DOCSLIB.ORG

Alepes Djedaba (Shrimp Scad)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Alepes Djedaba (Shrimp Scad) Mediterranean invasive species factsheet www.iucn-medmis.org Species report Alepes djedaba (Shrimp scad) AFFILIATION FISHES SCIENTIFIC NAME AND COMMON NAME REPORTS Alepes djedaba 4 Key Identifying Features fins, when folded along the flanks, overlaps the first scutes. The back is grey with a white belly; The body is ellipsoid and compressed, up to 40 the tail fin and the posterior part of the lateral cm in length (commonly 10–20 cm). The first line are yellow; the upper lobe of the tail fin is dorsal fin has 8 spines and is triangular in shape, dusky to black. while the second dorsal fin (with 1 spine and 22–25 soft rays) is long and anteriorly elevated. An obvious distinguishing feature is a black spot The anal fin has two detached spines followed by present on the upper margin of the operculum a single spine attached by a membrane to 18 to (gill cover), bordered above by a smaller white 20 soft rays, some of which are elevated spot. anteriorly. The last dorsal and anal fin rays are elongated. The tail fin is deeply forked. The lateral line has a series of 39 to 51 scutes (enlarged and thickened scales), is arched anteriorly and straightens under the first to third dorsal rays. The posterior part of the pectoral 2013-2021 © IUCN Centre for Mediterranean Cooperation. More info: www.iucn-medmis.org Pag. 1/5 Mediterranean invasive species factsheet www.iucn-medmis.org Similar Species The most obvious distinguishing feature is the extent of the animal´s oral lobes: in M. leidyi, they span nearly the entire length of the body, while in native ctenophores and in Bolinopsis vitrea, another alien species, they only reach half-way along the body. Moreover, B. vitrea also lacks papillae (warts) on its body. Other species that look similar Identification and Habitat The shrimp scad is a pelagic species inhabiting inshore waters, where it forms schools near rock reefs, often in turbid waters. It also gathers in large schools above artificial man-made reefs such as harbours and jetties. Juveniles can be found sheltered among the tentacles of the jellyfish, Rhopilema nomadica or Phyllorhiza punctata. In the Mediterranean it feeds mainly on fishes. Reproduction In the Indo-Pacific region the presence of maturing and mature specimens in most months of the year indicates a prolonged spawning season, but in the Mediterranean the spawning History and Route of period is probably shorter. Introduction The shrimp scad is widely distributed in the Indo-Pacific. The first individual in the Mediterranean Sea was recorded along the Palestinian coast in 1927 (as Caranx calla). It has subsequently been recorded in the Aegean Sea, Egypt and Greece and is now a very common species in the Levant. 2013-2021 © IUCN Centre for Mediterranean Cooperation. More info: www.iucn-medmis.org Pag. 2/5 Mediterranean invasive species factsheet www.iucn-medmis.org Ecological Impacts The shrimp scad can form large schools around natural or artificial reefs. Competition with some native zooplanktivorous species such as Chromis chromis or Sardinella aurita may occur. In addition, many researchers consider that the lower predation pressure on A. djedaba in shallow waters can lead to a greater abundance of juvenile shrimp scads in these habitats. Economic Impacts In the Mediterranean its large schools are caught by beach seine, purse seine and trammel nets, as this fish has some commercial value. Management Options These include a) early eradication of new populations by MPA operators through fishing, and