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Unexpected timing of mature female sturgeon migration in the Danube River

Published online by Cambridge University Press:  25 March 2024

Tudor Ionescu
Affiliation:
IUCN Species Survival Commission Sturgeon Specialist Group Oradea University, Oradea, Romania
Leonardo Congiu*
Affiliation:
IUCN Species Survival Commission Sturgeon Specialist Group University of Padova, Padova, Italy

Abstract

Type
Conservation News
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence CC BY 4.0.
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of Fauna & Flora International

The Critically Endangered Beluga sturgeon Huso huso persists in diminished numbers in the Black Sea, the Sea of Azov, the Caspian Sea and their tributaries, along which adult sturgeons migrate for reproduction after spending years at sea. In July 2023, on the Chilia branch of the Danube River near Ismail, Ukrainian law enforcement intercepted poachers capturing a c. 110 kg mature female carrying 14 kg of eggs. The extraordinary aspect of this news is in its timing, as adult sturgeons typically enter the Danube River for reproduction in the autumn or early spring.

The observed gonadosomatic index (GSI) of 12.7 corresponds to stage 3 or 4 of oocyte maturation, just before egg deposition. However, to exclude the possibility the eggs were resorbing as a result of failed reproduction, an analysis of the eggs would have been necessary. Unfortunately, this analysis was not possible because the caviar was seized. Capturing an adult female with such a substantial number of eggs in the middle of summer is rare. The previous known case dates from August 2004 when a female was captured in the Danube River with a GSI of 11.2. Historical data indicate an estimated GSI of 3.69 in July 1967 and 2.42 in July 1968, based on 24 and 18.5 t of females, respectively.

The fishing technique employed excludes the possibility that the animal was migrating downstream, but it is challenging to determine whether this female was very late for the spring migration of 2023 or very early for the autumn migration of 2024. The critical factor, however, is the degree of variability in the timing of migration. Although shifts in the phenology of reproduction and the relationship of this with climate change have been extensively studied in terrestrial organisms, these matters have received less research attention in aquatic organisms. Such observations could offer a monitoring tool for understanding the impacts of global warming on sturgeon populations. Looking ahead, the consequences of increased water temperatures could extend across the entire life cycle, influencing the growth rate and potentially leading to an earlier reproductive age, as hypothesized for other anadromous species such as salmon (Rinaldo et al., 2023, Journal of Fish Biology). Recognizing the importance of these dynamics, we recommend establishment of monitoring to evaluate the extent of apparent out-of-season sturgeon migrations and to assess the potential effects of climate change on sturgeon reproduction.