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Superregnum : Eukaryota
Regnum: Animalia
Subregnum: Eumetazoa
Cladus: Bilateria
Cladus: Nephrozoa
Superphylum: Deuterostomia
Phylum: Chordata
Cladus: Craniata
Subphylum: Vertebrata
Infraphylum: Gnathostomata
Megaclassis: Osteichthyes
Superclassis/Classis: Actinopterygii
Classis/Subclassis: Actinopteri
Subclassis/Infraclassis: Chondrostei
Ordo: Acipenseriformes

Familia: Acipenseridae
Subfamiliae: Acipenserinae - Scaphirhynchinae - †Priscosturioninae

[list of subfamiliae after Grande & Hiltonn (2009: 318)]
Overview of genera

Acipenser – Huso – Pseudoscaphirhynchus – Scaphirhynchus – †Priscosturion – †Protoscaphirhynchus

[list of genera after Grande & Hilton (2009: 318)]

Grande, L. & Hilton, E.J. 2006. An exquisitely preserved skeleton representing a primitive sturgeon from the Upper Cretaceous Judith River Formation of Montana (Acipenseriformes: Acipenseridae: n. gen. and sp.) Memoir of the journal of paleontology 65: 1–39.
Grande, L. & Hilton, E.J. 2009. A replacement name for †Psammorhynchus Grande & Hilton, 2006 (Actinopterygii, Acipenseriformes, Acipenseridae). Journal of paleontology 83: 317–318. DOI: 10.1666/08-137.1

Vernacular names
беларуская: Асятровыя
čeština: Jeseterovití
Deutsch: Echte Störe
English: Sturgeon
español: Esturiones
eesti: Tuurlased
italiano: Storioni
日本語: チョウザメ科
Nederlands: Steuren
srpskohrvatski / српскохрватски: Jesetra / Јесетра
ไทย: ปลาสเตอร์เจียน
Türkçe: Mersin balığıgiller

Sturgeon is the common name for the 27 species of fish belonging to the family Acipenseridae. The earliest sturgeon fossils date to the Late Cretaceous, and are descended from other, earlier acipenseriform fish which date back to the Early Jurassic epoch, some 174 to 201 million years ago. The family is grouped into four genera: Acipenser, Huso, Scaphirhynchus and Pseudoscaphirhynchus. Two species (A. naccarii and A. dabryanus) may be extinct in the wild, and one (P. fedtschenkoi) may be entirely extinct.[2] Two closely related species, Polyodon spathula (American paddlefish) and Psephurus gladius (Chinese paddlefish, possibly extinct) are of the same order, Acipenseriformes, but are in the family Polyodontidae and are not considered to be "true" sturgeons. Both sturgeons and paddlefish have been referred to as "primitive fishes" because their morphological characteristics have remained relatively unchanged since the earliest fossil record.[3][4] Sturgeons are native to subtropical, temperate and sub-Arctic rivers, lakes and coastlines of Eurasia and North America.[5]

Sturgeons are long-lived, late-maturing fishes with distinctive characteristics, such as a heterocercal caudal fin similar to those of sharks, and an elongated, spindle-like body that is smooth-skinned, scaleless, and armored with five lateral rows of bony plates called scutes. Several species can grow quite large, typically ranging 2–3.5 m (7–12 ft) in length. The largest sturgeon on record was a beluga female captured in the Volga estuary in 1827, measuring 7.2 m (23 ft 7 in) long and weighing 1,571 kg (3,463 lb). Most sturgeons are anadromous bottom-feeders, which migrate upstream to spawn, but spend most of their lives feeding in river deltas and estuaries. Some species inhabit freshwater environments exclusively, while others primarily inhabit marine environments near coastal areas, and are known to venture into open ocean.

Several species of sturgeon are harvested for their roe, which is processed into the luxury food caviar. This has led to serious overexploitation, which combined with other conservation threats, has brought most of the species to critically endangered status, at the edge of extinction.

Fossil history
Yanosteus longidorsalis, a member of the extinct acipenseriform family Peipiaosteidae from the Early Cretaceous (125-120 Mya) Yixian Formation in Liaoning, China

Acipenseriform fishes appeared in the fossil record some 174 to 201 million years ago (Mya) during the Early Jurassic, making them some of the most ancient of still-living actinopterygian fishes.[6] True sturgeons appear in the fossil record during the Upper Cretaceous. In that time, sturgeons have undergone remarkably little morphological change, indicating their evolution has been exceptionally slow and earning them informal status as living fossils.[7][8] This is explained in part by the long generation interval, tolerance for wide ranges of temperature and salinity, lack of predators due to size and bony plated armor, or scutes, and the abundance of prey items in the benthic environment. Although their evolution has been remarkably slow, they are a highly evolved living fossil, and do not closely resemble their ancestral chondrosteans. They do, however, still share several primitive characteristics, such as heterocercal tail, reduced squamation, more fin rays than supporting bony elements, and unique jaw suspension.[9]
Phylogeny and taxonomy