b) maintenance of healthy and abundant assemblages of top predators to encourage natural control through predation. Further Reading Carpenter, K.E., et al. 1997. FAO Species Identification Field Guide for Fishery Purposes. Living marine resources of Kuwait, eastern Saudi Arabia, Bahrain, Qatar, and the United Arab Emirates. http://www.ciesm.org/atlas/Alepesdjedaba.php 2013-2021 © IUCN Centre for Mediterranean Cooperation. More info: www.iucn-medmis.org Pag. 3/5 Mediterranean invasive species factsheet www.iucn-medmis.org Map of sightings of the species Alepes djedaba (Shrimp scad) Legend Algae Angiosperm Cnidarians Centre for Mediterranean Molluscs Crustaceans Ascidians Cooperation Combjellies / Fishes Ctenophores More Information: Guide and reports platform for Marine Protected Areas (MPAs) in the Mediterranean. www.iucn-medmis.org 2013-2021 © IUCN Centre for Mediterranean Cooperation. More info: www.iucn-medmis.org Pag. 4/5 Mediterranean invasive species factsheet www.iucn-medmis.org MPAs, Country Date Density Measure Datca-Bozburun, Turkey Before 2013 -- -- Zakynthos, Greece 17/08/2014 -- -- Zakynthos, Greece 30/08/2014 -- -- -- 25/09/2014 -- -- How to cite this tab: Alepes djedaba - Invasive Alien Species Fact Sheet for Mediterranean Network of MPAs. From Online Database MedMIS (IUCN Center for Mediterranean Cooperation, Download date 30/09/2021. More information about this species from: Otero, M., Cebrian, E., Francour, P., Galil, B., Savini, D. 2013. Monitoring Marine Invasive Species in Mediterranean Marine Protected Areas (MPAs): A strategy and practical guide for managers. Malaga, Spain: IUCN. 136 pages www.iucn.org/dbtw-wpd/edocs/2013-008-Es.pdf . Funded by: This collaborative effort is supported by:.
Load more

Recommended publications
  • Fishes of Terengganu East Coast of Malay Peninsula, Malaysia Ii Iii
    i Fishes of Terengganu East coast of Malay Peninsula, Malaysia ii iii Edited by Mizuki Matsunuma, Hiroyuki Motomura, Keiichi Matsuura, Noor Azhar M. Shazili and Mohd Azmi Ambak Photographed by Masatoshi Meguro and Mizuki Matsunuma iv Copy Right © 2011 by the National Museum of Nature and Science, Universiti Malaysia Terengganu and Kagoshima University Museum All rights reserved. No part of this publication may be reproduced or transmitted in any form or by any means without prior written permission from the publisher. Copyrights of the specimen photographs are held by the Kagoshima Uni- versity Museum. For bibliographic purposes this book should be cited as follows: Matsunuma, M., H. Motomura, K. Matsuura, N. A. M. Shazili and M. A. Ambak (eds.). 2011 (Nov.). Fishes of Terengganu – east coast of Malay Peninsula, Malaysia. National Museum of Nature and Science, Universiti Malaysia Terengganu and Kagoshima University Museum, ix + 251 pages. ISBN 978-4-87803-036-9 Corresponding editor: Hiroyuki Motomura (e-mail: [email protected]) v Preface Tropical seas in Southeast Asian countries are well known for their rich fish diversity found in various environments such as beautiful coral reefs, mud flats, sandy beaches, mangroves, and estuaries around river mouths. The South China Sea is a major water body containing a large and diverse fish fauna. However, many areas of the South China Sea, particularly in Malaysia and Vietnam, have been poorly studied in terms of fish taxonomy and diversity. Local fish scientists and students have frequently faced difficulty when try- ing to identify fishes in their home countries. During the International Training Program of the Japan Society for Promotion of Science (ITP of JSPS), two graduate students of Kagoshima University, Mr.
