Use of Eyeballs for Establishing Ploidy of Asian Carp

Jenkins, Jill A.; Thomas, R. Glenn

doi:10.1577/m06-261.1

Cited by 19 publications

(11 citation statements)

References 52 publications

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“…), which consisted of 0.2% Triton X‐100 (Sigma Aldrich, St. Louis, Missouri), 0.05‐g/L propidium iodide (Sigma Aldrich), and 2.0‐g/L RNAse A (BioBasic, Inc., Markham, Ontario) in sterile, 0.45‐μm‐filtered phosphate‐buffered saline. After incubation on ice for 30 min, samples were analyzed for DNA content using a FACScan flow cytometer (BD Biosciences, San Jose, California) set to collect 10,000 particle events at 488 nm under doublet discrimination mode (Jenkins and Thomas ; Fetherman et al. ).…”

Section: Methodsmentioning

confidence: 99%

Comparison of Diploid and Triploid Saugeye Recruitment, Growth, and Condition in Kansas Impoundments

Koch

Steffen

Goeckler

et al. 2018

N American J Fish Manag

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Saugeyes (Walleye Sander vitreus × Sauger S. canadensis) are stocked by natural resource agencies to provide angling opportunities and biological control of abundant small‐bodied fishes. Concern has been raised regarding the stocking of fertile diploid saugeyes in Kansas waters due to potential genetic introgression into wild parental stocks and unintended natural reproduction in ecologically sensitive systems. As such, triploid saugeyes have been stocked in Kansas since 2006 but with minimal evaluation. We compared relative recruitment, growth, and condition of diploid and triploid saugeyes after stocking equal numbers of 3–6‐d‐old diploid and triploid saugeye fry in four Kansas reservoirs for 3 years. Saugeyes were sampled from study reservoirs annually (2014–2016) with autumn night electrofishing, and flow cytometry was used to determine the ploidy of sampled fish. Throughout the study, diploid fish composed approximately 80% of sampled saugeyes. Age‐0 year‐classes consisted of 67–100% diploid fish, depending on the study reservoir and sampling year. As saugeyes reached ages 1 and 2, similar patterns in relative recruitment were indicated, with diploids outnumbering triploids by approximately four times. At individual study impoundments, diploid saugeyes composed 75–87% of fish from all study year‐classes. Mean length of diploid saugeyes was generally greater than that of triploids at age 0, whereas mean lengths at ages 1 and 2 were similar for the two groups. Our results indicate that diploid saugeye fry represent a more efficient stocking option than triploid fry and that managers should carefully balance consideration of the relative recruitment of diploid and triploid saugeyes with potential genetic integration between Sander spp. when conducting supplemental stockings.

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Section: Methodsmentioning

confidence: 99%

Comparison of Diploid and Triploid Saugeye Recruitment, Growth, and Condition in Kansas Impoundments

Koch

Steffen

Goeckler

et al. 2018

N American J Fish Manag

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“…However, because the contribution of mtDNA molecules to the overall cellular DNA appears to be conserved in triploid individuals, the methodology described herein is wholly ineffective for use as a retrospective diagnostic. As such, it is recommended that one of the previously described techniques be used to distinguish between diploid and triploid grass carp instead (Beck et al 1980;Wattendorf 1986;Bonar et al 1988;Jenkins and Thomas 2007).…”

Section: Discussionmentioning

confidence: 99%

“…The alternative hypothesis evaluated was that the typical nDNA : mtDNA ratio of diploid carp is disrupted in triploids (that is, the contribution of mtDNA to whole cellular DNA is reduced), such that there are significant measurable effects on the relationships between nDNA and mtDNA C t . In the case of the alternative hypothesis, the difference in nDNA : mtDNA ratio between diploids and triploids can be used to supplement the already-established techniques for ploidy determination in grass carp (Beck et al 1980;Wattendorf 1986;Bonar et al 1988;Jenkins and Thomas 2007).…”

Section: Mitochondrial Dna Dosage Effects In Triploid Grass Carpmentioning

confidence: 99%

Mitochondrial DNA Dosage Effects in Triploid Grass Carp

Anderson¹

2010

N American J Aquac

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The grass carp Ctenopharyngodon idella is used widely in aquaculture for aquatic weed control. Historically, concern about the proliferative growth of nonnative diploid grass carp populations led to development of the hydrostatic pressure shock technique for the production of sterile triploids. Despite the success of this technique in accomplishing management goals, little is known about the cellular physiology of triploids. In particular, few studies have explored whether the induction of triploidy via hydrostatic pressure shock affects mitochondrial DNA (mtDNA) copy number in addition to that of chromosomal DNA. While the nuclear DNA (nDNA): mtDNA ratio is conserved in polyploid yeast, there are few data suggesting that vertebrate polyploids have nDNA: mtDNA ratios consistent with those of their diploid counterparts. In this study, two novel quantitative polymerase chain reaction assays were used to explore gene copy number in the nuclear and mitochondrial genome of diploid and triploid grass carp and to determine whether nuclear–mitochondrial copy number differences can be exploited to determine the ploidy of individual fish. The results of this study suggest that the ratio of mtDNA to overall cellular DNA is conserved in vertebrate polyploids and that real‐time assays of mtDNA copy number are not a feasible alternative to current methodologies for identifying triploid grass carp.

