Sarcocheilichthys sciistius ( Abbott, 1901 )
|
publication ID |
https://doi.org/10.11646/zootaxa.5141.4.3 |
|
publication LSID |
lsid:zoobank.org:pub:9BFE8D4B-67EA-4440-96DF-74DF5ECB5C10 |
|
DOI |
https://doi.org/10.5281/zenodo.6598365 |
|
persistent identifier |
https://treatment.plazi.org/id/039A87D2-9538-4630-FF28-41ABFE02ABD7 |
|
treatment provided by |
Plazi (2022-05-30 09:27:13, last updated 2024-11-29 04:44:31) |
|
scientific name |
Sarcocheilichthys sciistius ( Abbott, 1901 ) |
| status |
|
Sarcocheilichthys sciistius ( Abbott, 1901) View in CoL ( Figures 2 View FIGURE 2 , 3 View FIGURE 3 , 4 View FIGURE 4 and 5 View FIGURE 5 ; Table 2 View TABLE 2 ).
Leuciscus sciistius Abbott (1901) View in CoL : 487 (original description); Böhlke (1953): 33.
Chilogobio czerskii Berg (1914) View in CoL : 490; Berg (1949): 661.
Chilogobio soldatovi Berg (1914) View in CoL : 492; Berg (1949): 662.
Sarcocheilichthys nigripinnis sciistius Nichols (1943) : 191.
Sarcocheilichthys nigripinnis Bănărescu et Nalbant (1967) View in CoL : 294; Luo et al. (1977): 474; Yue in Chen et al. (1998): 277.
Sarcocheilichthys nigripinnis czerskii Bănărescu et Nalbant (1967) View in CoL : 294; Luo et al. (1977): 476; Zhu (1995): 76; Kim (1997): 207.
Sarcocheilichthys czerskii Bogutskaya et Naseka (1996) View in CoL : 40; Naseka (1996): 156; Reshetnikov et al. (1997): 741; Naseka (1998): 86; Yue in Chen et al. (1998): 279; Bogutskaya et al. (2001): 44; Kim & Park (2002): 112; Bogutskaya et Naseka (2004): 71; Kottelat (2006):88; Bogutskaya et al. (2008): 327; Parin et al. (2014): 92; Zhang et al. (2016): 78; An et al. (2020): 217.
Sarcocheilichthys soldatovi Bogutskaya & Naseka (1996) View in CoL : 42; Naseka (1996): 155; Reshetnikov et al. (1997): 741; Naseka (1998): 86; Bogutskaya et al. (2001): 44; Bogutskaya & Naseka (2004): 72; Kottelat (2006): 49; Ocock et al. (2006): 46; Bogutskaya et al. (2008): 328; An et al. (2020): 217.
Holotype. USNM 49548 About USNM ( Figure 2 a, b and c View FIGURE 2 ), 53.4 mm SL; From Pei-Ho River (Grand Canal), Tien-Tsin (Tianjin), China.
Additional material examined. ASIZB 221731–221744 View Materials , 221752–221755 View Materials , 221779–221781 View Materials , 40.0– 71.5 mm SL, eighteen specimens, from Baihe River, Miyun District, Beijing City , 19 October 2020 ( River of type locality) ; ASIZB 221901–221921 View Materials , 38.5–44.8 mm SL, twenty-one specimens, from Songhuajiang River, Hulan District, Harbin City , 15 June 2021 ; ASIZB 220835–220855 View Materials , 51.2–74.8 mm SL, twenty-one specimens, from Liuhe River, Xinglong County, Chengde City , Hebei Province, 26 September 2020 ; ASIZB 221766–221777 View Materials , 27.6–71.6 mm SL, twelve specimens, from Qinhe River, Jiyuan City , Henan Province, 3 September 2020 . ASIZB 221759–221761 View Materials , 50.9–53.1 mm SL, three specimens, from Yihe River , Yichuan County, Henan Province, 4 September 2020 . ASIZB 221779–221786 View Materials , 44.1–49.4 mm SL, eight specimens, from Guanhe River , Shangcheng County, Henan Province, 17 September 2020 .
