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Bream

Bream is a common name for various species of freshwater and marine fish, primarily from the families Cyprinidae (carp family) and Sparidae (porgy family), typically featuring deep, laterally compressed bodies, high backs, and silvery or bronze scales that make them popular targets for anglers and as food fish. In Europe, the term most often refers to the common bream (Abramis brama), a freshwater cyprinid species native to slow-flowing rivers, lowland lakes, and ponds across central and northern regions, where it forms large shoals and feeds on bottom-dwelling invertebrates, plant matter, and small fish using its down-turned mouth. This species, which can grow up to 82 cm in length and weigh over 9 kg, is highly valued in recreational fishing for its fighting ability and mild-flavored flesh. Marine breams, such as the gilthead sea bream (Sparus aurata), inhabit coastal and estuarine waters in the Mediterranean and Atlantic, preferring warm, euryhaline environments and serving as a key commercial species in aquaculture and wild fisheries due to their rapid growth and high market demand. In , particularly the , "bream" commonly denotes from the family (), including the ( macrochirus), which thrives in lakes, ponds, and riverine habitats below dams, often nesting in shallow, vegetated areas and providing essential forage for larger predatory fish. These species are ecologically significant for maintaining aquatic food webs, controlling insect populations, and supporting , while also being a staple in introductory due to their abundance and ease of catch. Overall, bream species play vital roles in both freshwater and marine ecosystems as mid-level consumers, contributing to nutrient cycling and serving as indicators of in their respective habitats.

Taxonomy and classification

Freshwater breams

Freshwater breams refer to a group of fish species primarily belonging to the family , known as the or family, which encompasses over 3,000 species of mostly freshwater fishes distributed across , , and . Within this family, freshwater breams are typically associated with genera such as Abramis, Blicca, Ballerus, and Megalobrama, reflecting their shared morphological and ecological traits adapted to lentic and lotic freshwater environments. These taxa are part of the order , a diverse group characterized by and lack of stomach, with Cyprinidae representing the largest family in the order. The , Abramis brama (Linnaeus, 1758), serves as the for the Abramis and is a quintessential representative of freshwater breams. Originally described by in the 10th edition of Systema Naturae under the binomial Cyprinus brama, its type locality is in lakes, though the species' native range extends across much of —from the Atlantic coast to the basin—and into western , including rivers like the , , and Ob. This species is predominantly freshwater-oriented in its populations, with such as A. b. orientalis recognized in Asian drainages based on morphological distinctions. Genetic analyses have affirmed its placement within the subfamily Leuciscinae, supporting its close relation to other Eurasian cyprinids. In , particularly the and , the term "bream" is commonly applied to species from the family (sunfishes), which includes about 38 species native exclusively to freshwater habitats in the continent. Key examples include the ( macrochirus), redear sunfish ( microlophus), and other species, which are part of the order (now in Centrarchiformes in some classifications). These are unrelated to the Eurasian cyprinid breams but share the vernacular name due to similar body shapes and appeal. The family is characterized by spiny-rayed fins and is ecologically important in North American waters. Other notable freshwater bream species include the silver bream (Blicca bjoerkna (Linnaeus, 1758)), a smaller cyprinid endemic to and western Asia, often found in sympatry with A. brama; the white-eye bream (Ballerus sapa (Pallas, 1814)), native to the , , and basins and sometimes reclassified under Abramis in older literature due to morphological similarities, though molecular data supports its distinct genus within ; the blue bream (Ballerus ballerus (Linnaeus, 1758)), distributed across ; and the bream or blunt snout bream (Megalobrama amblycephala Richardson, 1846), an East Asian species native to the River basin, valued in and placed in the subfamily Cultrinae. These species highlight the diversity within freshwater breams, all unified under but varying in size, distribution, and subtle anatomical features like pharyngeal bone structure. The taxonomic history of freshwater breams reflects ongoing refinements driven by morphological and genetic . Initially classified broadly under by Linnaeus and contemporaries, subsequent revisions in the 19th and 20th centuries delineated genera like Ballerus and Blicca based on fin ray counts and body proportions. Modern phylogenetic studies, utilizing such as and nuclear markers, have confirmed the monophyly of while demonstrating that the vernacular term "bream" is polyphyletic, as it loosely applies to convergent forms across distantly related lineages within the family and beyond—such as unrelated marine species in the family , which share the name but differ in evolutionary origins, and the North American sunfishes in . Seminal works, including comprehensive phylogenies of , underscore these relationships, with high-impact analyses resolving ambiguities in genera like Abramis through multi-locus approaches.

