Conservation status
Threatened categoriesNear Threatened (NT) 22Vulnerable (VU) 30Endangered (EN) 42Critically Endangered (CR) 1Extinct (EX) 2
Other categoriesLeast Concern (LC) 272Not Reported 882Data Deficient (DD) 25 8LR/cd 1
 
Selected category: Endangered (EN)
S.No.    Species References Details
1 Acipenser baerii Fontana F, Lanfredi M, Congiu L, Leis M, Chicca M, Rossi R (2003). Chromosomal mapping of 18S–28S and 5S rRNA genes by two-colour fluorescent in situ hybridization in six sturgeon species. Genome, 46: 473–477. View
2 Acipenser stellatus Fontana F, Lanfredi M, Congiu L, Leis M, Chicca M, Rossi R (2003). Chromosomal mapping of 18S–28S and 5S rRNA genes by two-colour fluorescent in situ hybridization in six sturgeon species. Genome, 46: 473–477. View
3 Acipenser sturio Fontana F, Lanfredi M, Congiu L, Leis M, Chicca M, Rossi R (2003). Chromosomal mapping of 18S–28S and 5S rRNA genes by two-colour fluorescent in situ hybridization in six sturgeon species. Genome, 46: 473–477. View
4 Anabarilius alburnops Ruiguang Z, Zheng S (1980). Studies of the karyotypes of eight species of fishes in Cyprinus and Anabarilius. Zoological Research, 1(2): 142-150. View
5 Anabarilius andersoni Ruiguang Z, Zheng S (1980). Studies of the karyotypes of eight species of fishes in Cyprinus and Anabarilius. Zoological Research, 1(2): 142-150. View
6 Anguilla anguilla Salvadori S, Cau A, Deiana AM, Coluccia E, Milia A, Cannas R, Nieddu M, Pichiri G, Mezzanotte R (1998). Cytogenetic and molecular characteristics of Atlantic eels (Anguilla anguilla and A. rostrata) genome. Italian Journal of Zoology, 65 Suppl.: 61-64. View
7 Barbus ethiopicus Golubtsov AS, Krysanov E Yu (1993). Karyological study of some cyprinid species from Ethiopia. The ploidy differences between large and small Barbus of Africa. J. Fish Biol., 42: 445-455. View
8 Betta simplex Sarasan T, Supiwong W, Sriwattanarothai N, Panijpan B, Srisamoot N, Tanomtong A. (2021). Karyotype of four Mouth-Brooding Betta fishes (Betta Bleeker, 1850) in Thailand. Science Technology and Engineering Journal (STEJ), 7(1): 22-31. View
9 Catlocarpio siamensis Saenjundaeng P, de Bello Cioffi M, de Oliveira EA, Tanomtong A, Supiwong W, Phimphan S, Collares-Pereira MJ, Sember A, Bertollo LAC, Liehr T, Yano CF, Hatanaka T, Rab P (2018). Chromosomes of Asian cyprinid fishes: cytogenetic analysis of two representatives of small paleotetraploid tribe Probarbini. Molecular Cytogenetics, 11:51. doi: 10.1186/s13039-018-0399-8. View
10 Chondrostoma soetta Cataudella S, Sola L, Muratori RA, Capanna E (1977). The chromosomes of 11 species of Cyprinidae and one Cobitidae from Italy, with some remarks on the problem of polyploidy in the Cypriniformes. Genetica, 47(3): 161-171. View
11 Cichlasoma labridens Thompson KW (1979). Cytotaxonomy of 41 species of Neotropical Cichlidae. 4:679-691. View
12 Clarias magur Baisvar VS, Kushwaha B, Kumar R, Kumar MS, Pandey M, Singh M. (2021). Chromosome analysis of walking catfish, Clarias magur (Teleostei, Siluriformes, Clariidae), using staining, FISH with 18S, 5S and BAC probes. J Appl Ichthyol., 37: 563–571. View
13 Cobitis calderoni Madeira JM, Collares-Pereira MJ, Elvira B (1992). Cytotaxonomy of Iberian loaches with some remarks on the karyological evolution of both families (Pisces, Cobitidae, Homalopteridae), Caryologia: International Journal of Cytology, Cytosystematics and Cytogenetics, 45(3-4): 273-281. View
