U.S. Geological Survey
First posted on 05-02-2012
Studying the earbones of trout can reveal their lifetime movements in a large river system, according to a study released in the Canadian Journal of Fisheries and Aquatic Sciences. Researchers correlated the natural variation in strontium isotopes found in stream waters against those recorded in the earbones (otoliths) of cutthroat trout. This enabled the scientists to examine fish movements during the species’ lifetime. This study was the first to show that the use of isotopes in water and earbones accurately assesses movement of trout wholly within a freshwater system.
“It worked so well! The values in the water matched those in the otoliths, which grow like rings in a tree,” said Clint Muhlfeld, USGS scientist and lead author of the study. “As fish grow and move into new environments, the otoliths record that information and we matched that with stream statistics to reconstruct the entire life cycle of a fish.”
The study provides a reliable method that compliments traditional fish tracking techniques. This research may allow biologists to investigate non-native species invasions, identify important populations, and quantify life histories of freshwater fishes in river networks.
“All life is literally a product of its chemical environment, and there is no more dramatic demonstration of that fact than the ability to retrace the life history of fish from the variations in the chemicals deposited in their ear bones as they grow and migrate through space and time,” explained USGS Director Marcia McNutt. “As this technique has already proven its scientific value in understanding the movement of fish in the marine environment and those which migrate from freshwater streams to the ocean, it is truly an achievement that could inspire ‘CSI’.”
Conventional tracking techniques have not been able to unravel the extent of their movements. Knowing exactly what habitat the fish use during each life stage is an important component to understanding their ecology and, in turn, more effectively managing this important species.
“This approach could be very useful in understanding life history strategies and conservation needs of freshwater fishes worldwide,” said Muhlfeld. “Biologists are typically limited to examining movements of fish at checkpoints throughout their lives or over small periods of time. This approach allows examination of a fish’s entire life with significant accuracy.”
The study provides a reliable method that compliments traditional fish tracking techniques and may allow biologists to investigate non-native species invasions, identify important populations, and quantify life histories of freshwater fishes in river networks.
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