Evaluation of periodic and aperiodic otolith structure and somatic-otolith scaling for use in retrospective life history analysis of a tropical marine goby, Bathygobius coalitus

Shafer, David J.

doi:10.3354/meps199217

Cited by 30 publications

(27 citation statements)

References 41 publications

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Section: Methodsmentioning

confidence: 48%

“…Only otolith preparations that provided clear transects from core to edge were used in analyses. While daily increment formation in yellow tang was not validated in the present study, we are confident in our interpretation because it has been validated for 2 congeners, Zebrasoma scopus and Z. veliferum, at Lizard Island, Australia (Lou & Moltschaniwskyj 1992), and for a number of other coral reef fishes in Hawaii (Danilowicz 1997, Shafer 2000.Habitat use modeling. Median size and age at which yellow tang make an ontogenetic shift in daytime habitat use was estimated by adapting methods developed for estimating size or age at 50% reproductive maturity (Welch & Foucher 1988, Roa et al 1999.…”

mentioning

confidence: 56%

“…These recruit otoliths were also ground to produce a transverse section, but grinding was performed by hand and finished by polishing with alumina polish. Counts of daily increments were conducted by a single observer (D. J. Shafer) following standardized procedures (Shafer 2000). Only otolith preparations that provided clear transects from core to edge were used in analyses.…”

Section: Methodsmentioning

confidence: 99%

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Habitat- and sex-specific life history patterns of yellow tang Zebrasoma flavescens in Hawaii, USA

Claisse

Kienzle²,

Bushnell³

et al. 2009

Mar. Ecol. Prog. Ser.

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Yellow tang Zebrasoma flavescens is the primary coral reef fish species taken in Hawaii for the aquarium trade. As part of an extensive adaptive management effort that included a network of marine protected areas that prohibited commercial aquarium fishing, an emphasis was placed on obtaining habitat-and sex-specific life history information for this valuable species. Using otolith and capture-mark-recapture methods we examined sexual differences in ontogenetic patterns of habitat use, growth rate, size dimorphism and longevity. Age validation using tetracycline to mark otoliths provided evidence that a single annulus formed each year. Yellow tang are a long-lived species (the oldest individual collected was 41 yr old) and display an asymptotic growth pattern typical of the family Acanthuridae. Median size and age at the transition between deeper coral-rich and shallow turfdominated habitat use were about 20 mm longer and about 2 yr older for males than females and coincided with an increase in reproductive output. The sexual difference in size at habitat transition, combined with sexual size dimorphism (mean asymptotic maximum length -male: 179 mm; female 156 mm) results in differences in the size distributions of both sexes in the 2 habitats. Sexual size dimorphism resulted from a higher growth rate for males through the juvenile period.KEY WORDS: Ontogenetic habitat use · Hawaiian aquarium fishery · Acanthuridae · Model selection · Otolith · Capture-mark-recapture · Growth · Coral reef fish Resale or republication not permitted without written consent of the publisherMar Ecol Prog Ser 389: [245][246][247][248][249][250][251][252][253][254][255] 2009 information is combined with ontogenetic patterns of habitat use. Most studies on ontogenetic variation of habitat use have compared size distributions between habitats (Gillanders et al. 2003), and therefore have not considered age structure, sex-specific habitat use patterns or the duration of the lifespan spent in each habitat. When available, information about age-based habitat use can improve conservation planning and design of MPAs (Mumby 2006, Parnell et al. 2006) and lead to an understanding of how the amount of available juvenile and adult habitat may influence population size -a potential key to conservation and area-based fisheries management (Halpern et al. 2005).Many species of coral reef fish, including several species of surgeonfish, make ontogenetic shifts in habitat use-an important factor in the organization of fish communities (Robertson 1988, Lawson et al. 1999, Lecchini & Galzin 2005, Robertson et al. 2005, Pratchett et al. 2008. Yellow tang in West Hawaii settle primarily into middepth (10 to 25 m) reef habitat with a high percentage of coral cover (hereafter deeper coral-rich habitat). At some as yet undetermined point in their lifespan, larger individuals shift to spending daytime foraging in adjacent, shallow, complex habitats (reef flats and boulders) characterized by a high percentage of exposed rock covered by turf algae (h...

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Section: Methodsmentioning

confidence: 48%

mentioning

confidence: 56%

Section: Methodsmentioning

confidence: 99%

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Habitat- and sex-specific life history patterns of yellow tang Zebrasoma flavescens in Hawaii, USA

Claisse

Kienzle²,

Bushnell³

et al. 2009

Mar. Ecol. Prog. Ser.