Despite the existence of a fossil record, full classification and phylogeny of the sturgeon species has been difficult to determine, in part due to the high individual and ontogenic variation, including geographical clines in certain features, such as rostrum shape, number of scutes, and body length. A further confounding factor is the peculiar ability of sturgeons to produce reproductively viable hybrids, even between species assigned to different genera. While ray-finned fishes (Actinopterygii) have a long evolutionary history culminating in our most familiar fishes, past adaptive evolutionary radiations have left only a few survivors, such as sturgeons and gars.[10]

The wide range of the acipenserids and their endangered status have made collection of systematic materials difficult. These factors have led researchers in the past to identify over 40 additional species that were rejected by later scientists.[11] Whether the species in the Acipenser and Huso genera are monophyletic (descended from one ancestor) or paraphyletic (descended from many ancestors) is still unclear, though the morphologically motivated division between these two genera clearly is not supported by the genetic evidence. An effort is ongoing to resolve the taxonomic confusion using a continuing synthesis of systematic data and molecular techniques.[8][12]

The phylogeny of the Acipenseridae, as on the cladogram, shows that they have evolved from among the bony fishes.[13][14][15] Approximate dates are from Near et al., 2012.[13]
A young lake sturgeon (Acipenser fulvescens)
European sturgeon (Huso huso) feeding on another fish
File:Pallid sturgeon activity with syphoning.webmhd.webmPlay media
Pallid sturgeon (Scaphirhynchus albus) showing siphoning feeding behaviour
File:Beluga sturgeon in aquarium.webmPlay media
Beluga sturgeon in an aquarium.


Coelacanths, Lungfish Coelacanth flipped.png

Tetrapods Salamandra salamandra (white background).jpg


Polypteriformes (bichirs, reedfishes) Cuvier-105-Polyptère.jpg


Acipenseridae Atlantic sturgeon flipped.jpg

Polyodontidae Paddlefish (white background).jpg


Lepisosteiformes (gars) Alligator gar fish (white background).jpg

Amiiformes (bowfins) Amia calva (white background).jpg

275 mya

Teleostei Common carp (white background).jpg

310 mya
360 mya
400 mya

In currently accepted taxonomy, the class Actinopterygii and the order Acipenseriformes are both clades. The family Acipenseridae is subdivided into 2 subfamilies, the Acipenserinae including the genera Acipenser and Huso, and Scaphirhynchinae, including the genera Scaphirhynchus and Pseudoscaphirhynchus.[16] However, multiple recent studies have recovered this arrangement as paraphyletic, instead finding A. oxyrhinchus and A. sturio to form the most basal clade among sturgeons, and all other species being in a separate clade, with the various other species of Acipenser, Scaphirhynchus, Pseudoscaphirhynchus, and Huso to have varying levels of relationship with one another.[17][18]

A potential taxonomy of Acipenseridae is shown here, based on Luo et al. 2019, Nedoluzhko et al. 2020, and Shen et al. 2020.[17][18][19] Note the paraphyletic relationships among genera:

A. oxyrhinchus Atlantic sturgeon flipped.jpg

A. sturio Acipenser sturio (cropped).jpg

A. dabryanus Acipenser dabryanus.jpg

A. schrenckii

A. transmontanus Acipenser transmontanus2.jpg

H. dauricus

A. medirostris Acipenser medirostris.jpg

A. mikadoi

S. platorhynchus Scaphirhynchus platorynchus.jpg

S. suttkusi Scaphirhynchus suttkusi.jpg

S. albus Scaphirhynchus albus mirrored.jpg

P. fedtschenkoi (likely extinct) Pseudoscaphirhynchus fedtschenkoi.jpg

P. hermanni

P. kaufmanni

A. persicus

A. stellatus Acipenser stellatus.jpg

H. huso Beluga sturgeon - 2.png

A. ruthenus Acipenser ruthenus3.jpg

A. nudiventris Acipenser nudiventris.jpg

A. fulvescens Acipenser fulvescens GLERL.jpg

A. brevirostrum Acipenser brevirostrum (NY).jpg

A. baerii

A. sinensis

A. gueldenstaedtii Acipenser gueldenstaedtii.jpg

The exact placement of Scaphirhynchus varies depending on the study and the methods used, with some placing it within the second-most basal clade comprising primarily Pacific species (shown above), whereas others place it in its own clade that is more derived than the secondmost basal clade but less derived than the most derived Atlantic + Central Asian clade. No studies have yet delineated a relationship between it and Pseudoscaphirhynchus. In addition, the exact relationships of the members of the most derived, primarily Atlantic clade vary, although most analyses at least find all the species in it to form a monophyletic clade. The placement of A. sinensis also varies by the study, with some placing it as the only Pacific member of the otherwise Atlantic-based most-derived clade, whereas others place it with the rest of the Pacific sturgeons as a sister to A. dabryanus.[17][18]

