Erismatopterus

Erismatopterus; Temporal range: Ypresian PreꞒ Ꞓ O S D C P T J K Pg N ↓
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Chordata
Class:	Actinopterygii
Order:	Percopsiformes
Family:	Percopsidae
Genus:	† Erismatopterus
Species:	†E. levatus
Binomial name
	†Erismatopterus levatus; (Cope, 1870)
Synonyms
	Cyprinodon levatusCope, 1870; Erismatopterus rickseckeriCope, 1871;

Last updated June 26, 2024

Erismatopterus is an extinct genus of percopsiform fish which lived during the early to middle Eocene epoch and containing the single species Erismatopterus levatus. A report of the genus in sediments of similar age in Washington State have been discredited. Erismatopterus is treated as part of the family Percopsidae, but formerly was the type genus of the extinct family Erismatopteridae. The genus is closely related to Amphiplaga of related lake sediments. Shoaling behavior has been reported from a mass mortality fossil of E. levatus and attributed as a predator-evasion response behavior.

Distribution

Erismatopterus levatus is known from solitary fossils and mass mortality groups which are compression-impression fossils preserved in layers of soft sedimentary rock.^[1] Along with other well preserved fish fossils, the E. levatus specimens are found in several outcrops of the Early to Middle Eocene Green River Formations Lake Gosiute and Lake Uinta. The formation is a group of Late Paleocene to Late Eocene depositional basins in Wyoming, Colorado, and Utah. Of the three paleolakes that comprise the formation, E. levatus seems to have been absent from Fossil Lake. Study of the paleoflora preserved in the formation indicates the lake was around 1,500–2,900 metres (4,900–9,500 ft) in elevation surrounded by a tropical to subtropical environment that had a distinct dry season.^[2]

Robert Carl Pearson (1967) reported on fish fossils collected in the Okanagan Highlands Toroda Creek Graben northwest of Republic, Washington, from Klondike Mountain Formation outcrops. Pearson had collected the fossils during field mapping in the early 1960s for his Geologic map of the Bodie Mountain quadrangle, Ferry and Okanogan Counties, Washington. Among the fish sent to the Smithsonian for identified by paleoichthyologist David Dunkle was at least one specimen which Dunkle tentatively identified as Erismatopterus.^[3] Pearson sent almost all of the specimens collected in the 1960s Washington field work to the Smithsonian; however, the fossils were never accessioned into the collections and were considered lost by 1978.^[4] Mark Wilson (1979) in his description of Libotonius pearsoni noted the probability that the Toroda Creek fossil or fossils actually belonged to his new species and likely did not belong to Erismatopterus.^[5]

History and classification

The type species was described by Edward Drinker Cope (1870) as Cyprinodon levatus, and considered a species of pupfish. The placement was revised a year later when he described the genus Erismatopterus with Erismatopterus rickseckeri as the type species, and E. levatus moved into the genus as a second species. In 1877 a third species Erismatopterus endlichi was also described by Edward Drinker Cope, and the genus was considered to have three species though the 1960s. Review of the genus by ichthyologists Donn Eric Rosen and Colin Patterson (1969) however resulted in several changes, notably that E. endlichi was deemed a junior synonym of Amphiplaga brachyptera and E. rickseckeri a jr synonym of E. levatus, leaving Erismatopterus monotypic.^[1]

Etymology

Lance Grande (1984) suggested the genus name to be derived the Greek word erisma meaning "cause of dispute", top meaning "place" and ter meaning wonder. Grande notes that while Cope did not provide an etymological explanation for the name, it may have been a reference to Cope's difficulty in classification of the fossils.^[1]

Phylogeny

Erismatopterus is placed in the Paracanthopterygii family Percopsidae^[1] and phylogenetic analysis by Borden et al (2013) placed it as a sister genus to † Amphiplaga ^[6] which is only found in Fossil Lake.^[1]Erismatopterus and Amphiplaga have been considered closely allied genera since the early 1900s, so much so that David Starr Jordan (1905) placed them into a separate family Erismatopteridae. This placement was challenged by Rosen and Patterson who deemed the differences found by Jordan insufficient reason to segregate the genera into a stand-alone family. Rosen and Patterson chose to include both in an expanced Percopsidae.^[1]

