Fact-checked by Grok 2 weeks ago

Pinctada maxima

Pinctada maxima, commonly known as the silver-lip or gold-lip pearl oyster, is a large bivalve mollusk in the family , renowned for producing the highly valued South Sea pearls. It features a thick, subcircular shell reaching up to 30 cm in diameter, with a fawn-colored exterior adorned by concentric scales and spines, and a lustrous nacreous interior that is silvery with a distinctive golden border along the margin. This species is a broadcast-spawning with a complex , including a pelagic larval stage lasting 3–4 weeks, during which larvae settle using byssal threads onto hard substrates. Native to the tropical Indo-West Pacific, P. maxima ranges from eastward to the and , extending northward to and southward to , including and . It inhabits benthic environments in depths of 0–60 m (commonly 5–30 m), thriving on diverse substrates such as , , , beds, and structures, often in association with sponges, soft corals, or whip corals. As a filter-feeder, it forms dense colonies by attaching to hard surfaces, particularly in its juvenile phase, and prefers flat, areas with sparse filter-feeding communities for optimal growth. Off regions like in , populations are predominantly found at depths less than 40 m, with rarer occurrences up to 76 m. Economically significant, P. maxima is the primary species cultivated for pearl production in the , yielding large, lustrous pearls typically 9–20 mm in diameter, in shades from white and cream to hues depending on the oyster's color variation. These South Sea pearls are prized for their thick and exceptional quality, with major farming operations in , , and the relying on wild-caught or hatchery-reared stocks managed sustainably. The oyster's shell, known as mother-of-pearl, has also been historically used in artifacts and trade across the region. Conservation efforts focus on and habitat protection to support ongoing fisheries amid environmental pressures like .

Taxonomy

Classification

Pinctada maxima is classified in the domain Eukarya, kingdom Animalia, phylum Mollusca, class Bivalvia, subclass Autobranchia, infraclass Pteriomorphia, order Ostreida, superfamily Pterioidea, family Pteriidae, genus Pinctada, and species P. maxima. The species was first described by H. L. Jameson in 1901 in his revision of the subgenus Margaritifera within the pearl oysters. The genus encompasses several of marine bivalves known for their capacity to secrete , an iridescent material composed of platelets that forms the inner shell layer and is the basis for pearl production. is particularly notable within this genus alongside species like Pinctada margaritifera, sharing evolutionary adaptations such as a thin outer shell and byssal attachment that enable attachment to substrates in tropical waters.

Etymology and Synonyms

The genus name Pinctada originates from the term "pintade," meaning guinea fowl, a to the coloration of the shells, as first suggested by Antoine-Joseph Dézallier d'Argenville in his 1742 work La Conchyliologie. The name was formally established for the by Peter Friedrich Röding in 1798. The epithet maxima derives from Latin, meaning "largest" or "greatest," alluding to Pinctada maxima being the largest within the , capable of reaching diameters up to 30 cm (300 mm). Over time, the of Pinctada maxima has evolved, with several historical s reflecting earlier classifications. These include Pteria (Margaritifera) maxima Jameson, 1901; Meleagrina maxima (Jameson, 1901); and Margaritifera maxima (Jameson, 1901), all of which stem from the original description by Jameson based on specimens from the . Additionally, Pinctada anomioides Reeve, 1857 has been proposed as a senior by some taxonomists, such as Huber in 2010, though this view is not widely accepted. As of 2025, P. maxima remains the valid name in most contemporary classifications, maintained for nomenclatural stability due to its commercial importance.

Description

Physical Characteristics

Pinctada maxima is recognized as the largest species within the genus , with adult specimens typically reaching diameters of 20-30 cm, and exceptional individuals recorded up to 28 cm in and 25 cm in height. The oysters can attain weights of up to 5 , reflecting their substantial and making them a prime candidate for commercial pearl and mother-of-pearl harvesting. The shell of P. maxima is thick, rounded, and equivalved, featuring an irregular surface adorned with foliated scales that contribute to its distinctive texture. The outline is prosocline with length generally equaling height, the left valve more convex than the nearly flat to weakly convex right valve, and convexity diminishing with age. Small subtriangular anterior auricles and absent or short posterior auricles are present, along with a narrow, slit-like byssal notch that becomes nearly obsolete in larger individuals exceeding 15 cm. The inner layer consists of iridescent , or mother-of-pearl, which is typically 2-3 mm thick and provides the lustrous quality essential for pearl formation. Color variations in P. maxima shells distinguish two primary morphs: the silver-lipped, characterized by white to silvery , and the gold-lipped, exhibiting yellowish to golden hues in the , particularly along the rim. These differences arise from a combination of genetic factors and environmental influences, such as water temperature and diet, which affect pigmentation during shell . The exterior shell is typically pale yellow-gray, occasionally tinged with or , and marked by dark radial rays in green or purple-brown tones, with juveniles displaying more vibrant colors like , purple-black, yellow, or creamy that often fade as the oyster matures. As a protandrous , P. maxima first attains as males at around 11 cm size, generally after 2-3 years of , with females maturing later at 17-18 cm, depending on environmental conditions and nutrition. Growth rates are relatively rapid in early stages, allowing juveniles to reach marketable sizes within a few years under optimal conditions.