    [Show full text]
  • Genus: Alepes), with New Record of Alepes Vari from the Iraqi Marine Waters,Northwest Arabian Gulf
    Asian Journal of Applied Sciences (ISSN: 2321 – 0893) Volume 03 – Issue 05, October 2015 Morphological and Molecular Systematic of Carangids (Genus: Alepes), with New Record of Alepes vari from the Iraqi Marine Waters,Northwest Arabian Gulf Abbas J. Al-Faisal¹, Abdul-Razak M. Mohamed²* and Talib A. Jaayid³ 1Department of Marine Vertebrates, Marine Science Centre University of Basrah, Iraq ¹ Department of Fisheries and Marine Resources, College of Agriculture University of Basrah, Iraq ³ Department of Animal Production, College of Agriculture Basrah University, Basrah, Iraq *Corresponding author’s email: abdul19532001 [AT] yahoo.com ____________________________________________________________ ABSTRACT-- Morphometric and meristic characteristics and DNA fingerprint analysis were applied to identify three species of Carangidss belonging to the genus Alepes [A. djedaba (Forsskål, 1775), A. kleinii (Bloch, 1793) and A. vari (Cuvier, 1833)] from Iraqi marine waters, during the period from January 2014 to June 2015. A. vari was recorded for the first time in Iraqi waters. Second dorsal fin rays ranged from 22 to 24 in A. djedaba, 25 to 26 in A. kleinii and 26 to 28 in A. vari. Anal fin rays were 19 - 20 in A. djedaba, 21 - 22 in A. kleinii and 20 - 22 in A.vari. Gill rakers on lower limb were 27 - 31 in A. djedaba, 27 – 29 in A. kleinii and 22 – 23 in A. vari. The DNA fingerprints of species of the genus Alepes were identified using Polymerase Chain Reaction-Random Amplified Polymorphic DNA (PCR-RAPD) with six primers: P1 (212), P2 (239), P3 (244), P4 (250), P5 (265), and P6 (347). The numbers of bands generated by primers were 37 in A.
    [Show full text]
  • A Revision of Selected Genera of the Family Carangidae (Pisces) from Australian Waters
    Records of the Australian Museum (1990) Supplement 12. ISBN 0 7305 7445 8 A Revision of Selected Genera of the Family Carangidae (Pisces) from Australian Waters JOHN S. GUNN Division of Fisheries, CSIRO Marine Laboratories, P.O. Box 1538, Hobart, 7001 Tas., Australia ABSTRACT. An annotated list of the 63 species in 23 genera of carangid fishes known from Australian waters is presented. Included in these 63 are eight endemic species, eight new Australian records (Alepes vari, Carangoides equula, C. plagiotaenia, C. talamparoides, Caranx lugubris, Decapterus kurroides, D. tabl and Seriola rivoliana) and a new species in the genus Alepes. A generic key and specific keys to Alectis, Alepes, Carangoides, Scomberoides, Selar, Ulua and Uraspis are given. The systematics of the 32 Australian species of Alectis, Alepes, Atule, Carangoides, "Caranx", Elagatis, Gnathanodon,Megalaspis,Pantolabus, Scomberoides, Selar, Selaroides, Seriolina, Ulua and Uraspis are covered in detail. For each species a recommended common name, other common names, Australian secondary synonymy, diagnosis, colour notes, description, comparison with other species, maximum recorded size, ecological notes and distribution are given. Specific primary synonymies are listed when the type locality is Australia or Papua New Guinea. Contents Introduction .............................................................................................................................................. 2 Materials and Methods .............................................................................................................................
    [Show full text]
  • Training Manual Series No.15/2018
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by CMFRI Digital Repository DBTR-H D Indian Council of Agricultural Research Ministry of Science and Technology Central Marine Fisheries Research Institute Department of Biotechnology CMFRI Training Manual Series No.15/2018 Training Manual In the frame work of the project: DBT sponsored Three Months National Training in Molecular Biology and Biotechnology for Fisheries Professionals 2015-18 Training Manual In the frame work of the project: DBT sponsored Three Months National Training in Molecular Biology and Biotechnology for Fisheries Professionals 2015-18 Training Manual This is a limited edition of the CMFRI Training Manual provided to participants of the “DBT sponsored Three Months National Training in Molecular Biology and Biotechnology for Fisheries Professionals” organized by the Marine Biotechnology Division of Central Marine Fisheries Research Institute (CMFRI), from 2nd February 2015 - 31st March 2018. Principal Investigator Dr. P. Vijayagopal Compiled & Edited by Dr. P. Vijayagopal Dr. Reynold Peter Assisted by Aditya Prabhakar Swetha Dhamodharan P V ISBN 978-93-82263-24-1 CMFRI Training Manual Series No.15/2018 Published by Dr A Gopalakrishnan Director, Central Marine Fisheries Research Institute (ICAR-CMFRI) Central Marine Fisheries Research Institute PB.No:1603, Ernakulam North P.O, Kochi-682018, India. 2 Foreword Central Marine Fisheries Research Institute (CMFRI), Kochi along with CIFE, Mumbai and CIFA, Bhubaneswar within the Indian Council of Agricultural Research (ICAR) and Department of Biotechnology of Government of India organized a series of training programs entitled “DBT sponsored Three Months National Training in Molecular Biology and Biotechnology for Fisheries Professionals”.
