Taxonomic and geographic influences on fish otolith microchemistry

Chang, Ming; Geffen, Audrey J.

doi:10.1111/j.1467-2979.2012.00482.x

Cited by 72 publications

(61 citation statements)

References 153 publications

(431 reference statements)

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“…The usefulness of detecting changes in salinity through the analysis of Sr, Ba and Mg in otoliths has been highlighted in general terms, but data interpretation must account for multiple sources of variation including speciesspecificity, temperature and growth effects (reviewed in Campana, 1999;Elsdon et al, 2008;Sturrock et al, 2012;Chang & Geffen, 2013). One concern in the use of otolith geotags to track changes in water characteristics is linked to the effect of physiology in ion incorporation (e.g.…”

Section: Discussionmentioning

confidence: 99%

Daily otolith growth and ontogenetic geochemical signatures of age-0 anchovy (Engraulis encrasicolus) in the Gulf of Cádiz (SW Spain).

et al. 2014

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The European anchovy fishery in the Gulf of Cádiz (ICES Division IXa South) is largely influenced by age-0 individuals. Knowledge of young-of-the-year-growth dynamics is crucial for management, yet data on daily growth are lacking in the area. Linking growth patterns to the environment requires information on habitat occupancy through ontogeny of the fish that reach the fishery, as anchovy use different areas of the Gulf and the Guadalquivir Estuary throughout development. We describe the growth dynamics of age-0 anchovy through otolith microstructure analysis, and couple these data with data on microchemical signals in the otoliths to shed light into habitat use and growth dynamics in the area. Age-0 anchovy captured in September 2011 in the Gulf ranged from 3 to 6 months old for similar sizes, with average growth rates varying twofold. Individual non-linear growth curves showed that maximum otolith growth was positively correlated with the date of spawing. There was no correlation between growth parameters and body length or condition (Fulton K) at capture. The strontium:calcium (Sr/Ca) and magnesium:calcium (Mg/Ca) ratios were significantly lower at the edge of the otolith (approximately the age of capture) than at ages corresponding to larval and early juveniles (<60 days old), but values fell within typical estuarine-dwelling species values. The barium:calcium ratio (Ba/Ca) increased significantly at the edge of the otolith, which possibly resulted from residing in highly productive coastal waters or from ontogenetic effects. The variance in otolith elemental ratios was larger at otolith back-calculated ages around 50 days old, an age that coincides with the presumed closer dependence of estuarine waters. Our data are a first step towards understanding the contribution of the estuarine system to the anchovy fishery in the Gulf. The limitations of the approach and future steps are discussed.

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Section: Discussionmentioning

confidence: 99%

Daily otolith growth and ontogenetic geochemical signatures of age-0 anchovy (Engraulis encrasicolus) in the Gulf of Cádiz (SW Spain).

et al. 2014

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“…Normalizing the data also had no effect on Authors of other studies have reported significant differences in otolith chemical signatures among species sampled from the same nursery habitats or systems (Gillanders & Kingsford 2003, Hamer & Jenkins 2007, Reis-Santos et al 2008. Typically, co-located species which are more closely related phylogenetically and ecologically tend to have more similar otolith chemical signatures (reviewed in Chang & Geffen 2013). For example, Brown (2006) reported otolith elemental composition was similar between juvenile flatfishes English sole Pleuronectes vetulus and speckled sanddab Citharichthys stigmaeus co-located among 3 regions along the coast of California, and that mean regionspecific LDF classification accuracies differed little when species were modeled separately (78 and 79%, respectively) versus jointly (77%).…”

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confidence: 99%

“…Otolith chemical signatures have been shown to be effective natural tags in fishes, and examining population connectivity and estimating nursery sources with otolith chemical signatures has become widespread in fish ecology (reviewed in Campana & Thorrold 2001, Elsdon et al 2008, Chang & Geffen 2013. Employing otolith chemical signatures has been particularly effective for examining recruitment dynamics and population connectivity in estuarinedependent and diadromous fishes.…”

Section: Introductionmentioning

confidence: 99%

“…Juveniles typically spend at least their first year of life associated with these habitats prior to recruiting to reefs later in their second year of life, and their feeding ecologies overlap as well, with juvenile diets consisting principally of zooplankton, benthic invertebrates, squids, and transitioning to greater piscivory with ontogeny (Franks & VanderKooy 2000, W. F. Patterson et al 2005, McCawley & Cowan 2007, Mikulas & Rooker 2008. Therefore, few species are as similar phylogenetically and ecologically in the northern GOM as red and lane snappers, factors that Swearer et al (2003) and Chang & Geffen (2013) concluded had great influence on the similarity of otolith chemical signatures between species. A variety of factors, such as salinity, temperature, growth, or food, can affect the incorporation of constituents examined in red and lane snapper otoliths (Elsdon et al 2008, Chang & Geffen 2013.…”

mentioning

confidence: 99%

“…Therefore, few species are as similar phylogenetically and ecologically in the northern GOM as red and lane snappers, factors that Swearer et al (2003) and Chang & Geffen (2013) concluded had great influence on the similarity of otolith chemical signatures between species. A variety of factors, such as salinity, temperature, growth, or food, can affect the incorporation of constituents examined in red and lane snapper otoliths (Elsdon et al 2008, Chang & Geffen 2013. For example, Sr and Ba concentrations in otoliths of several species, including gray snapper Lutjanus griseus, have been shown to reflect ambient concentrations in water, although their incorporation into otoliths may be affected to a lesser extent by water temperature and growth rate (Bath et al 2000, Elsdon & Gillanders 2002, Martin & Wuenschel 2006, Walther & Thorrold 2006.…”

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confidence: 99%

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Interspecific variation in juvenile snapper otolith chemical signatures in the northern Gulf of Mexico

Patterson¹,

Barnett²,

Sluis³

et al. 2014

Aquat. Biol.