The family contains 8 extinct fossil species and 28 extant species/subspecies (include 1 species of Sterlet and 2 species of living fossils), in 4 genera. This list uses the original classification scheme:

Family Acipenseridae

Range and habitat

Sturgeon range from subtropical to subarctic waters in North America and Eurasia. In North America, they range along the Atlantic Coast from the Gulf of Mexico to Newfoundland, including the Great Lakes and the St. Lawrence, Missouri, and Mississippi Rivers, as well as along the West Coast in major rivers from California and Idaho to British Columbia. They occur along the European Atlantic coast, including the Mediterranean basin, especially in the Adriatic Sea and the rivers of North Italy;[20] in the rivers that flow into the Black, Azov, and Caspian Seas (Danube, Dnepr, Volga, Ural and Don); the north-flowing rivers of Russia that feed the Arctic Ocean (Ob, Yenisei, Lena, Kolyma); in the rivers of Central Asia (Amu Darya and Syr Darya) and Lake Baikal. In the Pacific Ocean, they are found in the Amur River along the Russian-Chinese border, on Sakhalin Island, and some rivers in northeast China.[21][16]

Throughout this extensive range, almost all species are highly threatened or vulnerable to extinction due to a combination of habitat destruction, overfishing, and pollution.[16]

No species is known to naturally occur south of the equator, though attempts at sturgeon aquaculture are being made in Uruguay, South Africa, and other places.[22]

Most species are at least partially anadromous, spawning in fresh water and feeding in nutrient-rich, brackish waters of estuaries or undergoing significant migrations along coastlines. However, some species have evolved purely freshwater existences, such as the lake sturgeon (Acipenser fulvescens) and the Baikal sturgeon (A. baerii baicalensis), or have been forced into them by human or natural impoundment of their native rivers, as in the case of some subpopulations of white sturgeon (A. transmontanus) in the Columbia River[23] and Siberian sturgeon (A. baerii) in the Ob basin.[24]
Physical characteristics
Sturgeon skull – a, Rostrum; b, nasal capsule; c eye-socket; d, foramina for spinal nerves; e, notochord; g, quadrate bone; h, hyomandibular bone; i, mandible; j. basibranchials; k, ribs; l, hyoid bone; I, II, III, IV, V, branchial arches

Sturgeons retain several primitive characters among the bony fishes. Along with other members of the subclass Chondrostei, they are unique among bony fishes because their skeletons are almost entirely cartilaginous. To maintain structure, sturgeons are one of few organisms to retain a post-embryonic notochord that acts like a soft spine running through the body. Notably, however, the cartilagineous skeleton is not a primitive character, but a derived one; sturgeon ancestors had bony skeletons.[9][25][26] They also lack vertebral centra, and are partially covered with five lateral rows of scutes rather than scales.[27] They also have four barbels—sensory organs that precede their wide, toothless mouths. They navigate their riverine habitats traveling just off the bottom with their barbels dragging along gravel, or murky substrate. Sturgeon are recognizable for their elongated bodies, flattened rostra, distinctive scutes and barbels, and elongated upper tail lobes. The skeletal support for the paired fins of ray-finned fish is inside the body wall, although the ray-like structures in the webbing of the fins can be seen externally.

Sturgeons are among the largest fish: some beluga (Huso huso) in the Caspian Sea reportedly attain over 5.5 metres (18 ft) and 2,000 kilograms (4,400 lb)[28] while for kaluga (H. dauricus) in the Amur River, similar lengths and over 1,000 kg (2,200 lb) weights have been reported.[29] They are also among the longest-lived of the fishes, some living well over 100 years and attaining sexual maturity at 20 years or more.[21] The combination of slow growth and reproductive rates and the extremely high value placed on mature, egg-bearing females make sturgeon particularly vulnerable to overfishing.

