Nature and nurture: Human brains evolved to be more responsive to environmental influences
News Nov 17, 2015
Research examines genetic influence on size & organization of human and chimpanzee brains -
Chimpanzees are our closest living relatives, but what is it about the human brain that makes us so different? Researchers at the George Washington (GW) University may have unearthed another piece of the puzzle. In a recent study, scientists discovered that human brains exhibit more plasticity, propensity to be modeled by the environment, than chimpanzee brains and that this may have accounted for part of human evolution.
This study, the first of its kind to examine the heritability of brain organization in chimpanzees compared to humans, provides a clue as to why humans are so capable of adapting to various environments and cultures.
Three-dimensional models of chimpanzee and human skulls showing their endocranial casts (teal) and brains (purple). Image credit: Jose Manual de la Cuetara, Aida Gomez-Robles
The research team studied 218 human brains and 206 chimpanzee brains to compare two things: brain size and organization as related to genetic similarity. The human brains were from twins (identical and fraternal) or siblings; the chimpanzee brains had a variety of kinship relationships, including mothers and offspring or half siblings. The study found that human and chimpanzee brain size were both greatly influenced by genetics. In contrast, the findings related to brain organization were different for chimpanzees and humans. In chimpanzees, brain organization is also highly heritable, but in humans this is not the case.
"We found that the anatomy of the chimpanzee brain is more strongly controlled by genes than that of human brains, suggesting that the human brain is extensively shaped by its environment no matter its genetics," said Aida Gómez-Robles, postdoctoral scientist at the GW Center for the Advanced Study of Human Paleobiology and lead author on the paper. "So while genetics determined human and chimpanzee brain size, it isn't as much of a factor for human cerebral organization as it is for chimpanzees."
The paper is published in the Proceedings of the National Academy of Sciences.
"The human brain appears to be much more responsive to environmental influences," said Dr. Gómez-Robles. "It's something that facilitates the constant adaptation of the human brain and behavior to the changing environment, which includes our social and cultural context."
Note: Material may have been edited for length and content. For further information, please contact the cited source.
Gómez-Robles A et al. Relaxed genetic control of cortical organization in human brains compared with chimpanzees. Proceedings of the National Academy of Sciences, Published Online November 16 2015. doi: 10.1073/pnas.1512646112
When infants are playing with objects, their early attempts to pay attention to things are accompanied by bursts of high-frequency activity in their brain. But what happens when parents play together with them? New research shows for the first time that when adults are engaged in joint play together with their infant, their own brains show similar bursts of high-frequency activity.
Many species of mammals have evolved what appear to be paradoxical behaviours towards their young. Like humans, most exhibit nurturing, protective behaviours, and in some circumstances even act as surrogate parents. However, virgin males often engage in infanticide as a strategy to propagate their own genes. How are these conflicting social behaviours controlled?