Identification of five Pampus species from the coast of China based on sagittal otolith morphology analysis

ZHANG Chi; FAN Yannan; YE Zhenjiang; LI Zengguang; YU Hongliang

doi:10.1007/s13131-017-0982-6

Article Contents

Article Navigation > Acta Oceanologica Sinica > 2017 > 36(2): 51-56

ZHANG Chi, FAN Yannan, YE Zhenjiang, LI Zengguang, YU Hongliang. Identification of five Pampus species from the coast of China based on sagittal otolith morphology analysis[J]. Acta Oceanologica Sinica, 2017, 36(2): 51-56. doi: 10.1007/s13131-017-0982-6

Citation:

ZHANG Chi, FAN Yannan, YE Zhenjiang, LI Zengguang, YU Hongliang. Identification of five Pampus species from the coast of China based on sagittal otolith morphology analysis[J]. Acta Oceanologica Sinica, 2017, 36(2): 51-56. doi: 10.1007/s13131-017-0982-6

Citation:

ZHANG Chi, FAN Yannan, YE Zhenjiang, LI Zengguang, YU Hongliang. Identification of five Pampus species from the coast of China based on sagittal otolith morphology analysis[J]. Acta Oceanologica Sinica, 2017, 36(2): 51-56. doi: 10.1007/s13131-017-0982-6

PDF( 927 KB)

Identification of five Pampus species from the coast of China based on sagittal otolith morphology analysis

doi: 10.1007/s13131-017-0982-6

1.
College of Fisheries, Ocean University of China, Qingdao 266003, China
2.
Bureau of Oceanic and Fishery of Wendeng District, Weihai 264400, China

Received Date: 2016-01-08
Rev Recd Date: 2016-10-18

Abstract

Abstract

Sagittal otoliths morphology were compared to identify five Pampus species of the Chinese coast (Chinese pomfret Pampus chinensis, grey pomfret P. cinereus, southern lesser pomfret P. minor, plumage pomfret P. punctatissmus, and Pampus sp.). Otoliths demonstrated species-specific characteristics with noticeable differences in overall shape, margin and anterior region among species. With species divergence, otoliths get thinner following further developed rostrum and anti-rostrum. Interspecies variation in otolith could associate with experienced different temperature and water column. The discriminant analysis presented a high classification accuracy of 96.6%, which confirms the inter-specific distinction of otolith shape and enable the species identification.
- otolith morphology,
- Pampus,
- Fourier analysis,
- discriminant analysis

FullText(HTML)

References(46)

References

Bani A, Poursaeid S, Tuset V M. 2013. Comparative morphology of the sagittal otolith in three species of south Caspian gobies. Journal of Fish Biology, 82(4):1321-1332

Cardinale M, Doering-Arjes P, Kastowsky M, et al. 2004. Effects of sex, stock, and environment on the shape of known-age Atlantic cod (Gadus morhua) otoliths. Canadian Journal of Fisheries and Aquatic Sciences, 61(2):158-167

Castonguay M, Simard P, Gagnon P. 1991. Usefulness of fourier analysis of otolith shape for atlantic mackerel (Scomber scombrus) stock discrimination. Canadian Journal of Fisheries and Aquatic Sciences, 48(2):296-302

Crampon J S. 1995. Elliptic Fourier shape analysis of fossil bivalves:some practical considerations. Lethaia, 28(2):179-186

Cui Zhaoxia, Liu Yuan, Liu Jing, et al. 2010. Molecular identification of Pampus fishes (Perciformes, Stromateidae). Ichthyological Research, 57(1):32-39

Deng Siming, Xiong Guoqiang, Zhan Hongxi. 1981. The preliminary study on the classification of stromateoidei of China. Ichthyological Thesis (No. 2) (in Chinese). Beijing:Science Press, 25-38

Fowler H W. 1972. A Synopsis of the Fishes of China. Netherlands:Antiquariaat Junk, 296-305