Marine breams

Marine breams, unlike the freshwater breams of the family , comprise a polyphyletic group of marine fishes primarily classified within the family (sea breams or porgies) and occasionally the family Bramidae (pomfrets). The family , part of the order Spariformes, includes over 150 species distributed across tropical to temperate marine waters, with evolutionary origins tracing to two main centers: the eastern Indian Ocean-western Pacific and the western Indian Ocean-Mediterranean-Atlantic regions. These fishes are characterized by their deep, compressed bodies and are notable for their commercial and ecological significance in coastal ecosystems. Prominent species in include the (Sparus aurata), formally described by in 1758, which has been a focal point of due to its value, with records of its dating back to ancient Roman times in coastal lagoons and ponds. Other key examples are the red sea bream (Pagrus major), described by Temminck and Schlegel in 1843, native to the northwestern Pacific, and the black sea bream (Spondyliosoma cantharus), described by Linnaeus in 1758, found in the eastern Atlantic and Mediterranean. In the family Bramidae, species sometimes referred to as sea breams include the Atlantic pomfret (Brama brama), a deep-sea inhabitant described by Bonnaterre in 1788, distinguished by its compressed body and pelagic lifestyle. This usage highlights the non-monophyletic application of the term "bream" across distantly related perciform families.

Physical characteristics

Body morphology

Bream species generally possess a deep-bodied and laterally compressed form, characterized by a high dorsal profile that differentiates them from slimmer cyprinids such as . This facilitates maneuverability in dense aquatic vegetation and enhances stability during schooling. Key anatomical features include large scales covering the body, a semi-inferior adapted for feeding, particularly in freshwater species, and robust adapted for grinding vegetation and small in freshwater species. The is typically placed posteriorly, with the anal fin base approximately twice as long as the dorsal in , contributing to balanced propulsion. In breams of the family, fins are reinforced with prominent spines that serve a defensive function against predators by deterring gape-limited attacks. Morphological variations occur between freshwater and marine breams; for instance, the freshwater (Abramis brama) displays a more rounded profile overall. In contrast, the marine gilthead sea bream (Sparus aurata) develops a prominent hump in adults, accentuating the steep upper head profile. Specific adaptations include counts of 17-25 in the common bream, enabling efficient filter feeding on via elongated rakers that trap particles with . Most bream species feature 50-60 scales along the , aiding in sensory detection of water movements and prey. These traits vary slightly across but underscore the family's for diverse strategies.

North American bream

In , "bream" refers to small, deep-bodied from the family, such as the (Lepomis macrochirus). These species have a laterally compressed body with a high profile, small terminal mouth, and spiny . The body is covered in scales, with 38-42 along the . Gill rakers are short and numerous (18-23 on the first arch), suited for feeding on and . Unlike freshwater breams, they lack for grinding vegetation and instead have specialized gill arches for particulate feeding.

Size and coloration

Bream species display considerable variation in size, with typical adult lengths ranging from 30 to 70 cm and weights from 1 to 4 kg, though exceptional individuals can exceed these dimensions. The common bream (Abramis brama), a representative freshwater species, commonly attains 30 to 55 cm in length and 2 to 3 kg in weight, but maximum recorded lengths reach 82 cm total length, with a maximum published weight of 9.75 kg. In contrast, the gilt-head bream (Sparus aurata), a prominent marine species in the family Sparidae, typically measures 35 cm in standard length but can grow to a maximum of 70 cm total length and 17.2 kg. North American bream like the bluegill typically reach 15-20 cm in length and 0.1-0.5 kg, with a maximum of 41 cm total length and 2.2 kg. Coloration in bream varies distinctly between freshwater and marine forms, often reflecting adaptations to their environments. Freshwater breams such as Abramis brama exhibit an olive-green to bronze dorsal coloration, with silvery flanks and greyish to black fins lacking any reddish tint. Marine sea breams tend toward brighter hues; for instance, Sparus aurata features a silvery-grey accented by a golden- band on the forehead and operculum, occasionally with dark vertical bars on the sides. Similarly, the bream (Pagrus major) displays a pinkish-red with scattered bluish spots and darker markings, enhancing its visual distinction in coastal waters. North American bream have a bluish-green back, to orange belly, and a distinctive on the operculum, with dark vertical bars on the sides in juveniles that fade in adults. Growth patterns influence size attainment, with reaching at 3 to 5 years of age, after which growth slows but continues incrementally. is evident in many bream species, particularly within the family, where females generally achieve larger sizes than males due to extended growth periods post-maturity. These traits contribute to the deep-bodied proportions characteristic of bream , where larger sizes amplify the laterally compressed form.

