[1] Greely TM, Gartner Jr JV, Torres JJ. Age and growth of Electrona antarctica (Pisces: Myctophidae), the dominant mesopelagic fish of the Southern Ocean. MarineBiology, 1998, 133: 145-158 [2] Cassia MC. Comparison for age readings from scales and otoliths of the Patagonian toothfish (Dissostichus eleginoides) from South Georgia. CCAMLR Science, 1998, 5: 191-203 [3] Ashford J, Duhamel G, Jones C, et al. Age, growth and mortality of Patagonian toothfish (Dissostichus eleginoides) caught off Kerguelen. CCAMLR Science, 2005, 12: 29-41 [4] Horn PL. Age and growth of Patagonian toothfish (Dissostichus eleginoides) and Antarctic toothfish (D. mawsoni) in waters from the New Zealand subantarctic to the Ross Sea, Antarctica. Fisheries Research, 2002, 56: 275-287 [5] Andriashev AP. A General Review of the Antarctic Fish Fauna. Biogeography and Ecology in Antarctica. Amsterdam, the Netherlands Springer, 1965: 491-550 [6] Gerasimova OV. Feeding and food intake of Electrona carlsbergi (Tåning, 1932) myctophidae. Proceedings of the Meeting of the Scientific and Working Group of CCAMLR. Hobart, Austrilia, 1990: 411-416 [7] Kozlov AN, Shust KV, Zemsky AV. Seasonal and inter-annual variability in the distribution of Electrona carlsbergi in southern polar front area (The area to the north of south Georgia is used as an example). Proceedings of the Meeting of the Scientific and Working Group of CCAMLR. Hobart, Austrilia, 1990: 337-367 [8] Zaselsky VS, Kudrin VD, Poletaev VA, et al. Some bio-logical features of Electrona carlsbergi (Tåning) (Myctophidae) in the Antarctic Atlantic. Voprosy Ikhtiologii, 1985, 25: 352-354 [9] Zhu G-P (朱国平), Li F-Y (李凤莹), Feng C-L (冯春雷), et al. The biology of Electrona antarctica in the Western South Orkney Islands, Antarctic. Chinese Journal of Polar Research (极地研究), 2012, 24(4): 346-351 (in Chinese) [10] Lubimova TG, Shust KV, Popov VV. Some Features of the Ecology of Mesopelagic Fish of Family Myctophidae in the Southern Ocean. Moscow: Biological Resources of the Arctic and Antarctic Nauka Press, 1987: 320-337 [11] Friedland KD, Reddin DG. Use of otolith morphology in stock discriminations of Atlantic salmon (Solmo salar). Canadian Journal of Fisheries and Aquatic Sciences, 1994, 51: 91-98 [12] Campana SE, Neilson JD. Microstructure of fish otoliths. Canadian Journal of Fisheries and Aquatic Sciences, 1985, 42: 1014-1032 [13] Petursdottir G,Begg GA,Marteinsdottir G. Discrimination between Icelandic cod (Gadus morhua L.) populations from adjacent spawning areas based on otolith growth and shape. Fisheries Research, 2006, 80: 182-189 [14] Smith MK. Regional differences in otolith morphology of the deep slope red snapper (Etelis carbunculus). Canadian Journal of Fisheries and Aquatic Sciences, 1992, 49: 795-804 [15] Mazhirina GP. On reproduction of Electrona carlsbergi (Tåning). Proceedings of the Meeting of the Scientific and Working Group of CCAMLR. Hobart, Austrilia, 1990: 397-409 [16] Linkowski TB. Electrona carlsbergi (Tåning, 1932), the principal component of a deep scattering layer in the Pacific sector of the Antarctic Ocean. Polish Polar Research, 1983, 4: 71-78 [17] Saunders RA, Collins MA, Foster E, et al. The trophodynamics of Southern Ocean Electrona (Myctophidae) in the Scotia Sea. Polar Biology, 2014, 37: 1-19 [18] Gaemers PAM. Taxonomic position of the Cichlidae (Pisces, Perciformes) as demonstrated by the morphology of their otoliths. Netherlands Journal of Zoology, 1983, 34: 566-595 [19] Messieh SN. Use of otoliths in identifying Herring stocks in the southern gulf of St. Lawrence and adjacent waters. Journal of the Fisheries Research Board of Canada, 1972, 29: 1113-1118 [20] Zhang B (张 波), Dai F-Q (戴芳群), Jin X-S (金显仕). Morphologic characters of sagittae in some important prey fish in the Yellow Sea. Journal of Fishery Sciences of China (中国水产科学), 2008, 15(6): 917-926 (in Chinese) [21] Guo H-Y (郭弘艺), Tang W-Q (唐文乔), Wei K (魏 凯), et al. Morphologic characters of the sagittal otoliths of the fishes of the genus Coilia from China. Chinese Journal