Sperm competition models predict that males typically mating in disfavoured roles should be selected to compensate for their disadvantage by investing more into sperm. We studied the effect of rapid changes in social status on ejaculate investments during experimental trials with an externally fertilizing teleost--the Arctic charr (Salvelinus alpinus). We document that males becoming dominant produce less sperm with lower velocity, but have higher sex steroid concentrations than subordinate males. These differences in sperm characteristics seem mainly to result from a decreased investment in sperm among fish that become dominant compared to pre-trial levels. Moreover, these adjustments of sperm production and sperm velocity seem not to be traded against sperm longevity. Our results support theoretical models of sperm competition, as males forced to mate in disfavoured roles seem to invest more into ejaculate quality than males in favoured roles. Additionally, we are the first to report that males, in a species with status-dependent shifts in reproductive tactics, have evolved rapid tactic specific adjustments of sperm production and sperm velocity corresponding to what could be predicted from their reproductive roles.
Exposure to environmental stressors during early-life stages can change the rate and timing of various developmental processes. Epigenetic marks affecting transcriptional regulation can be altered by such environmental stimuli. To assess how stress might affect the methylome and transcriptome in salmon, fish were treated using cold-shock and air-exposure from the eye-stage until start-feeding. The fish were either stressed prior to hatching (E), post-hatching (PH), pre- and post-hatching (EPH) or not stressed (CO). Assessing transcriptional abundances just prior to start feeding, E and PH individuals were found to have modified the expression of thousands of genes, many with important functions in developmental processes. The EPH individuals however, showed expression similar to those of CO, suggesting an adaptive response to extended periods of stress. The methylome of stressed individuals differed from that of the CO, suggesting the importance of environment in shaping methylation signatures. Through integration of methylation with transcription, we identified bases with potential regulatory functions, some 10s of kb away from the targeted genes. We then followed fish growth for an additional year. Individuals in EPH showed superior growth compared to other treatment groups, highlighting how stress can potentially have long-lasting effects on an organism’s ability to adapt to environmental perturbations.
Temporal changes in feeding and growth of immature (1+), maturing male (1+), and mature male and female (3+) Arctic charr were studied by monitoring feed intake and growth of individually-marked fish for over 1 year. The fish were held at a constant temperature (4 C) under conditions of liberal feed supply. Feed intake and growth remained low in the period December-April, with only 20-60% of the fish having fed on each occasion that feed intake was monitored. Feed intake and growth increased markedly during the late spring and summer, but the increases were delayed by approximately 1-2 months in the immature fish compared with their maturing counterparts. Maturing fish decreased feeding during the late summer and by September there had been an almost complete cessation of feeding. This was reflected in changes in fish body weight and condition, both of which declined from August-September onwards. By contrast, the immature fish peaked in weight and condition in September, and weight loss during the autumn tended to be less rapid than observed for the maturing fish. The fish appeared to reduce feeding once a ' threshold condition ' of 1·4-1·5 had been attained. It is suggested that the fish may become anorexic once there has been replenishment of the energy reserves required for overwintering and, in the case of maturing individuals, for the completion of gonadal growth and spawning. 1996 The Fisheries Society of the British Isles
Temperature treatment of common wolffish Anarhichas lupus during vitellogenesis affected the time of final maturation; ovulation in fish held at 8 and 12 C from mid-April to October was about four and five weeks delayed, compared with a 4 C group. Fish in the 8 C group had significantly larger eggs than those in the 4 C and the 12 C groups, and a significantly higher egg production than fish in the 12 C group. Temperature treatment did not affect either fertilization rate or relative fecundity, but absolute fecundity was significantly lower in the 12 C group than the other groups due to poor growth of the fish at high temperature. This did not affect the numbers of spawning individuals. There was a trend towards lower egg survival to the eyed stage in the 12 C group compared to the 4 and 8 C groups, although the effect was not statistically significant. The results indicate that both the timing of final maturation and investment in ovarian growth in common wolffish are affected by temperature experienced during vitellogenesis. 1999 The Fisheries Society of the British Isles
Unlike the sperm of most teleosts, that of the spotted wolffish Anarhichas minor is motile on stripping, remains motile for at least 2 days and loses motility when exposed to sea water. Computer assisted sperm analysis (CASA) was used to quantitatively examine the motility characteristics of spotted wolffish sperm. Straight line velocity (VSL), beat cross frequency (BCF) and percentage motility were the most sensitive indicators of movement. Sperm trajectories were very different to those of other teleosts examined, showing large side-to-side movements of the sperm head and a more ' wiggly ' behaviour which may be an adaptation to swimming in the viscous gelatinous egg mass. VSL was not altered by pH from 5·0 to 9·0, but was lower at pH 4·5. It was highest at 200 to 500 mOsm and decreased rapidly at <200 mOsm and more slowly at >500 mOsm. It is suggested that the unusual characteristics of spotted wolffish sperm in its trajectory and duration of motility, its release in a fully activated state and its greatly decreased motility in both fresh and sea water are related to a spawning strategy involving mixing of sperm with eggs contained in a gelatinous mass rather than release directly into water in proximity to the ova.
The factors of the Sox9-Amh-Cyp19a1 cascade play a crucial role in the complex process of sex differentiation in mammals. The involvement of Sox9 and Cyp19a1 paralogs and the single Amh ortholog in sex differentiation and development of the gonads and the brain in Atlantic cod was examined by analyzing bimodal and sex-dimorphic gene expression patterns, respectively, during early stages and in maturing males and females. Expression of sox9a and sox9b were initiated at blastulation, and both paralogs were expressed in chondrogenic tissue in the hatched larvae. The male-specific expression of sox9a in the adult gonads supports a conserved role in testis function, while sox9b was expressed in the maturing testes and ovaries at similar levels. Amh was expressed at low, but variable, levels from late gastrulation prior to the onset of cyp19a1a and cyp19a1b expression. Male-biased amh expression was found in the maturing gonads, but the increased ovarian levels during maturation suggest a role also in females. The larval expression of cyp19a1a and cyp19a1b increased at the expected time of sex differentiation, but showed large individual variation. The ovarian expression of cyp19a1a and amh increased concomitant with increased plasma estradiol levels during vitellogenesis. The testis-specific cyp19a1b expression supports the importance of estrogen in the spermatogenesis, while abundant expression in the male and female brain is probably related to the continuous neurogenesis in fish. These divergent and sex-dimorphic expression patterns of the cod sox9 and cyp19a1 paralogs demonstrate the complexity of the genetic network regulating sexual development in fish.
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