European sprat
The European sprat (Sprattus sprattus) is a small, schooling pelagic fish species in the Clupeidae family, characterized by a fusiform body, slightly projecting lower jaw, and absence of dark spots on the flanks, typically reaching a maximum standard length of 16 cm and a common length of 12 cm.[1] Native to the coastal shelf waters of Europe and North Africa, it inhabits marine and brackish environments from the surface to depths of 150 m, tolerating salinities as low as 4‰ and occasionally entering estuaries, particularly as juveniles.[1] Its distribution spans the Northeast Atlantic from Morocco northward to the Lofoten Islands, including the North Sea, Baltic Sea, and extending into the northern Mediterranean and Black Seas.[1][2] Biologically, the European sprat is a short-lived species with a maximum age of 6 years, maturing at 8–12 cm in length, and it feeds primarily on planktonic crustaceans while forming large inshore schools.[1] Reproduction occurs mainly in spring and summer near the coast or up to 100 km offshore, with females producing 6,000–14,000 pelagic eggs over a spawning period of about 2 months, and some populations spawning nearly year-round.[1] Ecologically, it serves as a vital prey item for larger predatory fish, seabirds, and marine mammals, contributing to the dynamics of temperate marine food webs across its range.[2] The species holds significant commercial value, supporting fisheries for human consumption (often as fresh, smoked, or canned "brislings"), fish meal production, and bait, with landings varying by region but generally stable under its IUCN Least Concern status, though local populations face pressures from overfishing and climate-driven habitat shifts.[1][2][3]Taxonomy and classification
Scientific classification
The European sprat is scientifically classified as Sprattus sprattus (Linnaeus, 1758), with its original description provided by Carl Linnaeus under the basionym Clupea sprattus in the 10th edition of Systema Naturae.[4] The genus Sprattus was subsequently established by Girgensohn in 1846 to accommodate this and related species, reflecting refinements in clupeid taxonomy based on morphological distinctions such as body shape and fin structure.[5] Its full taxonomic hierarchy places it within the ray-finned fishes as follows:| Rank | Classification |
|---|---|
| Kingdom | Animalia |
| Phylum | Chordata |
| Class | Actinopterygii |
| Order | Clupeiformes |
| Family | Clupeidae |
| Genus | Sprattus |
| Species | S. sprattus |
Etymology and common names
The term "sprat" originates from the Old English word sprot, which denoted a small herring-like fish. This evolved from Middle English sprot or sprat, reflecting its Germanic roots.[10] The genus name Sprattus is a Latinized form derived directly from this vernacular term, as established in early taxonomic nomenclature.[11] Etymologically, "sprat" traces to Proto-Germanic sprōtaz, possibly linked to concepts of smallness or sprightliness, akin to terms for slender shoots or twigs in related languages, though the precise connection to the fish remains interpretive. In English, the species is commonly known as the European sprat, emphasizing its primary distribution in European waters.[12] Scandinavian markets favor "brisling," a term highlighting its use in preserved products from Nordic fisheries. In German-speaking regions, it is called Sprot or Sprotte, direct cognates of the Old English root.[13] French designations include sprat or amelette, with the latter evoking its delicate size.[14] A regional variant in Black Sea contexts is "Turkish sprat," the local name for the population prominent in Turkish waters. The name appears in historical natural histories, such as Carl Linnaeus's Systema Naturae (1758), where it was formally described as Clupea sprattus, building on earlier European observations of its abundance.[4] Eighteenth-century texts, including those by naturalists like Thomas Pennant in British Zoology (1766), referenced sprats as seasonal coastal migrants, often contrasting them with larger herrings in fishery accounts. In commercial contexts, European sprats are marketed as "brisling sardines" in canned formats, a branding choice from early 20th-century Norwegian exports that distinguishes them from true sardines (Sardina pilchardus) due to their smaller size and milder flavor.[15] This nomenclature persists in global trade, despite the taxonomic separation.[11]Physical characteristics
Morphology and anatomy
