Mate availability affects the conflict between producing one ormultiple annual clutches.
Breedveld, San-Jose, Romero-Diaz, Roldan & Fitze (2017). Mate availability affects the conflict between producing one ormultiple annual clutches. Animal Behaviour 123: 43-51.
Females of many iteroparous species face trade-offs between producing one or multiple broods per reproductive season, and over fertilizing broods with sperm from the same or different mates. Both trade-offs might be affected by the availability of males (i.e. absence/presence of males) and the timing and duration of male encounter.
Here, we experimentally manipulated the duration of mate availability at the first brood and mate availability per se (i.e. absence/presence of mates) at the second brood, and tested their effects on female and male reproductive success, using the common lizard, Zootoca vivipara, as a model species. Females were either exposed to males for a long time-span before their first annual reproduction and they could re-mate before their second annual reproduction (unrestricted treatment). Alternatively, they were exposed to males for a short time-span before their first annual reproduction and they were not allowed to re-mate (restricted treatment). Reproductive success of first clutches was not directly affected by the duration of access to males. Re-mating positively affected the probability of producing a second clutch, and the proportion of viable offspring. Re-mating by females also affected the reproductive success of males: fewer second clutch eggs were fertilized with stored sperm in unrestricted compared to restricted females. Sperm presence in males was high until the end of the re-mating period.
Our results suggest a close coevolution between male and female reproductive strategies and they point to facultative skipping of second broods, when fitness benefits are small. This shows that behavioural strategies are at least partially responsible for the production of multiple annual broods. The detected behavioural strategies are likely widespread, given the multitude of taxa raising multiple broods in some, but not all years, and given that in most taxa some, but not all individuals, produce multiple annual broods.
Females of many iteroparous species face trade-offs between producing one or multiple broods per reproductive season, and over fertilizing broods with sperm from the same or different mates. Both trade-offs might be affected by the availability of males (i.e. absence/presence of males) and the timing and duration of male encounter.
Here, we experimentally manipulated the duration of mate availability at the first brood and mate availability per se (i.e. absence/presence of mates) at the second brood, and tested their effects on female and male reproductive success, using the common lizard, Zootoca vivipara, as a model species. Females were either exposed to males for a long time-span before their first annual reproduction and they could re-mate before their second annual reproduction (unrestricted treatment). Alternatively, they were exposed to males for a short time-span before their first annual reproduction and they were not allowed to re-mate (restricted treatment). Reproductive success of first clutches was not directly affected by the duration of access to males. Re-mating positively affected the probability of producing a second clutch, and the proportion of viable offspring. Re-mating by females also affected the reproductive success of males: fewer second clutch eggs were fertilized with stored sperm in unrestricted compared to restricted females. Sperm presence in males was high until the end of the re-mating period.
Our results suggest a close coevolution between male and female reproductive strategies and they point to facultative skipping of second broods, when fitness benefits are small. This shows that behavioural strategies are at least partially responsible for the production of multiple annual broods. The detected behavioural strategies are likely widespread, given the multitude of taxa raising multiple broods in some, but not all years, and given that in most taxa some, but not all individuals, produce multiple annual broods.