Haliotis Linnaeus, 1758 · Biota · Animalia (Kingdom) · Mollusca (Phylum) · Gastropoda (Class) · Vetigastropoda (Subclass) · Lepetellida (Order) · Haliotoidea ( ...
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Whole-Genome Analysis of Abalone Reveals Phylogenetic ...
asinina) was clearly placed at the base of the abalone phylogenetic tree and separated from other temperate abalone branches early. This is consistent with the ...<|control11|><|separator|>
[8]
Pleistocene isolation and recent gene flow in Haliotis asinina, an ...
Haliotis asinina is a broadcast-spawning mollusc that inhabits Indo-Pacific coral reefs. This tropical abalone develops through a nonfeeding larval stage ...Missing: placement | Show results with:placement
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### Summary for Haliotis asinina
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Word History. Etymology. New Latin, from hali- + Greek ōt-, ous ear ...
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Sep 19, 2020 · Justification: This medium sized commercially fished species is found in the western Indo-Pacific where it occurs in.
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Haliotis asinina
It has the fastest recorded wild growth rate of all the abalones and can grow to a maximum shell length of 111mm but this can vary with geographical location ( ...
[13]
The ass's ear abalone, Haliotis asinina - ResearchGate
... Haliotis asinina Linné | The abalone, Haliotis asinina, is a large, highly ... The animals (mean weight 151 g, range 83 – 200 g) were held at the Heron ...
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[PDF] Master thesis - University of Glasgow
Shell morphology ... Figure 1.6 The shell of Haliotis asinina ... aperture infill is parallel to shell exterior and that of shell is perpendicular to the shell.
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Ass's ear abalone Haliotis asinina Linnaeus, 1758 - BioLib.cz
Haliotis asinina - Ass's ear abalone. Author: Jan ... IUCN Red List of Threatened Species [http://www.iucnredlist.org/] [as Haliotis asinina Linnaeus, 1758]<|separator|>
[16]
Shells Used in Craft and Decoration
: Haliotis asinina. Also known as ass's ear, the name is based on the long ... Shades of light pink and green create distinguishing iridescence of donkey ear's ...
[17]
Haliotis asinina (donkey ear abalone) | CABI Compendium
Like all other abalone, Haliotis asinina is a member of a large molluscan class, the Gastropoda which are characterized by having single-piece shells.
[18]
Characterization of mucus‐associated proteins from abalone ...
Nov 29, 2011 · Like other abalone, H. asinina has three types of tentacle: the cephalic and optic appendages, and numerous peripheral epipodial tentacles on ...
[19]
(PDF) The Pallial Organs of Haliotis Asinina Linnaeus (Gastropoda
The pallial organs of Haliotis asinina are composed of gills, osphradium, hypobranchial gland, kidney and heart. The bipectinate paired gills are on the left ...
[20]
[PDF] Growth and Survival of Abalone, Haliotis asinina Linnaeus ... - ThaiJo
Abalone is the common name given to the genus Haliotis, which ... Studies on the reproductive biology of the Donkey's ear abalone, Haliotis asinina. Linné.Missing: nomenclature etymology
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Radula development in abalone Haliotis discus hannai from larva to ...
Dec 21, 2001 · ABSTRACT: The radula morphology of Haliotis discus hannai was examined by scanning electron microscope from the larval to the adult stage.Missing: system | Show results with:system
[22]
Classification of Germ Cells, Reproductive Cycle and Maturation of ...
Aug 7, 2025 · Germ cells in the gonads of Haliotis asinina, a species of abalone found along the coast of Thailand, were classified basing on light and ...
[23]
Classification of neurosecretory cells, neurons, and neuroglia in the ...
The gross anatomical study of the nervous system of Haliotis asinina reveals that it comprises a pair of cerebral ganglia, a buccal ganglion, a pleuropedal ...
[24]
Distribution of Gaba in the Nerve Ganglia of Haliotis asinina Linnaeus
Apr 1, 2013 · This study aimed to explore the distribution of GABA within neural tissues of Haliotis asinina. Gamma-aminobutyric acid was found in neuronal ...
[25]
Energy metabolism in the tropical abalone, Haliotis asinina Linné
Metabolic profiles of foot and adductor muscles of H. asinina are similar to those of other abalone. Common features are low activities of enzymes unique to ...
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Haliotis asinina Linnaeus, 1758 - National Parks Board (NParks)
Haliotis asinina Linnaeus, 1758. Family Name: Haliotidae. Taxonomic Group ... Widely distributed throughout the Indo-West Pacific. Conservation. Trends ...
