注意在发生Jaydia Queketti (Osteichthyes: Apogonidae) from the by-Catch of Tropical Trawl Fishery
L. Ranjith1, S. Ramkumar2*, K. Kannan1, K. Vinod3, K. K. Joshi4, S. P. Shukla5, C. S. Purushothaman4and S. K. Chakraborty5
DOI:http://dx.doi.org/10.12944/CWE.11.2.32
Three specimens of apogonids species of total length 72.69, 106.28 and 110.67 mm were caught off Tuticorin at the depths of 90-100 m as a bycatch on 1stJanuary 2013 from the commercial trawler operated from Tuticorin Fishing Harbour, Southeast coast of India. In this paper, on the occurrence ofJaydia quekettiwas figured and the comprehensive diagnostic features of the recorded specimens were elucidated. The species of this genusJaydiais distributed continentally and often caught as a bycatch from shrimp or fish trawl. These species are widely distributed in New Guinea, larger islands in the Coral Sea, Australia, Arabian Sea of India and also from Africa to Japan. Nevertheless, the present observation shows the occurrence ofJ. quekettifrom the by-catch of trawl fishery operated along Gulf of Mannar, Southeast coast of India.
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Ranjith L, Ramkumar S, Kannan K, Vinod K, Joshi K. K, Shukla S. P, Purushothaman C. S, Chakraborty S. K. Note on Occurrence of Jaydia Queketti (Osteichthyes: Apogonidae) from the by-Catch of Tropical Trawl Fishery. Curr World Environ 2016;11(2) DOI:http://dx.doi.org/10.12944/CWE.11.2.32
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Ranjith L, Ramkumar S, Kannan K, Vinod K, Joshi K. K, Shukla S. P, Purushothaman C. S, Chakraborty S. K. Note on Occurrence of Jaydia Queketti (Osteichthyes: Apogonidae) from the by-Catch of Tropical Trawl Fishery. Curr World Environ 2016;11(2). Available from://www.a-i-l-s-a.com?p=907/
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Article Publishing History
Received: | 2016-04-12 |
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Accepted: | 2016-05-09 |
Introduction
Cardinalfishes (Family: Apogonidae) are small percoid species, mostly less than 100 mm; generally marine, qualitatively abundant families in the reef ecosystems and are found in estuaries and lowland freshwater bodies.1,2&3They are nocturnal; few species show parental care; where males are known for mouth brooding of eggs, and some of the species have a ventral luminous organ.1,4&5Apogonids have a wide geographical range from warm temperate to tropical areas in the Oceans of Pacific, Indian and Atlantic.1and2They are distributed in a wide range of ecosystemviz., coral reefs, rocky reefs, sea grasses meadows, coralline algal meadows and other soft-bottom communities.1&2
The family Apogonidae was divided into two subfamiliesviz., Apogoninae and Pseudamiinae1but later Mabuchiet al. (2014) erected two more subfamilies as of now the family Apogonidae has four subfamiliesviz., Apogoninae (thirty four genera), Pseudamiinae (one genera,Pseudamia), Paxtoninae (one genera) and Amioidinae (two genera). The genusJaydiaSmith 1961 comes under the Apogoninae subfamily and tribe Sphaeramiini (6 genera). The tribe Sphaeramiini differs from the other apogonids in having melanophores completely blackish in the stomach and intestine, seven first dorsal spines with third dorsal spine shorter than fourth spine.
The genusJaydiadiffers from other genera likeApogonichthyoides, Nectamia, Pterapogon, QuincaandSphaeramiaby which on the third pterygiophore the longest dorsal spines exhists whereas in the other genera on the second pterygiophore has the longest dorsal spine [6]. This genus has 19 valid speciesviz.,Jaydia albomarginatus(Smith & Radcliffe, 1912),J. argyrogaster(Weber 1909),J. carinatus(Cuvier, 1828),J. catalai(Fourmanoir, 1973),J. ellioti(Day, 1875),J. erythrophthalmaGon, Liao & Shao, 2015,J. hungi(Fourmanoir & Do-Thi, 1965),J. lineata(Temminck & Schlegel, 1842),J. melanopus(Weber, 1911),J. novaeguineae(Valenciennes, 1832),J. photogaster(Gon & Allen, 1998),J. poecilopterus(Cuvier, 1828),J. quartus(Fraser 2000),J. queketti(Gilchrist, 1903),J. smithiKotthaus 1970,J. striata(Smith & Radcliffe, 1912),J. striatodes(Gon 1997),J. tchefouensis(Fang, 1942), andJ. truncata(Bleeker, 1854).2, 6,7,8&9The present paper aims to record and spot out the presence of spotfin cardinal,Jaydia queketti(Gilchrist, 1903) and also to describe about the further occurrence in the trawl bycatch of Tuticorin Fishing Harbour, Tuticorin, Gulf of Mannar, Southeast coast of India.
