. IntroductionProviding a sufficien

. Introduction
Providing a sufficient number of cryopreserved spermatozoa for fertilization is a major challenge in the fish hatchery industry. The quality of cryopreserved rainbow trout sperm is low, so the number of cryopreserved spermatozoa required for successful fertilization is about 10 times higher than that for fresh semen (Billard, 1992). Low fertilization ability of cryopreserved semen is accompanied by low post-thaw motility (Lahnsteiner et al., 1996a). The low quality of cryopreserved semen negatively impacts rainbow trout breeding efforts. Therefore, improved techniques for rainbow trout sperm cryopreservation are needed.

Cryopreservation is used to preserve sperm for later use, but sperm can be damaged by the freezing and thawing process. To mitigate damage, extenders (media used to dilute sperm) containing cryoprotectants (compounds used to protect sperm from cold and heat shock and cytotoxicity) are used. Simple extenders that contain only permeable cryoprotectants and sugars as nonpermeable cryoprotectants have been used successfully to cryopreserve salmonid fish sperm. Permeable cryoprotectants include methanol, DMSO, DMA, and glycerol at concentrations of 5–25% and nonpermeable cryoprotectants, such as sucrose or glucose, at concentrations of 0.3–0.6 M (Bozkurt et al., 2005, Ekici et al., 2012, Holtz, 1993, Lahnsteiner et al., 1996b, Lahnsteiner et al., 1997, Mansour et al., 2006, Piironen, 1993, Sarvi et al., 2006 and Tekin et al., 2003). An extender consisting of 0.3 M glucose and 10% methanol has been used successfully to cryopreserve Arctic char semen (Mansour et al., 2006) and whitefish semen (Ciereszko et al., 2008 and Nynca et al., 2012). Our preliminary data suggest that such a simple extender is also effective for the cryopreservation of rainbow trout spermatozoa. However, our unpublished observations showed that post-thaw motility was low (Dietrich et al., unpublished), as is typical for cryopreserved rainbow trout spermatozoa (Lahnsteiner et al., 1996a).

Cryopreservation involves several parameters that need be fine-tuned to improve post-thaw survival. These factors include cryoprotectant type and concentration (Lahnsteiner et al., 1996a and Maisse, 1994), equilibration time (Babiak et al., 2001, Lahnsteiner et al., 1996b and Perez-Cerezales et al., 2010), and number of spermatozoa (Ciereszko et al., 2013). The aim of this study was to identify the optimal conditions (i.e., glucose concentration in the extender, equilibration time, and the sperm-to-extender ratio for semen dilution) for cryopreservation of rainbow trout semen. Sperm motility and fertilization rate were used as quantitative endpoint metrics.