Length-weight Relationship and Relative Condition Factor of Paratrypauchen microcephalus (Bleeker, 1860) along the Mumbai Coast

Ruchi Pujari *

Department of Zoology, M.M. College of Arts, N.M. Institute of Science and H.R.J. College of Commerce, Bhavan’s College (Autonomous), Andheri (W), Mumbai, Maharashtra, India.

B.M. Gore

Department of Zoology, M.M. College of Arts, N.M. Institute of Science and H.R.J. College of Commerce, Bhavan’s College (Autonomous), Andheri (W), Mumbai, Maharashtra, India.

S.P. Jumale

Department of Zoology, M.M. College of Arts, N.M. Institute of Science and H.R.J. College of Commerce, Bhavan’s College (Autonomous), Andheri (W), Mumbai, Maharashtra, India.

*Author to whom correspondence should be addressed.


Abstract

The length-weight relationship and relative condition factor of Paratrypauchen microcephalus (Bleeker, 1860) from Madh, Mumbai, was studied between October 2021 and December 2022. A total of 179 fish were examined, which included 81 males, 75 females, and 23 juveniles. The relationship between total length and weight was estimated by the least squares method, and the results indicated that the species exhibits a negative allometric growth pattern, with the exponent ‘b’ values obtained being 1.1545 for males, 1.1728 for females, 1.0260 for juveniles, and 0.9443 for the pooled observations. The regression values obtained were highly significant (P < .01), showing a good relationship between the length and weight of this fish. The mean value for the relative condition factor (Kn) obtained during the study was 0.5757, 0.6610, and 2.4730 for males, females, and juveniles, respectively, reflecting that males and females are not in a better health condition while juveniles are, having a Kn value greater than 1. The current study thus provides the first baseline data about LWRs and the relative condition factor of this fish species from the Mumbai coast.

Keywords: Paratrypauchen microcephalus, length-weight relationship, least square method, allometric, relative condition factor


How to Cite

Pujari, R., Gore, B., & Jumale, S. (2024). Length-weight Relationship and Relative Condition Factor of Paratrypauchen microcephalus (Bleeker, 1860) along the Mumbai Coast. UTTAR PRADESH JOURNAL OF ZOOLOGY, 45(15), 65–72. https://doi.org/10.56557/upjoz/2024/v45i154222

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References

Kohler NE. Length–weight relationships for 13 species of sharks from the western North Atlantic. Fishery Bulletin. 1995; 93:412.

Schneider JC, Laarman PW, Gowing H. Length-weight relationships, Chapter 17. Manual of fisheries survey methods II. Michigan. Department of Natural Resources, Fisheries Special Report. 2000;25.

Le Cren ED. The length-weight relationship and seasonal cycle in gonad weight and condition in the perch (Perca fluviatilis). The Journal of Animal Ecology. 1951; 201-219.

Mensah SA. Weight-length models and relative condition factors of nine freshwater fish species from the Yapei Stretch of the White Volta. Ghana. Elixir. Appl. Zool. 2015;79(1):30427-30431.

Morato T, Afonso P, Lourinho P, Barreiros JP, Santos RS, Nash RDM. Length–weight relationships for 21 coastal fish species of the Azores, North-Eastern Atlantic. Fisheries Research. 2001;50(3):297-302.

Bhendekar SN, Chellappan A, Sonavane AE, Mohanty P, Singh R, Shenoy L. Geo-spatial distribution and faunal diversity in the trawling grounds off Mumbai coast, Maharashtra, India; 2019.

Thacker CE, Thompson AR, Roje DM. Phylogeny and evolution of Indo-Pacific shrimp-associated gobies (Gobiiformes: Gobiidae). Molecular Phylogenetics and Evolution. 2011;59(1):168-176.

Chakrabarty P, Davis MP, Sparks JS. The first record of a trans-oceanic sister-group relationship between obligate vertebrate troglobites; 2012.

Agorreta A, San Mauro D, Schliewen U, Van Tassell JL, Kovačić M, Zardoya R, Rüber L. Molecular phylogenetics of Gobioidei and phylogenetic placement of European gobies. Molecular Phylogenetics and Evolution. 2013;69(3):619-633.

Nelson JS, Grande TC, Wilson MV. Fishes of the world. John Wiley and Sons; 2016.

Murdy EO. Paratrypauchen, a new genus for Trypauchen microcephalus Bleeker, 1860, (Perciformes: Gobiidae: Amblyopinae) with a redescription of Ctenotrypauchen chinensis Steindachner, 1867, and a key to ‘Trypauchen’group genera. Aqua. 2008;14(3-10).