The European sprat exhibits an elongate, fusiform body shape characterized by a rounded belly and laterally compressed sides, typical of pelagic clupeids.[1] Its coloration consists of silvery flanks accented by a green-blue back, with no distinct lateral line present.[16][17] The fins include a dorsal fin supported by 13–21 soft rays positioned midway along the body, an anal fin with 12–23 soft rays located posteriorly, and pectoral fins inserted low on the body near the pectoral girdle.[1] The caudal fin is deeply forked, aiding in agile swimming.[16] Head features comprise a small head with a moderately large terminal mouth and slightly projecting lower jaw, along with large eyes suited to low-light environments encountered during schooling.[1][17] The gill cover lacks bony radiating striae, and teeth are rarely present on the vomer.[1] Scales are cycloid, smooth-edged, and easily shed, covering the body while the belly bears a strong keel of scutes.[18][1] Gill rakers are numerous, numbering 35–55 on the lower part of the first branchial arch, which supports particulate retention during feeding. Internally, the European sprat possesses a swim bladder for buoyancy regulation, as a physostomatous teleost with narrow pneumatic ducts connecting it to the gut and cloaca.[19] The gut is simple and short, reflecting adaptations to a diet dominated by plankton.[19]Size, growth, and lifespan
The European sprat (Sprattus sprattus) is a small pelagic fish, typically attaining an average length of 8–12 cm, though individuals can reach a maximum length of 16 cm.[11] Mature individuals typically weigh 5–15 g, influenced by regional length-weight relationships such as W = 0.002112 \times L^{3.4746}, where W is weight in grams and L is total length in cm.[20] Growth in European sprat is rapid during the first year, with juveniles often reaching 7–10 cm by the end of this period, after which the rate slows considerably due to environmental and density-dependent factors.[21] This pattern is commonly modeled using the von Bertalanffy growth function, with parameters varying by region; for example, in the Black Sea population, L_\infty \approx 13.8 cm, K \approx 0.24 year^{-1}, reflecting the theoretical asymptotic length and growth coefficient derived from otolith-based age data.[22] Across broader Atlantic and Baltic studies, K values typically exceed 0.25 year^{-1}, indicating relatively fast growth compared to longer-lived clupeids.[23] The lifespan of European sprat is short, generally 3–6 years, with a maximum reported age of 6–7 years in some populations.[24][25] Sexual dimorphism is subtle, with females tending to be slightly larger and heavier than males at maturity, often by 10–20% in weight due to differences in energy allocation.[22] Age determination in European sprat relies primarily on reading annual growth increments (annuli) in sagittal otoliths, which provide reliable estimates despite challenges from variable growth and otolith edge formation; this method is standardized through international workshops to ensure consistency across populations.[26][27]Habitat and distribution
Geographic range
The European sprat (Sprattus sprattus) is a small pelagic fish native to the coastal shelf waters of the Northeast Atlantic, extending from the Lofoten Islands in the north to southern Morocco, and eastward to the Black Sea.[1] Its core distribution encompasses the North Sea, Irish Sea, English Channel, Baltic Sea, and western Mediterranean Sea, where it forms dense schools in temperate to subtropical marine environments. This range reflects adaptation to a variety of coastal and semi-enclosed basins, primarily within the 0–200 m depth zone over continental shelves. Recent observations indicate an expansion to Icelandic waters, with the first records in 2017 and confirmed spawning near Ísafjarðardjúp fjord by 2021; genetic analyses as of 2025 suggest origins from Northeast Atlantic populations, likely facilitated by warming waters.[28][29][30] The largest populations occur in the Baltic Sea, supporting a spawning stock biomass that has historically peaked at around 1 million tonnes, making it a dominant forage species in that ecosystem. Substantial stocks also inhabit the North Sea, contributing to regional fisheries and serving as prey for larger predators. These key populations are semi-isolated due to oceanographic barriers, influencing local genetic diversity and stock management. Following the Last Glacial Maximum, the species recolonized northern and eastern extents of its range from southern European refugia approximately 10,000 years ago, as evidenced by mitochondrial DNA signatures indicating northward expansion from differentiated southern lineages.[31] Within its native range, the sprat undertakes seasonal coastal-offshore migrations tied to spawning and feeding cycles, without evidence of long-distance transoceanic movements.Environmental preferences