Anatomical Features

The mantle tissue in Pinctada maxima is a large, thin, and folded organ that envelops the internal soft tissues, consisting of two lobes divided into marginal, pallial, central, and zones. Its epithelial cells secrete —a lustrous layer of crystals—primarily through the mantle's outer surface, enabling continuous shell growth and repair. The gills, or ctenidia, comprise two symmetrical, crescent-shaped, filamentous structures positioned between the mantle lobes, functioning in both and filter-feeding by trapping and from water currents generated by ciliary action. These gills form a W-shaped arrangement with four lamellae, capable of processing 10-25 liters of water per hour in adults to and sort food particles for . The digestive system supports this process with a slit-like leading to labial palps that further incoming material, followed by a ciliated and a containing a crystalline style—a rotating, enzyme-secreting rod that aids in breaking down —before waste passes through the intestine's descending, ascending, and rectal sections to an anal papilla. This filter-feeding adaptation is particularly suited to the oligotrophic marine habitats occupied by P. maxima. The adductor muscle is a prominent, crescent-shaped, white structure located posteriorly, serving as the primary monomyarian muscle for forcefully closing the shell valves with a rapid, ratchet-like contraction to protect the soft body. In mature specimens with shell lengths of approximately 177 mm, this muscle can weigh up to 15 g, representing about 13% of total soft tissue weight. It is notably rich in nutrients, including high levels of protein (over 92% dry weight) and omega-3 fatty acids, with docosahexaenoic acid (DHA) comprising 16–21% of total fatty acids. Sensory structures in Pinctada maxima include statocysts—small sac-like organs containing statoliths that detect and orientation for balance—and simple pallial sense organs along margin, which are pigmented and innervated to sense light and movement through associated nerves and a pallial plexus.

Habitat and Distribution

Geographic Range

Pinctada maxima is natively distributed across the Indo-West Pacific , spanning from the in the eastward through , including and the Moluccas, to in the western Pacific. Its range extends northward to and southward along the coasts of and . Populations exhibit variation in edge color, with gold-lipped oysters predominant in northern regions such as and the , and silver-lipped in southern waters. This broad distribution reflects the species' adaptation to tropical marine environments, where it inhabits coastal and areas. Significant populations of P. maxima are found in Australian waters, with the largest known beds located off and Broome in , where historical pearling activities have targeted these dense aggregations. Additional key populations occur in the between and , as well as in Philippine coastal waters, contributing to the species' prominence in regional fisheries. These areas support substantial natural stocks, often concentrated in shallow habitats suitable for larval settlement and growth. Introduced ranges for P. maxima remain limited, primarily resulting from aquaculture practices rather than natural dispersal, with occasional escapes reported in non-native regions such as parts of the central Pacific; however, no self-sustaining wild populations have been established outside its native range. Historically, the species' distribution has been influenced by ocean currents facilitating larval transport across the Indo-Australian Archipelago. Pleistocene sea-level changes further shaped its phylogeographic patterns by restricting during lowstands, promoting genetic differentiation within the native range.

Environmental Preferences

_Pinctada maxima typically occupies depths of 5 to 30 meters in shallow coastal lagoons and coral reefs, where it forms dense colonies in areas with clear water and moderate currents. This species exhibits optimal growth in waters with ranging from 30 to 35 ppt and temperatures between 25 and 30°C, conditions prevalent in its habitats. Regarding substrate preferences, P. maxima attaches via byssal threads to hard surfaces such as coral rubble and seagrass beds, favoring stable, solid seabeds that support community development. It avoids soft mud bottoms, where attachment is difficult and risks are higher, often settling near sponges, soft corals, or whip corals for protection. In natural settings, juveniles may also utilize hanging positions on or structures, similar to ropes used in . The species hosts various epibionts on its , including and sponges, which can influence integrity through or boring activities. These associations are generally commensal but may contribute to pressures. P. maxima faces predation from rays, which target larger individuals, octopuses that infiltrate enclosures, and that consume juveniles and adults in reef environments.

Reproduction and Life Cycle

Spawning Mechanisms

Pinctada maxima reaches at approximately 2-3 years of age, when individuals attain a shell length of 10-15 cm, though variations occur between wild and farmed stocks, with wild oysters maturing slightly earlier at around 110 mm dorsal-ventral length for males. The species is a protandrous , with individuals maturing first as males and transitioning to females as they age and grow larger, achieving a 1:1 at sizes exceeding 200 mm. determination is genetic, governed by molecular mechanisms involving differentially expressed genes identified through transcriptomic analyses, with no documented cases of environmental . Spawning in P. maxima is triggered by environmental cues, including a rise in seawater temperature above 28°C—typically a 2-4°C increase to 29-30°C during and early summer ( to December in the )—which synchronizes release among populations. phases and blooms further enhance spawning synchronization, as lunar cycles influence tidal patterns and nutrient that promote algal proliferation, providing nutritional cues for maturation. This employs broadcast spawning, where mature females release 20-50 million eggs into the water column per spawning event, while males simultaneously eject , often stimulated by the presence of water-borne gametes from nearby individuals. Fertilization occurs externally in the open , with and eggs mixing passively, leading to a naturally low success rate of 1-10% due to rapid dilution and dispersion of gametes in the vast marine environment. This inefficiency is exacerbated by and environmental factors, potentially resulting in Allee effects where sparse distributions further reduce reproductive output. Following successful fertilization, embryos develop into free-swimming larvae.

