Yang Huiping, Huo Yuanzi, Yee Jayme C, Rikard Scott, Walton William C, Saillant Eric
Institute of Food and Agricultural Sciences, School of Forest, Fisheries and Geomatics Sciences, University of Florida, Gainesville, FL 32653, USA.
Auburn University Shellfish Laboratory, School of Fisheries, Aquaculture and Aquatic Sciences, Auburn University, Dauphin Island, AL 36849, USA.
Animals (Basel). 2021 Sep 28;11(10):2836. doi: 10.3390/ani11102836.
The Eastern oyster (Family Ostreidae) is one of the most important fishery and aquaculture species in the U.S. and is a keystone species for coastal reefs. A breeding program was initiated in 2019 to support the fast-growing aquaculture industry culturing this species in the Gulf of Mexico. Oysters from 17 wild populations in embayment along the U.S. Gulf of Mexico coast from southwest Florida to the Matagorda Bay, Texas were used as broodstock for the program to maximize genetic diversity in the base population. A sperm repository of the broodstock was established to support the breeding project. The goal of this study was to demonstrate the sperm sample collection, processing, cryopreservation, and the data management plan involved in the establishment of a sperm germplasm repository of base populations. The supporting objectives were to: (1) develop a data management plan for the sperm repository; (2) streamline the procedure for sample collection, processing, and cryopreservation; (3) incorporate sperm quality analysis into the procedure, and (4) archive the cryopreserved samples as a repository for future use in the breeding program. This sperm repository included a total of 102 male oysters from the 17 collection sites (six oysters per site). A data management plan was developed with six categories, including sample collection, phenotype, fresh sperm, genotype, cryopreservation, and post-thaw sperm, as guide for data collection. Sperm collection was accomplished by strip spawn, and fresh sperm production, motility, and fertility were recorded for quality analysis. Cryopreserved sperm samples were sorted, labelled, archived, and stored in liquid nitrogen for future use. Post-thaw motility (1-30%) and plasm membrane integrity (15.34-70.36%) were recorded as post-thaw quality parameters. Overall, this study demonstrated a streamlined procedure of oyster sperm collection, processing, and cryopreservation for establishing a sperm repository that can serve as a template for construction of oyster germplasm repositories for breeding programs.
东部牡蛎(牡蛎科)是美国最重要的渔业和水产养殖物种之一,也是沿海珊瑚礁的关键物种。2019年启动了一项育种计划,以支持在墨西哥湾快速发展的该物种水产养殖业。来自美国墨西哥湾沿岸从佛罗里达州西南部到得克萨斯州马塔戈达湾的海湾中17个野生种群的牡蛎被用作该计划的亲鱼,以最大限度地提高基础种群的遗传多样性。建立了亲鱼精子库以支持育种项目。本研究的目的是展示建立基础种群精子种质库所涉及的精子样本采集、处理、冷冻保存和数据管理计划。辅助目标包括:(1)为精子库制定数据管理计划;(2)简化样本采集过程、处理和冷冻保存;(3)将精子质量分析纳入程序;(4)将冷冻保存的样本存档,作为未来育种计划使用的种质库。这个精子库总共包括来自17个采集地点的102只雄性牡蛎(每个地点6只牡蛎)。制定了一个包括样本采集、表型、新鲜精子、基因型、冷冻保存和解冻后精子六个类别的数据管理计划,作为数据收集的指南。精子采集通过挤卵完成,并记录新鲜精子的产量、活力和受精能力以进行质量分析。冷冻保存的精子样本进行分类、标记、存档,并储存在液氮中以备将来使用。解冻后活力(1%-30%)和质膜完整性(15.34%-70.36%)被记录为解冻后质量参数。总体而言,本研究展示了一种简化的牡蛎精子采集、处理和冷冻保存程序,用于建立一个精子库,该精子库可作为育种计划中牡蛎种质库建设的模板。