Diagnosis. Sarcocheilichthys sciistius can be separated from S. parvus , S. caobangensis , S. vittatus , S. lacustris and S. sinensis by several irregular black vertical blotches on lateral side of body (vs. a longitudinal black band or four wide black vertical bars on lateral side of body), it can be further separated from S. parvus , S. caobangensis and S. vittatus by 40–42 lateral-line scales (vs. 34–36 in S. parvus , 38 in S. caobangensis , 37–38 in S. vittatus ), it can be further separated from S. lacustris and S. sinensis by barbels absent (vs. a pair of short barbels) and last dorsal-fin ray soft (vs. stiff). Sarcocheilichthys sciistius can be separated from S. davidi by dorsal-fin origin closer to snout tip than to caudal-fin base (vs. equal) and 40–42 lateral-line scales (vs. 38–39), from S. kiangsiensis by 12–14 pectoralfin rays (vs. 15–17) and barbels absent (vs. a pair of short barbels), from S. hainanensis by two rows of pharyngeal teeth (vs. one row), from S. nigripinnis by 40–42 lateral-line scales (vs. 38–40), lower lip length 61.1%–72.8% of upper lip length (vs. 73.2%–90.2% of upper lip length), paired fins orange-red in color (vs. dark brown or black) ( Figure 4 View FIGURE 4 ).
Description. Body elongated and slightly compressed, greatest body depth at dorsal-fin origin and lowest anterior to caudal-fin base; dorsal body profile rising smoothly from nostrils to dorsal-fin base, then sloping gradually to caudal-fin base; ventral body concave from lower jaws to the end of anal-fin base and slightly concave from the end of anal-fin base to caudal-fin base. Anus positioned slightly closer to anal-fin origin than to pelvic-fin insertion. Head short and compressed, length about 22.7−26.1% of body depth and depth greater than width. Snout bluntly pointed, shorter than postorbital head length, basically equal to interorbital width. Eye normal sized, diameter about 24.0−30.5% of head length, smaller than interorbital width, placed in dorsal half of head. Nostrils positioned closely, in front of eyes. Mouth sub-terminal, arc shaped; lips well developed, upper lip smooth and thick, lower lip modified to form two relatively lateral lobes confined only to sides of lower jaw, length 61.1−72.8% of upper lip length; postlabial groove with a narrow interruption, width 23.8−29.8% of upper lip length; lower jaw without developed horny sheath on the cutting edge. No barbels.
Dorsal fin iii, 7 (18 specimens); posterior edge slightly concave, its origin anterior to vertical line of pelvic-fin origin and closer to snout tip than to caudal-fin base. Pectoral fin i, 12 (1), i, 13 (12), or i, 14 (5), tips extending beyond half of distance between pectoral-fin and pelvic-fin origins. Pelvic fin i, 7 (18), tips extending beyond anus but not reaching anal-fin origin, length shorter than others fins. Anal fin iii, 5 (18) branched rays; posterior edge slightly concave, origin closer to the pelvic-fin origin than to caudal-fin base, its length close to caudal peduncle length. Caudal fin forked with 9 branched rays on upper lobes and 8 branched rays on lower lobes, tips slightly blunt, upper and lower lobes are equal in length.
Body covered with medium-sized scales. Thorax before pectoral fins naked. Lateral line complete, slightly bent ventrally at beginning, then almost straight to the end of caudal peduncle. Lateral-line scales 40 (4), 41 (12), 42 (2); scales above lateral line 4.5 (18); scales below lateral line 4 (18); predorsal scales 12 (15), 13 (3); circumpeduncular scales 16 (18).
Coloration in life. Dorsal and mid-lateral side of head yellow or light gray, ventral side grayish white. Operculum margin red or yellow. A black vertical marking behind the head. Dorsal and lateral side of the body golden yellow with irregular deep gray blotches, black blotches scattered gradually becomes dense from head margin to caudal-fin base, ventral side grayish white. Dorsal fin translucent or orange-red with two rows of black spots, caudal fin translucent or orange-red and sometimes with a large black spot on lower lobe. Pectoral fin, pelvic fin and anal fin having orange-red median part and hyaline distal edge. ( Figure 4a, 4b View FIGURE 4 ).
Coloration in preservative. Dorsal and mid-lateral side of head light brown, ventral side grayish white. A black or dark gray vertical marking behind the head. Dorsal and lateral side of the body yellow with irregular brown blotches, black blotches scattered gradually become dense from head margin to caudal-fin base, ventral side greyish white. Dorsal fin and caudal fin with brown basal part and white distal margin. Pectoral fin, pelvic fin and anal fin having a yellow median part and a hyaline distal edge. ( Figure 3 View FIGURE 3 , 5 View FIGURE 5 ).
Sexual dimorphism. In breeding season, adult male with bead pearls on snout and cheek. Margin of operculum, dorsal, lateral side of body and all fins bright red (lateral side of body fades quickly when caught) ( Figure 4a View FIGURE 4 ); adult female with elongated ovipositor extending beyond origin of pelvic-fin ( Figure 5 View FIGURE 5 ).