Girone A, Nolf D. 2009. Fish otoliths from the Priabonian (Late Eocene) of North Italy and South-East France-Their paleobiogeographical significance. Revue de Micropaléontologie, 52(3):195-218

Haedrich R L. 1967. The stromateoid fishes:systematics and a classification. Bulletin of The Museum of Comparative Zoology, 135(2):31-139

Iwata H, Ukai Y. 2002. SHAPE:a computer program package for quantitative evaluation of biological shapes based on elliptic Fourier descriptors. Journal of Heredity, 93(5):384-385

Koken E. 1884. Ueber Fisch-Otolithen, insbesondere über diejenigen der norddeutschen Oligocän-Ablagerungen. Zeitschrift der Deutschen Geologischen Gesellschaft, 36(3):500-565

L'Abée-Lund J H, Jensen A J. 1993. Otoliths as natural tags in the systematics of salmonids. Environmental Biology of Fishes, 36(4):389-393

Libungan L A, Pálsson S. 2015. ShapeR:an r package to study otolith shape variation among fish populations. PLoS One, 10(3):e0121102

Liu Zengsheng, Cui Lifeng. 2010. China Fishery Yearbook 2010 (in Chinese). Beijing:China Agriculture Press, 43-45

Liu Jing, Li Chunsheng. 1998a. A new pomfret species, Pampus minor sp. nov. (Stromateidae) from Chinese waters. Chinese Journal of Oceanology and Limnology, 16(3):280-285

Liu Jing, Li Chunsheng. 1998b. Redescription of a stromateoid fish Pampus punctatissimus and comparison with Pampus argenteus from chinese coastal waters. Chinese Journal of Oceanology and Limnology, 16(2):161-166

Liu Jing, Li Chunsheng, Li Xiansen. 2002a. Phylogeny and biogeography of Chinese pomfret fishes (Pisces:Stromateidae). Studia Marina Sinica (in Chinese), (44):235-239

Liu Jing, Li Chunsheng, Li Xiansen. 2002b. Studies on Chinese pomfret fishes of the genus Pampus (Pisces:Stromateidae). Studia Marina Sinica (in Chinese), (44):240-252

Lombarte A, Cruz A. 2007. Otolith size trends in marine fish communities from different depth strata. Journal of Fish Biology, 71(1):53-76

Lombarte A, Lleonart J. 1993. Otolith size changes related with body growth, habitat depth and temperature. Environmental Biology of Fishes, 37(3):297-306

Lord C, Morat F, Lecomte-Finiger R, et al. 2012. Otolith shape analysis for three Sicyopterus (Teleostei:Gobioidei:Sicydiinae) species from New Caledonia and Vanuatu. Environmental Biology of Fishes, 93(2):209-222

Nakabo T. 2002. Fishes of Japan:With Pictorial Keys to the Species. Tokyo:Tokai University Press

Nielsen J G, Møller P R. 2011. Revision of the bathyal cusk-eels of the genus Bassogigas (Ophidiidae) with description of a new species from off Guam, west Pacific Ocean. Journal of Fish Biology, 78(3):783-795

Nolf D. 1985. Otolithi Piscium. In:Schultze H P, ed. Handbook of Paleoichthyology, Vol. 10. Stuttgart, State, New York:Gustav Fischer Verlag, 1-145

Parisi-Baradad V, Lombarte A, García-Ladona E, et al. 2005. Otolith shape contour analysis using affine transformation invariant wavelet transforms and curvature scale space representation. Marine and Freshwater Research, 56(5):795-804

Parisi-Baradad V, Manjabacas A, Lombarte A, et al. 2010. Automated taxon identification of teleost fishes using an otolith online database-AFORO. Fisheries Research, 105(1):13-20

Paxton J R. 2000. Fish otoliths:do sizes correlate with taxonomic group, habitat and/or luminescence? Philosophical Transactions of the Royal Society of London Series B:Biological Sciences, 355(1401):1299-1303

