Egg thiamine concentration affects embryo survival in Lake Erie walleye

Rinchard, Jacques; Ware, Kyle; Dąbrowski, Konrad; Tassell, Jason J. Van; Marschall, Elizabeth A.; Stein, Roy A.

doi:10.1007/s10641-010-9717-7

Cited by 11 publications

(8 citation statements)

References 33 publications

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“…Zooplankton "spikes" that are observed in Lake Oahe during June yield densities that are comparable to those in eutrophic systems (Fincel 2011) and may free larval Walleye from interspecific competition. The levels of thiamine concentration in Walleye eggs from Lake Oahe (Barnes et al 2005) were similar to those that were measured in other Walleye populations with primary prey species containing thiaminase (Honeyfield et al 2007;Rinchard et al 2011), but natural reproduction was evident across all years with occasional large year-classes, indicating that the thiamine concentration in eggs is not having a strong negative effect on reproduction. Stock abundance was not significantly correlated to recruitment, indicating that Walleye recruitment in Lake Oahe was regulated by density-independent factors during the years that were included in this study.…”

Section: Locationsupporting

confidence: 76%

“…Elevation Change is the difference in end of May elevation in a given year from the previous year, Tribs is the sum of cumulative inflow from the Grand and Moreau rivers (two large tributaries to Lake Oahe), Condition is the mean relative weight of age-4 and older Walleye during the previous August, Temp is the average May air temperature in Mobridge, South Dakota, and Fingerling is the number of stocked fingerlings (*P < 0.05). 1997;Mercado-Silva et al 2007) or through early mortality syndrome caused by thiamine deficiency (Honeyfield et al 2007;Mercado-Silva et al 2007;Rinchard et al 2011). The size and complexity of Lake Oahe likely decreases the spatial overlap between larval Walleye and Rainbow Smelt, limiting their interaction.…”

Section: Locationmentioning

confidence: 99%

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Effects of Reservoir Elevation and Spatial Synchrony on Walleye Recruitment in Lake Oahe, Missouri River

Felts

Fincel

Graeb

2020

N American J Fish Manag

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Recruitment is an important driver of fish population abundance and size structure and can be affected by a variety of density-dependent and density-independent factors. Walleye Sander vitreus populations often exhibit variable yearclass strength, which has been attributed to a suite of factors. In this study, we quantified variability in Walleye recruitment, assessed within-lake recruitment synchrony, and modeled recruitment variability for year-classes that were produced from 1988 to 2013 in Lake Oahe, a large Missouri River reservoir. The objectives of this study were to determine (1) whether Walleye recruit annually, (2) whether Walleye recruitment is spatially synchronous, and (3) whether Walleye recruitment is better described by biotic or abiotic factors. The variability of Walleye recruitment was indexed by using gill-net catch of age-2 Walleye across nine locations in Lake Oahe, and factors affecting recruitment were evaluated by using stock-recruit analysis. Over the 26 years that were assessed, all year-classes were present and four exceptionally large year-classes were produced. Recruitment synchrony was apparent among locations within Lake Oahe, but this relationship was largely influenced by the spatial synchrony of the four exceptionally large year-classes and was no longer detectable when those year-classes were removed. The relative abundance of age-4 and older Walleye, taken as an index of spawner abundance, was a poor predictor of Walleye recruitment, indicating that Walleye recruitment was regulated by density-independent factors across the range of observations. The interactive effects of reservoir elevation and elevation change improved model fit to explain 59% of the recruitment variation and indicated that increased elevation from the previous year improved recruitment. Our results indicate that Walleye recruitment may be favored by increasing the water levels in the reservoir in spring. Recruitment is often the most variable rate that influences the abundance and size structure of fish populations (Gulland 1982; Allen and Pine 2000; Hansen and Nate 2014). Year-class strength and subsequent recruitment to a fishery can be influenced by density-dependent effects on juvenile production and survival as well as many densityindependent abiotic and biotic factors. Spawner abundance may influence recruitment through compensatory density dependence, with high juvenile survival at low spawner abundance and low juvenile survival at high

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Section: Locationsupporting

confidence: 76%

Section: Locationmentioning

confidence: 99%

Effects of Reservoir Elevation and Spatial Synchrony on Walleye Recruitment in Lake Oahe, Missouri River