Distribution. Sarcocheilichthys sciistius is widely distributed in the northern China and the border of China and Russia Far East, including Heilongjiang (Amur) River Basin, Yalu River Basin, Liaohe River Basin, Haihe River Basin (including the type locality), middle and lower reaches of Yellow River Basin and Huaihe River Basin ( Figure 6 View FIGURE 6 ).
Habitat and biology. Sarcocheilichthys sciistius usually inhabits slowly flowing rivers with clear, shallow waters with a sand-gravel substrate ( Figure 7a View FIGURE 7 ). In the Baihe River, coexisting species include Opsariichthys bidens , Zacco platypus , Rhynchocypris lagowskii , Rhodeus sinensis , Hemibarbus labeo , Squalidus wolterstorffi , and Microphysogobio chinssuensis . In addition, species of freshwater mussel like Unio douglasiae can also be found in this habitat. Sarcocheilichthys sciistius usually feeds on the algae growing on the surface of pebbles ( Figure 7b View FIGURE 7 ).
Genetic comparisons. The molecular phylogenetic results (both BI and ML) based on Cyt b sequence shows that Sarcocheilichthys sciistius , S. czerskii and S. soldatovi form a monophyletic group which is sister to S. nigripinnis , and S. czerskii together with S. soldatovi nested within S. sciistius ( Figure 8 View FIGURE 8 ). The interspecific genetic distances between S. sciistius and its closest two congeners S. czerskii and S. nigripinnis are 0.6% and 6.6% for Cyt b based on K2P model respectively. The intraspecific genetic distance in S. sciistius is 0.6% and in S. nigripinnis is 1.1%, which are much lower than the inter-species genetic distances (6.6%) between these two species; however, the intraspecific genetic distance in S. sciistius is much higher than that of S. czerskii (0.6% vs. 0.03%, Table 3 View TABLE 3 ). The only available sequence from S. soldatovi is also located inside the linage of S. sciistius - S. czerskii . The ASAP analysis recognized six molecular operational taxonomic units (MOTUs) among the given nine species, and PTP method for BI tree supported eight MOTUs with the posterior probabilities of 1.00, 1.00, 1.00, 0.90, 1.00, 0.88, 0.57, and 0.95* (* refers to the node of S.sciistius , S. czerskii and S. soldatovi ). The mPTP analysis for ML tree supported seven MOTUs with the posterior probabilities of 1.00, 0.98, 0.98, 0.70, 1.00, 0.76 and 0.96* respectively (* refers to the node of S. sciistius , S. czerskii and S. soldatovi ). Both methods showed S. sciistius a distinct taxa and the genetic evidence supported S. sciistius to be a possible distinct species and S. czerskii with S. soldatovi may just be geographic populations of S. sciistius based on the current available sequences. The phylogenetic trees reconstructed by the BI and ML methods showed almost the same tree topology and the support values of each method are shown in the tree ( Figure 8 View FIGURE 8 ). The genetic distances of the Cyt b gene amongst nine species of Sarcocheilichthys that distributed in China are given in Table 3 View TABLE 3 .
Abbott, J. F. (1901) List of fishes collected in the River Pei-Ho, at Tien-Tsin, China, by Noah Fields Drake, with descriptions of seven new species. Proceedings of the United States National Museum, 23, 483 - 491. https: // doi. org / 10.5479 / si. 00963801.23 - 1221.483
An, C. T., Zhang, E. & Shen, J. Z. (2020) Sarcocheilichthys vittatus, a new species of gudgeon (Teleostei: Cyprinidae) from the Poyang lake basin in Jiangxi Province, South China. Zootaxa, 4768 (2), 201 - 220. https: // doi. org / 10.11646 / zootaxa. 4768.2.3
Banarescu, P. M. & Nalbant, T. T. (1967) Revision of the genus Sarcocheilichthys (Pisces, Cyprinidae). Vestnik Ceskoslovenske spolecnosti zoologicke, 31, 293 - 312.
Berg, L. S. (1914) Faune de la Russie et des pays limitrophes. Poissons, Marsipobranchii et Pisces. Vol. III. Ostariophysi. Part 2. Imperatorskii Akademii Nauk, Petrograd, Russia, 490 pp.
Berg, L. S. (1949) s. n. In: Freshwater fishes of the USSR and adjacent countries. Vol. 2. 4 th Edition. Izdatel'stvo Akademii Nauk SSSR, Moscow, pp. 469 - 925.
