Abstract
The horizontal distribution of the early life stages of small yellow croaker Larimichthys polyactis in the Yangtze River estuary and its adjacent area was investigated through six ichthyoplankton surveys conducted during the period of mid-April to mid-July 2015. A total of seven eggs and 2461 larvae and juveniles of small yellow croaker were collected. Abundance of the specimens was highest in mid-May and lowest in mid-July. The composition of the different development stages of small yellow croaker varied among the six cruises, although post-flexion larvae and juveniles dominated the ichthyoplankton collection in each cruise. Specimens at different development stages showed different distribution patterns in the study area. The eggs, yolk-sac and pre-flexion larvae were mainly collected at stations with depth exceeding 30 m, while post-flexion larvae and juveniles were mainly distributed in the relatively shallow waters near to the mouth of the Yangtze River. In conclusion, the study suggested that the study area had largely lost the ecological function to support small yellow croaker spawning, although it could still serve as nursery ground for the species.
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References
Begg GA, Marteinsdottir G (2002) Environmental and stock effects on spawning origins and recruitment of cod Gadus morhua. Mar Ecol Prog Ser 229:263–277
Blaber SJM, Blaber TG (1980) Factors affecting the distribution of juvenile estuarine and inshore fish. J Fish Biol 17(2):143–162
Bolle LJ, Dickey-Collas M, van Beek JKL, Erftemeijer PLA, Witte JIJ, van der Veer HW, Rijnsdorp AD (2009) Variability in transport of fish eggs and larvae. III. Effects of hydrodynamics and larval behaviour on recruitment in plaice. Mar Ecol Prog Ser 390:195–211
Chen JZ, Huang SL, Han YS (2014) Impact of long-term habitat loss on the Japanese eel Anguilla japonica. Estuar Coast Shelf Sci 151:361–369
Dai ZJ, Du JZ, Zhang XL, Su N, Li JF (2011) Variation of riverine material loads and environmental consequences on the Changjiang (Yangtze) estuary in recent decades (1955–2008). Environ Sci Technol 45:223–227
Epifanio CE, Garvine RW (2001) Larval transport on the Atlantic continental shelf of North America: a review. Estuar Coast Shelf Sci 52:51–77
Islam MS, Hibino M, Tanaka M (2006) Distribution and diets of larval and juvenile fishes: influence of salinity gradient and turbidity maximum in a temperate estuary in upper Ariake Bay, Japan. Estuar Coast Shelf Sci 68:62–74
Jiang M, Shen XQ, Wang YL, Yuan Q, Chen LF (2006) Species of fish eggs and larvae and distribution in Changjiang Estuary and vicinity waters. Acta Oceanol Sin 28(2):171–174 (in Chinese with English abstract)
Jiang YZ, Cheng JH, Li SF (2009) Temporal changes in the fish community resulting from a summer fishing moratorium in the northern East China Sea. Mar Ecol Prog Ser 387:265–273
Jiang ZB, Liu JJ, Chen JF, Chen QZ, Yan XJ, Xuan JJ, Zeng JN (2014) Responses of summer phytoplankton community to drastic environmental changes in the Changjiang (Yangtze River) estuary during the past 50 years. Water Res 54:1–11
Landaeta MF, Castro LR (2002) Spring spawning and early nursery zone of the mesopelagic fish Maurolicus parvipinnis at the coastal upwelling zone off Talcahuano, central Chile. Mar Ecol Prog Ser 226:179–191
Lelièvre S, Vaz S, Martin CS, Loots C (2014) Delineating recurrent fish spawning habitats in the North Sea. J Sea Res 91(8):1–14
Li JS, Hu F, Cheng JH (2007) Distribution of fish eggs and juveniles and relations between surface layer water temperature and salinity of the Yangtze estuary water area in spring. Mar Sci 31(4):16–21 (in Chinese with English abstract)
Li YX, Tang JH, Xu XM, Xu J, Liu ZY, Xu H, Cheng JH (2013) Comparison of otolith microstructures in small yellow croaker larvae and juveniles from Sanmen Bay and Lvsi. Mar Fish 35(4):423–431 (in Chinese with English abstract)
Lin XZ, Deng SM, Huang ZY (1965) Study of population on biometrics of small yellow croaker (Pseudosciaena polyactis Bleeker). In: Zhu YD et al (eds) Collections of marine fishery resource. China Agriculture Press, Beijing, pp 84–108 (in Chinese)
Lin LS, Liu ZL, Jiang YZ, Huang W, Gao TX (2011) Current status of small yellow croaker resources in the southern Yellow Sea and the East China Sea. Chin J Oceanol Limnol 29:547–555
Liu SH, Wang JH, Liu CC, Qin Y, Liu Z, Deng B (2015) Inter-annual variation in pelagic fish egg, larval, and juvenile assemblages during summer in the Yangtze River Estuary. China. Acta Ecologica Sinica 35(21):7190–7197 (in Chinese with English abstract)
Mao XL, Yu JC, Qin YQ (1987) Small yellow croaker. In: The Ministry of Agriculture, Farming and Fishery (ed) The fisheries resources survey and divisions in the East China Sea Region. East China Normal University Press, Shanghai, pp 339–356 (in Chinese)