Sturgeons are polyploid; some species have four, eight, or 16 sets of chromosomes.[30]
Life cycle

Sturgeons are long-lived, late maturing fishes. Their average lifespan is 50 to 60 years, and their first spawn does not occur until they are around 15 to 20 years old. Sturgeons are broadcast spawners, and do not spawn every year because they require specific conditions. Those requirements may or may not be met every year due to varying environmental conditions, such as the proper photoperiod in spring, clear water with shallow rock or gravel substrate, where the eggs can adhere, and proper water temperature and flow for oxygenation of the eggs. A single female may release 100,000 to 3 million eggs, but not all will be fertilized. The fertilized eggs become sticky and adhere to the bottom substrate upon contact. Eight to 15 days are needed for the embryos to mature into larval fish. During that time, they are dependent on their yolk sacs for nourishment.[31][32] River currents carry the larvae downstream into backwater areas, such as oxbows and sloughs, where the free-swimming fry spend their first year feeding on insect larvae and crustacea. During their first year of growth, they reach 18 to 20 cm (7 to 8 in) in length and migrate back into the swift-flowing currents in the main stem river.[33]
The underside and mouth of a sturgeon

Sturgeons are primarily benthic feeders, with a diet of shellfish, crustaceans, and small fish. Exceptionally, both Huso species, the white sturgeon and the pallid sturgeon feed primarily on other fish as adults. They feed by extending their syphon-like mouths to suck food from the benthos. Having no teeth, they are unable to seize prey, though larger individuals and more predatory species can swallow very large prey items, including whole salmon.[34] Sturgeons feed non-visually. They are believed to use a combination of sensors, including olfactory, tactile, and chemosensory cues detected by the four barbels, and electroreception using their ampullae of Lorenzini.[35]

The sturgeons' electroreceptors are located on the head and are sensitive to weak electric fields generated by other animals or geoelectric sources.[36] The electroreceptors are thought to be used in various behaviors such as feeding, mating and migration.[35]

Many sturgeons leap completely out of the water,[37] usually making a loud splash which can be heard half a mile away on the surface and probably further under water. Why they do this is not known, but suggested functions include group communication to maintain group cohesion, catching airborne prey, courtship display, or to help shed eggs during spawning. Other plausible explanations include escape from predators, shedding parasites, or to gulp or expel air.[38] Another explanation is that it "simply feels good".[39] There have been some incidents of leaping sturgeon landing in boats, and causing injuries to humans;[40] in 2015, a 5-year-old girl was fatally injured after a sturgeon leapt from the Suwannee River and struck her.[41]

In 1731, an observer of leaping sturgeon wrote: May, June and July, the rivers abound with them, at which time it is surprising, though very common to see such large fish elated in the air, by their leaping some yards out of the water; this they do in an erect posture, and fall on their sides, which repeated percussions are loudly heard some miles distance....[39]

Interactions with humans
The demand for caviar has driven several species of sturgeon toward extinction.
Further information: Caviar
Beluga sturgeon at a caviar farm in South Korea.
Woman selling sturgeon at a market in Türkmenbaşy, Turkmenistan

Globally, sturgeon fisheries are of great value, primarily as a source for caviar, but also for flesh.[42] Several species of sturgeon are harvested for their roe which is processed into caviar—a luxury food and the reason why caviar-producing sturgeons are among the most valuable and endangered of all wildlife resources.[43]

During the 19th century, the US was the global leader in caviar production, having cornered 90% of the world's caviar trade.[44] Atlantic sturgeon once thrived along the east coast from Canada down to Florida. They were in such abundance in the Hudson River, they were called "Albany beef" and sturgeon eggs were given away at local bars as an accompaniment to 5¢ beer.[45] White sturgeon populations along the US west coast declined simultaneously under the pressure of commercial fishing and human encroachment.[44] Within the course of a century, the once abundant sturgeon fisheries in the US and Canada had drastically declined, and in some areas had been extirpated under the pressure of commercial overharvesting, pollution, human encroachment, habitat loss, and the damming of rivers that blocked their ancestral migration to spawning grounds.[44][46]

By the turn of the century, commercial production of sturgeon caviar in the US and Canada had come to an end. Regulatory protections and conservation efforts were put in place by state and federal resource agencies in the US and Canada, such as the 1998 US federal moratorium that closed all commercial fishing for Atlantic sturgeon.[46] It was during the 20th century that Russia grew to become the global leader as the largest producer and exporter of caviar.[44] As with the decline in sturgeon populations in the US and Canada, the same occurred with sturgeon populations in the Caspian Sea.[47]

Beginning with the 1979 US embargo on Iran, poaching and smuggling sturgeon caviar was big business but an illegal and dangerous one.[48] Officers with the Washington Department of Fish and Wildlife (WDFW) busted a poaching ring that was based in Vancouver, Washington. The poachers had harvested 1.65 tons of caviar from nearly 2,000 white sturgeon that were poached from the Columbia River. The caviar was estimated to be worth around $2 million. WDFW busted another ring in 2003, and conducted an undercover sting operation in 2006-2007 that resulted in 17 successful attempts out of a total of 19.[49]

