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Year 2020, Volume: 10 Issue: 2, 104 - 107, 29.06.2020
https://doi.org/10.33808/clinexphealthsci.687305

Abstract

References

  • 1. Çelikkale MS. İçsu Balıkları ve Yetiştiriciliği, Karadeniz Teknik Üniversitesi, Sürmene Deniz Bilimleri ve Teknolojisi Yüksekokulu, Fakülte Yayın No: 2, Trabzon, 1988, 419.
  • 2. Dreanno C, Cosson J, Suquet M, Seguin F, Dorange G, Billard R. Nucleotide content, oxidative phosphorylation, morphology and fertilizing capacity of turbot (psetta maxima) spermatozoa during the motility period. Mol Reprod Dev 1999; 53:230-243.
  • 3. Okumuş İ. Rainbow trout broodstock management and seed production in turkey: present practices, constraints and the future. Turkish J Fish Aqua Sci 2003; 2:41-56.
  • 4. Yavuz H. Farklı Kromozomlara (XX ve XY) Sahip Erkek Gökkuşağı Alabalığı (Oncorhynchus mykiss) Spermlerinin Dölleme Kalitesi. Yüksek Lisans Tezi Fırat Üniversitesi, Elazığ. 2012.
  • 5. Cosson J. Fish Sperm Physiology: Structure, Factors Regulating Motility, and Motility Evaluation. In Recent Developments in Fish Biology Researches. 2019: 1-26.
  • 6. Sargent JR, Toche DR, Bell JG. The Lipids. In: Fish Nutrition, Halver JE & Hardy RW (Ed), 3rd ed., Academic Press, San Diego, 2002; 182-257.
  • 7. Goddard S. Feed Management in Intensive Aquaculture, Printed in the United States of America, Includes bibliographical references and index. Chapman and Hall Press, New York. 1996.
  • 8. Mattson NS, Riple TH. Metomidate, a better anaesthetic for cod (Gadus morhua) in comparation with benzocain, MS-222, choloro butanol and phenoxyethanol, Aquaculture 1989; 83:89-94.
  • 9. Munkittrick KR, Moccia RD. Seasonal changes in the quality of rainbow trout (Salmo gairdneri) semen: Effect of a delay in stripping on sprmatocrit, motility, volume and seminal plasma constituents. Aquaculture, 1987; 64:147-156.
  • 10. National Research Council (NRC). Nutrient Requirements of Fish, National Academy Press, Washington DC. 1999.
  • 11. Lahnsteiner F, Mansour N, McNiven M A, Richrdson GF. Fatty acids of rainbow trout (Oncorhynchus mykiss) semen: Composition and effects on sperm functionality. Aquaculture 2009; 298:118-124.
  • 12. Huang X, Yin Y, Shi Z, Li W, Zhou H, Lv W. Lipid content and fatty acid composition in wild-caught silver pomfret (Pampus argenteus) broodstocks: effects on gonad development. Aquaculture 2010; 310:192-199.
  • 13. Aas GH, Refstie T, Gjerde B. Evaluation of milt quality of atlantic salmon. Aquaculture 1991; 95:125-132.
  • 14. Bromage Niall R, Ronald J. Broodstock management and egg larval quality. Wiley-Blackwell Science Ltd, Cambridge. 1995.
  • 15. Benau D, Terner C. Initiation prolongation and reactivation of the motility of salmonid spermatozoa. Gamete Res 1980; 3:247-257.
  • 16. Boitano S, Omoto CK. Membrane hyperpolarization activates trout sperm without an increase in intracellular pH. J Cell Sci 1991; 98:343-349.
  • 17. Chambeyron F, Zohar Y. A diluent for sperm cryopreservation of gilthead seabream, Sparus aurata. Aquaculture 1990; 90:345-352.
  • 18. Izquierdo MS, Fernandez-Palacios H, Tacon AGJ. Effect of broodstock nutrition on reproductive performance of fish. Aquaculture 2001; 197:25-42.
  • 19. Vassallo-Agius R, Watanabe Takeshi Yoshizaki G, Satoh S, Takeuchi Y. Quality of eggs and spermatozoa of rainbow trout fed an n-3 essential fatty acid-deficient diet and its effects on the lipid and fatty acid components of eggs, semen and livers. Fisheries Sci 2001; 67:818-827.
  • 20. Frøyland L, Lie Ø, Berge RK (). Mitochondrial and peroxisomal β-oxidation capacities in various tissues from atlantic salmon salmo salar. Aquacult Nutr 2000; 6:85-89.
  • 21. Asturiano JF, Sorbera LA, Carrillo M, et al. Reproductive performance in male European sea bass (Dicentrarchus labrax, L.) fed two PUFAenriched experimental diets: a comparison with males fed a wet diet. Aquaculture 2001; 194:173–190.
  • 22. Alavi SMH, Psenicka M, Polica T, et al. Sperm quality in male Barbus barbus L. fed different diets during the spawning season. Fish Physiol Biochem 2009; 35:683-693.