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, Crowder et al. 2006, Ciannelli et al. 2013. Several approaches have been developed to examine population structure and connectivity among invertebrate and vertebrate marine fauna, including molecular techniques, modeling egg and larval transport, and applying artificial and natural tags to examine population connectivity. In reef fishes, results O). Chemical signatures were significantly different among regions (MANOVA, p < 0.001) and between species (MANOVA, p = 0.029), with the species effect being driven by significant differences in 4 of the 7 constituents analyzed (ANOVA, p < 0.036). The significant region effect persisted (MANOVA, p < 0.001), but the species effect was non-significant (MANOVA, p = 0.964) when constituent values were normalized to species-specific means. Mean regional classification accuracies from linear discriminant functions computed with otolith constituent data were 84% for lane snapper and 80% for red snapper whether data were normalized or not. Maximum likelihood models parameterized with normalized lane snapper otolith chemistry data estimated red snapper regional composition reasonably well among mixed-region samples (mean error = 9.7% among models). Therefore, it appears age-0 lane snapper otolith chemical signatures can serve as accurate proxies for those of red snapper in the northern GOM. These results have broader implications for deriving natural tags based on otolith chemistry for fishes that may have low abundance in parts of their range.

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Ontogenetic resource utilization and migration reconstruction with δ¹³C values of essential amino acids in the Cynoscion acoupa otolith

Vane

Larsen

Scholz‐Böttcher

et al. 2018

Ecology and Evolution

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With the increasing anthropogenic impacts on fish habitats, it has become more important to understand which primary resources sustain fish populations. This resource utilization can differ between fish life stages, and individuals can migrate between habitats in search of resources. Such lifetime information is difficult to obtain due to the large spatial and temporal scales of fish behavior. The otolith organic matrix has the potential to indicate this resource utilization and migration with δ13C values of essential amino acids (EAAs), which are a direct indication of the primary producers. In a proof‐of‐concept study, we selected the Acoupa weakfish, Cynoscion acoupa, as a model fish species with distinct ontogenetic migration patterns. While it inhabits the Brazilian mangrove estuaries during juvenile stages, it moves to the coastal shelf as an adult. Thus, we expected that lifetime resource utilization and migration would be reflected in δ13CEAA patterns and baseline values in C. acoupa otoliths. By analyzing the C. acoupa otolith edges across a size range of 12–119 cm, we found that baseline δ13CEAA values increased with size, which indicated an estuarine to coastal shelf distribution. This trend is highly correlated with inorganic δ13C values. The δ13CEAA patterns showed that estuarine algae rather than mangrove‐derived resources supported the juvenile C. acoupa populations. Around the juvenile size of 40 cm, resource utilization overlapped with those of adults and mean baseline δ13CEAA values increased. This trend was confirmed by comparing otolith core and edges, although with some individuals potentially migrating over longer distances than others. Hence, δ13CEAA patterns and baseline values in otoliths have great potential to reconstruct ontogenetic shifts in resource use and habitats. The insight could aid in predictions on how environmental changes affect fish populations by identifying the controlling factors at the base of the food web.

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Taxonomic and geographic influences on fish otolith microchemistry

Cited by 72 publications

References 153 publications

Daily otolith growth and ontogenetic geochemical signatures of age-0 anchovy (Engraulis encrasicolus) in the Gulf of Cádiz (SW Spain).

Daily otolith growth and ontogenetic geochemical signatures of age-0 anchovy (Engraulis encrasicolus) in the Gulf of Cádiz (SW Spain).

Interspecific variation in juvenile snapper otolith chemical signatures in the northern Gulf of Mexico

Ontogenetic resource utilization and migration reconstruction with δ¹³C values of essential amino acids in the Cynoscion acoupa otolith

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Taxonomic and geographic influences on fish otolith microchemistry

Cited by 72 publications

References 153 publications

Daily otolith growth and ontogenetic geochemical signatures of age-0 anchovy (Engraulis encrasicolus) in the Gulf of Cádiz (SW Spain).

Daily otolith growth and ontogenetic geochemical signatures of age-0 anchovy (Engraulis encrasicolus) in the Gulf of Cádiz (SW Spain).

Interspecific variation in juvenile snapper otolith chemical signatures in the northern Gulf of Mexico

Ontogenetic resource utilization and migration reconstruction with δ13C values of essential amino acids in the Cynoscion acoupa otolith

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Ontogenetic resource utilization and migration reconstruction with δ¹³C values of essential amino acids in the Cynoscion acoupa otolith