Visualization of Microplastic Uptake in Fish Using Transparent Goldfish
Shizuoka University uses transparent goldfish to visualize the toxicity of microplastics in fish.
📋 Article Processing Timeline
- 📰 Published: March 29, 2026 at 19:47
- 🤖 AI Analyzed: May 26, 2026 at 21:27 (1393h 39m after Published)
A research group led by Professor Toshinobu Tokumoto of the Graduate School of Science and Technology, Shizuoka University, has used transparent goldfish (Note 1) to observe the uptake of microplastics (MP) (Note 2) into the fish body over time, revealing that microplastics primarily accumulate in the gills and exhibit toxicity.
【Research Highlights】
■ Used transparent goldfish that allow internal observation without dissection
■ Used fluorescent microplastics
■ Real-time monitoring of microplastic uptake into the body
In this study, by using approximately one-month-old transparent goldfish fry with nearly transparent bodies and fluorescently labeled 2-micrometer diameter microplastics, the researchers succeeded in observing the uptake of microplastics into the body in real-time.
The results revealed that when fish are exposed to microplastics present in water, accumulation in the gills occurs first. Long-term accumulation in the gills led to necrosis of gill tissue and eventually death, successfully demonstrating the toxicity of microplastics.
These research findings were published online on March 23, 2026, in the international journal "Toxicology Mechanisms and Methods," published by the Taylor & Francis Group.
【Researcher Comment】
Toshinobu Tokumoto, Graduate School of Science and Technology, Shizuoka University
We investigated the effects of microplastics, an environmental issue, using the transparent goldfish we previously established. We are pleased to finally publish research utilizing these transparent goldfish, which took many years to develop. We hope that transparent goldfish will continue to be useful in various fields of research.
【Research Overview】
To investigate the effects of microplastics (MP), exposure experiments were conducted using transparent goldfish (Carassius auratus). Transparent one-month-old fry were exposed to 2-micrometer diameter fluorescently labeled microplastic beads (FMP), and their uptake into the body was tracked for 4 weeks (28 days). During the administration period, to track the localization of FMP, photographs of the head, abdomen, and tail were taken weekly, and the dates of death for any individuals that died during the study were recorded.
FAQ
What innovative method was employed in this research to visualize microplastic uptake in fish?
The researchers utilized transparent goldfish, which allowed for internal observation of microplastic uptake without the need for dissection.
What type of microplastics were used in the study and how were they made visible?
Fluorescently labeled microplastic beads with a 2-micrometer diameter were used, making them visible through fluorescence.
Where did the microplastics primarily accumulate in the transparent goldfish, and what were the observed consequences?
Microplastics primarily accumulated in the gills, leading to necrosis of gill tissue and eventual death, demonstrating their toxicity.
What was the age of the transparent goldfish fry used in the experiment and for how long was their microplastic uptake monitored?
Approximately one-month-old transparent goldfish fry were used, and their microplastic uptake was tracked for 4 weeks.
In which international journal were the findings of this research on microplastic toxicity in fish published?
The research findings were published online on March 23, 2026, in the international journal "Toxicology Mechanisms and Methods".