Material and Methods
Three specimens of apogonids of 72.69, 106.28 and 110.67 mm total lengths were collected from trawl bycatch from the commercial trawler operated along Tuticorin coast on 1stJanuary 2013. These specimens were caught off Tuticorin approximately 35 km Southeast of Tuticorin fishing harbour between 90 and 100 m depth by a commercial trawler (8° 38' 127" N and 78°12' 612"E). The fresh color and pigmentation of the specimens were recorded, and photographs were taken at the landing centre. The landed specimens were brought into the laboratory of Tuticorin Research Centre of CMFRI for further analysis. The specimen’s meristic counts were recorded and by using a digital caliper morphometric measurement were taken to the nearest mm according to Gon (1996) & Gon and Randall (2003).
Results
The specimens were identified as spotfin cardinal,Jaydia queketti(Gilchrist, 1903) (Accession No.: GB.31.9.1.156) and these were deposited in the National Marine Repository of Central Marine Fisheries Research Institute, Kochi, Kerala, India. The morphometric characteristics with percents of total length (% of TL) and meristics counts ofJ. quekettiare shown in the Table 1.
Table 1: Morphometric (% of TL) and meristic counts ofJaydia quekettifrom south east coast of India
Morphometric characters |
sp1 % |
sp2 % |
sp3 % |
Total length (TL) |
100 |
100 |
100 |
Standard length |
76.95 |
78.37 |
78.80 |
Head length |
38.86 |
36.47 |
39.59 |
Eye diameter |
25.42 |
25.25 |
27.64 |
Orbit diameter |
15.95 |
15.94 |
13.84 |
Inter-orbital length |
25.61 |
27.50 |
25.57 |
Upper jaw length |
47.79 |
53.72 |
53.92 |
lower jaw length |
44.33 |
52.03 |
54.05 |
Snout length |
20.76 |
21.74 |
17.72 |
I Pre dorsal length |
39.28 |
39.07 |
39.03 |
II Pre dorsal length |
61.01 |
63.41 |
60.33 |
Pre pectoral length |
42.24 |
39.95 |
40.48 |
Pre pelvic length |
39.70 |
37.44 |
37.34 |
Pre anal length |
62.18 |
68.57 |
60.57 |
I Dorsal fin base length |
18.87 |
18.40 |
19.29 |
II Dorsal fin base length |
17.04 |
16.41 |
15.50 |
Pectoral fin base length |
5.99 |
6.61 |
6.38 |
Pectoral fin length |
24.56 |
22.24 |
25.66 |
Pelvic fin base length |
8.02 |
7.51 |
7.33 |
Anal fin base length |
14.21 |
15.50 |
13.89 |
身体深度(max)。 |
33.76 |
32.12 |
25.96 |
Caudal peduncle length |
25.77 |
25.14 |
25.13 |
Caudal peduncle depth |
16.53 |
15.98 |
16.20 |
Distance between anal to anus |
3.03 |
3.00 |
3.77 |
Distance between pelvic to anal |
28.18 |
33.28 |
27.89 |
Distance between pelvic to anus |
21.42 |
28.97 |
22.71 |
Meristic characters |
|||
I Dorsal fin rays |
VII |
VII |
VII |
II Dorsal fin rays |
I+9 |
I+9 |
I+9 |
Pectoral rays |
14 |
14 |
14 |
Pelvic fin rays |
I+5 |
I+5 |
I+5 |
Anal fin rays |
II+8 |
II+8 |
II+8 |
Lateral- line scales |
27 |
27 |
27 |
Materials Examined
Jaydia queketti(3 specimens; Trawler; bycatch, Tuticorin fishing harbour, Gulf of Mannar,8° 38' 127" N and 78°12' 612"E).
