Friday, September 20, 2024

 

Highly-sensitive beaks could help albatrosses and penguins find their food



University of Cambridge
Atlantic Yellow-nosed Albatross 

image: 

Atlantic Yellow-nosed Albatross (Thalassarche chlororhynchos) feeding on the surface of the ocean on fishery bycatch.

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Credit: Carla du Toit




Researchers have discovered that seabirds, including penguins and albatrosses, have highly-sensitive regions in their beaks that could be used to help them find food. This is the first time this ability has been identified in seabirds.

An international team of researchers, led by the University of Cambridge, studied over 350 species of modern birds and found that seabirds have a high density of sensory receptors and nerves at the tip of their beaks, which has been previously identified in specialised tactile foragers such as ducks.

The researchers say this touch-sensitive region could have come from a common ancestor, and further work is needed to determine whether it serves a specific function in modern birds. Further study of their beaks and food-gathering behaviour could help conserve some of these birds, many of which are at threat of extinction. The results are reported in the journal Biology Letters.

In the same way as humans and other primates use their hands, birds use their beaks to interact with the world around them. Some birds have specialised touch-sensitive areas at the tips of their beaks to help them find food, but since this ability has not been widely studied, it’s not known how the phenomenon evolved or how widespread it is.

“Many scientists had assumed most birds had touch-sensitive beaks, but we hadn’t investigated it enough to know whether it’s a common ability, or whether it’s limited to particular families of birds,” said lead author Dr Carla du Toit from Cambridge’s Department of Earth Sciences.

One group that hasn’t been well studied is the large group of seabirds called Austrodyptornithes, which includes albatrosses, petrels, and penguins. Since many of the bird species in this group are critically endangered, understanding how they find their food using their beaks could be a valuable tool to aid in their conservation.

Du Toit and her colleagues from the UK and South Africa conducted a study of 361 modern bird species, based on fossil and skeletal records, as well as birds that had been accidentally killed by fishing lines and nets. The team focused on the beaks of these birds, how they are constructed and connected to their nerves and blood vessels.

The researchers found that albatrosses and penguins have organs with high density sensory receptors and high concentrations of nerves in their beaks, which is more common in specialised foragers such as ducks. This is the first time that this functionality has been observed in seabirds.

“Seabirds aren’t known to be tactile foragers, so it’s surprising to find that they have this organ,” said du Toit. “It’s really exciting when you get to be the first to see something.”

These touch-sensitive beaks might help seabirds find food at night or underwater, as they might enable the birds to detect tiny vibrations from potential prey. Some birds that are already known to have touch-sensitive beaks use them to detect tiny underground vibrations from worms, for example.

However, these sensitive areas could also be a ‘leftover’ trait from a common ancestor that doesn’t have a specific function in modern birds, like the beaks of ostriches and emus. Further studies in live birds will be needed to establish the exact purpose of these touch-sensitive areas, which may also help determine how the ability evolved.

“In humans and other primates, our sensitive hands and fingers allowed us to master a huge range of environments,” said du Toit. “Beaks are analogous to hands in a way, but this is the first time we’ve seen touch-sensitive beaks in seabirds. It’s remarkable that no one has ever really studied this in detail, considering that we all learn about evolution from the beaks of Darwin’s finches in school.”

The researchers say their findings could potentially play a role in conserving some of these birds. Of the 22 known species of albatross, 15 are threatened with extinction and two are listed as critically endangered. One of the big threats to albatrosses is commercial longline fishing, which kills an estimated 100,000 of the birds per year, when they get tangled in the lines and drown. According to du Toit, if scientists can better understand how these birds get their food, it could be used to help protect them.

“Much further work is needed, but if albatrosses and other seabirds are able to detect vibrations from potential prey via their beaks, it could be possible to attach some sort of device to longlines that could repel them, so they are less likely to get caught,” said du Toit. “Of course, the bigger threats to birds like albatrosses are climate change, rising ocean temperatures, plastic pollution and falling fish stocks, but if there’s a way to reduce the risks to seabirds in even a small way, then that’s incredibly valuable. These are such special birds and I’ve been interested in them for as long as I can remember.”

The research was supported in part by the Royal Society, the Newton International Fellowship, and UK Research and Innovation (UKRI).


Birds use their beaks for a diverse range of tactile functions (much as primates use their hands), including building nests, finding food, caring for young and during courtship or social interactions.

Credit

Grace Kinney-Broderick



The beaks of albatrosses and penguins, compared to other, “normal” beaks (examples shown of a petrel and a gull) and a bird with a tactile bill-tip organ (a tinamou, close relative of ostriches and emus and which has an ancestral bill-tip organ). The photographs show the underside of the beak bones, and the red struictures on the right show the neurovascular tissue (nerves and blood vessels) within the bone. Note the high numbers of neurovascular pits or “holes” on the bone of the beak and high density of neurovascular canals in albatrosses and penguins, similar to that of the birds with known bill-tip organs.

Credit

Carla du Toit

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