2013 Borden et al phylogeny^[6]

Percopsiformes

† Libotonius

	† Amphiplaga

	†Erismatopterus

† Lateopisciculus

	† Massamorichthys

	Percopsis

† Mcconichthys

	† Tricophanes

	Aphredoderus

Amblyopsidae

Description

On average, adult Erismatopterus levatus are about 5 cm (2.0 in) with an upper size limit around 12.5 cm (4.9 in). This is smaller than adults of Amphiplaga^[1] but larger than adults of either Libotonius species.^[5]^[7] The body of E. levatus was speckled with small dark spots in life along with larger dark patches along the back and midline. At the time, Grande (1984) reported that no specimens had been preserved with an adipose fin as is found on living Percopsis species, but distortion of the upper back between Dorsal fin and caudal fin suggests adults may have had one in life. The backbone is composed of between 13 and 14 precaudal vertebrae plus 15 to 17 caudal vertebrae. The dorsal fins have between 7–9 fin rays, with two unbranched and 6–7 branched rays. The anal fin is between 7–8 rays of which two are unbranched. The caudal fin is formed from two unbranched rays and two groups of 8 branched rays in a 1,8,8,1 pattern from top to bottom.^[1]

Behaviour

Shoaling behavior has been ascribed to Erismatopterus levatus based on a 570 mm × 375 mm (22.4 in × 14.8 in) shale slab specimen, FPDM-V8206 in the Fukui Prefectural Dinosaur Museum, Japan, which was detailed by Nobuaki Mizumoto, Shinya Miyata, and Stephen C. Pratt (2019). The slab preserves a total of 259 fish, 257 of which are grouped in a nearly unidirectional elliptical cluster where all but 8 of them face the same direction. Based on the small size range of the fish, between 10.57–23.54 mm (0.416–0.927 in), the authors suggest the shoal was of juvenile fish, as the type specimen for the species is larger at 65 mm (2.6 in) long.^[8] The specimen was compared to two other mass mortality slabs from the Green River Formation to determine if the inferred clustering was truly behavior related. The other two slabs were of 35 Gosiutichthys and a mixed group of 276 Knightia accompanied by two Diplomystus , and four Mioplosus . Neither of the other slabs showed the distinct directionality or positioning between fish that is seen with the FPDM-V8206 specimen.^[9] Given the positioning of the E. levatus fry Mizumoto et al inferred the behavior was likely a form of group predator avoidance.^[8] This is supported by the presence in the same formation of fossil catfish, gar, and Diplomystus all of which would have been possible predators of the young fish.^[8] Grande (1984) posited that E. levatus was possibly an insectivore, planktivore, combination of the two, or possibly an omnivore combing one or both of the mentioned diets with herbivory on algaes or plants.^[1]

Related Research Articles

The Percopsiformes are a small order of freshwater teleost fishes measuring less than 20 cm in length, comprising the trout-perch and its allies. It contains just ten extant species, grouped into seven genera and three families. Five of these genera are monotypic.

Hiodontidae, commonly called mooneyes, is a family of ray-finned fish with a single included genus Hiodon. The genus comprise two living species native to North America and three to five extinct species recorded from Paleocene to Eocene age fossils. They are large-eyed, fork-tailed fish that superficially resemble shads. The vernacular name comes from the metallic shine of their eyes.

The Green River Formation is an Eocene geologic formation that records the sedimentation in a group of intermountain lakes in three basins along the present-day Green River in Colorado, Wyoming, and Utah. The sediments are deposited in very fine layers, a dark layer during the growing season and a light-hue inorganic layer in the dry season. Each pair of layers is called a varve and represents one year. The sediments of the Green River Formation present a continuous record of six million years. The mean thickness of a varve here is 0.18 mm, with a minimum thickness of 0.014 mm and maximum of 9.8 mm.

The Florissant Formation is a sedimentary geologic formation outcropping around Florissant, Teller County, Colorado. The formation is noted for the abundant and exceptionally preserved insect and plant fossils that are found in the mudstones and shales. Based on argon radiometric dating, the formation is Eocene in age and has been interpreted as a lake environment. The fossils have been preserved because of the interaction of the volcanic ash from the nearby Thirtynine Mile volcanic field with diatoms in the lake, causing a diatom bloom. As the diatoms fell to the bottom of the lake, any plants or animals that had recently died were preserved by the diatom falls. Fine layers of clays and muds interspersed with layers of ash form "paper shales" holding beautifully-preserved fossils. The Florissant Fossil Beds National Monument is a national monument established to preserve and study the geology and history of the area.

Gastornis is an extinct genus of large, flightless birds that lived during the mid-Paleocene to mid-Eocene epochs of the Paleogene period. Fossils have been found in Europe, Asia and North America, with the North American specimens formerly assigned to the genus Diatryma.