of Zoology (动物学杂志), 2007, 42(1): 39-47 (in Chinese) [22] Xu S-Y (徐胜勇), Zhang H (张 辉), Pan X-Z (潘晓哲), et al. Morphological comparison of the otolith of Sebastes schlegelii populations. Periodical of Ocean University of China (Natural Science)(中国海洋大学学报:自然科学版), 2012, 42(11): 54-61 (in Chinese) [23] Dou S-Z (窦硕增), Yu X (于 鑫), Cao L (曹 亮). Otolith shape analysis and its application in fish stock discrimination: A case study. Oceanologia et Limnologia Sinica (海洋与湖沼), 2012, 43(4): 702-712 (in Chinese) [24] Campana SE, Casselman JM. Stock discrimination using otolith shape analysis. Canadian Journal of Fisheries and Aquatic Sciences, 1993, 50: 1062-1083 [25] Longmore C, Fogarty K, Neat F, et al. A comparison of otolith microchemistry and otolith shape analysis for the study of spatial variation in a deep-sea teleost, Coryphae-noides rupestris. Environmental Biology of Fishes, 2010, 89: 591-605 [26] Wang Y-J (王英俊). The Application of Fourier Analysis in the Research of Otolith Morphology. PhD Thesis. Qingdao: Ocean University of China, 2010 (in Chinese) [27] Kuhl FP, Giardina CR. Elliptic Fourier features of a closedcontour. Computer Graphics and Image Processing, 1982, 18: 236-258 [28] Li S-F (李思发), Li C-H (李晨虹), Li J-L (李家乐). Analysis of morphological variations among strains of nile tilapia (Oreochromis niloticus). Acta Zoologia Sinica (动物学报), 1998, 44(4): 450-457 (in Chinese) [29] Castonguay M, Simard P, Gagnon P. Usefulness of fourier analysis of otolith shape for Atlantic mackerel (Scomber scombrus) stock discrimination. Canadian Journal of Fisheries and Aquatic Sciences, 1991, 48: 296-302 [30] Bird JL, Eppler DT, Checkley Jr DM. Comparisons of herring otoliths using fourier series shape analysis. Canadian Journal of Fisheries and Aquatic Sciences, 2011, 43: 1228-1234 [31] Zeng X-B (曾祥波), Zhang G-H (张国华). Species identification at the larval and juvenile stages for several Chinese domestic fishes by elliptical Fourier analysis of otolith form. Journal of Fishery Sciences of China (中国水产科学), 2012, 19(6): 970-977 (in Chinese) [32] Zhang F-X (张凤侠), Liu Y (刘 岩), Zhang X-M (张秀梅). Morphological diversity of sagittae of Pa-tagonotothen ramsayi in the southwestern Atlantic Ocean. Journal of Fishery Sciences of China (中国水产科学), 2014, 21(3): 581-592 (in Chinese) [33] Qin Y (秦 岩), Pan X-Z (潘晓哲), Gao T-X (高天翔). Study on morphological diversity of sagittae of Platycephalus sp.1. Acta Hydrobiologica Sinica (水生生物学报), 2013, 37(4): 759-765 (in Chinese) [34] Su H (苏 杭), Fang Z (方 舟), Chen X-J (陈新军). Comparative study of Ommastrephidae species identification based on statolith shape. Marine Fisheries (海洋渔业), 2015, 37(4): 293-301 (in Chinese) [35] Fang Z (方 舟), Ye X-C (叶旭昌), Li F-Y (李凤莹), et al. Using otolith morphology to identify Sardinella aurita and Sardina pilchardus in south coastal water of Morocco. Journal of Shanghai Ocean University (上海海洋大学学报), 2014, 23(3): 448-455 (in Chinese) [36] Anderson MJ, Willis TJ. Canonical analysis of principal coordinates: A useful method of constrained ordination for ecology. Ecology, 2003, 84: 511-525 [37] Wang H-P (王汉平), Qiu S-L (邱顺林), Chen D-Q (陈大庆), et al. Domestication of Tenualosa reevesii and its biology. I. Growth and feeding habits of O+ old juvenile. Chinese Journal of Applied Ecology (应用生态学报), 1992, 3(3): 259-265 (in Chinese) [38] Chen Z-Z (陈作志), Qiu Y-S (邱永松), Huang Z-R (黄梓荣). Estimation of growth and mortality parameters of Argyrosomus argentatus in northern South China Sea. Chinese Journal of Applied Ecology (应用生态学报), 2005, 16(4): 712-716 (in Chinese) [39] Zhang X-X (张晓霞), Ye Z-J (叶振江), Wang Y-J (王英俊), et al. Study on otolith morphology of Chelidonichthys spinosus in the Qingdao Coastal Water. Perio-dical of Ocean University of China (Natural Science)(中国海洋大学学报:自然科学版), 2009, 39(4): 622-626 (in Chinese) [40] Linkowski TB. Age and growth of four species of Electrona (Teleostei, Myctophidae)// Kullander SO, Fernholm B, eds. Proceedings of the 5th Congress of European Ichthyologists. Swedish Museum of Natural History Stockholm, 1987: 435-442 |