Felts

Fincel

Graeb

2020

N American J Fish Manag

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“…; Rinchard et al . ), but parental and/or egg thiamine depletion only occurs with specific broodstock diets, that is, raw seafood products containing thiaminase (Kreutzmann & Lehmitz ).…”

Section: Broodstock Nutrition: Nutritional Influences On the Process mentioning

confidence: 99%

A review on broodstock nutrition of marine pelagic spawners: the curious case of the freshwater eels (Anguillaspp.)

et al. 2013

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To sustain eel aquaculture, development of reproduction in captivity is vital. The aim of this review is to assess our current knowledge on the nutrition of broodstock eels in order to improve the quality of broodstock under farming conditions, drawing information from wild adult eels and other marine pelagic spawners. Freshwater eels spawn marine pelagic eggs with an oil droplet (type II), and with a large perivitelline space. Compared with other marine fish eggs, eel eggs are at the extreme end of the spectrum in terms of egg composition, even within this type II group. Eel eggs contain a large amount of total lipids, and a shortage of neutral lipids has been implied a cause for reduced survival of larvae. Eel eggs have higher ARA but lower EPA and DHA levels than in other fish. Too high levels of ARA negatively affected reproduction in the Japanese eel, although high levels of 18:2n‐6 in the eggs of farmed eels were not detrimental. The total free amino acid amount and profile of eel eggs appears much different from other marine pelagic spawners. Nutritional intervention to influence egg composition seems feasible, but responsiveness of farmed eels to induced maturation might also require environmental manipulation. The challenge remains to succeed in raising European eel broodstock with formulated feeds and to enable the procurement of viable eggs and larvae, once adequate protocols for induced maturation have been developed.

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“…Thiamine thresholds for direct mortality vary among fish species, with estimates of egg thiamine thresholds for lake trout, Chinook salmon Oncorhynchus tshawytscha, coho salmon Oncorhynchus kisutch and Atlantic salmon Salmo salar ranging from 0.41 to 2.99 nmol·g −1 (Fisher et al, 1996;Honeyfield et al, 2005;Wolgamood et al, 2005;Werner et al, 2006;Fitzsimons et al, 2007). Rainbow smelt Osmerus mordax larvae hatched from eggs with a mean thiamine content of 2.7 nmol·g −1 showed signs of TDC (Chalupnicki et al, 2010), and walleye embryos from the Maumee River (Lake Erie) showed reduced survival below egg thiamine concentrations of approximately 6 nmol·g −1 (Rinchard et al, 2011). A conservative interpretation of these results indicates that egg thiamine concentrations below 1 nmol·g −1 are commonly associated with TDC, although effects may also be observed at higher concentrations.…”

Section: Discussionmentioning

confidence: 94%

“…It is hypothesized that TDC in lake trout is caused by a diet composed of a high proportion of alewife Alosa pseudoharengus , which are high in thiaminase, a thiamine-degrading enzyme. Thiamine deficiency has also been reported in other fish species (Breitholtz et al, 2001;Werner et al, 2006;Fitzsimons et al, 2007;Chalupnicki et al, 2010;Rinchard et al, 2011) but the full extent of its occurrence and significance to fish populations is unknown. Invasive dreissenid mussels Dreissena bugensis and Dreissena polymorpha have been increasing in abundance in the Great Lakes (Nalepa et al, 2007(Nalepa et al, , 2009a and have extremely high thiaminase activity levels .…”

Section: Introductionmentioning

confidence: 99%

Thiamine concentrations in lake whitefish eggs from the upper Great Lakes are related to maternal diet

Riley

Rinchard

Ebener³

et al. 2011

Journal of Great Lakes Research

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Egg thiamine concentration affects embryo survival in Lake Erie walleye

Cited by 11 publications

References 33 publications

Effects of Reservoir Elevation and Spatial Synchrony on Walleye Recruitment in Lake Oahe, Missouri River

Effects of Reservoir Elevation and Spatial Synchrony on Walleye Recruitment in Lake Oahe, Missouri River

A review on broodstock nutrition of marine pelagic spawners: the curious case of the freshwater eels (Anguillaspp.)

Thiamine concentrations in lake whitefish eggs from the upper Great Lakes are related to maternal diet

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