Knightia is an extinct genus of clupeid bony fish that lived in the freshwater lakes and rivers of North America and Asia during the Eocene epoch. The genus was erected by David Starr Jordan in 1907, in honor of the late University of Wyoming professor Wilbur Clinton Knight, "an indefatigable student of the paleontology of the Rocky Mountains." It is the official state fossil of Wyoming, and the most commonly excavated fossil fish in the world.

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Asineops is an enigmatic genus of extinct freshwater ray-finned fish from the Eocene. It is the only member of the family Asineopidae and contains a single species, A. squamifrons, from the famous Green River Formation of Colorado, Wyoming, and Utah. It was described by Edward Drinker Cope in 1870.

Paleopsephurus is an extinct genus of paddlefish (Polyodontidae). At present the genus contains the single species Paleopsephurus wilsoni. The genus is known from the Late Cretaceous (Maastrichtian) aged Hell Creek Formation of Montana.

Libotonius is an extinct genus of prehistoric percopsiform in the monotypic family Libotoniidae which lived during the middle division of the Eocene epoch. The type species Libotonius blakeburnensis is named for Blakeburn, British Columbia, the type locality of the genus and species in the Allenby Formation. The second species, Libotonius pearsoni is known exclusively from the Klondike Mountain Formation in Republic, Washington.

Amyzon is an extinct genus belonging to the sucker family Catostomidae first described in 1872 by E. D. Cope. There are six valid species in the genus. Amyzon are found in North American fossil sites dated from the Early Eocene in Montana and Washington USA, as well as the British Columbian sites at McAbee Fossil Beds, Driftwood Canyon, and the "Horsefly shale", as well as Early Oligocene sites in Nevada USA. One Middle Eocene species is known from the Xiawanpu Formation of China. The Ypresian species A. brevipinne of the Allenby Formation was redescribed in 2021 and moved to a separate monotypic genus Wilsonium.

Neoephemera antiqua is an extinct species of square-gill mayfly in the family Neoephemeridae that is known from early Eocene, Ypresian stage, lake deposits near the small community of Republic in Ferry County, Washington, USA.

The Klondike Mountain Formation is an Early Eocene (Ypresian) geological formation located in the northeast central area of Washington state. The formation is comprised of volcanic rocks in the upper unit and volcanic plus lacustrine (lakebed) sedimentation in the lower unit. the formation is named for the type location designated in 1962, Klondike Mountain northeast of Republic, Washington. The formation is a lagerstätte with exceptionally well-preserved plant and insect fossils has been found, along with fossil epithermal hot springs.

Acer toradense is an extinct maple species in the family Sapindaceae described from two fossil samaras. The species is solely known from the Early Eocene sediments exposed in northeast Washington state, United States, and the adjacent area of south central British Columbia, Canada. It is one of three species belonging to the extinct section Torada.

The Bridger Formation is a geologic formation in southwestern Wyoming. It preserves fossils dating back to the Bridgerian and Uintan stages of the Paleogene Period. The formation was named by American geologist Ferdinand Vandeveer Hayden for Fort Bridger, which had itself been named for mountain man Jim Bridger. The Bridger Wilderness covers much of the Bridger Formation's area.

Crossopholis is an extinct fish known from the early Eocene (Ypresian) of North America, approximately 52 million years ago. It is a close relative of the contemporary American paddlefish, belonging to the paddlefish family Polyodontidae.

Hiodon woodruffi is an extinct species of bony fish in the mooneye family, Hiodontidae. The species is known from fossils found in the early Eocene deposits of northern Washington state in the United States and late Eocene deposits in northwestern Montana. The species was first described as Eohiodon woodruffi. H. woodruffi is one of two Eocene Okanagan Highlands mooneye species, and one of five fish identified in the Klondike Mountain Formation.