Miller BS, Kendall AWJ (2009) Early life history of marine fishes. University of California Press, London
Neilson JD, Perry RI (1990) Diel vertical migrations of marine fishes: an obligate or facultative process? Adv Mar Biol 26:115–168
Norcross BL, Shaw RF (1984) Oceanic and estuarine transport of fish eggs and larvae: a review. Trans Am Fish Soc 113:153–165
Paradinas I, Conesa D, Pennino MG, Muñoz F, Fernández AM, López-Quílez A (2015) Bayesian spatio-temporal approach to identifying fish nurseries by validating persistence areas. Mar Ecol Prog Ser 528:245–255
Parrish RH, Nelson CS, Bakun A (1981) Transport mechanisms and reproductive success of fishes in the California Current. Biol Oceanogr 1:175–203
Pattrick P, Strydom NA (2008) Composition, abundance, distribution and seasonality of larval fishes in the shallow nearshore of the proposed Greater Addo Marine Reserve, Algoa Bay, South Africa. Estuar Coast Shelf Sci 79(2):251–262
Rijnsdorp AD, Peck MA, Engelhard GH, Möllmann C, Pinnegar JK (2009) Resolving the effect of climate change on fish populations. ICES J Mar Sci 66:1570–1583
Shi YL, Chao M, Quan WM, Huang HJ, Shen XM (2012) Fish community diversity analyses in the Yangtze River estuary, China. J Fish Sci China 19(6):1051–1059 (in Chinese with English abstract)
Sogard SM (1997) Size-selective mortality in the juvenile stage of teleost fishes: a review. Bull Mar Sci 60:1129–1157
Stelzenmüller V, Ellis JR, Rogers SI (2010) Towards a spatially explicit risk assessment for marine management: assessing the vulnerability of fish to aggregate extraction. Biol Cons 143:230–238
Sun P, Dai F, Chen Y, Shan X, Jin X (2015) Seasonal variations in structure of fishery resource in the Yangtze River estuary and its adjacent waters. Prog Fish Sci 36(6):8–16 (in Chinese with English abstract)
Wang JH, Sun YW, Liu CC, Qin YT, Cheng XS, Ren XU (2007) The ichthyoplankton resource investigation in Yangtze Estuary. J Mar Sci 25(4):40–50 (in Chinese with English abstract)
Wang J, Liu R, Zhang P, Yu W, Shen Z, Feng C (2014) Spatial variation, environmental assessment and source identification of heavy metals in sediments of the Yangtze River estuary. Mar Pollut Bull 87:364–373
Whitfield AK (1999) Ichthyofaunal assemblages in estuaries: a South African case study. Rev Fish Biol Fisheries 9:151–186
Xu J, Sun Y, Xu ZL (2014) Fish assembles in the coastal water of Lvsi fishing ground during spring and summer. Chin J Appl Ecol 25(1):243–250 (in Chinese with English abstract)
Xu QH, Qian JH, Chen ZY, Zhang HP, Chen L (2015) Water environment status and pollution prevention and control in Yangtze River estuary and adjacent waters. China Dev 25(3):99–106 (in Chinese with English abstract)
Yang DL, Wu GZ, Sun JR (1990) The investigation ok pelagic eggs, larvae and juveniles of fishes at the mouth of the Yangtze River and adjacent areas. Oceanol Limnol Sin 4:346–355 (in Chinese with English abstract)
Yang YP, Li Y, Sun Z, Fan Y (2014) Suspended sediment load in the turbidity maximum zone at the Yangtze River estuary: the trends and causes. J Geog Sci 24(1):129–142 (in Chinese with English abstract)
Zhang T, Zhuang P, Zhang LZ, Liu J, Wang YL, Hou JL (2010) Present situation of fish species composition in nature reserve of Acipenser sinensis and adjacent waters in the Yangtze River estuary. Resour Environ Yangtze Basin 19(4):370–376 (in Chinese with English abstract)
Zhang C, Ye ZJ, Wan R, Ma QY, Li ZG (2014) Investigating the population structure of small yellow croaker (Larimichthys polyactis) using internal and external features of otoliths. Fish Res 153:41–47
Zhou SQ, Shen ZL, Zheng LI, Yao Y (2007) Distribution features of nutrients in the maximum turbid zone of the Yangtze Estuary and its adjacent sea areas. Mar Sci 31(6):34–42 (in Chinese with English abstract)
Zhu YZ, Liu LS, Zheng BH (2011) Relationship between spatial distribution of zooplankton and environmental factors in the Yangtze Estuary and its adjacent waters in spring. Mar Sci 35(1):59–65 (in Chinese with English abstract)
Zhuang P, Wang YH, Li SF, Deng SM, Li CS, Ni Y (2006) Fishes of the Yangtze estuary. Shanghai Scientific and Technical Publishers, Shanghai (in Chinese)
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This work was supported by a grant from the National Special Research Fund for the Non-Profit Sector (Agriculture) (No. 201303047).
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Lin, N., Chen, Y., Jin, Y. et al. Distribution of the early life stages of small yellow croaker in the Yangtze River estuary and adjacent waters. Fish Sci 84, 357–363 (2018). https://doi.org/10.1007/s12562-018-1177-6
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DOI: https://doi.org/10.1007/s12562-018-1177-6