Developmental Stages

Following during spawning, embryos of Pinctada maxima develop into the free-swimming D-shaped veliger by around 20 hours post-fertilization at a size of about 77 μm in shell length. This veliger stage persists for approximately 3 weeks, during which the larva grows to 200–300 μm while feeding on and dispersing in the . The veliger develops an umbo by 10 days post-fertilization (shell length ~156 μm). As the larva reaches the pediveliger stage, it becomes competent to settle around day 25, using byssal threads to attach to suitable substrates such as hard surfaces or macroalgae, followed by into a spat at approximately 25 days and a size of 380–411 μm. Post-settlement, the young oysters, known as spat, remain attached via and exhibit rapid juvenile , particularly in the first year when environmental conditions are optimal, attaining a shell length of up to 5 cm by the end of this period as they develop stronger shells and begin filter-feeding more efficiently. In the wild, P. maxima individuals can achieve a lifespan of 20-30 years, with slowing after the initial years and reproductive productivity peaking between 5 and 10 years of age when oysters are mature and spawning multiple times annually.

Pearl Production

Natural Formation

The natural formation of pearls in Pinctada maxima occurs when a foreign irritant, such as a parasite, grain of sand, or other material, enters the oyster's . In response to this intrusion, epithelial cells from the migrate and proliferate around the irritant, forming a specialized structure known as the pearl sac. This sac encapsulates the foreign body, isolating it from the oyster's soft s to prevent damage. The pearl sac's inner epithelial layer, derived from , begins secreting as a defensive mechanism. Nacre deposition proceeds through the layered accumulation of conchiolin—an organic matrix composed of proteins and —and crystals, forming microscopic tablets that build concentric layers around the irritant. This process occurs gradually, at a rate of approximately 1 to 2 mm per year, resulting in pearls that are typically lustrous and spherical, though irregular shapes can form depending on the irritant's position and movement. Over several years, these layers can produce pearls up to 20 mm in diameter, with the oyster's enabling sustained from its columnar epithelial cells. Due to the random nature of irritant entry and the oyster's survival requirements, natural pearls are extremely rare, forming in approximately 1 in 10,000 P. maxima oysters. The resulting pearls exhibit a color range from white to golden hues, influenced by the of tissue, which affects pigmentation and light interference in the layers. Wild P. maxima pearls have been harvested since ancient times in regions, including the Malaysian , where they were valued for their size and luster long before modern cultivation methods.

Cultured Techniques

The cultured techniques for pearl in Pinctada maxima involve human intervention to replicate the of nacre secretion around an irritant. The primary method is , a microsurgical procedure where a skilled inserts a small piece of mantle tissue (saibo) from a donor , along with a typically sourced from the shell of Mississippi mussels ( sp.), into the of the host . This graft provides epithelial cells that form a pearl sac, initiating nacre deposition around the to create the . After , the oysters are placed in marine systems, such as longline or panel nets, for incubation in their natural . This period typically spans 2-4 years, during which the oysters secrete successive layers of , building pearl thickness and luster; shorter times yield thinner , while longer incubation enhances quality. Success rates for viable pearl formation vary, influenced by oyster health and environmental conditions, with healthy individuals capable of undergoing multiple nucleations (up to three or four operations) to produce successive pearls. Grading of harvested pearls emphasizes key attributes that determine their market value: average size of 10-20 mm in diameter, shape (with perfectly round pearls being rare and premium), luster (the reflective sheen from nacre alignment), and surface quality (minimal blemishes or pits). These factors collectively position high-grade South Sea pearls as among the most valuable in the market. Post-2020 innovations have focused on genetic selection to optimize nacre quality and disease resistance in P. maxima. Genome-wide association studies and resequencing efforts have pinpointed genetic variants linked to superior nacre deposition, pearl attributes, and resilience against pathogens like Vibrio species, facilitating marker-assisted breeding programs for sustainable aquaculture improvements.

Human Uses

Pearl Farming

Pearl farming of Pinctada maxima, the primary source of large, high-value South Sea pearls, originated from culturing techniques developed in the early and first applied commercially to this species in the , with significant adaptations and industry expansion occurring in the 1970s through joint ventures in and . technicians played a key role in establishing operations, transferring expertise in —where a spherical and piece of tissue are surgically implanted into the oyster's to initiate pearl formation—to local farms. The major production centers for P. maxima pearls are located in , particularly around Broome in , , and the , where pristine coastal lagoons provide ideal conditions for cultivation. As of 2024, accounts for approximately 45% of global South Sea pearl production, around 35%, and the 15-20%, based on recent estimates. Global annual production of these pearls is estimated at 8-10 tons as of 2024, reflecting the species' slow growth cycle and limited compared to other pearl types. Farming operations typically employ long-line systems, where oysters are suspended in mesh nets or baskets from buoyant lines anchored in shallow, nutrient-rich lagoons to optimize water flow and feeding. These setups, often spanning several hectares, allow for high-density rearing while minimizing environmental stress; alternatively, rack systems may be used in calmer inshore areas for juvenile oysters. To maintain health and growth, oysters are routinely cleaned and inspected every 4 to 16 weeks to remove organisms like and , which can impede water exchange and increase mortality risk. includes visual checks for parasites and shell damage, conducted from work boats that raise lines to the surface. The P. maxima pearl industry holds substantial economic importance, particularly in remote coastal regions, with 's exports alone valued at $160 million USD in 2023. The global South Sea pearl production sector is valued at approximately $300-400 million USD annually as of 2024, benefiting from rising demand in luxury jewelry markets in and . In , the industry directly employs several hundred workers in pearl production and farming, contributing to local economies in areas like the region through associated and processing. These activities underscore the balance between high-value output and sustainable practices to preserve stocks.