In response to concerns over the future of sturgeons and associated commercial products, international trade for all species of sturgeons has been regulated under CITES since 1998.[43]

Sturgeons are long-lived, late maturing fishes with reproductive cycles that include long migrations, and require specific environmental conditions.[50] They are an ancient species that have survived for millions of years[51] but their future is threatened, due in part to their inherent ancestral characteristics and reproductive specificities. The negative impacts of overfishing, poaching, habitat destruction, and the construction of dams that have altered or blocked their annual migration to ancestral spawning grounds have taken a serious toll.[52][53][54] Some species of sturgeon are extinct, several are on the verge of extinction, including the Chinese sturgeon,[55] the highly prized beluga sturgeon,[56] and the Alabama sturgeon.[57] Many species are classified as threatened or endangered with noticeable declines in sturgeon populations as the demand for caviar increases. IUCN data indicates that over 85% of sturgeon species are at risk of extinction, making them more critically endangered than any other group of animal species.[58][59]

In addition to global restocking efforts, the monitoring of populations and habitat, and various other conservation efforts by national and state resource agencies as applicable to their respective countries, several conservation organizations have been formed to assist in the preservation of sturgeons around the world. On a global scale, one such organization is the World Sturgeon Conservation Society (WSCS) whose primary objectives include fostering the "conservation of sturgeon species and restoration of sturgeon stocks world-wide”, and supporting the "information exchange among all persons interested in sturgeons."[60] The North American Sturgeon and Paddlefish Society (NASPS)[61] and Gesellschaft zur Rettung des Störs e.V.[62] are WSCS affiliates. WSCS has been instrumental in organizing global conferences where scientists and researchers can exchange information and address the various conservation challenges that threaten the future of sturgeons.[63] Conservation efforts at the grass roots level are also instrumental in helping to preserve sturgeon populations, such as Sturgeon For Tomorrow[64] which was founded in 1977, consists of volunteers and a sturgeon guarding program to monitor known spawning sites. The organization has grown exponentially over the years and has become "the largest citizen advocacy group for sturgeon in the world", and has expanded with affiliate chapters in other states that have sturgeon populations.[65][66] Other projects focus on specific local issues, such as the We Pass project, seeking a solution to the migratory impasse represented by the Iron Gates in the Danube River Basin.[67] For example, currently all anadromous Danube sturgeon (all species except the predominantly freshwater sterlet) are now classed as Critically Endangered or extirpated from the upper and middle reaches of the Danube River above the dams.[68]
Other uses
St Amalberga riding a sturgeon

Before 1800, swim bladders of sturgeon (primarily Beluga sturgeon from Russia) were used as a source of isinglass, a form of collagen used historically for the clarification of wine and beer, as a predecessor for gelatin, and to preserve parchments.[69]

The Jewish law of kashrut, which only permits the consumption of fish with scales, forbids sturgeon, as they have ganoid scales instead of the permitted ctenoid and cycloid scales. While all Orthodox groups forbid the consumption of sturgeon, some conservative groups do allow it.[70] The theological debate over its kosher status can be traced back to such 19th-century reformers as Aron Chorin, though its consumption was already common in European Jewish communities.[71]

Sturgeons were declared to be a royal fish under a statute dating back to 1324 by King Edward II of England. Technically, the British monarchy still owns all sturgeons, whales, and dolphins that inhabit the waters around England and Wales.[72][73] Under the law of the United Kingdom any sturgeons captured within the realm are personal property of the monarch.[74]

In heraldry, a sturgeon is the symbol on the coat of arms for Saint Amalberga of Temse.[75]

This article incorporates text from a publication now in the public domain: Chisholm, Hugh, ed. (1911). "Sturgeon" . Encyclopædia Britannica (11th ed.). Cambridge University Press.