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“…However, the present study suggests that P. cylindrica differs from the tropical annual gobiids with respect to age-and sex-specific growth rates. Gobiopterus mindanen, Favonigobus reichei, Glossogobius biocellatus (Schläppy 1997), Bathygobius coalitus (Shafer 2000), and Istigobius decoratus (Kritzer 2002) all have linear length-at-age trajectories, with males following the female growth pattern after sex change. In contrast, the von Bertalanffy growth model was found the best descriptor of length-age data for P. cylindrica.…”

Section: Otolith and Somatic Growthmentioning

confidence: 99%

“…These display rapid growth, a linear relationship between otolith and somatic growth, high reproductive investment, and longevities spanning no longer than 2.5 yr (Schläppy 1997, Munday & Jones 1998, Shafer 2000, Kritzer 2002). P. cylindrica had a maximum longevity of 326 d at Orpheus Island and 411 d at One Tree Island.…”

Section: Otolith and Somatic Growthmentioning

confidence: 99%

Otolith-check formation and accelerated growth associated with sex change in an annual protogynous tropical fish

Walker

McCormick²

2004

Mar. Ecol. Prog. Ser.

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Growth of the haremic sandperch Parapercis cylindrica (family Pinguipedidae) was examined in relation to sex change using otolith microstructure and gonad histology. The influence of previous growth history on the timing of sex change and which individuals underwent sex change were also explored. Examination of otolith increments shows that P. cylindrica has a maximum longevity of 411 d, which is reduced in a lower latitude population. P. cylindrica is a monandric hermaphrodite, with males being larger than females at any given age. An abrupt optical discontinuity or 'check' on sagittal cross-sections was found to be associated with sex change. This check appears to be formed at the initiation of sex change. Growth rate following sex change, inferred from otolith increment widths, increased markedly and more than doubled in some individuals. Individuals retained accelerated growth for a period of up to 30 d, after which time growth rate declined. Larval growth, relative size at metamorphosis, juvenile growth, and female growth (all determined from otolith microstructure), did not influence which individuals changed sex, or the timing of their sex change. Evidence suggests that sex change and subsequent growth acceleration in these haremic fish are influenced by the strong size-based social hierarchy in which they live. KEY WORDS: Sex change · Monandric protogyny · Growth acceleration · Otolith increments · Larval growth · PinguipedidaeResale or republication not permitted without written consent of the publisher

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Temporal and spatial variation in length of larval life and size at settlement of the Hawaiian amphidromous gobyLentipes concolor

Radtke¹

2001

Journal of Fish Biology

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Larvae of the Hawaiian amphidromous goby Lentipes concolor settled after a mean length of larval life (LLL) of 86·2 8·5 days (n=236, range=63-106 days) at a mean size of 16·0 0·7 mm L T (n=154, range=14·1-17·9 mm). Mean LLL for L. concolor was about twice that typically reported for tropical marine gobiids. Variation in LLL (CV=10%) and size at settlement (CV=4%) were low, and comparable to that for marine gobiids. LLL and L T were weakly positively correlated (Pearson's correlation coefficient r=0·50, P<0·0001). Larvae settled after shorter planktonic lives and at smaller sizes during months with warmer ocean temperatures. Inter-island variation in LLL did not support a dominant south-east to north-west larval drift, following the dominant south-east to north-west flow of prevailing currents in the Archipelago. Instead, recruits on Maui Island, centrally located in the archipelago, had shorter LLL than recruits to upstream Hawai'i and downstream Kaua'i islands. These findings have important implications for understanding the complex life history dynamics of amphidromous fishes as well as their management. 2001 The Fisheries Society of the British Isles

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Evaluation of periodic and aperiodic otolith structure and somatic-otolith scaling for use in retrospective life history analysis of a tropical marine goby, Bathygobius coalitus

Cited by 30 publications

References 41 publications

Habitat- and sex-specific life history patterns of yellow tang Zebrasoma flavescens in Hawaii, USA

Habitat- and sex-specific life history patterns of yellow tang Zebrasoma flavescens in Hawaii, USA

Otolith-check formation and accelerated growth associated with sex change in an annual protogynous tropical fish

Temporal and spatial variation in length of larval life and size at settlement of the Hawaiian amphidromous gobyLentipes concolor

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