Culinary Applications

The adductor muscle of Pinctada maxima, commonly referred to as "pearl meat," serves as the primary portion, prized for its firm, scallop-like and mild, sweet flavor. This muscle, which enables the to open and close its shell, is harvested as a byproduct of pearl farming and is considered a in various cuisines. Occasionally, the gonads are incorporated into dishes, though they are less commonly consumed due to their smaller yield and stronger taste. Nutritionally, pearl meat is high in protein (approximately 18 g per 100 g), low in fat (around 2 g per 100 g), and contains omega-3 fatty acids, particularly DHA, along with vitamins A and E, and minerals such as , iron, and iodine, supporting cardiovascular health, benefits, immune function, oxygen transport, and regulation. These attributes position pearl meat as a nutrient-dense option comparable to other bivalve muscles. In culinary preparation, pearl meat is versatile and best suited to methods that preserve its tenderness, such as for a caramelized exterior, serving raw as to highlight its fresh sweetness, or simmering in soups to infuse subtle notes. It is particularly popular in as a substitute for , often thinly sliced and marinated in soy-based dressings, and in Filipino dishes where it may be stir-fried with vegetables or added to stews for added texture. These preparations emphasize its delicate nature, requiring minimal cooking to avoid toughness. Pearl meat is harvested as a byproduct of P. maxima farming in and other regions, supporting zero-waste practices by utilizing material otherwise discarded after pearl extraction. The meat yield per oyster averages around 20 g.

Conservation

Threats

Pinctada maxima populations have been significantly depleted by historical overharvesting through wild pearl diving, particularly in regions like and where natural beds were intensively exploited for mother-of-pearl and natural pearls during the 19th and early 20th centuries. This exploitation led to the near-collapse of wild stocks, prompting a shift to cultured pearl production and, in some areas, export bans to facilitate recovery; for instance, the imposed a 15-year ban on pearl oyster exports starting in 1993 due to . Current pressures from illegal and unregulated fishing persist, with reports of occasional large-scale illegal harvests and exports in the even after the ban, and similar issues affecting stocks in n waters where enforcement is challenging. Climate change poses severe risks to Pinctada maxima through and warming, which disrupt and increase mortality. impairs nacre formation by altering the physiological processes involved in shell , with transcriptome analyses revealing downregulated genes related to in response to elevated CO₂ levels. Elevated seawater temperatures during marine heatwaves exacerbate these effects, leading to , reduced metabolic performance, and mortality spikes; experimental simulations of heatwaves have shown increased death rates and diminished defenses in P. maxima. Pollution and habitat loss further endanger P. maxima, as sedimentation from coastal development smothers larvae and inhibits on substrates essential for . Ingested plastic accumulate in pearl oysters, disrupting energy balance, feeding efficiency, and overall growth, with studies on closely related demonstrating physiological impairments such as altered and reduced reproductive output. Predation by rays targets adult P. maxima, particularly in suspended culture systems where protective measures are limited, contributing to higher loss rates in vulnerable populations. bacteria pose ongoing risks to P. maxima, with detections in samples linked to rising sea temperatures that favor proliferation, though no recent mass mortalities have been reported specifically for this . The species' preference for shallow, coastal reef habitats heightens its exposure to these combined threats.

Management Efforts

Management efforts for Pinctada maxima primarily focus on sustainable harvesting, health protocols, and environmental protection to ensure the long-term viability of wild and farmed populations, particularly in key regions like . The species is managed under the Pearling Act 1990 in , which establishes a quota-based system to regulate activities across designated zones from the North West Cape to the border. Annual total allowable commercial catch (TACC) levels are set based on integrated policies, with 2024 quotas totaling approximately 1,090,895 pearl oysters (Zone 1: 54,970; Zone 2: 998,325; Zone 3: 37,600) across quota units, enforced through licensing for 15 stock licences and six active vessels. Export approval for the is valid until May 2025, with re-approval proposed until September 2034. This precautionary approach prioritizes ecological , recognizing customary while restricting non-traditional methods to protect wild stocks. In , P. maxima is designated as a national second-class protected , supporting through genetic diversity research and measures. Monitoring programs are integral to these efforts, involving annual population surveys at 30–150 sites where 3,000–5,000 oysters are measured for length-frequency and recruitment data, alongside catch tracking via tags and logbooks. The Western pearl oyster fishery is assessed annually as "sustainable–adequate" by state status reports (as of 2022–23) and "sustainable" by national evaluations, indicating low risk to ecosystems and . production of spat supports industry needs without over-relying on wild collection, contributing to stock enhancement and reducing pressure on natural populations. Health management strategies emphasize disease prevention and to mitigate risks like algal blooms, which caused high mortality in farms in 1996. Guidelines from the (FAO) recommend optimized husbandry, such as regular removal every 4–16 weeks to minimize stress, alongside strict protocols for transfers and national aquatic health strategies. In practice, farms like Cygnet Bay adhere to the Pearling Environmental Code of Conduct, achieving certification through low-density longline systems that limit benthic impacts and enhance water quality via (up to 47.1 liters per hour per large individual). Broader conservation initiatives include research support and habitat protection, such as at the Marine Research Station since 2017 and community-led replanting in the and . These efforts demonstrate bioextraction benefits, where farms remove more than they input, reducing risks while boosting local , with epibiota on structures increasing abundance by 1.7 times. Overall, these integrated measures have maintained the as the world's largest sustainably managed for P. maxima, balancing economic production with .

