Insight into Danube sturgeon life history: trace element assessment in pectoral fin rays

Sturgeon populations in the Danube River have experienced severe decline during the last several decades, mostly due to the poorly regulated fishery, river fragmentation and water pollution. This study focuses on gaining better understanding of sturgeon life history primarily by addressing the asses...

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Bibliographic Details
Published in:Environmental Biology of Fishes
Main Authors: Jarić, Ivan, Lenhardt, Mirjana, Pallon, Jan, Elfman, Mikael, Kalauzi, Aleksandar, Suciu, Radu, Cvijanović, Gorčin, Ebenhard, Torbjorn
Format: Article in Journal/Newspaper
Language:unknown
Published: Springer, New York 2011
Subjects:
Sr:Ca ratio
Pectoral fin microchemistry
Nuclear microprobe
Migration patterns
Huso
Acipenser
Beluga
Beluga*
Online Access:http://rimsi.imsi.bg.ac.rs/handle/123456789/451
https://doi.org/10.1007/s10641-010-9728-4
Description
Summary:Sturgeon populations in the Danube River have experienced severe decline during the last several decades, mostly due to the poorly regulated fishery, river fragmentation and water pollution. This study focuses on gaining better understanding of sturgeon life history primarily by addressing the assessment of microelement accumulation in sturgeon pectoral fin rays, especially of strontium and calcium, as a method that can reveal migration patterns of anadromous sturgeons. Analysis was performed on pectoral fin samples of three anadromous Danube sturgeon species (beluga, Russian sturgeon and stellate sturgeon) by the use of a Nuclear Microprobe technique. The most frequent pattern in analyzed samples was represented by a low Sr:Ca ratio in the innermost annuli, followed by an increased ratio in the middle annuli segment, and often with a decreased ratio in the outermost annuli. Probability density estimate has revealed three distinguished maxima of the Sr: Ca ratio, 7.08x10(-3), 8.98x10(-3) and 9.90x10(-3), which might correspond, respectively, to fresh, brackish and saltwater. Although the analysis of the Sr: Ca ratio in sturgeon pectoral fin rays has revealed changes that might indicate probable migration between habitats with different water salinity, further studies are needed for improvement of this method. This study represents the first analysis of this kind that was conducted on sturgeon species from the Black Sea basin.

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