Effect of dietary n-3 series fatty acids on sperm motility duration of rainbow trout (Oncorhynchus mykiss Walbaum, 1792)

Year 2020, Volume: 10 Issue: 2, 104 - 107, 29.06.2020
https://doi.org/10.33808/clinexphealthsci.687305

Abstract

Objective: This study was performed to determine the effect of different ratios of n-3 series fatty acids added to the diets of rainbow trout
(Oncorhynchus mykiss) on sperm motility duration.

Methods: A total of 48 male rainbow trouts about 3 years of age were used in the study and 4 groups were formed. The one that n-3 series fatty
acids were not added to the diet was used as control group. n-3 series fatty acids were added to the experimental groups diets at the ratios
of 1% (E1), 2% (E2) and 3% (E3), respectively. Semen was collected by abdominal massage. The time-dependent sperm motility change was
detected under the microscope at x400 magnification.

Results: A significant decrease was detected in the motility only at 360th hour in E3 group compared to the control group (p<0.05).

Conclusion: As a result, it was concluded that feeding with diets containing different ratios of n-3 series fatty acids had no effect on the motility
of rainbow trout semen under in vitro condition.

References

  • 1. Çelikkale MS. İçsu Balıkları ve Yetiştiriciliği, Karadeniz Teknik Üniversitesi, Sürmene Deniz Bilimleri ve Teknolojisi Yüksekokulu, Fakülte Yayın No: 2, Trabzon, 1988, 419.
  • 2. Dreanno C, Cosson J, Suquet M, Seguin F, Dorange G, Billard R. Nucleotide content, oxidative phosphorylation, morphology and fertilizing capacity of turbot (psetta maxima) spermatozoa during the motility period. Mol Reprod Dev 1999; 53:230-243.
  • 3. Okumuş İ. Rainbow trout broodstock management and seed production in turkey: present practices, constraints and the future. Turkish J Fish Aqua Sci 2003; 2:41-56.
  • 4. Yavuz H. Farklı Kromozomlara (XX ve XY) Sahip Erkek Gökkuşağı Alabalığı (Oncorhynchus mykiss) Spermlerinin Dölleme Kalitesi. Yüksek Lisans Tezi Fırat Üniversitesi, Elazığ. 2012.
  • 5. Cosson J. Fish Sperm Physiology: Structure, Factors Regulating Motility, and Motility Evaluation. In Recent Developments in Fish Biology Researches. 2019: 1-26.
  • 6. Sargent JR, Toche DR, Bell JG. The Lipids. In: Fish Nutrition, Halver JE & Hardy RW (Ed), 3rd ed., Academic Press, San Diego, 2002; 182-257.
  • 7. Goddard S. Feed Management in Intensive Aquaculture, Printed in the United States of America, Includes bibliographical references and index. Chapman and Hall Press, New York. 1996.
  • 8. Mattson NS, Riple TH. Metomidate, a better anaesthetic for cod (Gadus morhua) in comparation with benzocain, MS-222, choloro butanol and phenoxyethanol, Aquaculture 1989; 83:89-94.
  • 9. Munkittrick KR, Moccia RD. Seasonal changes in the quality of rainbow trout (Salmo gairdneri) semen: Effect of a delay in stripping on sprmatocrit, motility, volume and seminal plasma constituents. Aquaculture, 1987; 64:147-156.
  • 10. National Research Council (NRC). Nutrient Requirements of Fish, National Academy Press, Washington DC. 1999.
  • 11. Lahnsteiner F, Mansour N, McNiven M A, Richrdson GF. Fatty acids of rainbow trout (Oncorhynchus mykiss) semen: Composition and effects on sperm functionality. Aquaculture 2009; 298:118-124.
  • 12. Huang X, Yin Y, Shi Z, Li W, Zhou H, Lv W. Lipid content and fatty acid composition in wild-caught silver pomfret (Pampus argenteus) broodstocks: effects on gonad development. Aquaculture 2010; 310:192-199.
  • 13. Aas GH, Refstie T, Gjerde B. Evaluation of milt quality of atlantic salmon. Aquaculture 1991; 95:125-132.
  • 14. Bromage Niall R, Ronald J. Broodstock management and egg larval quality. Wiley-Blackwell Science Ltd, Cambridge. 1995.
  • 15. Benau D, Terner C. Initiation prolongation and reactivation of the motility of salmonid spermatozoa. Gamete Res 1980; 3:247-257.
  • 16. Boitano S, Omoto CK. Membrane hyperpolarization activates trout sperm without an increase in intracellular pH. J Cell Sci 1991; 98:343-349.
  • 17. Chambeyron F, Zohar Y. A diluent for sperm cryopreservation of gilthead seabream, Sparus aurata. Aquaculture 1990; 90:345-352.
  • 18. Izquierdo MS, Fernandez-Palacios H, Tacon AGJ. Effect of broodstock nutrition on reproductive performance of fish. Aquaculture 2001; 197:25-42.
  • 19. Vassallo-Agius R, Watanabe Takeshi Yoshizaki G, Satoh S, Takeuchi Y. Quality of eggs and spermatozoa of rainbow trout fed an n-3 essential fatty acid-deficient diet and its effects on the lipid and fatty acid components of eggs, semen and livers. Fisheries Sci 2001; 67:818-827.
  • 20. Frøyland L, Lie Ø, Berge RK (). Mitochondrial and peroxisomal β-oxidation capacities in various tissues from atlantic salmon salmo salar. Aquacult Nutr 2000; 6:85-89.
  • 21. Asturiano JF, Sorbera LA, Carrillo M, et al. Reproductive performance in male European sea bass (Dicentrarchus labrax, L.) fed two PUFAenriched experimental diets: a comparison with males fed a wet diet. Aquaculture 2001; 194:173–190.
  • 22. Alavi SMH, Psenicka M, Polica T, et al. Sperm quality in male Barbus barbus L. fed different diets during the spawning season. Fish Physiol Biochem 2009; 35:683-693.
There are 22 citations in total.