References

  1. [1]
    Distribution of the Pearl Oyster Pinctada maxima off Eighty Mile ...
    Sep 8, 2021 · The silver-lipped pearl oyster, Pinctada maxima, is the primary species used for the culture of pearls in the Indo-Pacific region.
  2. [2]
    Pinctada maxima, Silverlip pearl oyster : fisheries - SeaLifeBase
    Inhabits a broad range of habitat, from sand, mud, gravel, seagrass beds, deep-water reefs, to near sponges, soft corals or whip corals. Filter-feeder (Ref.
  3. [3]
    High gene flow in the silverlip pearl oyster Pinctada maxima ... - NIH
    May 31, 2022 · The silverlip pearl oyster, Pinctada maxima, is a bivalve mollusc widely distributed throughout the Indo-Pacific and is the main species ...Missing: taxonomy | Show results with:taxonomy
  4. [4]
    Pinctada maxima - an overview | ScienceDirect Topics
    Pinctada maxima is defined as a species of oyster distributed in the central Indo-Pacific region, ranging from Myanmar to the Solomon Islands, including areas ...
  5. [5]
    Internal Structures of Known Pinctada maxima Pearls: Cultured ... - GIA
    They often form as individual pearls or may be seen as additional features on the surfaces of some bead cultured (BC) pearls, sometimes known as “Tokki pearls. ...
  6. [6]
    [PDF] 691 THE ANTIQUITY OF PEARL SHELL (PINCTADA sp.) BURIAL ...
    PEARL SHELL ARTIFACTS. Pearl shell is found in tropical or subtropical waters throughout the Indo- and western Pacific. Pinctada maxima (silver or golden ...
  7. [7]
    World Register of Marine Species - Pinctada maxima (Jameson, 1901)
    Mar 9, 2010 · Pinctada maxima (Jameson, 1901) ; Animalia (Kingdom) ; Mollusca (Phylum) ; Bivalvia (Class) ; Autobranchia (Subclass) ; Pteriomorphia (Infraclass) ...Missing: habitat | Show results with:habitat
  8. [8]
    Phenome of pearl quality traits in the mollusc transplant model ...
    Feb 1, 2018 · Species from the Pinctada genus are regularly used for the production of valuable free round cultured pearls, the only gems produced by a living ...
  9. [9]
    The Genus Pinctada - Pearl-Guide.com
    Jul 18, 2014 · Pinctada oysters cluster in large, dense colonies. Sometimes they can be found in shallow water (less than 1 meter/3 feet) but thrive in 30-120 feet water.<|control11|><|separator|>
  10. [10]
    Silverlip Pearl Oyster - Pinctada maxima - Atlas of Living Australia
    Pinctada maxima (Jameson, 1901). species. Accepted. Name authority: AFD. Silverlip Pearl Oyster. Overview; Gallery; Names; Classification; Charts; Literature ...
  11. [11]
    Proclamation No. 905 - LawPhil
    Proclamation No. 905 declares the Philippine Pearl, also known as the South Sea Pearl, as the National Gem.
  12. [12]
    Philippines 1000 Peso Note
    Apr 18, 2022 · English and Filipino text; map; South Sea pearl in oyster shell (Pinctada Maxima); turtle; Tubbataha Reefs Natural Park (UNESCO World ...
  13. [13]
    [PDF] Guide for Classifying Natural Pearls and Cultured pearls - CIBJO
    One Pinctada maxima can produce one South Sea bead-cultured pearl at a time. Philippine South Sea bead-cultured pearl. Typical size: 9-16 mm, with. Gold ...
  14. [14]
    https://researchonline.jcu.edu.au/39435/
  15. [15]
    Enormous South Sea Cultured Pearl with Filled and Partially Hollow ...
    Pinctada maxima is the largest species in the Pinctada genus, typically ... The nacre thickness varied between approximately 0.50 mm to 1.00 mm. Large ...
  16. [16]
    Environment, genes and the effects of genotype by environment (G x ...
    Aug 6, 2015 · The silver-lipped pearl oyster, Pinctada maxima, is cultivated in Australia and throughout South East Asia for the production of "South Sea ...Missing: gold- | Show results with:gold-<|control11|><|separator|>
  17. [17]
    Evaluation of pearl oyster (Pinctada maxima) spawning using ...
    Wild broodstock with a shell size of 15–16 cm and 2–2.5 years of age is ready for spawning, while farmed broodstock is ready for spawning when it reaches age of.
  18. [18]
    [PDF] FRDC 1998-153 NEW.indd
    Data on reproductive dynamics, growth, natural mortality, and shell quality of large Pinctada maxima, were obtained. Size at 50% maturity for females was ...
  19. [19]
    3.2 Anatomy - Pearl Oyster Farming and Pearl Culture
    The pearl oyster is monomyarian, possessing only the posterior adductor (Fig. 3), the largest and the most important muscle in its body. The adductor muscle ...Missing: maxima sensory
  20. [20]
    Nutrient Compositions Of Adductor Muscle from the Pearl Oysters ...
    Jan 10, 2024 · Adductor muscle from Pinctada maxima and Pinctada margaritifera were analyzed for nutrient compositions. Both were characterized by ...
  21. [21]
    Class Bivalvia: The Wonders of Bivalves, Their Shells & Anatomy
    Aug 26, 2020 · Statocysts allow the animal to sense its orientation, meaning it gives the animal a sense of balance. Each statocyst consists of a small sac- ...