Froese, Rainer, and Daniel Pauly, eds. (2009). "Acipenseridae" in FishBase. January 2009 version.
Chadwick, Niki; Drzewinski, Pia; Hurt, Leigh Ann (March 18, 2010). "Sturgeon More Critically Endangered Than Any Other Group of Species". International News Release. International Union for Conservation of Nature. Retrieved September 19, 2015.
Chesapeake Bay Field Office. "Atlantic Sturgeon". U.S. Fish & Wildlife Service. Retrieved June 10, 2014.
"Lake sturgeon". Minnesota Dept. of Natural Resources. Retrieved June 10, 2014.
"Biology of Fishes (chapter: Biodiversity II: Primitive Bony Fishes and The Rise of Modern Teleosts)" (PDF). University of Washington. Retrieved May 30, 2014.
Hilton, Eric J.; Grande, Lance; Jin, Fan (January 2021). "Redescription of † Yanosteus longidorsalis Jin et al., (Chondrostei, Acipenseriformes, †Peipiaosteidae) from the Early Cretaceous of China". Journal of Paleontology. 95 (1): 170–183. doi:10.1017/jpa.2020.80. ISSN 0022-3360.
B. G. Gardiner (1984) Sturgeons as living fossils. Pp. 148–152 in N. Eldredge and S.M. Stanley, eds. Living fossils. Springer-Verlag, New York.
Krieger, J.; Fuerst, P.A. (2002). "Evidence for a Slowed Rate of Molecular Evolution in the Order Acipenseriformes". Molecular Biology and Evolution. 19 (6): 891–897. doi:10.1093/oxfordjournals.molbev.a004146. PMID 12032245.
Gene Helfman; Bruce B. Collette; Douglas E. Facey; Brian W. Bowen (April 3, 2009). The Diversity of Fishes: Biology, Evolution, and Ecology. John Wiley & Sons. pp. 252–. ISBN 978-1-4443-1190-7.
"Craniata, (2) Subclass Actinopterygii-the ray-finned fishes". San Francisco State University. Archived from the original on April 23, 2013. Retrieved May 31, 2014.
Bemis, W. E.; Findeis, E. K.; Grande, L. (1997). "An overview of Acipenseriformes". Environmental Biology of Fishes. 48 (1–4): 25–71. doi:10.1023/A:1007370213924. S2CID 24961905.
Fontana, F.; Tagliavini, J.; Congiu, L. (2001). "Sturgeon genetics and cytogenetics: recent advancements and perspectives". Genetica. 111 (1–3): 359–373. doi:10.1023/a:1013711919443. PMID 11841180. S2CID 569847.
Thomas J. Near; et al. (2012). "Resolution of ray-finned fish phylogeny and timing of diversification". PNAS. 109 (34): 13698–13703. Bibcode:2012PNAS..10913698N. doi:10.1073/pnas.1206625109. PMC 3427055. PMID 22869754.
Betancur, Ricardo (2013). "The Tree of Life and a New Classification of Bony Fishes". PLOS Currents Tree of Life. 5 (1). doi:10.1371/currents.tol.53ba26640df0ccaee75bb165c8c26288. PMC 3644299. PMID 23653398. Archived from the original on October 13, 2013.
Laurin, M.; Reisz, R.R. (1995). "A reevaluation of early amniote phylogeny". Zoological Journal of the Linnean Society. 113 (2): 165–223. doi:10.1111/j.1096-3642.1995.tb00932.x.
Froese, Rainer, and Daniel Pauly, eds. (2016). "Acipenseriformes" in FishBase. 12 2016 version.
Luo, Dehuai; Li, Yanping; Zhao, Qingyuan; Zhao, Lianpeng; Ludwig, Arne; Peng, Zuogang (January 10, 2019). "Highly Resolved Phylogenetic Relationships within Order Acipenseriformes According to Novel Nuclear Markers". Genes. 10 (1): 38. doi:10.3390/genes10010038. ISSN 2073-4425. PMC 6356338. PMID 30634684.
Shen, Yanjun; Yang, Na; Liu, Zhihao; Chen, Qiliang; Li, Yingwen (September 1, 2020). "Phylogenetic perspective on the relationships and evolutionary history of the Acipenseriformes". Genomics. 112 (5): 3511–3517. doi:10.1016/j.ygeno.2020.02.017. ISSN 0888-7543. PMID 32105795. S2CID 211555175.
Nedoluzhko, Artem V.; Sharko, Fedor S.; Tsygankova, Svetlana V.; Boulygina, Eugenia S.; Barmintseva, Anna E.; Krasivskaya, Anna A.; Ibragimova, Amina S.; Gruzdeva, Natalia M.; Rastorguev, Sergey M.; Mugue, Nikolai S. (January 20, 2020). "Molecular phylogeny of one extinct and two critically endangered Central Asian sturgeon species (genus Pseudoscaphirhynchus ) based on their mitochondrial genomes". Scientific Reports. 10 (1): 722. Bibcode:2020NatSR..10..722N. doi:10.1038/s41598-020-57581-y. ISSN 2045-2322. PMC 6971001. PMID 31959974.
