Chilled storage of Asian seabass,Lates calcariferBloch semen: Effects of ions, extenders and storage periods on sperm quality and fertilization ability

Abstract

The development of a chilled storage protocol of fish sperm requires an understanding of sperm biology and function as the activation/inhibition of fish sperm is greatly affected by several environmental factors. This study aimed to determine the effects of ionic and non-ionic solutions, extender types (Ringer's solution, Ca-F HBSS solution, HBSS solution, He and Wood solution, Saline solution, and Modified Cortland solution), and chilled-storage period on sperm quality and fertilization ability of Asian seabass, Lates calcarifer semen. Regulation of Asian seabass sperm motility was dependent on the osmolality of both ionic and non-ionic activation media. The threshold levels on the initiation of sperm motility were detected in KCl (>100 mM), NaCl (>50 mM), CaCl2 (>50 mM), glucose (>300 mM), and mannitol (>100 mM) solutions. Relatively high percentages of sperm motility (>80%) were observed when activated with KCl, NaCl, CaCl2, glucose, and mannitol solutions at above 700, 600, 350, 1,000, and 1,000 mM, respectively. Ringer's solution was the most optimal extender for chilled storage of Asian seabass semen at 2–4°C supported by the retention of sperm motility and viability for 6 days. Semen diluted in Ringer's solution and chilled-stored for 2 days exhibited acceptable fertilization (66.1% ± 6.2%) and hatching (56.4% ± 2.9%) rates. This report, for the first time, describes the ionicity and non-ionicity effects on the motility of Asian seabass sperm.