Sources of Nonnative Centrarchids in the Upper Colorado River Revealed by Stable Isotope and Microchemical Analyses of Otoliths

Whitledge, Gregory W.; Johnson, Brett M.; Martinez, Patrick J.; Martinez, Anita M.

doi:10.1577/t06-045.1

Cited by 44 publications

(72 citation statements)

References 38 publications

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“…Distinct water  18 O signatures of floodplain lakes and the Mississippi River are likely due primarily to the greater opportunity for evaporative fractionation (Hoefs, 2004) to be expressed in floodplain lakes as a result of their longer water residence times compared to the river. Whitledge et al (2007) observed similar differences in water hydrogen isotopic composition (δ 2 H, which undergoes similar fractionation processes in the hydrologic cycle) between floodplain ponds and the upper Colorado River due to higher evaporation rates of pond water. Persistent differences in water  18 O between the Illinois River and its floodplain lakes have also been documented (Zeigler & Whitledge, 2010).…”

Section: Meanmentioning

confidence: 64%

“…Most classification errors occurred among fish collected from small tributaries of the Mississippi River, although some of these individuals were misidentified as having been locations (Gao et al, 2001;Wells et al, 2003;Brazner et al, 2004;Bickford and Hannigan, 2005;Dufour et al, 2005;Whitledge et al, 2007;Whitledge, 2009). …”

Section: Meanmentioning

confidence: 99%

“…Application of otolith trace element and isotopic compositions as natural tags has emerged as an effective technique for addressing questions regarding environmental history of freshwater fishes (e.g., Wells et al, 2003;Brazner et al, 2004;Dufour et al, 2005;Munro et al, 2005;Feyrer et al, 2007;Whitledge et al, 2007;Schaffler & Winkelman, 2008). Trace element and stable isotopic compositions of otoliths often reflect those of environments occupied by a fish (e.g., Kennedy et al, 2002;Wells et al, 2003;Dufour et al, 2005;Whitledge et al, 2006) and are unaltered metabolically following deposition (Campana & Thorrold, 2001).…”

Section: Introductionmentioning

confidence: 99%

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Otolith trace element and stable isotopic compositions differentiate fishes from the Middle Mississippi River, its tributaries, and floodplain lakes

Zeigler

Whitledge

2010

Hydrobiologia

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Naturally occurring stable isotope and trace elemental markers in otoliths have emerged as powerful tools for determining natal origins and environmental history of fishes in a variety of marine and freshwater environments. However, few studies have examined the applicability of this technique in large river-floodplain ecosystems. This study evaluated otolith microchemistry and stable isotopic composition as tools for determining environmental history of fishes in the Middle Mississippi River, its tributaries, and 3

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Section: Meanmentioning

confidence: 64%

Section: Meanmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Otolith trace element and stable isotopic compositions differentiate fishes from the Middle Mississippi River, its tributaries, and floodplain lakes

Zeigler

Whitledge

2010

Hydrobiologia

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“…Trace element and stable isotopic compositions of otoliths have been used as natural markers of environmental history for individual fishes in a variety of freshwater environments (Wells et al 2003;Dufour et al 2005;Munro et al 2005;Whitledge et al 2007;Whitledge 2010, 2011;Chapman et al 2013), and represent a potential approach to identify natal environment and larval and juvenile nursery habitats of Bighead Carp and Silver Carp in the Illinois River. Otoliths are calcareous concretions in the inner ear of fishes that contain a permanent record of age and growth and are metabolically inert (Campana and Thorrold 2001).…”

Section: Introductionmentioning

confidence: 99%

“…Association of otolith biochronology with isotopic or elemental composition enables retrospective description of fish environmental history (e.g., identification of natal environment from the portion of the otolith accreted during early life) when an individual has resided in chemically distinct locations for a period of time sufficient to incorporate the signature of those sites (Kennedy et al 2002;Dufour et al 2005;Whitledge et al 2007). Only a few published studies have used otolith chemistry to identify natal environment of invasive fishes in large floodplain river systems.…”

Section: Introductionmentioning

confidence: 99%

Recruitment sources of invasive Bighead carp (Hypopthalmichthys nobilis) and Silver carp (H. molitrix) inhabiting the Illinois River

Norman

Whitledge

2015

Biol Invasions

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Assessing the Utility of Otolith Chemistry for Management of Six Freshwater Fishes from a River–Reservoir System

Radigan

Carlson

Graeb

et al. 2018

N American J Fish Manag

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Floodplain habitats often function as spawning, rearing, foraging, and refuge environments for riverine fishes. Although floodplain habitats are important for fish production and recruitment, their natal contributions may vary by species, a topic that has not been thoroughly investigated in large floodplain rivers. We evaluated the natal contributions of floodplain habitats to populations of six socioeconomically important sport fishes in Lake Sharpe, South Dakota, using otolith chemistry. Water samples and age‐0 and adult fishes were sampled from five habitat types (canal, embayment, main channel, stilling basin, tributary). Age‐0 fishes were classified to known natal habitats with 83% mean accuracy based on otolith Ba:Ca and Sr:Ca signatures, with 89% mean accuracy for Bluegill Lepomis macrochirus (89%), crappies Pomoxis spp. (88%), and Largemouth Bass Micropterus salmoides (91%). Floodplain habitats had substantial natal contributions to Bluegill (50%) and crappie (35%) populations. Despite spanning only 0.8% of Lake Sharpe by surface area, a specific floodplain habitat (Hipple Lake) contributed 15% of Largemouth Bass to the Lake Sharpe population—19 times greater than expected under a linear contribution–area relationship. Floodplain habitats had smaller natal contributions (0–5%) for reservoir‐oriented species such as Smallmouth Bass M. dolomieu and White Bass Morone chrysops than for centrarchids and Yellow Perch Perca flavescens. Given that floodplain habitats in Lake Sharpe, particularly Hipple Lake, are disproportionately important for sport fish populations relative to their size, maintaining river–floodplain connectivity is crucial for effective fisheries management. Otolith chemistry is a tool for sport fish management in Lake Sharpe as it reveals habitat‐specific natal contributions of diverse species and can be used to prioritize areas for floodplain protection and rehabilitation, harvest regulations, stock enhancement, and other fisheries management activities.

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Sources of Nonnative Centrarchids in the Upper Colorado River Revealed by Stable Isotope and Microchemical Analyses of Otoliths

Cited by 44 publications

References 38 publications

Otolith trace element and stable isotopic compositions differentiate fishes from the Middle Mississippi River, its tributaries, and floodplain lakes

Otolith trace element and stable isotopic compositions differentiate fishes from the Middle Mississippi River, its tributaries, and floodplain lakes

Recruitment sources of invasive Bighead carp (Hypopthalmichthys nobilis) and Silver carp (H. molitrix) inhabiting the Illinois River

Assessing the Utility of Otolith Chemistry for Management of Six Freshwater Fishes from a River–Reservoir System

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