Abstract
Amphidromous gobies are circumtropically distributed in mountainous coasts typical of volcanic islands. More than nine goby species recruit seasonally from the Pacific coasts to the Hsuikuluan River estuary eastern Taiwan from the spring to the summer. Using two seasons of field observations and sample collections, we explore the recruitment of amphidromous gobies from the Pacific Ocean into the Hsuikuluan River and their upstream migratory behaviors from the estuary to the lower reaches of the river. A metamorphosis check in the otolith which corresponds to the drop of Sr/Ca ratios from higher > 4 × 10−3 to lower levels < 4 × 10−3 is found in most species after recruitment to fresh waters. The marine and freshwater stages for these goby species can therefore be confirmed from otolith microstructure and Sr/Ca ratio analysis, and age in days of these gobies is estimated from otolith daily increments. Rhinogobius gigas recruits to the estuary at 30–40 days after hatching, while the marine planktonic stage ranged from approximately 2–7 months for Awaous melanocephalus, Eleotris fusca, Glossogobius aureus, Sicyopterus japonicus (Tanaka, 1909), Stenogobius genivittatus, and Stiphodon elegans (Steindachner, 1879). The catch data from an artisanal fish trap show lunar and semi-lunar periodicity for the upstream migration of R. gigas and S. japonicus after a brief stay in the estuary. These two species accounted for more than 99 % of the upstream migratory gobies collected in the fish trap. The short marine larval stage and presumed retention at the inshore area help to explain the endemism of R. giga. In contrast, S. japonicus has a lengthy marine stage of 6–7 months, which obviously could allow dispersal over a wide geographic range.
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References
Akihito SK, Ikeda Y, Iwata A (2000) Gobioidei. In: Nakabo T (ed) Fishes of Japan with pictorial keys to the species, 2nd edn. Tokai University Press, Tokyo
Aonuma Y, Chen IS (1996) Two new species of Rhinogobius (Teleostei, Gobiidae) from Taiwan. J Taiwan Museum 49:7–13
Bell KNI (1999) An overview of goby-fry fisheries. Naga Manila 22:30–36
Bell KNI (2009) What comes down must go up: The migration cycle of juvenile-return anadromous taxa. In: Haro AJ, Smith KL, Rulifson RA, Moffitt CM, Klauda RJ, Dadswell MJ, Cunjak RA, Cooper JE, Beal KL, Avery TS (ed) Challenges for Amphidromous Fishes in a Dynamic Global Environment, American Fisheries Society Symposium on Amphidromous Fishes. 69:321–342. Bethesda, Maryland
Bell KNI, Brown JA (1995) Active salinity choice and enhanced swimming endurance in 0 to 8-d-old larvae of amphidromous gobies, including Sicydium punctatum (Pisces), in Dominica, West Indies. Mar Biol 121:409–417
Bell KNI, Pepin P, Brown JA (1995) Seasonal, inverse cycling of length-and age-at-recruitment in the amphidromous gobies Sicydium puntatum and Sicydium antillarum in Dominica, West Indies. Can J Fish Aquat Sci 52:1535–1545
Bielsa S, Francisco P, Mastrorillo S, Parent JP (2003) Seasonal changes of periphytic nutritive quality for Sicyopterus lagocephalus (Pallas, 1770) (Gobiidae) in three streams of Reunion Island. Ann Limnol Int J Lim 39:115–127
Brown RJ, Severin KP (2009) Otolith chemistry analyses indicate that water Sr:Ca is the primary factor influencing otolith Sr:Ca for freshwater and amphidromous fish but not for marine fish. Can J Fish Aquat Sci 66:1790–1808
Campana SE (2005) Otolith science entering the 21st century. Mar Freshw Res 56:485–495
Campana SE, Neilson JD (1985) Microstructure of fish otoliths. Can J Fish Aquat Sci 42:1014–1032
Chang CW, Iizuka Y (2012) Estuarine use and movement patterns of seven sympatric mugilidae fishes: the tatu creek estuary, central western Taiwan. Estuar Coast Shelf Sci 106:121–126