Piera J, Parisi-Baradad V, García-Ladona E, et al. 2005. Otolith shape feature extraction oriented to automatic classification with open distributed data. Marine and Freshwater Research, 56(5):805-814

Platt C, Popper A N. 1981. Fine structure and function of the ear. In:Tavolga W N, Popper A N, Fay R R, eds. Hearing and Sound Communication in Fishes. New York:Springer-Verlag, 3-38

Prime J H, Hammond P S. 1990. The diet of grey seals from the south-western North Sea assessed from analyses of hard parts found in faeces. Journal of Applied Ecology, 27(2):435-447

Reig-Bolaño R, Marti-Puig P, Lombarte A, et al. 2010. A new otolith image contour descriptor based on partial reflection. Environmental Biology of Fishes, 89(3-4):579-590

Sadighzadeh Z, Tuset V M, Valinassab T, et al. 2012. Comparison of different otolith shape descriptors and morphometrics for the identification of closely related species of Lutjanus spp. from the Persian Gulf. Marine Biology Research, 8(9):802-814

Schmidt W. 1969. The otolith as a means for differentiation between species of fish of very similar appearance. In:Proceedings of the Symposium on the Oceanography and Fisheries Resources of the Tropical Atlantic. Abidjan:UNESCO, FAO, OAU, 393-396

Sokal R R, Rohlf F J. 1981. Biometry. 2nd ed. New York:WH Feeman and Company, 1-859

Stransky C, MacLellan S E. 2005. Species separation and zoogeography of redfish and rockfish (genus Sebastes) by otolith shape analysis. Canadian Journal of Fisheries and Aquatic Sciences, 62(10):2265-2276

Teimori A, Jawad L A, Al-Kharusi L H, et al. 2012. Late Pleistocene to Holocene diversification and historical zoogeography of the Arabian killifish (Aphanius dispar) inferred from otolith morphology. Scientia Marina, 76(4):637-645

Tuset V M, Lombarte A, Assis C A. 2008. Otolith atlas for the western Mediterranean, north and central eastern Atlantic. Scientia Marina, 72(S1):7-198

Tuset V M, Rosin P L, Lombarte A. 2006. Sagittal otolith shape used in the identification of fishes of the genus Serranus. Fisheries Research, 81(2-3):316-325

Vignon M, Morat F. 2010. Environmental and genetic determinant of otolith shape revealed by a non-indigenous tropical fish. Marine Ecology Progress Series, 411:231-241

Volpedo A, Echeverría D D. 2003. Ecomorphological patterns of the sagitta in fish on the continental shelf off Argentine. Fisheries Research, 60(2-3):551-560

Wang Yingjun. 2010. The application of Fourier analysis in the research of otolith morphology (in Chinese)[dissertation]. Qingdao:Ocean University of China

Wu Hanlin. 1985. Stromateidae. In:Chu Yuanting, ed. The Fishes of Fujian Province (in Chinese). Vol. 2. Fujian:Fujian Science Press, 430-436

Yamada U, Shirai S, Irie T, et al. 1995. Names and illustrations of fishes from the East China Sea and the Yellow Sea. Tokyo:Overseas Fishery Cooperation Foundation, 1-288

Yang Wenhua, Cheng Qingtai. 1987. Stromateidae. In:Cheng Qingtai, Zheng Baoshan, eds. Systematic Synopsis of Chinese Fishes (in Chinese). Vol. 1. Beijing:Science Press, 423-425

Ye Zhenjiang, Zhu Bojun, Xue Ying. 2007. Photographic Atlas of Fish Otoliths of the China Sea (in Chinese). Qingdao:Ocean University of China Press, 184-187

Zhuang Longchuan, Ye Zhenjiang, Zhang Chi. 2015. Application of otolith shape analysis to species separation in Sebastes spp. from the Bohai Sea and the Yellow Sea, northwest Pacific. Environmental Biology of Fishes, 98(2):547-558

Relative Articles

Supplements(0)

Cited By

Proportional views