Habitat and distribution

Freshwater environments

In , particularly the , "bream" refers to various species from the sunfish family (Centrarchidae), such as the (Lepomis macrochirus). These fish inhabit streams, rivers, lakes, ponds, wetlands, and slow-moving waters east of the , from to , with introductions extending their range westward. They prefer vegetated shallows, calm pools, and areas with structure like submerged vegetation or woody debris, often below dams in riverine systems. Freshwater bream species, such as the Abramis brama, primarily inhabit slow-moving rivers, lakes, canals, and backwaters characterized by vegetated shallows and soft substrates. These environments provide ample opportunities among aquatic vegetation and , with the particularly thriving in eutrophic waters featuring muddy or bottoms that support high densities of benthic . In such habitats, the species forages by sifting through , often creating visible feeding pits in softer substrates. The geographical distribution of freshwater bream centers on for A. brama, ranging from the across central and eastern to , extending eastward into as far as the basin. Asian freshwater bream species, including Megalobrama amblycephala (blunt snout bream), are native to the middle and lower reaches of the River basin in , where they occupy large- and medium-sized lakes such as Niushan Lake and Yuli Lake. These distributions reflect adaptations to lowland riverine systems and connected lake networks, with limited successful introductions outside native ranges, such as in parts of and for A. brama. Freshwater bream exhibit broad environmental tolerances suited to temperate freshwater systems, with A. brama enduring water temperatures from 10°C to 24°C, though optimal growth and spawning occur between 15°C and 20°C. They preferentially occupy low-flow areas, avoiding strong currents, and demonstrate seasonal migration patterns that involve movements between main river channels and adjacent floodplains or tributaries for spawning and feeding. For instance, in floodplain systems like the lower River Rhine, bream undertake lateral migrations to exploit seasonally connected lakes during high-water periods, enhancing access to productive habitats. Habitat degradation poses significant threats to freshwater bream populations, as species like A. brama show sensitivity to , with elevated mortality rates observed in contaminated rivers such as the due to chemical stressors and . Eutrophication can initially benefit these species by increasing availability in muddy bottoms, but excessive loading leads to oxygen depletion and algal overgrowth, disrupting benthic communities essential for their diet. Introductions in altered ecosystems have sometimes amplified these issues, though native populations remain vulnerable to ongoing and hydrological modifications that fragment .

Marine environments

Marine bream species, particularly those in the family , inhabit a variety of coastal and nearshore environments characterized by structured substrates that provide shelter and foraging opportunities. These include rocky seabeds, reefs, and beds, where species such as the gilthead sea bream (Sparus aurata) are commonly found in the and sandy or vegetated bottoms. Adults of these species typically occupy depths ranging from 1 to 150 meters, usually 1 to 30 meters, with juveniles often utilizing shallower, more protected areas for initial growth phases. In contrast, bream-like species from the family Bramidae, such as the Atlantic pomfret (Brama brama), prefer deeper pelagic waters, typically occurring in environments from the surface to 200 meters, though they can descend to 1,000 meters. These habitats are typically open-water zones with minimal substrate attachment, supporting their epipelagic lifestyle and occasional proximity to continental slopes. Bramids exhibit a more offshore distribution, with seasonal vertical migrations influenced by temperature and prey availability. The distribution of marine breams spans multiple ocean basins, with species like S. aurata centered in the eastern Atlantic and , extending into the for related taxa such as the Arabian yellowfin seabream (Acanthopagrus arabicus). Bramids, including pomfrets, have a global range across the Atlantic, , and Pacific Oceans. Many species demonstrate tolerances, particularly juveniles; for instance, gilthead sea bream young frequent estuarine habitats with varying salinities before transitioning to fully marine conditions. Seasonal migrations are notable, as seen in the red sea bream (), which moves from deeper waters to coastal shallows for spawning in late spring and summer. These reef-associated habitats render many vulnerable to , as intensive coastal exploitation disrupts populations reliant on structured environments for reproduction and shelter.

