Effects of Winter Feeding on Growth, Body Composition, and Processing Traits of Co‐Cultured Blue Catfish, Channel Catfish, and Channel Catfish×Blue Catfish Hybrids

Bosworth, Brian G.

doi:10.1080/15222055.2012.686958

Cited by 22 publications

(10 citation statements)

References 18 publications

(47 reference statements)

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“…Weight loss of (nonfed) food-size carryover fish over winter averaged approximately 1% of body weight. This compares reasonably well with Bosworth (2012) who observed a 0.4% loss of body weight in 0.4-0.7-kg hybrid catfish held without supplemental feed overwinter. The slightly greater loss in body weight we observed is probably due to the longer period in nonfed status (121 d versus 102 d for Bosworth).…”

Section: Weight Change Production and Food Conversionsupporting

confidence: 90%

No Evidence for Intercohort Cannibalism in Mixed‐Size Cultures of Food‐Size and Fingerling Channel Catfish × Blue Catfish Hybrids Grown in Ponds

Torrans

Ott

2015

N American J Aquac

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Female Channel Catfish Ictalurus punctatus × male Blue Catfish I. furcatus hybrids are normally harvested by seining single-batch pond or split-pond production systems in fall or winter. Ponds are typically restocked with fingerlings without draining. There is concern that without completely draining the pond after harvest, food-size hybrids that escape seining may cannibalize restocked fingerlings. The purpose of this study was to determine if such hybrid fingerlings stocked after the fall harvest would be cannibalized by the larger carryover fish during winter or the following growing season. Three 0.04-ha ponds were each stocked on November 25, 2013, with 100 food-size hybrid catfish averaging 1.07 kg. Those three ponds and an additional three ponds were then stocked on November 27, 2013, with 300 hybrid catfish fingerlings averaging 14.8 g. The fish were not fed over winter. Mean survival of the fingerlings after 4 months at 91.9% and 92.9% was not significantly different between treatments. Survival of the food-size fish was 99.7%. Four ponds stocked with fingerling and food-size hybrids and an additional four ponds stocked with just fingerlings in April 2014 were harvested in October. Survival of the fingerlings was not significantly different between ponds with (88.8%) and without (90.3%) food-size fish. We found no significant intercohort cannibalism by food-size hybrid catfish on understocked fingerlings either overwinter or during the following growing season.

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Section: Weight Change Production and Food Conversionsupporting

confidence: 90%

No Evidence for Intercohort Cannibalism in Mixed‐Size Cultures of Food‐Size and Fingerling Channel Catfish × Blue Catfish Hybrids Grown in Ponds

Torrans

Ott

2015

N American J Aquac

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“…Researchers evaluated 42 different interspecific ictalurid catfish hybrids by crossing two distinct species. Only the combination of channel catfish ( Ictalurus punctatus ) female × blue catfish ( Ictalurus furcatus ) male (C×B hybrid) has superior feed conversion efficiency [ 41 , 42 ], higher carcass yield [ 43 ], better tolerance to low oxygen [ 44 ], improved disease resistance [ 45 ], and enhanced harvestability [ 46 ] to market size. Collectively, these characteristics exhibiting heterobeltiosis enable a commercial production rate of 13,000 kg ha −1 , which doubles the yield of traditional channel catfish farming [ 42 , 47 , 48 ].…”

Section: Introductionmentioning

confidence: 99%

Environment-Dependent Heterosis and Transgressive Gene Expression in Reciprocal Hybrids between the Channel Catfish Ictalurus punctatus and the Blue Catfish Ictalurus furcatus

