Seasonal reproduction of domesticated pikeperch has been the most critical spawning batch in several European countries. The present study aimed to monitor oocyte growth between mid-November and seasonal spawning to evaluate if oocyte growth trends may predict egg quality. Nineteen sexually mature females were monitored for oocyte sizes every two months. In mid-March, fish were transported to the indoor facility and artificially reproduced. Sixteen females ovulated and egg quality parameters were assessed and further related to oocyte sizes measured in November, January, and March, as well as to size increments between samplings. Based on the oocyte diameters, fish were assigned to two size groups, and the egg quality was compared. Oocyte growth was greater between the first two samplings compared to the consecutive period (150.1 ± 16.5 µm vs 24.7 ± 20.4 µm). Diameters assessed in November and March positively correlated with oil globule fragmentation, while diameters assessed in November and January positively correlated with larval malformation. Although in January larger oocytes showed better embryo survival than smaller ones (60.6 ± 9.5% vs 37.8 ± 23.2%,) they were characterized with greater percent of malformed larvae (25.0 ± 22.0% vs 5.4 ± 3.9%). It appears that fish with bigger oocytes in pre-season have an affinity toward increased embryo survival, however, they seem to have an issue with oil globule fragmentation and larvae malformation in case of seasonal spawning. Therefore, the selection of breeders for either pre-seasonal or seasonal reproduction batch according to the November oocyte size is recommended.
Keywords: Artificial reproduction; Larval malformation; Latency time; Oil globule fragmentation; Oocyte size.
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