Ecology and behavior

Diet and feeding habits

Freshwater breams, such as the (Abramis brama), exhibit an omnivorous that includes , benthic like chironomid larvae, , and . Stomach content analyses reveal that and plant-derived often dominate, comprising up to 75-80% of the in certain seasons, with forming a significant portion (up to 83%) during . These employ specialized rakers coated in to filter and retain small particles during suction feeding, enabling efficient capture of planktonic prey. In contrast, marine breams from the family Sparidae pursue a primarily carnivorous, benthic-pelagic diet consisting of crustaceans, mollusks, polychaete worms, and small fish. The gilthead sea bream (Sparus aurata), for instance, opportunistically consumes mussels, oysters, crabs, and worms, with arthropods accounting for approximately 52% and mollusks 44% of its diet by index of relative importance (%IRI). Species in this family possess robust pharyngeal jaws with molariform teeth adapted for crushing hard-shelled prey like bivalves. Feeding behaviors among breams vary by and but commonly include shoaling during to enhance prey detection and reduce predation risk. Many show crepuscular activity peaks at and dawn, particularly in warmer conditions, to exploit reduced and increased prey vulnerability. Ontogenetic diet shifts are prevalent, with juveniles initially targeting before transitioning to larger benthic items as mouth size and swimming ability increase. These patterns are influenced by , which determines local prey availability.

Reproduction and life cycle

Freshwater breams, such as the Abramis brama, typically spawn in shallow, vegetated areas where females deposit adhesive eggs that attach to submerged vegetation or substrate. Spawning occurs during , from to June in temperate regions, triggered by water temperatures rising to 12-18°C, with the lowest threshold around 12-13°C. Females produce 100,000 to 300,000 eggs per spawning event, depending on body size and age, with absolute ranging from approximately 54,000 to 856,000 eggs in mature individuals. Many populations undertake upstream migrations, sometimes exceeding 100 , to reach spawning grounds, where males defend small territories during the process. Marine breams, exemplified by the gilthead seabream Sparus aurata, are broadcast spawners that release eggs and into coastal waters, often in batches over an extended period. Spawning in Mediterranean populations generally takes place from October to December, with females capable of producing 20,000 to 80,000 eggs per batch and up to several million eggs total over a season lasting up to four months. Eggs are pelagic and transparent, hatching after about two days at 16-18°C. The of bream follows a typical pattern, beginning with a planktonic larval after hatching, during which larvae feed on before settling into nearshore or shallow habitats as juveniles. Juveniles grow rapidly in protected shallows or estuaries, transitioning to grounds. is reached at 2-4 years for most , with A. brama maturing around 3-5 years and S. aurata exhibiting protandrous hermaphroditism, functioning first as males at about 2 years before developing female gonads. varies, reaching up to 11-12 years for like S. aurata and 20-25 years for freshwater like A. brama under favorable conditions. Parental care is absent in most bream species, including A. brama and S. aurata, where eggs and larvae are left to develop independently after spawning. However, some members of the Sparidae family exhibit mouthbrooding in related taxa, providing a contrast to the broadcast strategy predominant in breams. Hybridization occurs occasionally in freshwater breams, notably between A. brama and roach Rutilus rutilus, often involving female bream and male roach, resulting in sterile or viable hybrids that can influence local population dynamics.

