The most common real-world example of this is the Gyrodactylid flatworm, a common parasite found on fish like guppies.
How the Process Works
The Chain: A mother worm holds multiple generations inside her uterus at once.
The First-Born Rule: In the Gyrodactylus parasite, this serial polyembryony happens only in the first-born daughter of the original parent.
The Embryo Cluster: The first-born daughter develops in the center of an embryo cluster, already carrying the next generation.
Later Daughters: Any later daughters born to the original parent develop from standard eggs (oocytes) and do not carry this same pre-pregnancy trait.
This matters because this leads to
Fast Growth: This method allows a single parasite to multiply rapidly. A single original worm can produce a population of over 2,000 worms in just 30 days.
No Egg Stage: Because the babies are born live and already carrying the next generation, these parasites skip the egg stage entirely. This makes them highly effective and fast-spreading pests on fish.
The Cycle - A newborn baby worm is born with a fully formed embryo already in its uterus.
Inside that embryo - A third generation is already starting to grow.
The Result - Because no eggs are laid (the worms give live birth), a single worm can hold up to three daughter generations at once.
Imagine a mother giving birth to a daughter. But before the daughter is even born, she is already pregnant with her own child, and that unborn child is also pregnant.
This rapid system means the worms can reproduce extremely fast.