Reproductive synchrony

Reproductive synchrony is a term used in evolutionary biology and behavioural ecology. Reproductive synchrony — sometimes termed 'ovulatory synchrony' — may manifest itself as 'breeding seasonality'. Where females undergo regular menstruation, 'menstrual synchrony' is another possible term.

Reproduction is said to be synchronised when fertile matings across a population are temporally clustered, resulting in multiple conceptions (and consequent births) within a restricted time window. In marine and other aquatic contexts, the phenomenon may be referred to as mass spawning. Mass spawning has been observed and recorded in a large number of phyla, including in coral communities within the Great Barrier Reef.

In primates, reproductive synchrony usually takes the form of conception and birth seasonality. The regulatory 'clock', in this case, is the sun's position in relation to the tilt of the earth. In nocturnal or partly nocturnal primates — for example, owl monkeys — the periodicity of the moon may also come into play. Synchrony in general is for primates an important variable determining the extent of 'paternity skew' — defined as the extent to which fertile matings can be monopolised by a fraction of the population of males. The greater the precision of female reproductive synchrony — the greater the number of ovulating females who must be guarded simultaneously — the harder it is for any dominant male to succeed in monopolising a harem all to himself. This is simply because, by attending to any one fertile female, the male unavoidably leaves the others at liberty to mate with his rivals. The outcome is to distribute paternity more widely across the total male population, reducing paternity skew (figures a, b).

Reproductive synchrony can never be perfect. On the other hand, theoretical models predict that group-living species will tend to synchronise wherever females can benefit by maximising the number of males offered chances of paternity, minimising reproductive skew. For example, the cichlid fish V. moorii spawns in the days leading up to each full moon (lunar synchrony), and broods often exhibit multiple paternity. The same models predict that female primates, including evolving humans, will tend to synchronise wherever fitness benefits can be gained by securing access to multiple males. Conversely, group-living females who need to restrict paternity to a single dominant harem-holder should assist him by avoiding synchrony.

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