    [Show full text]
  • Journal of Environment and Aquatic Resources. 5: 1-9 (2020)
    1 Journal of Environment and Aquatic Resources. 5: 1-9 (2020) doi: 10.48031/msunjear.2020.05.01 Preliminary Report on the Size-specific Variation in Length-weight Relationship, Relative Condition Factor, and Gonad Maturation of Bigeye Scad Selar crumenopthalmus (Bloch, 1793) in the northern Sulu Sea, Philippines Kaent Immanuel N. Uba Department of Fisheries Science and Technology, School of Marine Fisheries and Technology, Mindanao State University at Naawan, Naawan, Misamis Oriental, Philippines [email protected] ABSTRACT A preliminary investigation on the size-specific variation in the length-weight relationship, relative condition factor, and gonad maturation of Bigeye scad, Selar crumenopthalmus, was conducted from April to May 2018 in the northern Sulu Sea, Philippines. A total of 435 samples were collected using a ring net. The results showed a shift from isometric to negative allometric growth pattern, good condition, and earlier maturation in males in S. crumenopthalmus. These findings help us understand some aspects of the S. crumenopthalmus population in the area; however, further research needs to be conducted with increased sampling duration and frequency. Keywords: growth, allometry, northern Sulu Sea, length classes INTRODUCTION The Bigeye scad Selar crumenopthalmus is a commercially important marine fish species caught in the coastal waters of the Philippines throughout the year and contributes to over 5% of the country’s total capture fisheries production (BFAR, 2016). Hand lines, ring nets, purse seines, and trawls are used to catch this species which is primarily utilized as food and is considered as a cheap source of protein for low-income families in the country (Trinidad et al., 1993).
    [Show full text]
  • Feeding Behaviour and Reproductive Biology of the Shrimp Scad Alepes Djedaba (Forsskal, 1775) Off Cochin Coast, Kerala, South India
    Indian J. Fish., 66(3): 32-40, 2019 32 DOI: 10.21077/ijf.2019.66.3.76411-04 Feeding behaviour and reproductive biology of the shrimp scad Alepes djedaba (Forsskal, 1775) off Cochin coast, Kerala, south India N. SAJANA, S. BIJOY NANDAN AND C. K. RADHAKRISHNAN Department of Marine Biology, Microbiology and Biochemistry Cochin University of Science and Technology, Kochi - 682 016, Kerala, India e-mail: [email protected] ABSTRACT Food and feeding habits, sex ratio, spawning behaviour, size at first maturity, fecundity and ova diameter of the shrimp scad Alepes djedaba (Forsskal, 1775) exploited off Cochin coast, Kerala are presented in this study. A. djedaba is a pelagic carnivore, with a preference for fishes. Low gastrosomatic index (GaSI) values and very low feeding intensity during spawning season indicated poor feeding behaviour during the period. The sex ratio did not deviate from the expected 1:1 ratio. Size at first maturity was estimated to be193 mm for male and 174 mm for female. Monthly gonadosomatic index (GSI) values, monthly distribution of gonadal maturation stages and ova diameter revealed that the species had a prolonged breeding season from June to September with a peak in July. Estimated absolute fecundity was 59,744 to 3,30,190 with an average of 1,94,965 eggs. Keywords: Alepes djedaba, Fecundity, Feeding behaviour, Ova diameter, Sex ratio Introduction Materials and methods Carangids form important pelagic fishery resources Fish samples were collected randomly from landings contributing substantially (5.8%) to the total marine at Munambam (10o10'57'' N; 76o10'12'' E), Kalamukku fish landings in India (CMFRI, 2015).