The European sprat (Sprattus sprattus) is a pelagic species that inhabits the upper layers of coastal and shelf waters, exhibiting a preference for epipelagic zones typically between 0 and 50 meters depth, though it can descend to 150–200 meters during overwintering or in response to environmental stressors.[1][28] This vertical distribution facilitates access to plankton-rich surface waters while allowing vertical migrations, with individuals often schooling near the surface at night and dispersing to mid-waters during the day.[21] As a fully pelagic fish, it shows no affinity for benthic substrates, relying instead on open-water conditions for foraging and predator avoidance.[1] Temperature plays a critical role in the sprat's distribution and physiology, with the species tolerating a broad range of 2–20°C but thriving optimally between 8–15°C, where metabolic rates and growth are maximized.[1][32] Warmer temperatures above 20°C can induce stress and shifts in habitat suitability, particularly in regions like the Baltic Sea where climate-driven warming has led to contractions in preferred thermal habitats.[33] Salinity tolerance is notably wide, rendering the sprat euryhaline; it endures levels from 4–35 practical salinity units (psu), with juveniles frequently entering low-salinity estuaries (as low as 4 psu) and adults favoring 7–25 psu for optimal osmoregulation.[1][34] Oxygen availability influences sprat behavior and survival, as the species avoids severely hypoxic zones below 2 mg/L dissolved oxygen (DO), which can disrupt schooling and force solitary near-bottom habitation in marginal conditions.[21] However, it demonstrates remarkable tolerance for moderate hypoxia, exploiting waters down to approximately 0.5 mL/L DO (about 7% saturation at 7°C) during overwintering to evade predators, though prolonged exposure in eutrophied areas like the Baltic exacerbates population vulnerabilities.[35][34] These preferences overlap with dynamic hotspots such as the Baltic Sea, where gradients in temperature, salinity, and oxygen drive seasonal aggregations.Biology and ecology
Diet and feeding behavior
The European sprat (Sprattus sprattus) is primarily a zooplanktivore, with its diet dominated by copepods such as Calanus, Pseudocalanus, Acartia, Oithona, and Microsetella norvegica, alongside smaller contributions from euphausiid eggs, invertebrate eggs, and occasionally phytoplankton.[36] Juveniles and smaller individuals incorporate more phytoplankton and fine particulate matter, while adults target larger crustacean prey.[37] This feeding niche positions the sprat at a mid-level trophic position of approximately 3.0, serving as a key link between primary producers and higher predators in pelagic food webs.[38] Sprat employ a combination of particulate feeding, where they visually select and ram-feed on individual prey, and filter feeding, facilitated by their dense gill rakers that allow retention of small planktonic particles.[36] Selectivity is generally low for most zooplankton but higher for preferred items like M. norvegica and eggs, with feeding activity peaking diurnally around dusk when prey visibility is optimal.[36] Daily rations vary by size and conditions but can reach levels supporting rapid growth, often equivalent to several percent of body weight in active periods.[39] Ontogenetic shifts in diet are pronounced, with larvae relying heavily on nauplii stages of calanoid copepods, transitioning to copepodites and adult copepods as they grow, which broadens the prey size spectrum and enhances energy intake.[37] Seasonal variations reflect environmental prey availability and physiological needs; spring diets emphasize phytoplankton and eggs during high reproductive demands, while autumn feeding intensifies on lipid-rich copepods to build reserves for overwintering, leading to peak body lipid contents of up to 15% in fall.[36][40] As a schooling species, sprat foraging efficiency is amplified by group behaviors that increase encounter rates with patchy zooplankton distributions, particularly through coordinated vertical migrations that align with prey depths.[21] This collective strategy reduces individual energy costs while exploiting transient food resources in dynamic shelf ecosystems.[41]Reproduction and life cycle
The European sprat (Sprattus sprattus) reaches sexual maturity at 1 to 2 years of age, typically when individuals measure 9 to 10 cm in length, though some populations show earlier maturation with 50% maturity at around 9 cm for males and 10 cm for females.[42][20] In certain areas like the Skagerrak and Kattegat, up to 70% of age-1 sprats are mature.[42] Sprat reproduction involves batch spawning, primarily from March to July, with peaks in May to June depending on the region.[43][44] Females release multiple batches of eggs, up to 10 per spawning season, with each batch containing 1,400 to 2,600 eggs on average.[44] Annual fecundity per female ranges from 5,000 to 15,000 eggs, varying by body size and environmental conditions.[1] Spawning occurs at night in coastal and offshore waters at depths of 10 to 20 meters, triggered by rising water temperatures between 6 and 15°C and increasing day length, which aligns with plankton blooms.[20][43] Eggs are pelagic, measuring 0.8 to 1.3 mm in diameter, and hatch after 5 to 10 days at temperatures of 5 to 13°C, yielding larvae of 3.0 to 3.6 mm in length.[20][43] Early larval stages experience high mortality rates exceeding 90%, driven by predation, including egg cannibalism, and environmental factors such as temperature extremes and low oxygen.[44][45] Larvae grow to 20 to 40 mm before metamorphosing into juveniles, which then transition to adults; the full life cycle spans egg, larval, juvenile, and adult phases, with a maximum lifespan of 6 years.[20][43]Population dynamics and predators
