Summary: Objective and subjective memories function independently and involve different areas of the brain. People who make decisions based on subjective memory rely more on how they feel about the memory than on the accuracy of the details.
Source: UC Davis
When we recall a memory, we retrieve specific details about it: where, when, with whom. But we often also experience a vivid feeling of remembering the event, sometimes almost reliving it. Memory researchers call these processes objective and subjective memory, respectively.
A new study from the Center for Mind and Brain at the University of California, Davis, shows that objective and subjective memory can function independently, involve different parts of the brain, and that people base their decisions on subjective memory — how they feel about a memory — more than on its accuracy.
“The study distinguishes between how well we remember and how well we think we remember, and shows that decision making depends primarily on the subjective evaluation of memory evidence,” said co-author Simona Ghetti, professor at the UC Davis Department of Psychology and Center for Mind and Brain.
The work is published March 9 in the journal eLife.
Postdoctoral researcher Yana Fandakova, now an investigator at the Max Planck Institute for Human Development in Berlin, graduate student Elliott Johnson and Ghetti tested objective and subjective memory. After showing volunteers a series of images of common objects, the researchers showed them pairs of images and asked them to determine which of the two they had seen before.
The volunteers were asked to rate the memory as “recollected,” if they experienced it as vivid and detailed, or as “familiar” if they felt that the memory lacked detail. In some of the tests, image pairs included a target image and a similar image of the same object. In others, the target was shown with an unrelated image from the same original set. For example, a chair might be shown with another chair shown from a different angle, or with an apple.
This experimental design allowed the researchers to score objective memory by how well the volunteers recalled previously seeing an image, and subjective memory by how they rated their own memory as vividly recollected or merely familiar. Finally, participants were asked to select which images to keep or discard, assigning them to a treasure chest or trash bin.
The team also used functional MRI to measure brain activity during this task.
Scoring objective and subjective memory
The results showed higher levels of objective memory when participants were tested with pairs of similar images. But, people were more likely to claim that they remembered vividly when looking at pairs of dissimilar images.
Participants were more likely to base their decision about whether to keep or trash an image on how they felt about a memory rather than its objective accuracy.
To give a real-world example, a person could have a vivid memory of going to an event with friends. Some of the actual details of that memory might be a bit off, but they may feel it is a vivid memory, so they might decide to go out with the same people again (after the pandemic).
On the other hand, if someone has learned to use similar power tools doing odd jobs around the house, their memories about those objects may be quite specific.
“But you might still feel that you are not recalling vividly because you might question whether you are remembering the right procedure about the right tool. So, you may end up asking for help instead of relying on your memory,” Ghetti said.
The fMRI data showed that objective and subjective memory recruited distinct cortical regions in the parietal and prefrontal regions. The regions involved in subjective experiences were also involved in decision making, bolstering the connection between the two processes.
“By understanding how our brains give rise to vivid subjective memories and memory decisions, we are moving a step closer to understanding how we learn to evaluate memory evidence in order to make effective decisions in the future,” Fandakova said.
Distinct neural mechanisms underlie subjective and objective recollection and guide memory-based decision making
Accurate memories are often associated with vivid experiences of recollection. However, the neural mechanisms underlying subjective recollection and their unique role in decision making beyond accuracy have received limited attention.
We dissociated subjective recollection from accuracy during a forced-choice task. Distractors corresponded either to non-studied exemplars of the targets (A-A’ condition) or to non-studied exemplars of different studied items (A-B’ condition). The A-A’ condition resulted in higher accuracy and greater activation in the superior parietal lobe, whereas the A-B’ condition resulted in higher subjective recollection and greater activation in the precuneus and retrosplenial regions, indicating a dissociation between objective and subjective memory.
Activation in insular, cingulate, and lateral prefrontal regions was also associated with subjective recollection; however, during a subsequent decision phase, activation in these same regions was greater for discarded than for selected responses in anticipation of a social reward, underscoring their role in evaluating memory evidence flexibly based on current goals.