14 Cyprinus micristius fuxianensis Ruiguang Z, Zheng S (1980). Studies of the karyotypes of eight species of fishes in Cyprinus and Anabarilius. Zoological Research, 1(2): 142-150. View
15 Cyprinus pellegrini barbatus Ruiguang Z, Zheng S (1980). Studies of the karyotypes of eight species of fishes in Cyprinus and Anabarilius. Zoological Research, 1(2): 142-150. View
16 Garra surendranathanii Nagpure NS, Kumar R, Singh PJ, Kushwaha B, Srivastava SK, Lakra WS (2006). Karyological Studies of Fish Species Garra surendranathanii and Bar |ius gatensis from the Western Ghats of India. The Nucleus, 49(1): 173-177. View
17 Glyptothorax madraspatanus Bahuguna SN, Thapliyal SM, Kumar M, Upadhyay and Bahuguna P (2008). Karyotypic Study in Three Fishes of Family Siluridae from River Alaknanda. Journal | Environment and Bio-sciences, 22 (2): 143-152. View
18 Gonoproktopterus curmuca Nagpure NS, Kumar R, Srivastava SK, Kushwaha B, Singh PJ, Gopalakrishnan A, Basheer VS (2005). A Report on High Number of Chromosomes in Three Endemic Fish Species from the Western Ghats of India. Nucleus, 48(3): 165-170. View
19 Horabagrus nigricollaris Nagpure NS, Kumar R, Srivastava SK, Gopalakrishnan A, Verma MS, Basheer VS (2005). Cytogenetic Studies of Fish Species Horabagrus nigricollaris, Puntius denisonii and Puntius sarana subnasutus Endemic to the Western Ghats. Nucleus, 47(3): 143-148. View
20 Huso huso Fontana F, Lanfredi M, Congiu L, Leis M, Chicca M, Rossi R (2003). Chromosomal mapping of 18S–28S and 5S rRNA genes by two-colour fluorescent in situ hybridization in six sturgeon species. Genome, 46: 473–477. View
21 Hypomesus transpacificus Kitada J, Tatewaki R and Tagawa M (1980). Chromosomes of the pond smelt Hypomesus transpacificus nipponensis M. Chrom Inform Serv 28: 8-9. View
22 Lepidomeda albivallis Uyeno T, Miller RR (1973). Chromosomes and the evolution of the Plagopterin fishes (Cyprinidae) of the Colorado river system. Copeia, 1973(4): 776-782. View
23 Meda fulgida Uyeno T, Miller RR (1973). Chromosomes and the evolution of the Plagopterin fishes (Cyprinidae) of the Colorado river system. Copeia, 1973(4): 776-782. View
24 Osteochilichthys longidorsalis Nagpure NS, Kumar R, Srivastava SK, Kushwaha B, Singh PJ, Gopalakrishnan A, Basheer VS (2005). A Report on High Number of Chromosomes in Three Endemic Fish Species from the Western Ghats of India. Nucleus, 48(3): 165-170. View
25 Pagrus pagrus Netto MR de Ca´scia B, Pauls E, Roberto P, Affonso PRA de Mello (2007). A standard protocol for obtaining fish chromosomes under post-mortem conditions. Micron, 38: 214–217. View
26 Plagopterus argentissimus Uyeno T, Miller RR (1973). Chromosomes and the evolution of the Plagopterin fishes (Cyprinidae) of the Colorado river system. Copeia, 1973(4): 776-782. View
27 Probarbus jullieni Saenjundaeng P, de Bello Cioffi M, de Oliveira EA, Tanomtong A, Supiwong W, Phimphan S, Collares-Pereira MJ, Sember A, Bertollo LAC, Liehr T, Yano CF, Hatanaka T, Rab P (2018). Chromosomes of Asian cyprinid fishes: cytogenetic analysis of two representatives of small paleotetraploid tribe Probarbini. Molecular Cytogenetics, 11:51. doi: 10.1186/s13039-018-0399-8. View
28 Pseudobarbus afer Naran D, Skelton PH, Villet MH (2006). Karyology of the redfin minnows, genus Pseudobarbus Smith, 1841 (Teleostei: Cyprinidae): one of the evolutionarily tetraploid lineages of South African barbines. African Zoology 41(2): 178- 182.