Details

Primary Language English
Subjects Health Care Administration
Journal Section Articles
Authors

Şeyma Özer Kaya 0000-0002-9970-9364

Seyfettin Gür 0000-0003-0096-2501

Kenan Köprücü 0000-0002-5697-5224

Gaffari Türk 0000-0001-7417-1038

Mustafa Sönmez 0000-0003-0281-7228

Sinan Ozcan This is me 0000-0003-2975-698X

Publication Date June 29, 2020
Submission Date February 10, 2020
Published in Issue Year 2020 Volume: 10 Issue: 2

Cite

APA Özer Kaya, Ş., Gür, S., Köprücü, K., Türk, G., et al. (2020). Effect of dietary n-3 series fatty acids on sperm motility duration of rainbow trout (Oncorhynchus mykiss Walbaum, 1792). Clinical and Experimental Health Sciences, 10(2), 104-107. https://doi.org/10.33808/clinexphealthsci.687305
AMA Özer Kaya Ş, Gür S, Köprücü K, Türk G, Sönmez M, Ozcan S. Effect of dietary n-3 series fatty acids on sperm motility duration of rainbow trout (Oncorhynchus mykiss Walbaum, 1792). Clinical and Experimental Health Sciences. June 2020;10(2):104-107. doi:10.33808/clinexphealthsci.687305
Chicago Özer Kaya, Şeyma, Seyfettin Gür, Kenan Köprücü, Gaffari Türk, Mustafa Sönmez, and Sinan Ozcan. “Effect of Dietary N-3 Series Fatty Acids on Sperm Motility Duration of Rainbow Trout (Oncorhynchus Mykiss Walbaum, 1792)”. Clinical and Experimental Health Sciences 10, no. 2 (June 2020): 104-7. https://doi.org/10.33808/clinexphealthsci.687305.
EndNote Özer Kaya Ş, Gür S, Köprücü K, Türk G, Sönmez M, Ozcan S (June 1, 2020) Effect of dietary n-3 series fatty acids on sperm motility duration of rainbow trout (Oncorhynchus mykiss Walbaum, 1792). Clinical and Experimental Health Sciences 10 2 104–107.
IEEE Ş. Özer Kaya, S. Gür, K. Köprücü, G. Türk, M. Sönmez, and S. Ozcan, “Effect of dietary n-3 series fatty acids on sperm motility duration of rainbow trout (Oncorhynchus mykiss Walbaum, 1792)”, Clinical and Experimental Health Sciences, vol. 10, no. 2, pp. 104–107, 2020, doi: 10.33808/clinexphealthsci.687305.
ISNAD Özer Kaya, Şeyma et al. “Effect of Dietary N-3 Series Fatty Acids on Sperm Motility Duration of Rainbow Trout (Oncorhynchus Mykiss Walbaum, 1792)”. Clinical and Experimental Health Sciences 10/2 (June 2020), 104-107. https://doi.org/10.33808/clinexphealthsci.687305.
JAMA Özer Kaya Ş, Gür S, Köprücü K, Türk G, Sönmez M, Ozcan S. Effect of dietary n-3 series fatty acids on sperm motility duration of rainbow trout (Oncorhynchus mykiss Walbaum, 1792). Clinical and Experimental Health Sciences. 2020;10:104–107.
MLA Özer Kaya, Şeyma et al. “Effect of Dietary N-3 Series Fatty Acids on Sperm Motility Duration of Rainbow Trout (Oncorhynchus Mykiss Walbaum, 1792)”. Clinical and Experimental Health Sciences, vol. 10, no. 2, 2020, pp. 104-7, doi:10.33808/clinexphealthsci.687305.
Vancouver Özer Kaya Ş, Gür S, Köprücü K, Türk G, Sönmez M, Ozcan S. Effect of dietary n-3 series fatty acids on sperm motility duration of rainbow trout (Oncorhynchus mykiss Walbaum, 1792). Clinical and Experimental Health Sciences. 2020;10(2):104-7.

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