Swan mussel, Anodonta cygnea (Linnaeus, 1758), plays an important role in the food web of the lake as a primary consumer. However, there is very limited information about the biology, ecology and population structure of this species. Knowledge about the population characteristics of this mussel before the exploitation phase is very important for the management of this species in the future. On the other hand this study is the first record of the swan mussel from Lake Çıldır and determination of the growth and flesh yield of Anodonta cygnea in this lake will be the basic reference for further studies on fisheries and processing activities. The mean shell length of the specimens was 104.2±0.52 mm (±SE of average) (range 49.8-136.8 mm) and mean live weight 94.8±1.42 g. The relationship between shell length and live weight was estimated as W = 0.0001 L2.88 (r = 0.96). Linear relationship was found between dry flesh weight and shell length (DFW = 0.052 L - 2.3721, r = 0.99). Condition index values based on dry flesh (CI1) and wet flesh weight (CI2) showed monthly fluctuations. The maximum value in July and minimum value in October should probably be attributed to an increase in the larval density in the brood chambers and abundant food at higher water temperature permitting faster growth in July.
Swan mussel, Anodonta cygnea (Linnaeus, 1758), plays an important role in the food web of the lake as a primary consumer. However, there is very limited information about the biology, ecology and population structure of this species. Knowledge about the population characteristics of this mussel before the exploitation phase is very important for the management of this species in the future. On the other hand this study is the first record of the swan mussel from Lake Çıldır and determination of the growth and flesh yield of Anodonta cygnea in this lake will be the basic reference for further studies on fisheries and processing activities. The mean shell length of the specimens was 104.2±0.52 mm (±SE of average) (range 49.8-136.8 mm) and mean live weight 94.8±1.42 g. The relationship between shell length and live weight was estimated as W = 0.0001 L2.88 (r = 0.96). Linear relationship was found between dry flesh weight and shell length (DFW = 0.052 L - 2.3721, r = 0.99). Condition index values based on dry flesh (CI1) and wet flesh weight (CI2) showed monthly fluctuations. The maximum value in July and minimum value in October should probably be attributed to an increase in the larval density in the brood chambers and abundant food at higher water temperature permitting faster growth in July.
Primary Language | Turkish |
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Journal Section | Articles |
Authors | |
Publication Date | April 1, 2009 |
Published in Issue | Year 2009 Volume: 9 Issue: 2 |