Researchers pinpoint gene for beak size and track how it changed during a severe drought
Researchers are pinpointing the genes that lie behind the varied beaks of Darwin’s finches – the iconic birds whose facial variations have become a classic example of Charles Darwin's theory of natural selection.
Last year, researchers identified a gene that helps to determine the shape of the birds’ beaks. Today in Science, they report a different gene that controls beak size. Shifts in this gene underlay an evolutionary change that researchers watched in 2004–05, during a drought that ravaged the Galapagos Islands, where the finches live. The beak sizes of one population of finches shrank, so as to avoid competing for food sources with a different kind of finch – and their genetics changed accordingly.
“A big question was, ‘Is it possible to identify genes underlying such evolution in action, even in a natural population?’,” says Leif Andersson, a geneticist at Uppsala University in Sweden and one of the study’s authors. “We were able to nail down genes that have directly played a role in this evolutionary change.”
The story begins about two million years ago, when the common ancestor of all Darwin’s finches arrived on the Galapagos Islands. By the time of Charles Darwin’s visit in 1835, the birds had diversified into more than a dozen species, each adapted to different ecological niches. Some had massive beaks for cracking seeds, some had delicate beaks for snatching insects, and some even had sharp beaks for feeding on blood.
To examine the genetic basis for this variation, the researchers compared the genomes of 60 birds representing six species of Darwin’s finches, along with 120 specimens from other species to help them tease out phylogenetic relationships. As expected, closely related species had the most similar genomes.
Gene for size
But in those six finch species one region of the genome correlated more with bird size than with relatedness. Small species had one variation of this genomic region, large species had another and medium-sized species had a mixture of the two, suggesting that at least one of the genes in this region affected size. The most likely candidate was HMGA2, which is known to affect size and face structure in other animals. Further analysis showed that in Darwin’s finches, the HMGA2region is especially important in controlling the size of the beak.
The researchers then looked at the role of HMGA2 in a dramatic evolutionary event. After drought struck the Galapagos in 2003, many of the medium ground finches (Geospiza fortis) with larger-than-average beaks starved to death. They couldn’t compete with a bigger species (Geospiza magnirostris) that had recently colonized the island and was better at eating large seeds. After the drought, the medium ground finches that managed to survive had smaller beaks than those that had perished, probably because they were better suited to eating the small seeds that their competitors avoided.
By analysing DNA from medium ground finches that lived around the time of the drought, the researchers found that the large-beak HMGA2 variant was more common in birds that starved to death, while the small-beak variant was more common in birds that survived. This genetic shift is likely responsible for some of the reduction in beak size, the researchers say.
The discovery opens up new questions for biologists to explore, such as when gene variants arise and how they contribute to splits between species, says Dolph Schluter, an evolutionary biologist at the University of British Columbia in Vancouver, Canada.
“On the one hand it doesn't change anything, in that we already knew there was an evolutionary response to competition during that drought,” says Schluter. “But on the other hand, it changes everything, because we can point to a physical, material basis for that change.”
This article is reproduced with permission and was first published on April 21, 2016.
ABOUT THE AUTHOR(S)
The finches in the above video were collected from the Galápagos Islands in 1835 by Charles Darwin and his colleagues during the second voyage of HMS Beagle (1831-1836).
The different finch species on the islands are closely related to each other, but show wide variations in beak and body size and feeding behaviour.
In particular, changes to the size and shape of the beaks have enabled the different species to specialise in different types of food: seeds, insects, cactus flowers and fruits or even bird blood.
The Galápagos finches are a classic example of adaptive radiation. Their common ancestor arrived on the islands a few million years ago. Since then, a single species has evolved into different species that are adapted to fill different lifestyles.
Darwin didn't recognise the significance of these birds when he first encountered them as he didn't realise how closely related they were to each other. Later, he wrote: 'Seeing this gradation and diversity of structure in one small, intimately related group of birds, one might really fancy that from an original paucity of birds in this archipelago, one species had been taken and modified for different ends.' (Journals of Researches, 2nd Edition, 1845)
Suggestions for use in class
The video above shows six different species of finch found by Darwin and his colleagues on the Galápagos Islands. Overall, there are about 15 closely related species of Darwin's finches.
The video could be used as starter on a lesson on evolution, adaptation and natural selection, or as a part of a discussion on the evidence gathered by Darwin for his theory of evolution.
The video asks: 'Can you spot the differences between these finches?'
The birds differ in plumage and body size but the most obvious differences between the birds are the size and shape of their beaks, which are dependent on their food preferences and specialisations. The thinnest beak belongs to the green warbler finch which uses it to probe for insects. The massive, stout beak of the large ground finch enables it to crush big hard seeds. The long pointed beak of the common cactus finch helps it extract seeds from cactus fruit.
Other questions you could raise with your class after they have seen the video:
- Why do you think the different species have different shaped beaks?
- Molecular evidence indicates that the single ancestor species of the finches arrived in the Galápagos Islands between 2-3 million years ago. Since that time, these volcanic islands have undergone many changes in sea level, elevation and climate. What selection pressures might the finches have faced?
- The HMS Beagle team collected thousands of specimens of plants and animals during their expedition. Why did they do this?