Systematics
Class : Actinopterygii
Order : Perciformes
Sub order : Percoidei
Family : Apogonidae
Subfamily : Apogoninae Günther 1859
Tribe :Sphaeramiini Fraser & Mabuchi, 2014
Genus :JaydiaSmith 1961
Species :Jaydiaqueketti(Gilchrist, 1903)
Description
Body is medium in size, two separate dorsal fin, first with VII spines & second with I spine & 9 rays; pectoral fin rays 14; third dorsal fin spine smaller than fourth spine; Lateral-line scales 27; one to three median predorsal scales 1-3; Preopercle edge & ridge smooth. Total gill rakers 17 (5+12).
|
Colour: Dorsal pinkish grey, ventral and lateral sides silvery shade; scales on the body with dark brown spot forming longitudinal rows; on the rear part of the first dorsal fin with large dark black spot of; anal fin distal edge intense black; anal, caudal and second dorsal fins pale to dusky, with a dark distal edge.
|
Distribution: Arabian Sea of India, South Africa, Red Sea, Mozambique, and Persian Gulf.
Remarks: Based on shared characters like smooth preopercular and post-temporal ridges, along the body series of spots and on the peritoneum absence of dark spots the speciesJ. queketti,J. carinatusandJ. poecilopteruswere grouped together within the carinatus-group of the subgenusJaydia[6]. Gon (1996) later separatedJ. quekettifrom the latter by the enlarged dark ocellus on the posterior part of first dorsal fin, conspicuous parallel rows of dark brown spots on scales on the sides and anal; and also caudal fins with dark distal edges. On the other hand,J. carinatus有一个黑啊cellus on second dorsal fin and dark spots on sides not arranged in rows, whereasJ. poecilopterusbears large indistinct black blotches on sides.
Discussion
Morphology, colour, morphometric measurements and meristic counts of the present specimen were similar to the specimen examined by Gon and Randall (2003). The key diagnostic characters like presence of smooth preopercle edge and palatine teeth, on the upper limb of first gill arch two developed gill rakers, silvery body with four or five rows of scales with brownish spots, posterior part of first dorsal fin with dark spot or ocellus on, black on distal edges of anal and caudal fins of the recorded specimens were as par various literatures.2,6&10The species of this genusJaydiaSmith 1961 has a more continental distribution, mostly caught in trawls as a bycatch, widespread in New Guinea, larger islands in the Coral Sea, Australia, Arabian Sea of India and also from Africa to Japan The present observation shows the occurrence ofJ. quekettifrom the by-catch of trawl fishery Southeast coast of India.
In recent times, there are more reports on the Lessepsian migration (marine species movement across the Suez Canal, i.e., from the Red Sea to the Mediterranean Sea) of many marine fish species includingJ. quekettias an invasive species to the Mediterranean Sea.11The migration of marine species across different Seas could be attributed by the man-made ecosystem alterations and climatic change.11,12Moreover, studying the new population driven by man-made alterations and natural selection is the critical concern for the conversion of marine biodiversity.
The present species were caught as a bycatch of trawlers operating along Tuticorin as reported by Froese and Pauly (2014). This species might be a resident to Gulf of Mannar, which was not caught previously, or it may be arrived to the Gulf of Mannar from adjacent ecosystems through climate induced migration. The distribution of this species might be due to the recent changes in environmental and other oceanological features of Gulf of Mannar. Fish species movements towards higher latitudes are due to change climate conditions as fish distribution is affected due to the increases or decrease in sea temperature.12
In recent years, many apogonid species likeApogonichthyoides siali13andHolapogon maximus,14,15Cheilodipterus macrodon3have been reported from the southern EEZ (Exclusive Economic Zone) of India. This can be attributed to the shift in fishing pattern form coastal to deep waters and also due to closer observation and monitoring of bycatches from the deep sea fishery resources. In addition, there is an increase in trend of researchers focusing towards the deep-sea fish diversity in the southern coast of India, in particular to Gulf of Mannar.3,15,16&17Moreover, in the Gulf of Mannar, the slope is precipitous beyond 500 m, and 180 to 450 m depth range the bottom topography undulates.18Hence, in the forthcoming year,’s future more number of faunal species in particular deep sea fish will be documented due to exploration of new fishing ground along Gulf of Mannar, Southeast coast of India.
