Why do guillemot chicks leap from the nest before they can fly?

Why do guillemot chicks leap from the nest before they can fly?

A guillemot male and his offspring contemplating the leap into nothingness from a cliff at Saunders, Northwest Greenland. Photo: Knud Falk

 

It looks like a spooky suicide when small, fluffy guillemot chicks leap from the cliffs and fall several hundred metres towards the sea – long before they are fully fledged.

And you ask yourself why when you on a calm Arctic night watch the spectacular sight of dozens of young guillemots who leave their safe nests and flutter past the towering cliffs into nothingness.

What is it that drives these young birds into something that to the eye seems an impossible survival strategy for the species?

Food deep in the ocean

Researchers from, among others, Aarhus University, Denmark and Greenland Institute of Natural Resources, Greenland, have now discovered that there is good reason behind this seeming madness. They mounted small electronic loggers on the legs of a number of birds and recorded the birds’ flight and diving behaviour in detail.

The guillemot (or thick-billed murre) is a seabird with a long life span. The female lays only one egg and thus has no more than one chick per year. Guillemots nest on cliffs in the Arctic, often in very large colonies with up to hundreds of thousands of birds – including Saunders Island, Thule, Greenland, where researchers have now studied their behaviour.

The arctic summer is short and females must quickly produce an egg. After the chick is hatched and is still in the nest, both the mother and the father bring it food, which consists of small fish.

The small electronic dataloggers revealed that guillemots can dive very deep to find food – down to about 200 m. This is deeper than for any other flying bird.

Males ensure the growth of their offspring

The distance from good fishing spots to the colony may be long, and in late summer the female is exhausted. This is when the male steps into character and guides his offspring to the sea and the indispensable pantry. And the male stays with his offspring for five to seven weeks at sea.
“Our measurements show that the male feeds the chick twice as much as both parents could if the chick remained in the colony. At sea, the male does not needs to spend time and strength on flying back with food, but can just dive for it,” says Senior Scientist Morten Frederiksen from Aarhus University, who is co-author of the recently published study revealing the survival strategy of guillemots.
“It is quite impressive that the male feeds the chick so extensively. The study also shows that the males are exploiting areas with significantly lower food availability than the areas from where the females collect food. This is because the males swim with the chick and therefore cannot fly to the best feeding areas,” says Morten Frederiksen.

A strategic choice

At the same time, the scientists have killed the myth that the chicks have a better chance of survival in the colony than at sea.
“This explains why the chicks leave the colony so early – just three weeks after hatching and being only a quarter of the size of an adult. The faster growth at sea ensures survival of the population,” Morten Frederiksen explains.
The scientists believe that the chicks leap from the steep cliffs when their wings are just large enough to act as a primitive parachute.
While the male dives for food for his offspring during all daylight hours in late summer, the female has fun at the colony. Here, she copulates with potential suitors who can step in if her mate does not return the next breeding season. At the same time, she defends the couple’s nest against other females showing an interest in acquiring it.

 

Two guillemots, a male with his offspring. The chick swims and dives well but cannot yet catch its own food. Photo: Lars Maltha Rasmussen

 

More information:

Senior scientist Morten Frederiksen, Ph.D., Dr. MSc., Department of Bioscience, Aarhus University Tel.: +45 8715 8673; 30822810; E-mail: mfr@bios.au.dk

Read more:

“Variation in Growth Drives the Duration of Parental Care: A Test of Ydenberg’s Model” in

The American Naturalist: http://www.amnat.org/an/newpapers/MayElliott.html