Bogutskaya, N. G. & Naseka, A. M. (1996) Cyclostomata and fishes of Khanka Lake drainage area (Amur River basin): an annotated check-list with comments on taxonomy and zoogeography of the region. GosNIORKu and Zin Ran, St. Petersburg, 89 pp. [in Russian]
Bogutskaya, N. G., Naseka, A. M. & Komlev, A. M. (2001) Freshwater fishes of Russia: preliminary results of the fauna revision. Proceedings of the Zoological Institute RAS, 289, 39 - 50.
Bogutskaya, N. G., Naseka, A. M. (2004) Catalogue of agnathans and fishes of fresh and brackish waters of Russia with comments on nomenclature and taxonomy. Russian Academy of Sciences, Moscow, 389 pp. [in Russia]
Bogutskaya, N. G., Naseka, A. M., Shedko, S. V., Vasil'eva, E. D. & Chereshnev, I. A. (2008) The fishes of the Amur River: Updated check-list and zoogeography. Ichthyological Exploration of Freshwaters, 19, 301 - 366.
Bohlke, J. E. (1953) A catalogue of the type specimens of Recent fishes in the Natural History Museum of Stanford University. Stanford Ichthyological Bulletin, 5 (1), 1 - 168.
Kim, I. S. (1997) Illustrated encyclopedia of fauna and flora of Korea. Vol. 37. Freshwater fishes. Ministry of Education, Seoul, 629 pp. [in Korean]
Kottelat, M. (2006) Fishes of Mongolia. A Check-List of the Fishes Known to Occur in Mongolia with Comments on Systematics and Nomenclature. The World Bank, Washington, 103 pp.
Luo, Y. L., Yue, P. Q. & Chen, Y. Y. (1977) Gobininae. In: Wu, X. W. (Ed.), The cyprinid fishes of China. Vol. 2. Shanghai Scientific and Technical Publishers, Shanghai, pp. 1 - 439. [in Chinese]
Naseka, A. M. (1996) Comparative study on the vertebral column in the Gobioninae (Cyprinidae, Pisces) with special reference to its systematics. Publicaciones Especiales Instituto Espanol de Oceanografia, 21, 149 - 167.
Naseka, A. M. (1998) Annotated Check-List of Cyclotomata and Fishes of the continal waters of Russia. Nauka Publishers, Moscow, 277 pp. [in Russian]
Nichols, J. T. (1943) The fresh-water fishes of China. American Museum of Natural History, New York, 322 pp.
Ocock, J., Baasanjav, G., Baillie, J., Erdenebat, M., Kottelat, M., Mendsaikhan, B. & Smith, K. (2006). Mongolian Red List of fishes [version in Mongolian language]. Regional Red List Series, 3, 1 - 65.
Parin, N. V., Evseenko, S. A. & Vasil'eva, E. D. (2014) Fishes of Russian Seas: Annotated Catalogue. KMK Scientific Press, Moscow, 733 pp.
Reshetnikov, Y. S., Bogutskaya, N., Vasil'eva, E., Dorofeeva, E., Naseka, A., Popova, O., Savvaitova, K., Sideleva, V. & Sokolov, L. (1997) An annotated check-list of the freshwater fishes of Russia. Journal of Ichthyology, 37 (9), 687 - 736.
Zhang, C. G. & Zhao, Y. H. (2016) Species Diversity and Distribution of Inland Fishes in China. Science Press, Beijing, 296 pp. [in Chinese]
Zhu, S. Q. (1995) Synopsis of freshwater fishes of China. Jiangsu Science and Technology Publishing House, Nanjing, 549 pp. [in Chinese]
FIGURE 2 Sarcocheilichthys sciistius, Abbott (1901). Holotype, USNM 49548, 53.4 mm SL: (a) lateral view, (b) dorsal view, (c) ventral view, (d) original drawing. Fig a, b and c were taken by Rob Robins and Sandra Raredon, Fig d drawn by Abbott (Download from Biodiversity Heritage Library, www.biodiversitylibrary.org).
FIGURE 3 Sarcocheilichthys sciistius, ASIZB 221744, 71.5 mm standard length: (a) lateral view, (b) dorsal view, (c) ventral view
FIGURE 4 (a) Live individual of Sarcocheilichthys sciistius in breeding season, male, from Yanjiahe River, Huaihe River Basin, Guangshan County, Henan Province, 26 April 2021; (b) Live individual of S. sciistius, male, from Jumahe River, Haihe River Basin, Fangshan District, Beijing, 22 October 2020; (c) Live individual of S. nigripinnis, male, from the Taihu Lake, lower Yangtze River Basin, Huzhou City, Zhejiang Province, 31 October 2021.
