35 EFFECTS OF THAWING TEMPERATURE OF FROZEN SEMEN ON VIABILITY OF REFROZEN AND THAWED CHICKSO (KOREAN BRINDLE CATTLE) AND KOREAN ALBINO CATTLE SPERMATOZOA
S. W. Kim A , C. Y. Choe A , D. K. Kim A , A. R. Choi A and H. H. Seong AAnimal Genetic Resources Research Center, National Institute of Animal Science, RDA, Namwon, Korea
Reproduction, Fertility and Development 28(2) 147-148 https://doi.org/10.1071/RDv28n2Ab35
Published: 3 December 2015
Abstract
Germplasm cryopreservation from a desired species with agricultural and genetic importance would protect them from the risk for extinction. Semen freezing from Korean native cattle would be a good approach for protecting genetic resources due to their limited numbers. It has been known that sperm could resist cryo-damages by freeze-thaw cycles. Thus, we performed 2 refreezing experiments with different initial thawing temperatures using frozen Korean native cattle semen. A total of 5 Hanwoo, Korean Albino, and brindle cattle were used as semen donors. After thawing by using 5°C/2 min or 37°C/40 s with cooling rates, the semen was diluted with the same volume of cryo-media in the first thawing temperature and refrozen. Sperm motilities were determined and compared between animals and groups after rethawing. The mean sperm concentration and motility was 45 × 106 mL–1 (range 2.3 to 89 × 106 mL–1) and 40% (range 13 to 55%). Mean values of motility and viability of sperm that underwent second preservation were significantly higher in 5°C than in 37°C (P < 0.01). However, the activity of viable sperm thawed at 5°C was significantly decreased before refreezing. It is estimated that refreezing of frozen semen from rare Korean native cattle is possible with resistant properties of survived spermatozoa. The higher motility and viability of refrozen semen could be obtained with 5°C thawing procedure for reuse of frozen semen.