Naran D, Skelton PH, Villet MH (2006). Karyology of the redfin minnows, genus Pseudobarbus Smith, 1841 (Teleostei: Cyprinidae): one of the evolutionarily tetraploid lineages of South African barbines. African Zoology 41(2): 178- 182.

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29 Pseudobarbus asper Naran D, Skelton PH, Villet MH (2006). Karyology of the redfin minnows, genus Pseudobarbus Smith, 1841 (Teleostei: Cyprinidae): one of the evolutionarily tetraploid lineages of South African barbines. African Zoology 41(2): 178- 182. View
30 Pseudobarbus burchelli Naran D, Skelton PH, Villet MH (2006). Karyology of the redfin minnows, genus Pseudobarbus Smith, 1841 (Teleostei: Cyprinidae): one of the evolutionarily tetraploid lineages of South African barbines. African Zoology 41(2): 178- 182.

Naran D, Skelton PH, Villet MH (2006). Karyology of the redfin minnows, genus Pseudobarbus Smith, 1841 (Teleostei: Cyprinidae): one of the evolutionarily tetraploid lineages of South African barbines. African Zoology 41(2): 178- 182.

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31 Pseudobarbus burgi Naran D, Skelton PH, Villet MH (2006). Karyology of the redfin minnows, genus Pseudobarbus Smith, 1841 (Teleostei: Cyprinidae): one of the evolutionarily tetraploid lineages of South African barbines. African Zoology 41(2): 178- 182. View
32 Pseudobarbus phlegethon Naran D, Skelton PH, Villet MH (2006). Karyology of the redfin minnows, genus Pseudobarbus Smith, 1841 (Teleostei: Cyprinidae): one of the evolutionarily tetraploid lineages of South African barbines. African Zoology 41(2): 178- 182. View
33 Pseudophoxinus crassus Unal S, Gaffaroglu M, Ayata MK, Yuksel E (2014). Karyotype, C-banding and AgNORs of two endemic leuciscine fish, Pseudophoxinus crassus (Ladiges, 1960) and P. hittitorum Freyhof & Ozulug, 2010 (Teleostei, Cyprinidae). Comparative Cytogenetics 8(4): 249–257. View
34 Pseudophoxinus firati Karasu M, Yüksel E, Gaffaroğlu M. (2011). Karyotype, NORs, and C-banding analysis of Pseudophoxinus firati Bogutskaya, Küçük & Atalay, 2007 (Actinopterygii, Cyprinidae) in the Euphrates River, Turkey. Turkish Journal of Zoology, 35(6): 865-868.
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35 Pseudophoxinus hittitorum Unal S, Gaffaroglu M, Ayata MK, Yuksel E (2014). Karyotype, C-banding and AgNORs of two endemic leuciscine fish, Pseudophoxinus crassus (Ladiges, 1960) and P. hittitorum Freyhof & Ozulug, 2010 (Teleostei, Cyprinidae). Comparative Cytogenetics 8(4): 249–257. View
36 Pterapogon kauderni Kasiroek W, Indananda C, Pinthong K, Supiwong W, Pengseng P, Tanomtong A (2017). NOR polymorphism and chromosome analysis of Banggai Cardinalfish, Pterapogon kauderni (Perciformes, Apogonidae). Cytologia 82(1) Special Issue: 17–23. View
37 Tor khudree Mani I, Kumar R, Singh M, Kushwaha B, Nagpure NS, Srivastava PK and Lakra WS (2013). Chromosomal Distribution of Constitutive Heterochromatin in Eight Species of mahseers (Family: Cyprinidae) from India. Indian Journal of Biotechnology, 12: 178-186.

Khuda Bukhsh AR (1982). Karyomorphology of Two Species of Tor (Pisces; Cyprinidae) with a High Number of Chromosomes. Experientia, 38: 82-83.

Kushwaha B, Srivastava SK, Nagpure NS, Ogale SN, Ponniah AG (2001).Cytogenetic Studies in Two Species of mahseer, Tor khudree and Tor mussullah (Cyprinidae, Pisces) from India. Chromosome Science, 5: 47-50.

Mani I, Kumar R, Singh M, Kushwaha B, Nagpure NS, Srivastava PK, Murmu K, Krishna Rao DS, Lakra WS (2009). Karyotypic diversity and evolution of seven mahseer species (Cyprinidae) from India. Journal of Fish Biology, 75: 1079-1091.

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38 Tor mussullah Kushwaha B, Srivastava SK, Nagpure NS, Ogale SN, Ponniah AG (2001).Cytogenetic Studies in Two Species of Mahseer, Tor khudree and Tor mussullah (Cyprinidae, Pisces) from India. Chromosome Science, 5: 47-50.

Mani I, Kumar R, Singh M, Kushwaha B, Nagpure NS, Srivastava PK and Lakra WS (2013). Chromosomal Distribution of Constitutive Heterochromatin in Eight Species of mahseers (Family: Cyprinidae) from India. Indian Journal of Biotechnology, 12: 178-186.

Mani I, Kumar R, Singh M, Kushwaha B, Nagpure NS, Srivastava PK, Murmu K, Krishna Rao DS, Lakra WS (2009). Karyotypic diversity and evolution of seven mahseer species (Cyprinidae) from India. Journal of Fish Biology, 75: 1079-1091.

View
39 Tor progeneius Mani I, Kumar R, Singh M, Kushwaha B, Nagpure NS, Srivastava PK and Lakra WS (2013). Chromosomal Distribution of Constitutive Heterochromatin in Eight Species of mahseers (Family: Cyprinidae) from India. Indian Journal of Biotechnology, 12: 178-186.

Mani I, Kumar R, Singh M, Kushwaha B, Nagpure NS, Srivastava PK, Murmu K, Krishna Rao DS, Lakra WS (2009). Karyotypic diversity and evolution of seven mahseer species (Cyprinidae) from India. Journal of Fish Biology, 75: 1079-1091.

View
40 Tor putitora Khuda Bukhsh AR (1980). A High Number of Chromosomes in the Hill Stream Cyprinid Tor putitora (Pisces). Experientia, 36: 173-174.

Mani I, Kumar R, Singh M, Kushwaha B, Nagpure NS, Srivastava PK and Lakra WS (2013). Chromosomal Distribution of Constitutive Heterochromatin in Eight Species of mahseers (Family: Cyprinidae) from India. Indian Journal of Biotechnology, 12: 178-186.

Mani I, Kumar R, Singh M, Kushwaha B, Nagpure NS, Srivastava PK, Murmu K, Krishna Rao DS, Lakra WS (2009). Karyotypic diversity and evolution of seven mahseer species (Cyprinidae) from India. Journal of Fish Biology, 75: 1079-1091.

View
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