    [Show full text]
  • Authorship, Availability and Validity of Fish Names Described By
    ZOBODAT - www.zobodat.at Zoologisch-Botanische Datenbank/Zoological-Botanical Database Digitale Literatur/Digital Literature Zeitschrift/Journal: Stuttgarter Beiträge Naturkunde Serie A [Biologie] Jahr/Year: 2008 Band/Volume: NS_1_A Autor(en)/Author(s): Fricke Ronald Artikel/Article: Authorship, availability and validity of fish names described by Peter (Pehr) Simon ForssSSkål and Johann ChrisStian FabricCiusS in the ‘Descriptiones animaliumÂ’ by CarsSten Nniebuhr in 1775 (Pisces) 1-76 Stuttgarter Beiträge zur Naturkunde A, Neue Serie 1: 1–76; Stuttgart, 30.IV.2008. 1 Authorship, availability and validity of fish names described by PETER (PEHR ) SIMON FOR ss KÅL and JOHANN CHRI S TIAN FABRI C IU S in the ‘Descriptiones animalium’ by CAR S TEN NIEBUHR in 1775 (Pisces) RONALD FRI C KE Abstract The work of PETER (PEHR ) SIMON FOR ss KÅL , which has greatly influenced Mediterranean, African and Indo-Pa- cific ichthyology, has been published posthumously by CAR S TEN NIEBUHR in 1775. FOR ss KÅL left small sheets with manuscript descriptions and names of various fish taxa, which were later compiled and edited by JOHANN CHRI S TIAN FABRI C IU S . Authorship, availability and validity of the fish names published by NIEBUHR (1775a) are examined and discussed in the present paper. Several subsequent authors used FOR ss KÅL ’s fish descriptions to interpret, redescribe or rename fish species. These include BROU ss ONET (1782), BONNATERRE (1788), GMELIN (1789), WALBAUM (1792), LA C E P ÈDE (1798–1803), BLO C H & SC HNEIDER (1801), GEO ff ROY SAINT -HILAIRE (1809, 1827), CUVIER (1819), RÜ pp ELL (1828–1830, 1835–1838), CUVIER & VALEN C IENNE S (1835), BLEEKER (1862), and KLUNZIN G ER (1871).
    [Show full text]
  • A Field Identification Key for 20 Genera of Family Carangidae
    Carangid fieldJ. Mar.identification Biol. Ass. keyIndia, 49 (2) : 141 - 147, July - December 2007 141 A field identification key for 20 genera of Family Carangidae E. M. Abdussamad*, Prathibha Rohit and O. M. M. J. Habeeb Mohamed Tuticorin Research Centre of Central Marine Fisheries Research Institute, South Beach Road, Tuticorin- 628 001, Tamilnadu, India. *E-mail:[email protected] Abstract Carangidae is one of the most diverse finfish families. As field identification is complicated, a field key up to genus level has been prepared for 20 genera collected from the commercial catches at Tuticorin. Key words: Carangids, field identification key Introduction Carangids being an assemblage of highly information (Smith-Vaniz, 1984) a simple key for diverse group of fishes with mixed morphological field identification of genera available in the region and merristic characteristics, their identification was developed. Most distinct morphological and classification are complicated. Though many features which are observable with ease under field identification keys are available (Smith-Vaniz, condition alone were used in the preparation of 1984), their application in the field is difficult and the key. Based on the morpholology of first dorsal confusing as they often employ minute taxonomic fin, the carangids were first grouped under three characteristics for classification of genera and categories. Based on other distinct morphometric species. Considering this, a field identification key features, they were further grouped into sub- upto genus level has been prepared for 20 genera categories or genera. of carangids. The morphometric characteristics given in this key is very distinct and striking even Results and Discussion under field conditions.
