Scientists at the University of Birmingham have been carrying out ‘laboratory gunfights’ to show that we move faster when we react to something in our environment than we do when we initiate the action ourselves. It is an idea inspired by cowboy movies, but in reality it’s more useful for avoiding oncoming traffic. Funded by the Biotechnology and Biological Sciences Research Council (BBSRC) and the Wellcome Trust, the research is published today (03 February 2010) in Proceedings of the Royal Society B.
Think of the Wild West of early Hollywood movies where the man who draws his gun first is the one to get shot at. This is what inspired the Nobel Laureate Niels Bohr to suggest that the intentional act of drawing and shooting is slower than the act of firing in response to another's initial action i.e. the ‘quick draw’ is the one responding to their opponent's action rather than the one initiating the dual.
Dr Andrew Welchman, a BBSRC David Phillips Fellow at the University of Birmingham’s School of Psychology, led the research. He said: "In our everyday lives, some of the movements we make come about because we decide to make them, while others are forced on us by reacting to events. Bohr's suggestion reflects this everyday intuition. We wanted to know if there was evidence for these reactive movements being swifter than the equivalent proactive ones. So we set up a competition between two people who were challenged to press a row of buttons faster than their opponent. There was no 'go' signal so all they had to go by was either their own intention to move or a reaction to their opponent - just like in the gunslingers legend."
The team found that the participants who reacted to their opponent executed the movement on average 21 milliseconds faster than those who initiated the movement. However, they did not respond as accurately in the test.
Dr Welchman continued: "As a general strategy for survival, having this system in our brains that gives us quick-and-dirty responses to the environment seems pretty useful. 21 milliseconds may seem like a tiny difference, and it probably wouldn't save you in a Wild West dual because your brain takes around 200 milliseconds to respond to what your opponent is doing, but it could mean the difference between life and death when you are trying to avoid an oncoming bus.
"Apparently Bohr tested his theory in toy pistol fights with his colleague, George Gamow. Bohr took the reactive approach and won every time, thus proving himself correct - or at least it looked that way. Actually he was probably just a very good shot."
The team are now interested to know if there are two different brain processes happening for the two types of action. There might be some evidence for this in people with Parkinson's disease. It is known that people with Parkinson's disease find intentional movements far more difficult than reactive ones - if you ask someone with Parkinson's to pick up a ball from a table they can find it far more difficult than they would to catch the same ball if it were thrown at them. This might be evidence that particular areas of the brain affected by Parkinson's contribute more to intentional actions than reactive ones. If this turns out to be the case, then it may also be possible to develop some strategies to ease movement in such patients.
Professor Douglas Kell, BBSRC Chief Executive said: "Bioscience will provide solutions to many of the challenges faced in the 21st century and this includes keeping us healthy throughout our lives. By understanding our brains we can know more about how they develop in early life and also why and how they deteriorate, particularly later in life. By generating this knowledge, bioscience research provides unique access to possible actions that we might use to prevent or delay this."
http://www.bbsrc.ac.uk/media/releases/2010/100203-the-quick-and-the-dead-evidence-that-swiftest-response-to-events.html
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University of Birmingham Communications Office
Anna Dingley, Press Officer, Tel: 0121 415 8134/07769 952763, email a.j.dingley@bham.ac.uk
Nancy Mendoza, Tel: 01793 413355, email: nancy.mendoza@bbsrc.ac.uk
Matt Goode, Tel: 01793 413299, email: matt.goode@bbsrc.ac.uk
Tracey Jewitt, Tel: 01793 414694, email: tracey.jewitt@bbsrc.ac.uk
The research is published in Proceeding of the Royal Society B: http://rspb.royalsocietypublishing.org/content/firstcite
The University of Birmingham has more than 28,000 students from the UK and around the world and around 6,000 staff. With an annual turnover of £441 million, the University is one of the largest employers in the West Midlands and its activities contribute £779 million to the region. For more than 100 years research at the University of Birmingham has contributed to the advancement of knowledge and its application on a national and international scale. Following the 2008 Research Assessment Exercise (RAE) Birmingham was placed as the 12th university in the UK based on ‘research power’. For more information please visit www.bham.ac.uk
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Biotechnology and Biological Sciences Research Council (BBSRC)
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