Comparison of Juvenile Feed Protocols on Growth and Spawning in Zebrafish.

Over the past 2 decades, zebrafish, Danio rerio, have become a mainstream laboratory animal model, yet zebrafish husbandry practices remain far from standardized. Feeding protocols play a critical role in the health, wellbeing, and productivity of zebrafish laboratories, yet they vary significantly between facilities. In this study, we compared our current feeding protocol for juvenile zebrafish (30 dpf to 75 dpf), a 3:1mixture of fish flake and freeze-dried krill fed twice per day with live artemia twice per day (FKA), to a diet of Gemma Micro 300 fed once per day with live artemia once per day (GMA). Our results showed that juvenile EK wild-type zebrafish fed GMA were longer and heavier than juveniles fed FKA. As compared with FKA-fed juveniles, fish fed GMA as juveniles showed better reproductive performance as measured by spawning success, fertilization rate, and clutch size. As adults, fish from both feeding protocols were acclimated to our standard adult feeding protocol, and the long-term effects of juvenile diet were assessed. At 2 y of age, the groups showed no difference in mortality or fecundity. Reproductive performance is a crucial aspect of zebrafish research, as much of the research focuses on the developing embryo. Here we show that switching juvenile zebrafish from a mixture of flake and krill to Gemma Micro 300 improves reproductive performance, even with fewer feedings of live artemia, thus simplifying husbandry practices.

Body Condition Scoring for Adult Zebrafish (Danio rerio).

Body condition scoring (BCS) is a simple, rapid, noninvasive tool used to assess body condition in animals. In this study, wedeveloped and validated a diagram-based BCS for adult zebrafish (Danio rerio), a popular research model. After receiving 20min of hands-on training regarding the scoring system, 5 people each rated 95 adult zebrafish. The fish then were euthanizedand measured to establish body condition indices (BMI and the Fulton K factor). Both condition indices were highly correlatedwith fish width. Using correlation data and observed trends in fish width, we established expected BCS definitions. Wevalidated the BCS definitions in 2 ways. First, we calculated the Pearson correlation coefficient between the average observedBCS and expected BCS; this statistic revealed very strong correlation between observed and expected BCS. In addition, weassessed the predictive power of BCS by using multinomial logistic regression and then applied the fitted model to evaluatethe accuracy of the predictions (BCS compared with BMI, 85%; BCS compared with K factor, 61%). Finally, to determine therobustness of BCS to variation among raters, we calculated the intraclass correlation coefficient and demonstrated high interrater reliability. In conclusion, adult zebrafish BCS can be used to quickly identify animals with different body conditionindices (thin to obese). In addition, the diagram-based chart is easy to use and implement accurately, with minimal training.