FIGURE 5 Sarcocheilichthys sciistius, female, ASIZB 221728, 71.2 mm standard length; from Liuhe River, Luanhe River Basin, Xinglong County, Hebei Province; 27 September 2020.
FIGURE 7 (a) Typical habitat of Sarcocheilichthys sciistius, Baihe River, Haihe River Basin, Shatuozi Village, Miyun District, Beijing, China; 10 August 2020; (b) underwater photograph of S. sciistius, Chaohe River, Haihe River Basin, Chengzi Village, Miyun District, Beijing, China; 11 August 2020; photographed by Zhi-Xian Sun.
FIGURE 8 Molecular phylogenetic tree of nine Sarcocheilichthys species based on Cyt b sequence reconstructed by Bayesian Inference method (Bayesian posterior probabilities values are shown above the branch) and Maximum Likelihood method (bootstrap values are shown below the branch), with the species delimitation results shown on the right.
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
|
Kingdom |
|
|
Phylum |
|
|
Class |
|
|
Order |
|
|
Family |
|
|
Genus |
Sarcocheilichthys sciistius ( Abbott, 1901 )
| Li, Xuejian, Sun, Zhixian, Tang, Wenqiao & Zhao, Yahui 2022 |
Sarcocheilichthys czerskii Bogutskaya et Naseka (1996)
| An, C. T. & Zhang, E. & Shen, J. Z. 2020: 217 |
| Zhang, C. G. & Zhao, Y. H. 2016: 78 |
| Parin, N. V. & Evseenko, S. A. & Vasil'eva, E. D. 2014: 92 |
| Bogutskaya, N. G. & Naseka, A. M. & Shedko, S. V. & Vasil'eva, E. D. & Chereshnev, I. A. 2008: 327 |
| Kottelat, M. 2006: 88 |
| Bogutskaya, N. G. & Naseka, A. M. 2004: 71 |
| Bogutskaya, N. G. & Naseka, A. M. & Komlev, A. M. 2001: 44 |
| Naseka, A. M. 1998: 86 |
| Reshetnikov, Y. S. & Bogutskaya, N. & Vasil'eva, E. & Dorofeeva, E. & Naseka, A. & Popova, O. & Savvaitova, K. & Sideleva, V. & Sokolov, L. 1997: 741 |
| Bogutskaya, N. G. & Naseka, A. M. 1996: 40 |
| Naseka, A. M. 1996: 156 |
Sarcocheilichthys soldatovi
| An, C. T. & Zhang, E. & Shen, J. Z. 2020: 217 |
| Bogutskaya, N. G. & Naseka, A. M. & Shedko, S. V. & Vasil'eva, E. D. & Chereshnev, I. A. 2008: 328 |
| Kottelat, M. 2006: 49 |
| Ocock, J. & Baasanjav, G. & Baillie, J. & Erdenebat, M. & Kottelat, M. & Mendsaikhan, B. & Smith, K. 2006: 46 |
| Bogutskaya, N. G. & Naseka, A. M. 2004: 72 |
| Bogutskaya, N. G. & Naseka, A. M. & Komlev, A. M. 2001: 44 |
| Naseka, A. M. 1998: 86 |
| Reshetnikov, Y. S. & Bogutskaya, N. & Vasil'eva, E. & Dorofeeva, E. & Naseka, A. & Popova, O. & Savvaitova, K. & Sideleva, V. & Sokolov, L. 1997: 741 |
| Bogutskaya, N. G. & Naseka, A. M. 1996: 42 |
| Naseka, A. M. 1996: 155 |
Sarcocheilichthys nigripinnis Bănărescu et Nalbant (1967)
| Luo, Y. L. & Yue, P. Q. & Chen, Y. Y. 1977: 474 |
| Banarescu, P. M. & Nalbant, T. T. 1967: 294 |
Sarcocheilichthys nigripinnis czerskii Bănărescu et Nalbant (1967)
| Kim, I. S. 1997: 207 |
| Zhu, S. Q. 1995: 76 |
| Luo, Y. L. & Yue, P. Q. & Chen, Y. Y. 1977: 476 |
| Banarescu, P. M. & Nalbant, T. T. 1967: 294 |
Sarcocheilichthys nigripinnis sciistius
| Nichols, J. T. 1943: 191 |
Chilogobio czerskii
| Berg, L. S. 1949: 661 |
| Berg, L. S. 1914: 490 |
Chilogobio soldatovi
| Berg, L. S. 1949: 662 |
| Berg, L. S. 1914: 492 |
Leuciscus sciistius
| Bohlke, J. E. 1953: 33 |
| Abbott, J. F. 1901: 487 |