Sperm Storage and Artificial Insemination in Honey Bees
Autor: | Murat Selcuk, Arda Onur Özkök |
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Jazyk: | angličtina |
Rok vydání: | 2019 |
Předmět: |
biology
Hatching Artificial insemination medicine.medical_treatment Queen bee fungi Swarming (honey bee) Zoology Agriculture Honey bee biology.organism_classification Sperm Honey Bees Ziraat medicine behavior and behavior mechanisms General Earth and Planetary Sciences Inbreeding Artificial insemination Freezing Honey bee Sperm reproductive and urinary physiology General Environmental Science |
Zdroj: | Volume: 2, Issue: 1 12-25 International Journal of Science Letters |
ISSN: | 2687-4733 |
Popis: | To obtain the expected yield from a honeybee colony, queen bee is required to have high egg capacity, the colony is also expected to be resistant to diseases, to have a low tendency for swarming, to be resistant to looting, and to be able to adapt to the climatic conditions of the region. In this context, it is important to protect the pure bee races and to improve them by conducting breeding research. To maintain the high yield aspect of honeybee colony, the queen bee needs to be replaced at most every 2 years. Queen bee becomes adult in as short as 16 days after hatching, and mating is realized in the air outside the colony, which makes it difficult to preserve the genetic line of the queen bee. At this point, artificial insemination and protection of gene resources become important. Honey bee (Apis mellifera L.) sperm can be stored for short and long periods. However, due to the delicate structure and biology of honey bee sperm, the high success rate in mammals could not be achieved in storing bee sperm. Due to the genetic damage exposed during the freezing of honey bee sperm, long-term storage difficulties are experienced. In addition, the concentration, motility and viability of spermatozoa decrease due to the short-term storage and storage conditions. In the breeding studies in the same region, after a period of time, gene resources decrease, and accordingly, the risk of inbreeding occurs. Instead of replacing the bee colonies that are at risk of inbreeding, a new different genome addition to the colony whose current yield characteristics are known can be made through the sperm storage of other colonies. Thanks to the long-term storage of sperm, long-period genetic studies can be carried out as in mammals, which is important for improving yield characteristics genetically. In addition, the long-term storage of honeybee sperm is a hope for the protection of regional races that are in danger of extinction due to unconsciousness and improper breeding policies. |
Databáze: | OpenAIRE |
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