Why Did I Come In Here?

Forget Why You Walked in a Room? Doorways to Blame, Study Finds

By Natalie Wolchover, Life’s Little Mysteries Staff Writer
21 November 2011 3:43 PM ET

 

Credit: Dreamstime

 

“So … what am I doing here, anyway?”

Even the most nimble-minded among us have pondered that question after walking into a room with some purpose in mind — to get something, perhaps? — only to blank on what that purpose was. Now a new study suggests that it’s the very act of walking through a doorway that causes these strange memory lapses.

“Entering or exiting through a doorway serves as an ‘event boundary’ in the mind, which separates episodes of activity and files them away,” said lead researcher Gabriel Radvansky, a psychologist at the University of Notre Dame. “Recalling the decision or activity that was made in a different room is difficult because it has been compartmentalized.”

In our minds, like in the movies, threshold-crossing signals the end of a scene.

As detailed in the Quarterly Journal of Experimental Psychology, the explanation follows from a series of experiments that probed the relationship between memory and various types of home wandering. First, Radvansky assigned a group of study participants the task of selecting an object from one table and exchanging it for an object at a different table in another room. He then had a second group perform the same task between tables that were an equal distance apart, but in the same room.

The difference in the two groups’ performances was “big enough to drive a truck through,” Radvansky told Life’s Little Mysteries. Despite the simplicity of their task, “people were two to three times as likely to forget what they were supposed to do after walking through a doorway.” This suggested that doorways acted as mental blocks, impeding our ability to retrieve memories formed elsewhere.

The finding held true when the participants navigated both real-world and virtual settings.

But was it actually threshold-crossing that caused their memory lapses, or was it simply being in a different environment than the one in which they learned their task? To find out, Radvansky had the volunteers perform another object-exchanging task, but this time, the task required them to pass through several doorways leading back to the room in which they started. As it turned out, their memories failed them in this scenario just as they did in the other threshold-crossing scenarios. “When they went through multiple doorways, the error rate increased,” he said. This suggests that the act of passing through doorways, rather than the fact of being in a different environment, kills memory, he said.

So why does this happen? “When we are moving through the world, it is very continuous and dynamic and to deal with it more effectively, we parse things up,” Radvansky said. Neuroscientists have begun imaging the brains of people crossing event boundaries and, from these studies, are just beginning to piece together how the brain performs this function. “There are a lot of [brain] areas that light up at different kinds of event boundaries.”

Mental event boundaries are useful because they help us organize our thoughts and memories. But when we’re trying to remember that thing we were intending to do… or get… or maybe find… they can be annoying.

“I think architects are interested in this research because they want to design spaces that are more effective,” Radvansky said. “For example, they might need to consider where you need doorways and where you don’t.”

from:   http://www.lifeslittlemysteries.com/walking-doorways-forgetting-2192/

Another Human-Animal Connection

Humans Hardwired to Respond to Animals

Wynne Parry, Senior LiveScience Writer
Date: 09 September 2011 Time: 08:46 PM ET
Happy Dog Face
A specific part of your brain, your right amygdala, responds more to this animal face than that of another person, a study has found.
CREDIT: Caroline Kjall/stock.xchng

A part of your brain is hardwired to respond to animals, whether cute and fluffy or ugly and threatening, a new study has found.

research team showed pictures of people, landmarks, animals or objects to epilepsy patients, who were already wired up so doctors could watch brain activity related to seizures. The researchers monitored the activity in the patients’ amygdalae, two roughly almond-shaped structures in the brain associated with emotions, fear and the sense of smell.

“Our study shows that neurons in the human amygdala respond preferentially to pictures of animals, meaning that we saw the most amount of activity in cells when the patients looked at cats or snakes versus buildings or people,” said Florian Mormann, lead study researcher and a former postdoctoral scholar at Caltech.

This preference extends to cute as well as ugly or dangerous animals and appears to be independent of the emotional contents of the pictures. Remarkably, we find this response behavior only in the right and not in the left amygdala,” Mormann said.

They found the activity in the right amygdala was not only greater, but neural responses were also faster for the animal pictures. The researchers then found the same response among people not suffering from epilepsy.

Past amygdala research has usually focused on human faces and fear, so it was a surprise to see that neurons in the right amygdala respond more to animals of all kinds than to human faces, according to Ralph Adolphus, a team member and professor at Caltech.

http://www.livescience.com/15996-brain-amygdala-animal-preference.html

Watch Who You Mimic

Copying Someone’s Behavior? Watch Who You Mimic

Remy Melina, LiveScience Staff Writer
Date: 01 August 2011 Time: 12:19 PM ET
mirroring experiment
During the experiment, participants rated the interviewees who mimicked the behavior of the unfriendly interviewer as less competent than those who didn’t mirror him.
CREDIT: Piotr Winkielman | University of California, San Diego

While imitating another may be a sincere form of flattery, such mirroring can get you into trouble socially if you’re copying the wrong person, new research shows.

When participants in the study mirrored (or copied the mannerisms of) an unlikeable person, they were also judged as less competent and likeable by others, the researchers found.

Mirroring happens all the time and has been shown to involve mirror neurons, which are the cells in the brain that activate when we watch someone else perform a particular action that we also perform ourselves.

to read more, go to:    http://www.livescience.com/15332-mirroring-behavior-downside.html