  22. [22]
    Pearling Timeline | Western Australian Museum
    The pearl oyster Pinctada albina was first collected by entrepreneurs at Shark Bay in 1850, but it was the 1861 discovery of the far larger Pinctada maxima ...
  23. [23]
    (PDF) Transport and recruitment of silver-lip pearl oyster larvae on ...
    Aug 9, 2025 · Results demonstrate that large tidal currents in the region move larvae back and forth across the shelf, whereas lower frequency currents ...
  24. [24]
    Phylogeography of a pearl oyster (Pinctada maxima) across the Indo ...
    Sep 27, 2018 · In P. maxima, historical vicariance during Pleistocene low sea levels is likely to have restricted planktonic larval transport, causing genetic ...
  25. [25]
    Transcriptomic Signatures of Pearl Oyster Pinctada Maxima in ...
    May 23, 2022 · Previous studies have shown that P. maxima can tolerate a wide range of salinities, and the optimal growth salinity is 30 ppt (Taylor et al., ...Missing: depth | Show results with:depth
  26. [26]
    Survival and physiological responses of pearl oyster Pinctada ...
    Jan 15, 2025 · ... dissolved oxygen levels, and the accumulation of waste products such ... The pearl oyster, Pinctada maxima, renowned for producing ...
  27. [27]
    An investigation of benthic sediments and macrofauna within pearl ...
    The gold or silver lipped pearl oyster, Pinctada maxima, forms the basis of Australia's pearl oyster culture industry located on the Kimberley coast of northern ...Missing: optimal | Show results with:optimal
  28. [28]
    Are Pearl Oysters found in deep water? - eAtlas
    Jun 9, 2020 · The Silver Lipped Oyster, Pinctada maxima, forms the basis of a historical fishery in tropical Western Australia, estimated to be worth $A61 ...
  29. [29]
    [PDF] Big Bank Shoals of the Timor Sea: an environmental resource atlas
    are unable to grow on the unconsolidated rubble. They require a harder substrate, which is provided by the coral rubble and dead coral skeletons. Sponges of ...<|separator|>
  30. [30]
    Effects of artificial and natural materials ropes as substrates for ...
    A study aimed at investigating the effects of four different materials ropes as substrates for settling and metamorphosis of tropical oyster, Pinctada maxima,.Missing: rubble seagrass
  31. [31]
    [PDF] Pearl Oyster (Pinctada maxima) Aquaculture
    Petrolisthes lamarckii 11 87. 90 phosphorus 9 y. algmolyticus 6. Photobacterium sp. 6 y. angwllarum 6. Phymodius ungulatus 11 y. harveyi 6, 7, 15. Pinnotheres ...
  32. [32]
    Growth, mortality, recruitment and sex-ratio in wild stocks of silver ...
    Aug 9, 2025 · Hart and Joll (2006) showed that at 110 mm DVM, the size when males start to mature, their age would be between 2 and 3 years. It was noticed ...
  33. [33]
    [PDF] Mother-of-pearl shell (Pinctada maxima) - DBCA Library
    Data on reproductive dynamics, growth, natural mortality, and shell quality of large Pinctada maxima, were obtained. Size at 50% maturity for females was ...
  34. [34]
    [PDF] W. A 6020 - Fisheries Research and Development Corporation
    Sep 5, 1991 · To fulfil the requirements of the industry only a small number of female broodstock are required as the eggs produced during all of our spawning ...
  35. [35]
    Deciphering the genetic basis of sex differentiation in silver-lipped ...
    Renowned for producing high-value, large, lustrous pearls commonly referred to as “South Sea” pearls, P. maxima is the largest pearl-producing oyster and is ...
  36. [36]
    The pearl oysters, Pinctada maxima and P. margaritifera, respond in ...
    Von Bertalanffy growth curve analyses showed that P. maxima grew more rapidly and to larger sizes than P. margaritifera at both sites. For the shell height (SH) ...Missing: maturity | Show results with:maturity
  37. [37]
    [PDF] Influence of plankton concentration on gametogenesis ... - Archimer
    A combination of several environmental factors have explained spawning, including thermal amplitude, phytoplankton blooms, tidal cycles and lunar phases ( ...
  38. [38]
    [PDF] WESTERN AUSTRALIAN SILVER-LIPPED PEARL OYSTER ...
    Egg production by P. maxima is high, and mature female gonads contain between 20 and 50 million eggs. Recruitment of juveniles appears to be driven primarily by.
  39. [39]
    [PDF] the status of silverlip pearl oyster pinctada maxima (jameson ...
    Exploitation may have reduced the P. maxima populations to such an extent that their fertilization success has become susceptible to Allee effects. Recent ...
  40. [40]
    https://www.sciencedirect.com/science/article/pii/S1687428514001058
  41. [41]
    Environmental influences on stock abundance and fishing power in ...
