Marc Tye scite author profile

The lack of standardized diet for laboratory animals can have profound effects on animal health and lead to less reproducible research outcomes. Live diets are commonly used in zebrafish culture and, although they are a more natural feed than flake or pellet food, are also a potential source of pathogens and toxic compounds. Heavy metals are a group of such compounds, which can accumulate in fish leading to developmental abnormalities, reduced growth, and increased rates of mortality. Two to three weeks after feeding adult zebrafish a new lot of nonhatching decapsulated brine shrimp cysts (Decaps), embryos at the University of Minnesota Zebrafish Core Facility (ZCF) and the University of Utah Centralized Zebrafish Animal Resource (CZAR) began to exhibit an orange color in the yolk, and larval health began to decline. The concentration of chromium in the Decaps (69.6 mg/kg) was more than 30 times that of other zebrafish diets tested (up to 2.1 mg/kg) and is thought to be the cause of the observed symptoms. Within 3 weeks of removing the Decaps from the feeding regimen, the orange coloration in the yolks began to diminish, the morphological abnormalities began to subside, and larval survival rates began to increase. Thus, implementation of standardized zebrafish diets and regular feed-quality testing may help to prevent the introduction of contaminants to zebrafish research facilities.

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Nonhatching DecapsulatedArtemiaCysts As a Replacement toArtemiaNauplii in Juvenile and Adult Zebrafish Culture

Tye

Rider

Duffy

et al. 2015

Zebrafish

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Feeding Artemia nauplii as the main nutrition source for zebrafish is a common practice for many research facilities. Culturing live feed can be time-consuming and requires additional equipment to be purchased, maintained, and cleaned. Nonhatching decapsulated Artemia cysts (decaps) are a commercially available product that can be fed directly to fish. Several other ornamental fish species have been successfully cultured using decaps. Replacing Artemia nauplii with decaps could reduce the overall time and costs associated with the operation of a zebrafish facility. The objective of this study was to determine if decaps could be a suitable replacement to Artemia nauplii in juvenile and adult zebrafish culture. Wild-type zebrafish were fed one of three dietary treatments: decaps only, nauplii only, or a standard consisting of nauplii plus a commercially prepared pellet food. Survival, growth (length and weight), and embryo production were analyzed between the treatments. Fish receiving the decap diet demonstrated a significantly higher growth and embryo production when compared to the fish receiving the nauplii-only diet. When comparing the decap fish to the standard fish, no significant difference was found in mean survival, mean weight at 90 days postfertilization, or mean embryo production. It was determined that nonhatching decapsulated Artemia cysts can be used as a suitable replacement to Artemia nauplii in juvenile and adult zebrafish culture.

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Methods for Rearing Golden Shiner Fry in a Recirculating Aquaculture System

Tye¹

2012

N American J Aquac

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Golden Shiners Notemigonus crysoleucas are one of the most popular baitfishes in the United States. Many states have seasonal shortages of Golden Shiners due to fish importation laws, short growing seasons, disputes over wetland usage, and harvesting laws regarding waters containing nonnative invasive species. Limited supply, favorable wholesale price, and certain biological characteristics of Golden Shiners make this species a potentially economically viable candidate for growing commercially in a recirculating aquaculture system (RAS). If effective procedures can be developed, Golden Shiners could be produced in‐state without risking the threat of bringing in nonnative invasive species or potentially hazardous infectious diseases, while supplying fishermen with sought‐after bait 12 months of the year. Golden Shiner eggs were placed into four separate tanks in a RAS and fed nonhatching decapsulated brine shrimp cysts. The number of newly hatched fry were counted daily, starting on day 6 postfertilization; this provided a base for survival rates calculated at the end of the study. Survival rates after the 32‐d experiment for the four tanks were 100%, 89%, 96%, and 70%. These results suggest that similar survival rates can be achieved in a large‐scale production system, and thus provide pond culturists with fry earlier in the growing season or support grow‐out operations for Golden Shiner production.

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Dietary Contaminants and Their Effects on Zebrafish Embryos

Tye

Masino

2019

Toxics

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Dietary contaminants are often an over-looked factor in the health of zebrafish. Typically, water is considered to be the source for most contaminants, especially within an aquatic environment. For this reason, source water for zebrafish recirculating systems is highly regulated and monitored daily. Most facilities use reverse osmosis or de-ionized water filtration systems to purify incoming water to ensure that contaminants, as well as pathogens, do not enter their zebrafish housing units. However, diets are rarely tested for contaminants and, in the case of manufactured zebrafish feeds, since the product is marketed for aquaculture or aquarium use it is assumed that the feed is acceptable for animals used for research. The following provides examples as to how contaminants could lead to negative effects on development and behavior of developing zebrafish.

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Marc Tye

An Adult Zebrafish Diet Contaminated with Chromium Reduces the Viability of Progeny

Nonhatching DecapsulatedArtemiaCysts As a Replacement toArtemiaNauplii in Juvenile and Adult Zebrafish Culture

Methods for Rearing Golden Shiner Fry in a Recirculating Aquaculture System

Dietary Contaminants and Their Effects on Zebrafish Embryos

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