Chen IS, Shao KT (1996) A taxonomic review of the gobiid fish genus Rhinogobius gill 1859, from Taiwan, with descriptions of three new species. Zool Stud 35:200–214
Chen IS, Shao KT, Fang LS (1995) A new species of freshwater goby Schismatogobius ampluvinculus (Pisces: Gobiidae) from southeastern Taiwan. Zool Stud 34:202–205
Dȏtu Y, Mito S (1955) Life history of the gobioid fish, Sicydium japonicum Tanaka. Science Bulletin of the Faculty of Agriculture, Kyushu University 15:213–221
Elsdon TS, Wells BK, Campana SE, Gillander BM, Jones CM, Limburg KE, Secor DH, Thorrold SR, Walther BD (2008) Otolith chemistry to describe movements and life-history parameters of fishes: hypotheses, assumptions, limitations and inferences. Oceanogr Mar Biol 46:297–330
Foster NR, Fuiman LA (1987) Notes on behavior and early life history of captive lyre gobies, Evorthodus lyricus. B Mar Sci 41:27–35
Gillanders BM (2005) Using elemental chemistry of fish otoliths to determine connectivity between estuarine and coastal habitats. Estuar Coast Shelf Sci 64:47–57
Hoareau T, Lecomte-Finiger R, Grondin HP, Conand C, Berrebi P (2007) Oceanic larval life of La Réunion ‘bichiques’, amphidromous gobiid post-larvae. Mar Ecol Prog Ser 333:303–308
Iguchi K, Mizuno N (1999) Early starvation limits survival in amphidromous fishes. J Fish Biol 54:705–712
Iida M, Watanabe S, Shinoda A, Tsukamoto K (2008) Recruitment of the amphidromous goby Sicyopterus japonicus to the estuary of the Ota River, Wakayama, Japan. Environ Biol Fish 83:331–341
Iida M, Watanabe S, Yamada Y, Lord C, Keith P, Tsukamoto K (2010) Survival and behavioral characteristics of amphidromous goby larvae of Sicyopterus japonicus (Tanaka, 1909) during their downstream migration. J Exp Mar Biol Ecol 383:17–22
Keith P, Hoareau TB, Lord C, Ah-Yane O, Gimonneau G, Robinet T, Valade P (2008) Characterisation of post-larval to juvenile stages, metamorphosis and recruitment of an amphidromous goby, Sicyopterus lagocephalus (Pallas) (Teleostei: Gobiidae: Sicydiinae). Mar Freshwater Res 59:876–889
Kinzie RA III (1993) Reproductive biology of an endemic, amphidromous goby Lentipes concolor in Hawaiian streams. Environ Biol Fish 37:257–268
Lord C, Brun C, Hautecoeur M, Keith P (2010) Insights on endemism: comparison of the duration of the marine larval phase estimated by otolith microstructural analysis of three amphidromous Sicyopterus species (Gobioidei: Sicydiinae) from Vanuatu and New Caledonia. Ecol Freshw Fish 19:26–38
Lord C, Tabouret H, Claverie F, Pécheyran C, Keith P (2011) Femtosecond laser ablation ICP-MS measurement of otolith Sr:Ca and Ba:Ca composition reveal differential use of freshwater habitats for three amphidromous Sicyopterus (Teleostei: Gobioidei: Sicydiinae) species. J Fish Biol 79:1304–1321
Maeda K, Yamasaki N, Tachihara K (2007) Size and age at recruitment and spawning season of sleeper, genus Eleotris (teleostei: Eleotridae) on Okinawa island, southern Japan. Raffles B Zool 14:199–207
Maeda K, Yamasaki N, Kondo M, Tachihara K (2008) Reproductive biology and early development of two species of sleeper, Eleotris acanthopoma and Eleotris fusca (Teleostei: Eleotridae). Pac Sci 62:327–340
Manacop PR (1953) The life history and habits of the goby, Sicyopterus extraneus Herre (Anga) gobiidae with an account of the goby-fry fishery of Cagayan River, Oriental Misamis. Philipp J Fish 2:1–58
McDowall RM (2007) On amphidromy a distinct form of diadromy in aquatic organism. Fish 8:1–13
Mochizuki K, Fukui S (1983) Development and replacement of upper jaw teeth in gobiid fish, Sicyopterus japonicus. Jpn J Ichthyol 30:27–36
Myers GS (1949) Usage of anadromous, catadromous and allied terms for migratory fishes. Copeia 1949:89–97
Radtke RL, Kinzie RA, Shafer DJ (2001) Temporal and spatial variation in length of larval life and size at settlement of the Hawaiian amphidromous goby Lentipes concolor. J Fish Biol 59:928–938