    [Show full text]
  • Record Sized Alepes Vari and Nematalosa Nasus
    Mar. Fish. Infor. Serv., T & E Ser., No. 231, 2017 27 Record sized Alepes vari and Nematalosa nasus Subal Kumar Roul, N. Ragesh, T. B. Retheesh, D. Prakasan and A. R. Akhil ICAR-Central Marine Fisheries Research Institute, Kochi e-mail: [email protected] The herring scad, Alepes vari is a common pelagic Nematalosa nasus (Bloch’s gizzard shad), is a fish species in the family carangidae. The species small pelagic mostly captured with ringseines and is the largest fish of the scad genus Alepes and occasionally found in the catches of pelagic trawls maximum length so far recorded all over the world and gill nets. During a regular field visit, on 25th oceans is 560 mm TL (Froese & Pauly, FishBase 2016, October 2016, an unusually large specimen of http://www.fishbase.org.). During a regular field N. nasus (241 mm total length (TL) and 171.5 g total visit, an unusually large specimen of A. vari was weight (TW) was collected from a chinese dip net, recorded from Kalamukku Landing Centre, Kerala operated at Fort Kochi (Fig. 2). The specimen was on 25th May, 2016. This was a male individual deposited in the collections of Marine Biodiversity measuring 600 mm in total length (TL) and weighing Museum of CMFRI, (accession number, GB 1.6 kg (Fig. 1)and was caught by hook and line. Young 13.2.37.6). The largest record of N. nasus (252 mm ones occasionally occur in pelagic trawls and larger TL and 190 g TW) was reported from Chilka Lagoon, ones rarely occur in gill net and hook and line Odisha (Panda et al., 2016 J.
    [Show full text]
  • (W. Indian Ocean) Alectis Indicus (Rüppell, 1830) OTHER
    click for previous page CARAN Alec 1 1983 FAO SPECIES IDENTIFICATION SHEETS FAMILY: CARANGIDAE FISHING AREA 51 (W. Indian Ocean) Alectis indicus (Rüppell, 1830) OTHER SCIENTIFIC NAMES STILL IN USE: None VERNACULAR NAMES: FAO : En - Indian threadfish Fr - Cordonnier plume Sp - Pámpano Indico NATIONAL: DISTINCTIVE CHARACTERS: Body deep, becoming more elongate with growth, and very compressed. Profile of nape and head somewhat angular; suborbital depth relatively broad, contained 0.8 to 1.0 times in upper jaw length; upper jaw ending slightly before eye (to below anterior margin of eye in young); both jaws with bands of villiform teeth, becoming obsolete with age; gillrakers (excluding rudiments) 8 to 11 upper, 21 to 26 lower and 29 to 37 total on first gill arch. Dorsal fin with 6 short spines (embedded and not apparent at about 17 cm fork length followed by 1 spine and 18 to 20 soft rays; anal fin with 2 spines (embedded and not apparent with growth) followed by 1 spine and 15 to 17 soft rays; anterior soft rays of dorsal and anal fins extremely long and filamentous in young; pectoral fins falcate, longer than, head; pelvic fins elongate in young. Lateral line anteriorly with a strong and moderately long arch, its posterior (straight) part with 6 plus 11 scutes; body superficially naked, scales minute and embedded where present. Vertebrae 10 + 14; supraoccipital and distal ends of predorsal bones hyperossified and enlarged distally in specimens larger than 25 cm fork length. (young) Colour: mostly silvery with a dusky green tinge dorsally; juveniles with dark bars on body; second dorsal fin pale with leading edges and tips of rays dusky; anal fin pale yellow and caudal fin dusky green.