    Nov 17, 2010 · Pinctada maxima spawn in October/November and the larvae spend 3–4 weeks in the water column (Rose et al., 1990) before settling onto ...
  42. [42]
    Silverlip Pearl Oyster 2020 - Status of Australian Fish Stocks Reports
    Biology ; Silverlip Pearl Oyster, 30 years, 250 mm DVM, Males: 2–3 years, 110 mm DVM Females: 7–8 years, 175 mm DVM ...Missing: 20-30 | Show results with:20-30
  43. [43]
    Existence, growth and reproduction of pearl oyster Pinctada ...
    The maximum size of the recorded species was180 mm. Growth rates retreated with age from an average of 34.6 mm/2nd year to 3.7 mm/the 7th year. The dominant ...<|control11|><|separator|>
  44. [44]
    [PDF] Natural pearls and cultured pearls: A basic concept and its variations
    This small tissue piece, when grafted, folds back and transforms into a pearl sac. Evidences for this process are all those mantle-grown cultured pearls without ...<|separator|>
  45. [45]
    [PDF] A Look Inside A Remarkably Large Beaded South Sea Cultured Pearl
    The nacre thickness averaged 2.3 mm, and the bead measured 9.1 mm, both well within the typical ranges for South. Sea cultured pearls. It is proposed that the ...
  46. [46]
    About - Australian South Sea Pearls
    Fine quality natural pearls are extremely rare. In the wild, perhaps only 1 in 10,000 oysters will produce a natural pearl of jewellery quality. The exact cause ...
  47. [47]
    Internal Structures of Known Pinctada Maxima Pearls - ResearchGate
    Aug 6, 2025 · Surgery of pearl The two items needed to induce the formation of a cultured pearl are a piece of mantle and a nucleus. The mantle piece, taken ...
  48. [48]
    [PDF] Pearl oyster health management - FAO Knowledge Repository
    Pinctada maxima is the largest pearl oyster species (Shirai, 1994) and is consequently used to produce the largest cultured pearls (approximately 10-20 mm in ...
  49. [49]
    Pearl Quality Factors - GIA
    The qualities that determine the overall value of a natural or cultured pearl or a piece of pearl jewelry are size, shape, color, luster, surface quality, ...Missing: per | Show results with:per
  50. [50]
    Unveiling the Gem: Do Oysters Really.harbor Pearls? - Hillsdale ...
    South Sea Pearls, Large, white or golden pearls produced by the white-lipped oyster, $1,500-$20,000 per pearl. The value of a pearl is not just determined by ...
  51. [51]
    Genome-wide association study and genomic selection for growth ...
    Oct 22, 2025 · ... quality, disease resistance, and tissue weight. ... pinctada maxima: a valuable resource for gene localisation and marker-assisted selection.
  52. [52]
    Genomic selection for resistance to one pathogenic strain of Vibrio ...
    Genetic improvement of disease resistance can be an effective ... Pinctada maxima: a valuable resource for gene localisation and marker-assisted selection.
  53. [53]
    Comparative proteomics reveal the humoral immune rejection of ...
    ... nacre quality and color ... Whole-genome resequencing reveals the selection of adaptive evolution during the domestication of pearl oyster Pinctada maxima.
  54. [54]
    [PDF] the Transformation of the Cultured Pearl Industry - GIA
    Although Japanese firms started cul- turing pearls in Indonesia during the 1920s, it was not until the early 1970s that an industry took shape—again with ...
  55. [55]
    https://substack.com/home/post/p-147958153
  56. [56]
    [PDF] the Transformation of the Cultured Pearl Industry - GIA
    The skill of Japanese technicians was instrumental in establishing the South Sea cultured pearl industry in Australia. Here, the technician is preparing to ...<|separator|>
  57. [57]
    https://www.vliz.be/imisdocs/publications/364233.pdf
  58. [58]
    [PDF] Pearl oyster health management
    Pinctada maxima is the largest pearl oyster species (Shirai, 1994) and is consequently used to produce the largest cultured pearls (approximately 10-20 mm in ...<|separator|>
  59. [59]
    Pearl Industry: An Introduction - Robert WAN
    Pinctada Maxima comes with two different color varieties: the silver and ... Harvesting a pearl is the accomplishment of a totally natural process but...
  60. [60]
    [PDF] Marine Pearl Farming - The Nature Conservancy
    In Australia, the value of pearl production decreased nearly. 40%, from $190 million USD in 2000 to $71 million USD today (ABARES, 2022), largely due to.Missing: Broome annual
  61. [61]
    [PDF] Pearl oyster health management: a manual
    Since spat are more vulnerable to predation than older pearl oysters, regular monitoring is necessary to prevent predators from building up, or getting trapped ...
  62. [62]
    Pearls in Australia Trade | The Observatory of Economic Complexity
    In 2023, Australia exported a total of $160M in Pearls, primarily to Japan ($128M), Hong Kong ($11.4M), and Thailand ($6.82M).Missing: South Sea