Shen KN, Tzeng WN (2002) Formation of a metamorphosis check in otoliths of the amphidromous goby Sicyopterus japonicus. Mar Ecol Prog Ser 228:205–211
Shen KN, Tzeng WN (2008) Reproductive strategy and recruitment dynamics of amphidromous goby Sicyopterus japonicus as revealed by otolith microstructure. J Fish Biol 7:2497–2512
Shen SC, Shao KT, Lee SC, Mok HK, Chen CT, Chen CH (1993) Fishes of Taiwan. National Taiwan University Press, Taipei
Shen KN, Lee YC, Tzeng WN (1998) Use of otolith microchemistry to investigate the life history pattern of gobies in a Taiwanese stream. Zool Stud 37:322–329
Shiao JC, Tzeng CS, Leu CL, Chen FC (1999) Enhancing the contrast and visibility of daily growth increments in fish otoliths etched by proteinase K buffer. J Fish Biol 54:302–309
Shiao JC, Ložys L, Iizuka Y, Tzeng WN (2006) Migratory patterns and contribution of stocking to the population of European eels Anguilla anguilla by otolith Sr:Ca ratio analysis. J Fish Biol 69:749–769
Smith RJF, Smith MJ (1998) Rapid acquisition of directional preferences by migratory juveniles of two amphidromous Hawaiian gobies, Awaous guamensis and Sicyopterus stimpsoni. Environ Biol Fish 53:275–282
Sorensen PW, Hobson KA (2005) Stable isotope analysis of amphidromous Hawaiian gobies suggests their larvae spend a substantial period of time in freshwater river plumes. Environ Biol Fish 74:31–42
Tabouret H, Bareille G, Claverie F, Pecheyran C, Prouzet P, Donard OFX (2010) Simultaneous use of strontium:calcium and barium:calcium ratios in otoliths as markers of habitat: application to the European eel (Anguilla anguilla) in the Adour basin, South West France. Mar Environ Res 70:35–45
Taillebois L, Maeda K, Vigne S, Keith P (2012) Pelagic larval duration of three amphidromous Sicydiinae gobies (Teleostei: Gobioidei) including widespread and endemic species. Ecol Freshw Fish 21:552–559
Takahashi D, Yanagisawa Y (1999) Breeding ecology of an amphidromous goby of the genus Rhinogobius. Ichthyol Res 46:185–191
Tamada K, Iwata K (2005) Intra-specific variations of egg size, clutch size and larval survival related to maternal size in amphidromous Rhinogobius goby. Environ Biol Fish 73:379–389
Teichert N, Valade P, Fostier A, Lagarde R, Gaudin P (2014) Reproductive biology of an amphidromous goby, Sicyopterus lagocephalus, in La Réunion Island. Hydrobiologia 726:123–141
Tzeng CS (1986a) The freshwater fishes of Taiwan. Press, Taiwan Educational Office
Tzeng CS (1986b) Distribution of the freshwater fishes of Taiwan. J Taiwan Museum 39:127–146
Yuan CR (1969) The Makutaai Ami of eastern Taiwan an ethnographic report. Institute of Ethnology Academia Sinica. 1:193
Yuma M, Maruyama A, Rusuwa B (2000) Behavior and distribution of upstream-migrating juvenile Rhinogobius sp. (the orange form). Ichthyol Res 47:379–384
Zimmerman CE (2005) Relationship of otolith strontium-to-calcium ratios and salinity: experimental validation for juvenile salmonids. Can J Fish Aquat Sci 62:88–97
Acknowledgements
We are grateful to the fishermen for their assistance during the field work, and to Mrs Tsai, Department of Material Science, National Tsing Hua University (NTHU) for Sr and Ca analysis. This work is partially supported by National Science Council (NSC86-2621-B-007-003-A07) and Council of Agriculture, Republic of China.
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Shiao, JC., Tzeng, CS., Li, PC. et al. Upstream migration and marine early life history of amphidromous gobies inferred from otolith increments and microchemistry. Environ Biol Fish 98, 933–950 (2015). https://doi.org/10.1007/s10641-014-0329-5
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DOI: https://doi.org/10.1007/s10641-014-0329-5