Bleeker P. Dertiende bijdrage tot de kennis der vischrfauna van Borneo. Acta Soc Sci Indo-Neerl. 1860;8:1-64.

Singh DF, Yazdani GM. Ichthyofauna of Konkan Region of Maharashtra, India, Zoological Survey of India. 1993;145:1-46.

Rajan PT, Sreeraj CR. Diversity, distribution and conservation of freshwater fishes in Mount Harriet National Park, Andaman and Nicobar Islands. Records of the Zoological Survey of India. 2013;35-55.

Chatterjee TK, Barman RP, Mishra SS. Mangrove associate gobies (Teleostei: Gobioidei) of Indian Sundarbans. Records of the Zoological Survey of India. 2013;59-77.

Mogalekar HS, Canciyal J, Jawahar P, Patadiya DS, Sudhan C, Pavinkumar P, Subburaj A. Estuarine fish diversity of Tamil Nadu, India; 2017.

Ruidas H, Mohanty SR, Rana S, Roy S, Mohapatra A. First report of the genus Paratrypauchen Murdy, 2008 (Gobiiformes: Gobiidae: Amblyopinae) from the Odisha coast, India. Records of the Zoological Survey of India. 2020;289-291.

Larson H. Paratrypauchen microcephalus. The IUCN Red List of Threatened Species 2016;e.T68332934A68333784.

Available:https://dx.doi.org/10.2305/IUCN.UK.2016-3.RLTS.T68332934A68333784.en. Accessed on 27 March 2024.

Fishbase (LC). Available:https://www.iucnredlist.org/species/68332934/68333784

Ricker WE. Linear regressions in fishery research. Journal of the fisheries board of Canada. 1973;30(3):409-434.

Ricker WE. Handbook of computations for biological statistics of fish populations. Bull. Fish. Res. Board Can. 1958;119: 1-300.

Fishbase (LWR)

Available:https://www.fishbase.se/popdyn/LWRelationshipList.php?ID=8214&GenusName=Paratrypauchen&SpeciesName=microcephalus&fc=405

Martin WR. The mechanics of environmental control of body form in fishes. University of Michigan; 1948.

Hossain MS, Sultana N. Morphometric characters and length-weight relationship of Bele, (Glossogobius giuris) from Mithamoin haor, Kissorgonj, Bangladesh. Journal of the Bangladesh Agricultural University. 2014;12(2):389-395.

Al Jufaili SM, Sayyadzadeh G, Jawad L, Esmaeili HR. Length-weight relationships of five fish species from the inland waters of Oman. Iranian Journal of Ichthyology. 2021;8(1):62-66.

Mutsaddi KB. A study on a gobioid, Boleophthalmus dussumeiri (Cuv. and Val.). Thesis, University of Bombay; 1964.

Hoda SS. Relative growths of body parts and length-weight relationships in Boleophthalmus Dussumieri and b. den taws of Karachi coast. Indian Journal of Fisheries. 1987;34(1):120-127.

Soni VC, George B. Age determination and length-weight relationship in the mudskipper Boleopthalmus dentatus. Indian Journal of Fisheries. 1986; 33(2):231-234.

Shettu N. Studies on Certain Aspects of Biology of the Gobiid Fish Boleophthalmus Dentatus (Cuvier and Valenciennes, 1837): Thesis Submitted in Partial Fulfillment of the Requirements for the Degree of Ph. D. (Fish and Fisheries Science) (Doctoral dissertation, Central Institute of Fisheries Education); 1993.

Ruchi Pujari, Gore BM, Jumale SP. Length and weight relationship of mudskipper Boleophthalmus boddarti (Palas) from Bhayander creek, Thane, Maharashtra. (ISSN 2277-5730); 2020.

Panicker BA, Katchi VI. Length weight relationship and relative condition factor of goby fish, Paracheaturichthys ocellatus (Day 1873) from the creeks of Mumbai. International Journal of Fisheries and Aquatic Studies. 2021;9(2):151-157.

Sugilar H, Park YC, Lee NH, Han DW, Han KN. Population dynamics of the swimming crab Portunus trituberculatus (Miers, 1876) (Brachyura, Portunidae) from the West Sea of Korea. International Journal of Oceanography and Marine Ecological System. 2012;1(2):36.

Abowei JFN. The condition factor, length-weight relationship and abundance of Ilisha africana (Block, 1795) from Nkoro River Niger Delta, Nigeria. Advance Journal of Food Science and Technology. 2010;2(1):6-11.

Shirke S, Pinto SM, Kushwaha VK, Mardikar T, Vijay R. Object-based image analysis for the impact of sewage pollution in Malad Creek, Mumbai, India. Environmental Monitoring and Assessment. 2016;188 :1-12.