    [Show full text]
  • Alepes Kleinii (Bloch, 1793) (Carangidae) Along the Coast of Bangladesh Muhammad A
    Siddik et al. Marine Biodiversity Records (2017) 10:32 DOI 10.1186/s41200-017-0134-x MARINERECORD Open Access First record of the razorbelly scad Alepes kleinii (Bloch, 1793) (Carangidae) along the coast of Bangladesh Muhammad A. B. Siddik1* , Md Abu Hanif1, Ashfaqun Nahar2, Md Reaz Chaklader1 and Rowan Kleindienst3 Abstract Background: The Bay of Bengal coast, Bangladesh is a hotspot of fisheries abundance and diversity. A new species of Carangid family Alepes kleinii is recorded and described for the first time in the coastal waters of Bangladesh. Results: A total of 29 individuals of Alepes kleinii were collected from the surveyed areas between January to March, 2016. Validation of this species was confirmed by phenotypic characteristics including body and fins colour, shape, vertical stripes, number of fin rays etc. which were found to be identical to that of the Alepes kleinii described in existing literature. The regression parameter value (b = 2.81) of the length-weight relationship (W=aLb) indicates that the Bay of Bengal provides favourable environmental conditions for the growth and development of this species. Conclusion: The discovery of the razorbelly scad in these waters provide valuable information regarding species distribution and extension, location and habitat preference. This information is prerequisite for the sound management of the coastal fisheries of Bangladesh. Keywords: Razorbelly scad, First record, Length weight relationship, Bay of Bengal coast, Bangladesh Background New Guinea, Japan and northern Australia (Froese & The razorbelly scad, Alepes kleinii (Bloch, 1793) is a reef Pauly, 2016). Although wide-ranging coast of Bangladesh associated, tropical marine fish species of the family is regarded as fisheries biodiversity hotspot (Chaklader et Carangidae (Jack family).The dorsal surface of the Alepes al., 2015; Hanif et al.
    [Show full text]
  • Comparative Length Weight Relationship and Condition Factor In
    International Journal of Fisheries and Aquatic Studies 2018; 6(2): 372-375 E-ISSN: 2347-5129 P-ISSN: 2394-0506 (ICV-Poland) Impact Value: 5.62 Comparative length weight relationship and condition (GIF) Impact Factor: 0.549 IJFAS 2018; 6(2): 372-375 factor in Alepes kleinii (Bloch 1793) along Mumbai and © 2018 IJFAS www.fisheriesjournal.com Goa coast of India Received: 15-01-2018 Accepted: 20-02-2018 Sharvari N Kudtarkar, Mrinalini C Sathe and AK Jaiswar Sharvari N Kudtarkar K J Somaiya College of Science and Commerce, Vidyavihar, Abstract Mumbai, Maharashtra, India The length weight relationships and condition factors of the two populations of Alepes kleinii (Bloch 1793) along Mumbai and Goa Coasts were calculated out for males and females, separately. The length Mrinalini C Sathe weight relationship (LWR) was established as Log W= -2.799 + 2.037 Log L for females, Log W= - K J Somaiya College of Science 1.245+1.313 Log L for males, and Log W= -2.103+ 1.721 Log L for pooled data for population of and Commerce, Vidyavihar, Mumbai Coast. Similarly, Log W= -2.712 + 2.001 Log L for females, Log W= -1.100 + 1.264 Log L for Mumbai, Maharashtra, India males and Log W= - 1.922 + 1.643 Log L for pooled data for population of Goa Coast. The coefficient of correlation “r” between length and weight was found to be higher in females at Mumbai (0.909) and Goa AK Jaiswar (0.921) Coast than in males. The values of condition factor “K” was found to be higher in males (2.0609- ICAR-CIFE, Panch Marg, off Mumbai Coast and 2.0962 - Goa Coast) than in females (1.5329 - Mumbai and 1.4879 - Goa Coast).
    [Show full text]