"LIFE 04NAT/IT/000126 "Conservation and Breeding of Italian Cobice Endemic Sturgeon"" (PDF).
Berg, L.S. (1962). Freshwater fishes of the U.S.S.R. and adjacent countries. volume 1, 4th edition. Israel Program for Scientific Translations Ltd., Jerusalem. (Russian version published 1948).
Burtzev, LA. (1999). "The History of Global Sturgeon Aquaculture". Journal of Applied Ichthyology. 15 (4–5): 325. doi:10.1111/j.1439-0426.1999.tb00336.x.
Duke, S.; Anders, P.; Ennis, G.; Hallock, R.; Hammond, J.; Ireland, S.; Laufle, J.; Lauzier, R.; Lockhard, L.; Marotz, B.; Paragamian, V.L.; Westerhof, R. (1999). "Recovery plan for Kootenai River white sturgeon (Acipenser transmontanus)". Journal of Applied Ichthyology. 15 (4–5): 157–163. doi:10.1111/j.1439-0426.1999.tb00226.x.
G.I. Ruban, 1999. The Siberian Sturgeon Acipenser baerii Brandt: Structure and Ecology of the Species, Moscow, GEOS. 235 pp (in Russian).
Caleb E. Finch (May 16, 1994). Longevity, Senescence, and the Genome. University of Chicago Press. pp. 134–. ISBN 978-0-226-24889-9.
J. D. McPhail (September 28, 2007). Freshwater Fishes of British Columbia (The). University of Alberta. pp. 23–. ISBN 978-0-88864-853-2.
"Atlantic Sturgeon". Virginia Institute of Marine Science. 2009. Retrieved August 26, 2016.
Frimodt, C., (1995). Multilingual illustrated guide to the world's commercial coldwater fish. Fishing News Books, Osney Mead, Oxford, England. 215 p.
Krykhtin, M.L. and V.G. Svirskii (1997). Endemic sturgeons of the Amur River: kaluga, Huso dauricus, and Amur sturgeon, Acipenser schrenckii. Environ. Biol. Fish. 48(1/4):231-239.
Anderson, Rachel (2004). "Shortnose Sturgeon". McGill University. Archived from the original on October 24, 2007. Retrieved August 23, 2007.
"Fish & Habitats– White Sturgeon (Acipenser transmontanus) in British Columbia". British Columbia Ministry of Environment, Ecosystems Branch. Archived from the original on May 22, 2018. Retrieved October 28, 2015.
"Life Cycle of the White Sturgeon" (PDF). HSBC Fraser River Sturgeon Education Program. Fraser River Conservation Society. Retrieved October 28, 2015.
"Investigations of anadromous fishes of the Neuse River, North Carolina". govinfo. May 1, 1976. Retrieved April 22, 2019.
Sergei F. Zolotukhin and Nina F. Kaplanova. (2007) Injuries of Salmon in the Amur River and its Estuary as an Index of the Adult Fish Mortality in the Period of Sea Migrations. NPAFC Technical Report No. 4.
Zhang, X.; Song, J.; Fan, C.; Guo, H.; Wang, X.; Bleckmann, H. (2012). "Use of electrosense in the feeding behavior of sturgeons". Integrative Zoology. 7 (1): 74–82. doi:10.1111/j.1749-4877.2011.00272.x. PMID 22405450.
Herzog, H. (2011). "Response properties of the electrosensory neurons in hindbrain of the white sturgeon, Acipenser transmontanus". Neuroscience Bulletin. 27 (6): 422–429. doi:10.1007/s12264-011-1635-y. PMC 5560385. PMID 22108819.
"The Gulf Sturgeon". October 7, 2011. Archived from the original on November 3, 2021 – via YouTube.
Sulak, K. J.; Edwards, R. E.; Hill, G. W.; Randall, M. T. (2002). "Why do sturgeons jump? Insights from acoustic investigations of the Gulf sturgeon in the Suwannee River, Florida, USA". Journal of Applied Ichthyology. 18 (4‐6): 617–620. doi:10.1046/j.1439-0426.2002.00401.x.
Waldman, J. (2001). "Outdoors: The lofty mystery of why sturgeon leap". The New York Times.
Wilson, J. P.; Burgess, G.; Winfield, R. D. & Lottenberg, L. (2009). "Sturgeons versus surgeons: leaping fish injuries at a level I trauma center". The American Surgeon. 75 (3): 220–222. doi:10.1177/000313480907500306. PMID 19350856. S2CID 33997325.
"Leaping sturgeon kills five-year-old girl boating in Florida". Reuters. 2015.
Profita, Cassandra (May 16, 2015). "World's Appetite For Caviar Sends Poachers After Columbia River Sturgeon". OPB. Retrieved April 19, 2019.
"Sturgeons". Convention on International Trade in Endangered Species of Wild Fauna and Flora. Retrieved April 17, 2019.