The population dynamics of the European sprat (Sprattus sprattus) are characterized by pronounced boom-bust cycles driven primarily by variability in recruitment success, which is influenced by environmental factors and density-dependent processes. In the Baltic Sea, one of the major stock areas, sprat biomass experienced a dramatic increase from very low levels in the 1980s to peaks in the 1990s, reaching high abundances that supported substantial ecological and commercial roles, before declining post-2000 due to fluctuating year-class strengths and interactions within the pelagic food web. More recently, weak year classes from 2021–2023 contributed to a decline in spawning stock biomass (SSB), but a strong 2024 year class is projected to support recovery, with SSB estimated at approximately 572,000 tonnes in 2025.[46][47] These fluctuations highlight the species' sensitivity to recruitment variability, where strong year classes can rapidly elevate population levels, while weak ones lead to sharp declines, as observed across major stocks in the North and Baltic Seas.[48] Natural mortality rates for European sprat are relatively high, typically estimated at 1.5–2.0 year⁻¹, with predation dominating as the primary cause, particularly during early life stages when vulnerability to predators is greatest.[49] This elevated mortality underscores the species' position as a short-lived forage fish, where annual turnover is rapid, and population stability relies heavily on consistent recruitment. Stock-recruitment relationships for Baltic sprat are modeled using Beverton-Holt functions, which incorporate density dependence to describe how recruitment levels off at higher spawning stock biomasses, aiding in the estimation of reference points like MSY thresholds.[47] Key predators of European sprat include piscivorous fish such as cod (Gadus morhua) and herring (Clupea harengus), which exert significant pressure through predation on juveniles and adults, as well as seabirds like herring gulls (Larus argentatus) and marine mammals including grey seals (Halichoerus grypus).[50] In the Baltic Sea ecosystem, these interactions contribute to the dominance of predation in natural mortality, with cod alone accounting for a substantial portion of sprat consumption during periods of high cod abundance.[51] As a keystone forage species, European sprat plays a critical role in the marine food web by transferring energy from planktonic prey to higher trophic levels, supporting the growth and reproduction of top predators and maintaining ecosystem balance in regions like the Baltic and North Seas.[52] Climate influences, particularly temperature variations, significantly affect sprat population dynamics through impacts on recruitment. Warmer water temperatures during critical early life stages, such as July–August in the Baltic Sea, have been positively correlated with higher recruitment success, explaining up to 73% of variability by enhancing larval survival and growth rates.[53] However, ongoing climate change may introduce challenges via altered phenology, potentially leading to mismatches between sprat spawning timing and optimal prey availability, which could reduce recruitment in warming scenarios despite short-term benefits from elevated temperatures.[54]Fisheries and human uses
Commercial exploitation
The European sprat (Sprattus sprattus) is primarily targeted using pelagic trawls equipped with small-meshed nets (16–31 mm) and purse seines, which are effective for capturing this schooling mid-water species in the North Sea and Baltic Sea.[55] These methods are deployed by small pelagic vessels, often in industrial fisheries that also encounter sprat as bycatch in herring operations due to overlapping distributions and behaviors.[56] Bycatch levels in dedicated sprat fisheries are generally low, though interactions occur with herring stocks, and discards remain minimal owing to the species' high utilization rates.[23] Global catches of European sprat have fluctuated between approximately 200,000 and 450,000 tonnes annually from 2020 to 2024, with the majority originating from the Baltic Sea and North Sea regions.[55] In 2021, total global landings reached 424,941 tonnes, of which the EU fleet accounted for 77% (328,035 tonnes), led by Denmark (93,779 tonnes), Poland (67,063 tonnes), and Sweden (52,260 tonnes); EU catches rose slightly to 346,391 tonnes in 2022.[55] These fisheries are regulated under the EU's Total Allowable Catch (TAC) system, aligned with International Council for the Exploration of the Sea (ICES) advice to ensure sustainable exploitation. For instance, the 2023 TAC for Baltic Sea sprat (subdivisions 22–32) was set at 224,114 tonnes, an 11% reduction from 2022.