Wang

Bruce

et al. 2022

Biology

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The hybrid between female channel catfish (Ictalurus punctatus) and male blue catfish (Ictalurus furcatus) is superior in feed conversion, disease resistance, carcass yield, and harvestability compared to both parental species. However, heterosis and heterobeltiosis only occur in pond culture, and channel catfish grow much faster than the other genetic types in small culture units. This environment-dependent heterosis is intriguing, but the underlying genetic mechanisms are not well understood. In this study, phenotypic characterization and transcriptomic analyses were performed in the channel catfish, blue catfish, and their reciprocal F1s reared in tanks. The results showed that the channel catfish is superior in growth-related morphometrics, presumably due to significantly lower innate immune function, as investigated by reduced lysozyme activity and alternative complement activity. RNA-seq analysis revealed that genes involved in fatty acid metabolism/transport are significantly upregulated in channel catfish compared to blue catfish and hybrids, which also contributes to the growth phenotype. Interestingly, hybrids have a 40–80% elevation in blood glucose than the parental species, which can be explained by a phenomenon called transgressive expression (overexpression/underexpression in F1s than the parental species). A total of 1140 transgressive genes were identified in F1 hybrids, indicating that 8.5% of the transcriptome displayed transgressive expression. Transgressive genes upregulated in F1s are enriched for glycan degradation function, directly related to the increase in blood glucose level. This study is the first to explore molecular mechanisms of environment-dependent heterosis/heterobeltiosis in a vertebrate species and sheds light on the regulation and evolution of heterosis vs. hybrid incompatibility.

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“…This is unlikely to impact hybrid catfish production because hybrids do not show similar sex‐related growth differences and are usually harvested before sexual maturity, which could result in processing yield differences (Bosworth et al. ; Bosworth ).…”

Section: Resultsmentioning

confidence: 99%

Effect of Grading Fingerling Hybrid Catfish (♀ Channel Catfish × ♂ Blue Catfish) on Growth, Production, Feed Conversion, and Food Fish Size Distribution

Torrans

Ott

2018

N American J Aquac

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Hybrid catfish (♀ Channel Catfish Ictalurus punctatus × ♂ Blue Catfish I. furcatus) production ponds often produce a wide size range of fish, and payments to farmers may be reduced due to discounts for larger fish. In general, fish under 1 lb or over 4 lb may decrease the price paid to farmers, but this is highly dependent on individual processors. The present study was conducted to determine the effect of grading hybrid catfish fingerlings on the size distribution of harvested food fish. Three 0.25-acre ponds were stocked with ungraded fingerlings (average weight = 0.05 lb; coefficient of variation [CV] = 78.0%) at 8,000 fish/acre. An additional three 0.25-acre ponds were stocked with double-graded fingerlings of the same average weight (0.05 lb) as the ungraded fingerlings but with a significantly reduced size variation (CV = 26.9%). Grading of the fingerlings had no significant effect on any production variable other than final size variation (ungraded fingerlings: CV = 48.2%; graded fingerlings: CV = 26.1%). Final mean weights were identical (1.1 lb) and feed conversion ratios were nearly identical (1.58 and 1.57) between the treatments. Survival and net production were similar between treatments. Overall, 13.5% of ungraded fish and 1.2% of graded fish were less than 0.5 lb at harvest; 5.6% of the ungraded fish and 0.1% of the graded fish were larger than 2.0 lb. Grading of hybrid catfish fingerlings is an effective means of decreasing food fish size variability without impacting production efficiency.

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Effects of Winter Feeding on Growth, Body Composition, and Processing Traits of Co‐Cultured Blue Catfish, Channel Catfish, and Channel Catfish×Blue Catfish Hybrids

Cited by 22 publications

References 18 publications

No Evidence for Intercohort Cannibalism in Mixed‐Size Cultures of Food‐Size and Fingerling Channel Catfish × Blue Catfish Hybrids Grown in Ponds

No Evidence for Intercohort Cannibalism in Mixed‐Size Cultures of Food‐Size and Fingerling Channel Catfish × Blue Catfish Hybrids Grown in Ponds

Environment-Dependent Heterosis and Transgressive Gene Expression in Reciprocal Hybrids between the Channel Catfish Ictalurus punctatus and the Blue Catfish Ictalurus furcatus

Effect of Grading Fingerling Hybrid Catfish (♀ Channel Catfish × ♂ Blue Catfish) on Growth, Production, Feed Conversion, and Food Fish Size Distribution

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