期刊
AQUACULTURE
卷 289, 期 3-4, 页码 244-252出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.aquaculture.2009.01.010
关键词
Arctic charr; Salvelinus alpinus; Condition; Growth; Salmonids; Survival; Triploid
资金
- Atlantic Canada Opportunities Agency
This study evaluated the survival and growth of juvenile Arctic chart in comparison to their diploid siblings. Eight triploid full-sib families were produced by hydrostatic pressure treatment of eggs (5 min at 65.5 X 10(3) kPa) beginning 210 degrees C-min post-fertilization. Diploid siblings came from the same eight families, but without pressure treatment. Mean survival from eyed-egg to first size-grading (at 1980 degrees C-days post-hatch) was 70% for triploids and 84% for diploids. In two growth studies using 4 m 3 tanks containing 100 juveniles per ploidy level of each family, triploidization resulted in higher levels of phenotypic variance for growth traits. Specifically, triploids consistently had smaller mean body weight and fork length than their diploid siblings. juveniles were first measured at 850 degrees C-dph and again every four weeks over a 24 week period. The proportion of the overall variance in weight was due to ploidy level in the first tank experiment whereas this variance was due to the effect of family in the second tank experiment. Mean specific growth rates of triploids and diploids were 2.01 and 2.09% for weight and 0.64 and 0.66% for length, respectively, which was not significant. The condition factor of triploids was less than that of diploids at every sampling date, except for the initial assessment. After transfer to a commercial site following completion of the tank trials, the same families were grown until market size (1 kg) and were measured again nine and 11 months after the conclusion of the growth studies. The condition factor of triploids improved at the commercial site and was not different from that of diploids. The difference in weight of triploid and diploid populations was significant at the conclusion of the study. These results indicate that as juveniles, triploids have reduced performance in important aquaculture traits. However. because triploid performance was reduced in a predictable fashion in comparison to sibling diploids, triploids of some full-sib families outperformed diploids of others. Any overall advantage of triploids may not be realized until the diploids begin to mature. (C) 2009 Elsevier B.V. All rights reserved.
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