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“…For ploidy analysis, grass carp eyeballs were excised in the field, stored up to 11 days in sterile biological Hank's balanced salt solution at a pH of 7.4 and 315 milliosmoles·kg -1 at 4°C until analysis by flow cytometry. See Jenkins and Thomas (2007) and Thomas et al (2011) for a detailed description of methodology. Cell types were determined as triploid, diploid, or mosaic (in which individuals contained both diploid and triploid cells).…”

Section: Surveillance: Edna Captures Of Feral Individuals and Ploidmentioning

confidence: 99%

“…Improved predictions of geographic areas at risk for invasion through the use of species distribution models (SDMs) have been achieved with methodological advances (Gallien et al 2010;Jiménez-Valverde et al 2011) and increases in the quantity and quality of species occurrence databases (e.g., Global Biodiversity Information Facility) and environmental data layers (e.g., WorldClim). Combined with recent assessments of invasion pathways (Wilson et al 2009) and propagule pressure (Lockwood et al 2005), improvements in detection technologies such as environmental DNA (eDNA; Ficetola et al 2008;Jerde et al 2011) and fish ploidy assessment (Jenkins and Thomas 2007) have increased the capacity to improve other Asian carp risk assessments, prevent species introductions, and efficiently monitor areas of species presence and dispersal (Nico et al 2005;Kolar et al 2007).…”

Section: Introductionmentioning

confidence: 99%

Grass carp in the Great Lakes region: establishment potential, expert perceptions, and re-evaluation of experimental evidence of ecological impact

Wittmann

Jerde

Howeth

et al. 2014

Can. J. Fish. Aquat. Sci.

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Intentional introductions of nonindigenous fishes are increasing globally. While benefits of these introductions are easily quantified, assessments to understand the negative impacts to ecosystems are often difficult, incomplete, or absent. Grass carp (Ctenopharyngodon idella) was originally introduced to the United States as a biocontrol agent, and recent observations of wild, diploid individuals in the Great Lakes basin have spurred interest in re-evaluating its ecological risk. Here, we evaluate the ecological impact of grass carp using expert opinion and a suite of the most up-to-date analytical tools and data (ploidy assessment, eDNA surveillance, species distribution models (SDMs), and meta-analysis). The perceived ecological impact of grass carp by fisheries experts was variable, ranging from unknown to very high. Wild-caught triploid and diploid individuals occurred in multiple Great Lakes waterways, and eDNA surveillance suggests that grass carp are abundant in a major tributary of Lake Michigan. SDMs predicted suitable grass carp climate occurs in all Great Lakes. Meta-analysis showed that grass carp introductions impact both water quality and biota. Novel findings based on updated ecological impact assessment tools indicate that iterative risk assessment of introduced fishes may be warranted. Résumé :Le nombre d'introductions intentionnelles de poissons non indigènes augmente à l'échelle planétaire. Si les avantages qu'offrent ces introductions peuvent facilement être quantifiés, des évaluations permettant d'en comprendre les impacts négatifs sur les écosystèmes sont souvent difficiles, incomplètes ou non existantes. L'amour blanc (Ctenopharyngodon idella) a, à l'origine, été introduit aux États-Unis comme agent de lutte biologique, et des observations récentes d'individus diploïdes dans le bassin des Grands Lacs ont suscité un intérêt envers la réévaluation du risque écologique qu'il présente. Nous évoluons l'impact écologique de l'amour blanc à la lumière d'opinions de spécialistes et d'un ensemble d'outils et de données analytiques les plus récents (évaluation de la diploïdie, surveillance basée sur l'ADNe, modèles de répartition des espèces (MRE) et méta-analyse). L'impact écologique de l'amour blanc perçu par les spécialistes des pêches était variable, allant d'inconnu à très fort. Des individus triploïdes et diploïdes ont été capturés à l'état sauvage dans de multiples cours d'eau du bassin des Grands Lacs et la surveillance basée sur l'ADNe donne à penser que l'amour blanc est abondant dans un grand affluent du lac Michigan. Des MRE ont prédit que tous les Grands Lacs présentent un climat convenant à l'amour blanc. La méta-analyse montre que les introductions de cette espèce ont une incidence tant sur la qualité de l'eau que sur le biote. De nouvelles constatations reposant sur des outils d'évaluation de l'impact écologique à jour indiquent qu'il pourrait être pertinent d'effectuer une évaluation itérative du risque présenté par les poissons introduits. [Traduit par la Rédaction]

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Use of Eyeballs for Establishing Ploidy of Asian Carp

Cited by 19 publications

References 52 publications

Comparison of Diploid and Triploid Saugeye Recruitment, Growth, and Condition in Kansas Impoundments

Comparison of Diploid and Triploid Saugeye Recruitment, Growth, and Condition in Kansas Impoundments

Mitochondrial DNA Dosage Effects in Triploid Grass Carp

Grass carp in the Great Lakes region: establishment potential, expert perceptions, and re-evaluation of experimental evidence of ecological impact

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