Mizerek, Toni (December 12, 2013). White sturgeon, Shovelnose sturgeon, American Paddlefish (PDF). Monterray Bay Aquarium Seafood Watch (Report). Retrieved April 17, 2019.
Kleiman, Dena (May 9, 1990). "Caviar: Black Gold In America". The New York Times. Retrieved April 17, 2019.
Fox, Adam G.; Stowe, Edward S.; Dunton, Keith; Peterson, Douglas L. (2018). "Seasonal occurrence of Atlantic sturgeon (Acipenser oxyrinchus oxyrinchus) in the St. Johns River, Florida" (PDF). Fishery Bulletin. 116 (3): 219–227. doi:10.7755/fb.116.3.1.
"Caspian States agree on quotas for wild caviar". CITES. July 23, 2010. Retrieved April 17, 2019.
Branigin, William (June 14, 1979). "And Poaching 'Pearls From the Caspian'". Washington Post. Retrieved April 17, 2019.
"As Caviar Prices Skyrocket, Sturgeon Poachers Invade Pacific Northwest". June 1, 2015. Retrieved April 17, 2019.
"Sturgeon of North America (Acipenseridae)". Earthwave Society. Retrieved April 19, 2019.
Choudhury, Anindo; Dick, Terry A. (2001). "Sturgeons (Chondrostei: Acipenseridae) and their metazoan parasites: patterns and processes in historical biogeography". Journal of Biogeography. 28 (11–12): 1411–1439. doi:10.1046/j.1365-2699.2001.00635.x. JSTOR 827427.
"The IUCN Red List of Threatened Species". IUCN Red List of Threatened Species. Retrieved April 19, 2019.
"Acipenser transmontanus". PISCES. Retrieved April 19, 2019.
Clover, Charles. 2004. The End of the Line: How overfishing is changing the world and what we eat. Ebury Press, London. ISBN 0-09-189780-7
Griggs, Mary Beth (September 16, 2014). "Chinese Sturgeon Is on the Brink of Extinction After 140 Million Years". Smithsonian. Retrieved April 19, 2019.
"Beluga Sturgeon Threatened With Extinction, Yet Caviar Quotas Remain Unchanged -- ScienceDaily". ScienceDaily. April 19, 2019. Retrieved April 19, 2019.
Program, Pallid Sturgeon Recovery (December 1, 2009). "Related Species". Pallid Sturgeon Recovery Program. Retrieved April 19, 2019.
"Sturgeon more critically endangered than any other group of species". IUCN, International Union for Conservation of Nature. March 18, 2010. Retrieved April 19, 2019.
"Species, status and population trend of Sturgeon on the IUCN Red List of Threatened Species (pdf)" (PDF).
Area, Jam. "Who we are". W.S.C.S., World Sturgeon Conservation Society. Retrieved April 17, 2019.
Area, Jam. "Who We Are". North American Sturgeon and Paddlefish Society. Retrieved April 19, 2019.
"Gesellschaft zur Rettung des Störs e.V." Startseite (in German). Retrieved April 19, 2019.
Area, Jam (March 12, 2012). "Reports on past conferences". W.S.C.S., World Sturgeon Conservation Society. Retrieved April 19, 2019.
"Sturgeon Spearing". Fond du Lac and the Lake Winnebago Region, Wisconsin, Tourism and Conventions in Fond du Lac, WI. Retrieved April 19, 2019.
"Sturgeon Vignette – Sturgeon for Tomorrow" (PDF). Wisconsin DNR. Retrieved April 19, 2019.
Card, James (February 28, 2012). "Spearing Sturgeon on Wisconsin's Lake Winnebago". The New York Times. Retrieved April 19, 2019.
"We Pass". We Pass. ICPDR. 2020.
Rogin, Raluca Elena (2011). "Conservation and sustainable use of wild sturgeon populations of the NW Black Sea and Lower Danube River in Romania" (PDF). Norwegian University of Science and Technology Department of Biology.
Davidson, Alan (1999). "Isinglass". Oxford Companion to Food. pp. 407. ISBN 978-0-19-211579-9.
"Sturgeon: A controversial fish".
Lupovich, Howard (2010). "7". Jews and Judaism in World History. p. 258. ISBN 978-0-203-86197-4.
Price, Rob (September 26, 2016). "The incredible powers you didn't know the Queen has". The Independent. Retrieved April 19, 2019.
"Police inquiry over sturgeon sale". BBC NEWS. June 3, 2004. Retrieved May 17, 2018.
William Blackstone, Commentaries on the Laws of England, book I, ch. 8 "Of the King's Revenue", ss. X, p. *280
Cromwell, James (July 1, 2009). Saints, Signs, and Symbols: The Symbolic Language of Christian Art. Church Publishing Inc. p. 21. ISBN 9780819227652. Retrieved May 15, 2017.

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