Abstract

Fundamental knowledge of spermatozoa cryobiology can assist with optimizing cryopreservation protocols needed for genetic management of the endangered black-footed ferret. Objectives were to characterize semen osmolality and assess the influence of two media at various osmolalities on sperm viability. We examined the influence of Ham’s F10 + Hepes medium (H) at 270, 400, 500 or 700 mOsm (adjusted with sucrose, a nonpermeating cryoprotectant) and TEST Yolk Buffer (TYB) with 0% (300 mOsm) versus 4% (900 mOsm) glycerol (a permeating cryoprotectant). Electroejaculates ( n = 16) were assessed for osmolality using a vapor pressure osmometer. For media comparison, semen ( n = 5) was collected in TYB 0%, split into six aliquots, and diluted in H270, H400, H500, H700, and TYB 0% or TYB 4%. Each sample was centrifuged (300 g, 8 min), resuspended in respective medium, and maintained at 37 °C for 3 h. Sperm motility and forward progression were monitored every 30 min for 3 h post-washing. Acrosomal integrity was monitored at 0 and 60 min post-washing. Results demonstrated that black-footed ferret semen has a comparatively high osmolality (mean ± SEM, 513.1 ± 32.6 mOsm; range, 366–791 mOsm). Ferret spermatozoa were sensitive to hyperosmotic stress. Specifically, sperm motility was more susceptible ( P < 0.01) to hyperosmotic conditions than acrosomal integrity, and neither were influenced ( P > 0.05) by hypotonic solutions. Exposure to TYB 4% glycerol retained more ( P < 0.01) sperm motility than a hyperosmotic Ham’s (700 mOsm). These findings will guide the eventual development of assisted breeding with cryopreserved sperm contributing to genetic management of this rare species.

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