  63. [63]
    Pearls are back in fashion—But oceans are paying the $14 billion ...
    Aug 22, 2025 · Today, the pearl jewellery market is booming, worth an estimated $13–14 billion in 2024 and projected to grow at a rapid clip of 11–14% annually ...
  64. [64]
    The South Sea Pearl Blog / pinctada maxima oyster
    Jan 4, 2022 · The South Sea pearl oyster Pinctada maxima is known to produce white, cream and golden pearls. Such pearls are cultured mainly in Australia, ...
  65. [65]
    [PDF] For personal use only - ASX
    Sep 19, 2025 · Operating across eight farming locations throughout the. South Seas, the Company employs more than 1,200 people and in 2025 harvested more than ...<|separator|>
  66. [66]
    Our Pearl Meat | Our Dining | Cygnet Bay Pearl Farm
    Pearl meat, the adductor muscle of the oyster, is a seafood delicacy with a delicate flavour and tender texture best appreciated raw, cured or lightly seared.Missing: culinary | Show results with:culinary
  67. [67]
    Pearl Meat - Paspaley Group
    It also contains vitamins A and E, as well as calcium, iron, selenium, zinc and iodine. In recent years, Pearl Meat has been adopted by some of the world's ...Missing: nutrition | Show results with:nutrition
  68. [68]
    Nutrient Compositions Of Adductor Muscle from the Pearl Oysters ...
    Dec 31, 2023 · Levels of EPA found in adductor muscle from pearl oysters were low by comparison, ranging from 1.8% to 2.5% of total fatty acids in Pinctada ...
  69. [69]
    Pearl meat appetisers recipe | SBS Food
    May 23, 2019 · Ingredients · 4–5 Pinctada maxima pearl oysters, meat removed · 80 ml (⅓ cup) dark soy sauce · 1 tbsp raw sugar · 2 tsp finely chopped garlic · 2 tsp ...
  70. [70]
    How Pearl Meat Became Australia's Newest Luxury Ingredient
    Jun 24, 2022 · “It can be flash-fried, braised, made into sashimi or ceviche.” This versatility is showcased at the annual Shinju Matsuri festival of the pearl ...Missing: culinary | Show results with:culinary
  71. [71]
    [PDF] 1.2 Overview of the cultured marine pearl industry
    Pinctada margaritifera has a wide geographical distribution from the Red Sea and east. Africa to eastern Polynesia. Despite its vast range, this species is used ...
  72. [72]
    Natural Pearls from Australian Pinctada Maxima - ResearchGate
    Oct 24, 2025 · Due to overharvesting of natural oyster beds around the world, pearl industry shifted from natural pearl fishing to cultured pearl farming ...
  73. [73]
    (PDF) The Status of Silverlip Pearl Oyster Pinctada maxima ...
    ... pearl oysters. have occasionally been made since the ban and the shell sold to. illegal exporters. This was confirmed by the Solomon Island. Ministry of ...
  74. [74]
    Transcriptome and biomineralization responses of the pearl oyster ...
    Jan 6, 2016 · In this study, the transcriptome and biomineralization responses of Pinctada fucata to elevated CO 2 (pH 7.8 and pH 7.5) and temperature (25 °C and 31 °C) are ...
  75. [75]
    Impacts of marine heatwaves on pearl oysters are alleviated ...
    When exposed to repeatedly-occurring MHWs scenarios, mortality rates of pearl oysters increased slightly, and thermal stress responses were alleviated.
  76. [76]
    Effects of different substrates on settlement and growth of pearl ...
    Similar to other marine bivalve species, pearl oyster Pinctada maxima is characterized by a dispersed larval stage in its life history. P. maxima larvae use ...
  77. [77]
    Microplastics Affect Energy Balance and Gametogenesis ... - PubMed
    May 1, 2018 · To evaluate the impact of MP on the physiology of Pinctada margaritifera, a species of ecological and commercial interests, adult oysters were ...
  78. [78]
    [PDF] FRDC Final Report Design Standard
    Mar 13, 2024 · Vibrio spp. disease outbreaks with rising sea temperature (Froelich and Daines, 2020; Logar-. Henderson et al., 2019; Semenza et al., 2017) ...
  79. [79]
    [PDF] Assessment of the Western Australian Pearl Oyster Fishery - DCCEEW
    The SCPUE is the mean annual number of Pearl oysters of this size class caught per hour within Zone 2/3 of the fishery.
  80. [80]
    [PDF] Pearl Oyster (Pinctada maxima) Resource Allocation Report
    An assessment of the environmental impact of wild harvest pearl aquaculture (Pinctada maxima) in Western Australia. Journal of. Shellfish Research, Vol. 25 ...
  81. [81]
    [PDF] AN OVERVIEW OF THE METHOD, MANAGEMENT, PROBLEM AND ...
    Oyster diseases have the potential to affect productivity. Pearl oyster P.maxima suffered high mortality in Australia in 1996 due to the bloom of algae ...<|control11|><|separator|>
  82. [82]
    [PDF] Pearl oyster health management
    This paper was prepared under the technical supervision of Dr Melba G. Bondad. Reantaso, Fishery Resources Officer, Aquaculture Management and Conservation.