Acknowledgement
作者非常感谢导演Central Marine Fisheries Research Institute (CMFRI) and Central Institute of Fisheries Education (CIFE) for the encouragement during the course of this study. The authors express heartfelt thanks to the Scientist-in-charge and other staffs of Tuticorin Research Centre of CMFRI for their support. The first authors thank the anonym’s reviewers for the critical comments and betterment of the manuscript. The first author also wishes to acknowledge the online GIS program MAPTOOL, provided by seaturtle.org.
References
- Nelson JS (2006) Fishes of the world 4th ed, John Wiley & Sons, Inc., p. 624.
- Mabuchi K, Fraser TH, Song H, Azuma Y, Nishida M(2014) Revision of the systematics of the cardinalfishes (Percomorpha: Apogonidae) based on molecular analyses and comparative reevaluation of morphological characters.Zootaxa3846:151-
CrossRef - Ranjith L, Kannan K, Suresh Kumar K, Joshi KK, Sivadas M, George RM Madan MS (2015). Description onCheilodipterus macrodon(Lacepede, 1802) (Perciformes: Apogonidae) from Gulf of Mannar, Southeast coast of India.Thalassas31(2):55-60.
- Fishelson L (1970). Spawning behaviour of the cardinal fishCheilodipterus lineatusin Eilat (Gulf of Aqaba, Read Sea).Copiea1970(2):370-371.
- Thacker CE, Roje DM (2009) Phylogeny of cardinalfishes (Teleostei: Gobiiformes: Apogonidae) and the evolution of visceral bioluminescence.Molecular Phylogenetics and Evolution, 52:735-
CrossRef - Gon O (1996). Revision of the cardinalfish subgenusJaydia(Perciformes, Apogonidae,Apogon)Transactions of the Royal society of South Africa, 51 (1):147-194.
CrossRef - Froese R, Pauly D (2014) FishBase. World Wide Web electronic publication, http://www.fishbase.org (version 02/2014). Accessed 10 March 2014.
- Eschmeyer WN (2014) Genera, Species, References. Electronic versionhttp://research. calacademy.org /research/ichthyology/catalog/fishcatmain.asp (Accessed 10 March 2014).
- Gon O, Liao YC, Shao KT (2015) A new species of the cardinalfish genusJaydia(Teleostei: Apogonidae) from the Philippines.Zootaxa3980(2):286-292.
CrossRef - Gon O, Randall E. (2003) A review of the cardinalfishes (Perciformes: Apogonidae) of the Red Sea. Smithiana,Aquatic Biodiversity Bulletin1:1-
- Eryilmaz L, Dalyan C (2006) First record ofApogon quekettiGilchrist (Osteichthyes: Apogonidae) in the Mediterranean Sea.Journal of Fish Biology69(4):1251-1254.
CrossRef - Dulcic J, Bojan M, Valter Z, Armin P, Lovrenc L (2003) Northern extension of the range of the vadigoCampogramma glaycos(Pisces: Carangidae) from the Adriatic Sea.Journal Marine Biological Association:UK83(4):877–878.
- Manjebrayakath H, Akhilesh KV, Pillai NGK (2012) Report ofApogonichthyoides sialis(Perciformes: Apogonidae) from the west coast of India.Marine Biodiversity Records5(15):1-3.
CrossRef - Koya KPS, Akhilesh KV, Bineesh KK (2011) New record of Titan cardinalfish,Holapogon maximus(Apogonidae) along the southwest coast of India.Marine Biodiversity Records4(36):1-2.
- Ranjith L, Kannan K, Joshi KK, Vinod, K (2016) Range extension of the titan cardinalfish,Holapogon maximus(Boulenger, 1888) in the southern coast of India.National Academy of Science Letters39(2):95-98.
CrossRef - Kannan K, Sureshkumar K, Ranjith L, Joshi KK, Madan MS, Sajan J (2013) First record of the twostripe goby,Valenciennea helsdingenii(Gobiidae, Gobiiformes) from the Southeast coast of India.ZooKeys323:91-97.
CrossRef - Kannan K, Ranjith L, Joshi KK, Sajan J (2014) First record ofGrammonus robustusSmith & Radcliffe, 1913 (Ophidiiformes: Bythitidae) from Indian waters.Marine Biodiversity Records7(57):1-4.
- Silas EG (1965). Exploratory fishing by R.V. Varuna,Bulletin of Central Marine Fisheries Research Institute12:1-86.