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References

1 2 3 4 5 6 7 8 9 Grande, L. (1984). "Paleontology of the Green River Formation, with a review of the fish fauna". Bulletin of the Wyoming State Geological Survey. 63 2nd ed. Laramie, Wyoming.
↑ Dehon, M.; Michez, D.; Nel, A.; Engel, M. S.; De Meulemeester, T. (2014). "Wing Shape of Four New Bee Fossils (Hymenoptera: Anthophila) Provides Insights to Bee Evolution". PLOS ONE. 9 (10): 1–16. Bibcode:2014PLoSO...9j8865D. doi: 10.1371/journal.pone.0108865 . PMC 4212905 . PMID 25354170.
↑ Pearson, R.C. (1967). Geologic map of the Bodie Mountain quadrangle, Ferry and Okanogan counties, Washington (Geologic Quadrangle). Report. United States Geological Survey. doi:10.3133/gq636.
↑ Wilson, M. V. (1978). "Eohiodon woodruffi n. sp.(Teleostei, Hiodontidae), from the Middle Eocene Klondike Mountain Formation near Republic, Washington". Canadian Journal of Earth Sciences. 15 (5): 679–686. Bibcode:1978CaJES..15..679W. doi:10.1139/e78-075.
1 2 Wilson, M.V.H. (1979). "A second species of Libotonius (Pisces: Percopsidae) from the Eocene of Washington State". Copeia. 1979 (3): 400–405. doi:10.2307/1443214. JSTOR 1443214.
1 2 Borden, W. C.; Grande, T.; Smith, W. L. (2013). "Comparative osteology and myology of the caudal fin in the Paracanthopterygii (Teleostei: Acanthomorpha)". In G. Arratia; H.-P. Schultze; M. V. H. Wilson (eds.). Mesozoic Fishes 5 – Global Diversity and Evolution. Verlag Dr. Friedrich Pfeil. pp. 419–455. ISBN 978-3-89937-159-8.
↑ Wilson, M.V. (1977). "Middle Eocene freshwater fishes from British Columbia". Life Sciences Contributions, Royal Ontario Museum. 113: 1–66.
1 2 3 Mizumoto, N.; Miyata, S.; Pratt, S.C. (2019). "Inferring collective behaviour from a fossilized fish shoal". Proceedings of the Royal Society B. 286 (1903): 1–7. doi:10.1098/rspb.2019.0891. PMC 6545072 . PMID 31138077.
↑ Mizumoto, N.; Miyata, S.; Pratt, S.C. (2019). "Supplementary material from "Inferring collective behaviour from a fossilized fish shoal"". The Royal Society Collection. doi:10.6084/m9.figshare.c.4508282.v2.

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[Grande84-1] 1 2 3 4 5 6 7 8 9 Grande, L. (1984). "Paleontology of the Green River Formation, with a review of the fish fauna". Bulletin of the Wyoming State Geological Survey. 63 2nd ed. Laramie, Wyoming.

[Dehon2014-2] Dehon, M.; Michez, D.; Nel, A.; Engel, M. S.; De Meulemeester, T. (2014). "Wing Shape of Four New Bee Fossils (Hymenoptera: Anthophila) Provides Insights to Bee Evolution". PLOS ONE. 9 (10): 1–16. Bibcode:2014PLoSO...9j8865D. doi: 10.1371/journal.pone.0108865 . PMC 4212905 . PMID 25354170.

[Pearson1967-3] Pearson, R.C. (1967). Geologic map of the Bodie Mountain quadrangle, Ferry and Okanogan counties, Washington (Geologic Quadrangle). Report. United States Geological Survey. doi:10.3133/gq636.

[Ewoodruffi1978-4] Wilson, M. V. (1978). "Eohiodon woodruffi n. sp.(Teleostei, Hiodontidae), from the Middle Eocene Klondike Mountain Formation near Republic, Washington". Canadian Journal of Earth Sciences. 15 (5): 679–686. Bibcode:1978CaJES..15..679W. doi:10.1139/e78-075.

[Wilson1979-5] 1 2 Wilson, M.V.H. (1979). "A second species of Libotonius (Pisces: Percopsidae) from the Eocene of Washington State". Copeia. 1979 (3): 400–405. doi:10.2307/1443214. JSTOR 1443214.

[osteology2013-6] 1 2 Borden, W. C.; Grande, T.; Smith, W. L. (2013). "Comparative osteology and myology of the caudal fin in the Paracanthopterygii (Teleostei: Acanthomorpha)". In G. Arratia; H.-P. Schultze; M. V. H. Wilson (eds.). Mesozoic Fishes 5 – Global Diversity and Evolution. Verlag Dr. Friedrich Pfeil. pp. 419–455. ISBN 978-3-89937-159-8.

[Wilson1977-7] Wilson, M.V. (1977). "Middle Eocene freshwater fishes from British Columbia". Life Sciences Contributions, Royal Ontario Museum. 113: 1–66.

[school2019-8] 1 2 3 Mizumoto, N.; Miyata, S.; Pratt, S.C. (2019). "Inferring collective behaviour from a fossilized fish shoal". Proceedings of the Royal Society B. 286 (1903): 1–7. doi:10.1098/rspb.2019.0891. PMC 6545072 . PMID 31138077.

[Shoalsupp-9] Mizumoto, N.; Miyata, S.; Pratt, S.C. (2019). "Supplementary material from "Inferring collective behaviour from a fossilized fish shoal"". The Royal Society Collection. doi:10.6084/m9.figshare.c.4508282.v2.

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