Baby sea stars eat their siblings in what is an unexpected case of underwater cannibalism, according to scientists who accidentally observed the behaviour.
Experts from William & Mary’s Department of Biology were trying to see how baby sea stars would react when a crab was introduced to their tank, but they started eating each other before the predator was introduced.
Forbes’ sea stars are found on the East Coast of the US, the juveniles are about 1mm in diameter (0.04 inches) and adults can reach up to 5.9 inches in diameter.
To grow, the juveniles must eat, and the study authors found that young sea stars often turn on each other, with the larger creatures targeting their smaller siblings.
The females can produce up to 10 million eggs per year, and so study authors believe they developed juvenile cannibalism as a survival tactic.
Baby sea stars eat their siblings in what is an unexpected case of underwater cannibalism, according to scientists, who accidentally observed the behaviour
Sea stars are also known as starfish, but scientists avoid using the term as the species is not a form of fish.
Cannibalism is widespread in nature, but their discovery marks a previously unknown example of cannibalism in marine invertebrates.
Little embryos of sea stars fly through the water and during this larval stage they look like ‘weird little spaceships’, according to study author Karina Brocco French.
The weird little spaceship stage lasts around a month, Brocco French said, before they metamorphose into juveniles, settling onto the sea floor.
Jon Allen said the juveniles are essentially pinhead-sized, star-shaped versions of their parents, and it is at this stage they engage in cannibalism.
It was already known that the juvenile sea stars would eat larva from stars that had fallen to the sea floor, this is the first time they’ve been shown eating their smaller, fully formed siblings.
Allen and Brocco French recorded cannibalism among the sea stars as early as four days post-metamorphosis – transition from larval form to juvenile stage.
‘I’m convinced that if they could, they would eat each other during the little spaceship phase,’ Brocco French said. ‘But unfortunately, I don’t think they have the ability to do that until they turn into little bitty sea stars.’
Allen said the larval sea-star spaceships eat algae, but ‘when the spaceship lands, the juveniles on the bottom eat the larvae.’
When juvenile-eats-juvenile action occurs, a sea star is taking on a meal roughly the same size as itself, Brocco French explained, adding that ‘they extrude their stomachs, kind of like turning it inside out like a plastic bag.’
‘And then they sort of engulf whatever it is they’re trying to eat, and start to break it down, and then absorb the broken-down stuff.
‘So they don’t need teeth or anything. They’ve got it covered.’
A sea star has multiple stomachs and the one used to consume their siblings is known as the cardiac stomach.
‘Instead of putting their food in their mouth, they slide their stomach out of their mouth into their food,’ Allen said.
Allen and Brocco French recorded cannibalism among the sea stars as early as four days post-metamorphosis – transition from larval form to juvenile stage
Their observations show that even the smallest differences in size can determine whether a star fish is going to be dinner or diner.
Allen said that in evolutionary context, sibling cannibalism provides an adaptive advantage to the individual sea star.
This is especially true when you consider the inevitable competition that results when a female produces five to ten million eggs each year.
Cannibalism is common in the animal kingdom, the practice has been documented in more than 1,300 species, vertebrates and invertebrates alike.
Their observations show that even minute differences in size can delineate the difference between the dinner and the diner
Brocco French and Allen suspect that cannibalism is even more widespread than that, likely to be common among small animals and animals in early growth stages.
Allen says he hopes the Ecology paper will represent an ‘aha! moment’ for researchers to look closely at the wide range of microscopic life.
‘We think — anthropomorphizing — that cannibalism is terrible. No one should be cannibalistic, ‘he said. ‘But in nature, ‘red in tooth and claw,’ this is something that can be favoured. So it seems to be a strategy that’s likely to be common.’
The findings were published in the journal Ecology.