Human uses and conservation

Fishing and angling

Bream fishing has a long history in , with evidence of common bream (Abramis brama) exploitation dating back to , as indicated by abundant remains in archaeological sites like medieval , where it was a staple alongside and . The species featured prominently in early literature, including Izaak Walton's 1653 The Compleat Angler, which devotes a chapter to the bream, praising its size and providing guidance on capturing it in ponds and rivers using groundbait and gentle hooks to avoid damaging its tender mouth. In the Mediterranean, sea bream (family ) held cultural and economic value since ancient times, where large specimens were highly sought after in fisheries for their premium market price, often preserved or served fresh to elites. Common techniques for freshwater bream emphasize bait fishing, particularly with natural baits like , maggots, or casters presented on bottom rigs such as touch ledgering or tip setups to target shoals feeding near the . Anglers frequently employ rigs loaded with groundbait to draw in schools, into margins or deeper channels during or dawn when bream are most active. For sea bream, methods include shore-based ledgering with baits like chopped or crab, or fishing using lures such as soft plastics and jigs; trolling with feathered rigs or is effective for like the in coastal waters. Culturally, play a key role in match , where their shoaling behavior allows competitors to amass large weights—such as the 82.7 kg total haul in a 2023 event—making them prized for both recreational and competitive . In , the Wuchang bream (Megalobrama amblycephala) has supported in the River basin since ancient times, with historical captures from lakes like Liangzi providing essential protein for local communities before modern dominated. Trophy targets exceptional sizes, with the rod-and-reel for at 10.32 kg, caught in a in 2012. To safeguard spawning, many regions enforce seasonal regulations, including a close season from 15 March to 15 June for coarse fish like bream, when water temperatures reach 12–20°C and females broadcast eggs over vegetation.

Aquaculture and culinary uses

Aquaculture of bream species, particularly the (Sparus aurata), has become a cornerstone of Mediterranean , with the producing approximately 110,000 tonnes of this species in 2023, as accounts for approximately 62% of EU output. Intensive cage-based systems in coastal waters dominate production, supplemented by land-based recirculation facilities to address environmental concerns like nutrient discharge. In contrast, the (Abramis brama) is primarily cultured through extensive pond systems in , often alongside , leveraging natural productivity in large earthen ponds for lower-cost freshwater production. These practices trace back to the , when pioneering efforts in and developed techniques for S. aurata, achieving artificial and juvenile rearing to support commercial-scale amid growing market demand. However, intensive aquaculture systems for bream face significant challenges, including disease outbreaks that can lead to high mortality and economic losses. Bacterial infections such as vibriosis and photobacteriosis, along with viral nervous necrosis, have historically threatened production, prompting advancements in vaccines and measures since the 1980s to sustain yields. Parasitic issues, like those caused by Amyloodinium ocellatum, further complicate operations in crowded cages, necessitating integrated health management to minimize use and environmental impacts. In culinary applications, sea bream species are prized for their mild, flaky flesh and versatility, often prepared simply to highlight freshness. In , is commonly baked as psari pla ki, layered with sliced onions, tomatoes, garlic, and herbs like , then slow-cooked in for a flavorful, aromatic dish served with . Freshwater features prominently in Central European traditions, where it is smoked over wood to impart a rich, savory depth, or incorporated into hearty stews like Hungarian halászlé, a paprika-spiced simmered with mixed river fish, onions, and potatoes. In Japanese culture, red sea bream (, known as ) holds symbolic importance, grilled whole as tai no shioyaki during celebrations to evoke medetai (auspiciousness), its red hue and intact form signifying prosperity and good fortune. Nutritionally, marine bream species like S. aurata offer high-quality protein at around 21% per fillet weight, alongside beneficial omega-3 fatty acids such as EPA and DHA, totaling approximately 1.2 grams per 100 grams, supporting heart health and benefits in a balanced . These fillets are low in saturated fats, making bream a yet nutrient-dense option for various preparations, though wild-caught supplies from fishing supplement farmed availability in some markets.

Conservation

Bream species are generally classified as Least Concern by the , indicating stable populations overall. However, the (Abramis brama) has experienced local declines in parts of due to habitat loss from , , and , prompting habitat restoration projects and water quality improvements under EU directives like the . For marine species like the gilthead sea bream (Sparus aurata), aquaculture expansion raises concerns over escapes leading to genetic and disease transmission to wild stocks, as well as environmental impacts from feed and waste; regulations such as the EU's and best management practices in farming aim to mitigate these risks. In , sunfish bream like the (Lepomis macrochirus) face pressures from and habitat alteration but benefit from sustainable practices and protected areas. Overall, and continue to support bream populations as indicators of health.

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