Abstract
Capital breeders develop gametes by using energy that was stored before the spawning season. Energy is allocated to growth and reproduction, and limited food availability affects the balance of energy allocation, especially in fish that mature within a year, such as western sand lance (Ammodytes japonicus). This species aestivates without feeding until winter spawning and utilize energy stores that were accumulated prior to aestivation for maturation and spawning. This study aimed to evaluate the growth, energy storage, maturation rate, and reproduction of A. japonicus in response to food availability before aestivation. We conducted laboratory experiments in which young-of-the-year A. japonicus were fed at rates of 4% and 1% of their body weight per day; assigned as high and low ration groups, respectively. In June, body length was found to be significantly larger in the high ration group than in the low ration group, but the somatic condition did not differ significantly between the groups. Maturation rates and average fecundities were 1.0 and 6297 in the high ration group and 0.8 and 2251 in the low ration group, respectively. These results indicate that food availability before aestivation strongly governs the reproductive potential of A. japonicus, and suggest the involvement of mechanisms in the inter-annual recruitment variation in sand lance species.
Highlights
Energy allocation for metabolism, somatic growth, and maturation is a key issue related to optimal reproduction in fish [1,2]
Most of the individuals in the high ration (HR) group entered aestivation before the end of June while most of the individuals in the low ration (LR) group were still seen swimming in the water column in all three LR tanks on June 30
The BWs of individuals in both treatments significantly increased from April 28 to June 9, and significant differences were consistently observed between treatments (May 19: F1,54 = 13.37, p < 0.001; June 9: F1,51 = 19.94, p < 0.001; June 30: F1,127 = 33.33, p < 0.001)
Summary
Energy allocation for metabolism, somatic growth, and maturation is a key issue related to optimal reproduction in fish [1,2]. Surplus energy is allocated primarily to somatic growth, and this growth-biased allocation results in the reduction in size-related mortality [3,4,5]. Somatic growth affects the timing of maturity [6] and fecundity [7]. Sufficient growth and energy accumulation are essential for successful reproduction. Fishes adopt various reproductive strategies, such as income-capital strategies, in order to more efficiently increase the number of offspring produced in their life-time [8,9].
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