Improper activation and swelling of in vitro produced eggs of European eel, Anguilla anguilla, has been shown to negatively affect embryonic development and hatching. We investigated this phenomenon by examining the effects of salinity and sea salt type on egg dimensions, cell cleavage patterns and egg buoyancy. Egg diameter after activation, using natural seawater adjusted to different salinities, varied among female eels, but no consistent pattern emerged. Activation salinities between 30–40 practical salinity unit (psu) produced higher quality eggs and generally larger egg diameters. Chorion diameters reached maximal values of 1642 ± 8 μm at 35 psu. A positive relationship was found between egg neutral buoyancy and activation salinity. Nine salt types were investigated as activation and incubation media. Five of these types induced a substantial perivitelline space (PVS), leading to large egg sizes, while the remaining four salt types resulted in smaller eggs. All salt types except NaCl treatments led to high fertilization rates and had no effect on fertilization success as well as egg neutral buoyancies at 7 h post-fertilization. The study points to the importance of considering ionic composition of the media when rearing fish eggs and further studies are encouraged.

We have investigated the oolemma block to polyspermy in the mouse. Zona-free and zona-intact eggs were fertilised and subsequently re-inseminated (the latter following zona pellucida removal). The ‘perivitelline’ block to polyspermy in zona-intact eggs renders motile sperm in the perivitelline space unable to bind to the oolemma. This is not connected with irreversible changes in the egg plasma membrane, because freshly added sperm can still fuse with such eggs freed from the zona. Fertilised eggs eventually lose the ability to fuse with sperm within 1 h, while still being able to bind many sperm.