[57] The 2024 TAC was reduced by a further 10% to 201,703 tonnes, while the 2025 TAC was set at 139,500 tonnes amid concerns over spawning stock biomass.[58][59] Historically, sprat catches peaked at around 700,000 tonnes in the mid-1970s, driven by expanded fishing effort and strong recruitment years in the Baltic and North Seas, before declining due to overfishing and environmental factors. Subsequent reductions in the 1980s and 1990s reflected management interventions, including TAC introductions, leading to more stable but lower yields in recent decades. The economic importance of European sprat fisheries lies in their contribution to the EU's pelagic sector, generating an estimated €100–200 million annually in first-sale value based on recent landings and prices averaging €0.25–0.55 per kg.[55] In 2022, for example, Danish and Swedish landings alone supported processing industries, with first-sale revenues bolstered by rising prices amid quota constraints.[55] This value primarily stems from bulk processing rather than high-value fresh markets, underscoring sprat's role as a foundational species in EU marine economies.[55]Culinary and industrial applications
The European sprat (Sprattus sprattus) is rarely consumed fresh owing to its diminutive size, typically measuring 6-15 cm, which limits its appeal for whole-filet preparations; however, in niche seaside markets and hospitality sectors, it is occasionally pan-fried in butter or lightly smoked to serve as a simple appetizer.[55] This preparation highlights its delicate, oily texture when sourced locally from the North Sea or Baltic regions.[60] Canned products dominate human consumption, with sprats marketed as brisling sardines—tiny, wild-caught fish hand-packed in oil, tomato sauce, or spiced vinegar after smoking over beech wood for a subtle, nutty flavor. Norway remains a key producer, with brands like King Oscar emphasizing pristine, icy waters for their tender sprats, while Scotland contributes to the supply of smoked varieties for export. In the EU, Poland leads production at 19,436 tonnes (live weight equivalent) in 2022, followed by Sweden's ABBA brand at 661 tonnes, often processed manually by heading, steaming, and sterilizing in standard cans like 170g Hansa or 125g Dingley sizes.[61][62][55] Industrial applications account for a substantial share of the catch, with approximately 60% directed toward fishmeal and fish oil production across major EU fisheries; for instance, Denmark processes 98% of its 93,780 tonnes (2021) into these products, Poland 55% of 60,145 tonnes (2023), and Sweden 64% of 59,319 tonnes (2022). The resulting oil, rich in omega-3 fatty acids, is primarily used as feed in aquaculture operations, while fishmeal supports animal nutrition; smaller portions go to pet food and, historically until 2020 in Sweden, mink bait for the fur industry.[63][55] In traditional Nordic cuisine, pickled sprats form a core ingredient in Jansson's Temptation (Janssons frestelse), a creamy potato-onion casserole baked with breadcrumbs and often served during Christmas, where the brined fish adds umami depth. German preparations feature smoked "Sprotten" (Kieler Sprotten from the Baltic), incorporated into fresh salads with dill pickles, mayonnaise, and lemon for a tangy, regional appetizer.[64][65] EU internal trade prevails for sprat products, with exports like Poland's 7,731 tonnes of canned sprat (2022) mostly to Romania and the USA, alongside frozen volumes from Estonia (46%) and Latvia (24%) staying within or near the bloc; limited shipments reach Asian markets, primarily for industrial processing. Quality standards under EU regulations mandate a minimum commercial size of 6 cm for canning to ensure fat content (up to 13% in winter catches) and suitability, with total allowable catches (TACs) enforced to support sustainable harvesting.[55][66]Conservation and status
Population trends
The population of the European sprat (Sprattus sprattus) is monitored primarily through the International Council for the Exploration of the Sea (ICES) assessments, which employ acoustic surveys to estimate abundance and biomass, supplemented by Virtual Population Analysis (VPA) models to reconstruct stock dynamics and spawning stock biomass (SSB). These methods provide time-series data on recruitment, mortality, and overall stock health across key regions, with annual updates integrating survey indices and catch data. In the North Sea, sprat stocks have remained relatively stable over recent decades, with acoustic surveys indicating total biomass for age-1+ individuals at 362,000 tonnes in 2024, reflecting a continuation of fluctuations around 300,000–500,000 tonnes since the early 2000s. The 2025 ICES assessment confirms SSB at 97,068 tonnes as of July 2024, with record strong recruitment in 2024 (highest since 1979, 285 million age-0 individuals), leading to projections of increased abundance, including SSB of 274,902 tonnes as of July 2025 and into 2026.