Wild birds that are cleverer than others at foraging for food have different levels of a neurotransmitter receptor that has links to intelligence in humans, according to a study. The findings could provide insight into the evolutionary mechanisms affecting cognitive traits in a range of animals. As reported in Science Advances, the researchers caught Barbados bullfinches and black-faced grassquits near McGill Universitys Bellairs Research Institute in Barbados. Bullfinches are bold, opportunistic, and innovative, while grassquits are shy and conservative. They are each others closest relative in Barbados and are cousins of Darwins finches from the Galápagos islands. In captivity, the problem-solving skills of the two-species differed considerably in lab tests. Most of the bullfinches quickly figured out how to lift the lid off a jar of food, for example, while all the grassquits were stumped by the challenge. These performances were in line with the differences in the birds innovativeness in the wilda trait that can help animals survive in changing environments. The researchers then compared the expression of all genes in six parts of the brain of the two-bird species. A family of genes stood out: glutamate neurotransmitter receptors, especially in the part of the bird brain that corresponds to humans prefrontal cortex. Glutamate receptors are known to be involved in a variety of cognitive traits in humans and other mammals. In particular a receptor known as GRIN2B, when boosted in transgenic mice, makes them better learners. Levels of that receptor were higher in the Barbados bullfinch than in the grassquit, the researchers found. By comparing an extremely innovative species like the Barbados bullfinch with a closely related conservative one like the black-faced grassquit, we gain insight into the evolutionary mechanisms that can lead to divergence in behaviour, McGill biologist Jean-Nicolas Audet. It might be that mammals, including humans, and birds like the Barbados bullfinch use similar mechanisms to perform cognitively. If our results are confirmed in future studies, it would be a unique demonstration of convergent evolution of intelligence, involving the same neurotransmitter receptors despite the widely different brain structures of birds and mammals. Funding for the research came in part from the Fonds de recherche du Québec Nature et technologies, the Natural Sciences and Engineering Research Council of Canada, the Howard Hughes Medical Institute, and a Hydro-Québec doctoral scholarship.
Futurity, 15 March 2018 ; http://www.futurity.org