[28]
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Dec 23, 2024 · Using IUCN Red List methodology, we assessed the extinction risk to all 54 species of abalone (genus Haliotis).
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Recently, we have documented the induction response of larvae of the tropical abalone, Haliotis asinina, to a range of coralline algae species collected from ...
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Feeding Preferences and the Nutritional Value of Tropical Algae for ...
Jun 14, 2012 · Haliotis asinina had a distinct feeding preferences hierarchy amongst commonly available algae from shallow pan-tropical Indo-Pacific reefs. In ...Missing: habitat | Show results with:habitat
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[33]
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Abalone need protein, lipids, vitamins, and minerals. Wild abalone are herbivorous, while cultured abalone are omnivorous. Knowledge gaps exist regarding ...Missing: algae | Show results with:algae
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reproductive aspects of the tropical abalone, haliotis asinina, from ...
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[35]
Reproduction - ScienceDirect.com
When immature, the gonad is generally a brownish color, but it turns green in females and cream-white in males as they mature. Most species become mature at ...
[36]
None
### Summary of Fecundity, Spawning Behavior, Condition Factor, and Reproductive Biology for Haliotis asinina
[37]
Larval development in Haliotis asinina Linnaeus | Request PDF
Aug 9, 2025 · The larvae had 42 stages of development. The time-period of larval development depended on the water temperature: it was 65, 49, 41 and 41 h at ...Missing: span | Show results with:span
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[40]
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Dec 23, 2024 · Using IUCN Red List methodology, we assessed the extinction risk to all 54 species of abalone (genus Haliotis).
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[PDF] thE CollaPSE oF doNkEy'S Ear aBaloNE (haliotis asinina) FiShEry ...
harvesting techniques. There are three main gathering techniques used by the locals. The first technique is by over-turning rocks and massive coral colonies.Missing: divers | Show results with:divers
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[PDF] Abalone aquaculture in Western Australia : Policy guideline.
All abalone hatcheries will be required to install coarse filtration, sedimentation traps, settling ponds or some other mechanism approved by the Executive ...Missing: limit | Show results with:limit
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Abalone, Rich in Nutrients and Having High Economic Value - RRI
Sep 4, 2025 · He revealed that abalone is high in protein, containing around 20 grams per 100 grams of meat and Omega-3 and Omega-6 fatty acids, which are ...
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(PDF) An Overview of the Indonesian Abalone Industry: Production ...
Abalone health and disease management is crucial to Indonesia's abalone industry's success. Many diseases affect abalone, especially H. asinina and Haliotis s ...
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Market structure of abalone (Haliotis asinina) in Southeast Sulawesi ...
Market structure was identified through assessment of the nature of competition based on the number of buyers and sellers, product differentiation, and entry ...
[46]
[PDF] Gendered Spaces in Abalone Fisheries in the Philippines
Haliotis asinina is the most abundant species accounting to. 91.3% of total volume of abalone collected from the wild. Abalone is locally known as sobra- sobra ...
[47]
Farming Abalone - SEAFDEC/AQD
Abalone are herbivorous marine gastropods belonging to the genus Haliotis, meaning “sea ear.” There are 100 species worldwide with around 15 species being ...Missing: etymology | Show results with:etymology
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Grow-out culture of tropical abalone, Haliotis asinina (Linnaeus) in ...
Growth rate of the Philippine abalone, Haliotis asinina fed an artificial diet and macroalgae. Aquaculture 144: 81-89. Google Scholar. Capinpin E.C. Jr ...Missing: methods | Show results with:methods
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Development of an integrated multi-trophic aquaculture (IMTA ...
Growth rate of the Philippine abalone, Haliotis asinina fed an artificial diet and macroalgae. Aquaculture, 144 (1–3) (1996), pp. 81-89. View PDFView article ...
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Heritability estimates for growth in the tropical abalone Haliotis ...
Sep 3, 2021 · H. asinina has the fastest recorded natural growth rate of any abalone and reaches sexual maturity within one year.
[51]
[PDF] Prevailing Knowledge on Aquaculture of Abalone in Southeast Asia
Jan 28, 2025 · Haliotis asinina, a donkey's ear abalone, is a native species in Thailand, Indonesia,. Malaysia, Vietnam, and the Philippines. It is a ...<|control11|><|separator|>
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Bacterial Diseases of Abalone
For example, Kua et al. (2011) determined that mortalities associated with severe enteritis among farmed Haliotis asinina in Malaysia was attributed to systemic ...