[67] In the Baltic Sea (ICES subdivisions 22–32), the SSB has fluctuated with a long-term decline of approximately 25% since 2010 peaks of 800,000–900,000 tonnes, but the 2025 ICES assessment updates 2024 SSB to 597,000–720,000 tonnes (at spawning time), remaining above the minimum biological reference point. Strong recruitment from the 2024 year class (152,876 million at age 1 in 2025) has contributed to this level, with projections showing SSB at 602,000 tonnes in 2025 and potentially 1,133,000 tonnes in 2026 under MSY scenarios.[68] Regional variations are pronounced elsewhere; in the Black Sea, stocks have remained low since the 1990s overexploitation peak, with biomass estimates averaging 19,000–20,000 tonnes as of 2020 and rarely exceeding 30,000 tonnes, indicating persistently depressed levels, though catch limits have been maintained stable through 2026.[69][70] In the Mediterranean Sea, sprat populations are marginal and exhibit high variability, with limited assessments classifying most local stocks as overexploited and biomass below sustainable thresholds as of 2020, though eastern subpopulations show occasional viability; overall overexploitation in GFCM-assessed stocks has declined below 60% by 2025.[69][71] Long-term data from the 1950s onward reveal climate-influenced oscillations in abundance, with reconstructed Baltic SSB showing peaks in the 1980s–1990s exceeding 1 million tonnes before declining, alongside shifts in average body weight across age groups that peaked in the 1990s and subsequently fell. Post-2020 updates from ICES and GFCM indicate ongoing fluctuations, with Baltic and North Sea stocks showing short-term recovery prospects above reference points due to strong 2024 recruitment, though Black Sea and Mediterranean populations continue to lag.Threats and management
The European sprat faces several anthropogenic threats, primarily overfishing, which has led to medium vulnerability in key fisheries such as those in the North Sea and Baltic Sea. Bycatch in mixed pelagic fisheries exacerbates pressure on sprat stocks, particularly in the Baltic where even small bycatch quotas can hinder recovery of depleted populations. Habitat degradation from eutrophication affects over 94% of the Baltic Sea, reducing oxygen levels and altering food webs critical for sprat survival. Climate change poses additional risks through ocean warming, which is driving northward shifts in sprat distribution as suitable habitats in southern regions like the Adriatic and Black Seas diminish. This warming also disrupts prey availability by altering plankton dynamics, contributing to projected declines in sprat biomass across European waters. Integrated models indicate that combined climate and eutrophication effects could significantly impact Baltic Sea forage fish like sprat by mid-century. The species is classified as Least Concern on the global IUCN Red List, reflecting its wide distribution and resilience in some areas. However, regional vulnerabilities exist, such as in the Black Sea where stocks face high exploitation and environmental stressors, leading to unfavourable conditions and management concerns under the General Fisheries Commission for the Mediterranean. Management efforts are guided by the European Union's Common Fisheries Policy (CFP), which mandates achieving Maximum Sustainable Yield (MSY) for stocks by 2020, with ongoing adjustments to total allowable catches (TACs) to prevent overfishing. For instance, 2025 TACs for Baltic sprat were set at 183,700 tonnes in alignment with ICES advice, and in October 2025, the EU Council agreed to a 45% increase for 2026 (to approximately 230,000 tonnes range) to balance exploitation with improved stock status from strong recruitment, incorporating uncertainties in biomass estimates. Protections include marine protected areas (MPAs) under the HELCOM network, covering about 11.8% of the Baltic Sea to safeguard spawning grounds and habitats. Ecosystem-based approaches, such as predator-prey models assessing cod-sprat interactions, inform multi-species management to maintain trophic balance and support sustainable yields.[72]Nutritional profile
Macronutrients and micronutrients
The edible portion of the European sprat (Sprattus sprattus) is low in carbohydrates, typically less than 1 g per 100 g, while providing 17–21 g of high-quality protein and 8–14 g of fat, resulting in 140–200 kcal of energy.[73][74][75][76] The fat content exhibits seasonal variation, increasing to as much as 17% during autumn feeding periods due to lipid accumulation.[77] A significant portion of the fat consists of beneficial omega-3 polyunsaturated fatty acids, with eicosapentaenoic acid (EPA) at approximately 0.5 g and docosahexaenoic acid (DHA) at 0.8 g per 100 g (total ~1.3 g); this total is comparable to that of sardines, which provide about 1.0–1.5 g of combined EPA and DHA per 100 g.[78]| Micronutrient | Content per 100 g |
|---|---|
| Vitamin D | 3–20 µg |
| Vitamin B12 | 8–10 µg |
| Selenium | 10–50 µg |
| Calcium (from flesh; higher if bones consumed) | 50–70 mg (up to 150+ mg with bones) |