Spontaneous alternation
Spontaneous Alternation Behavior describes the tendency to alternate in their pursuit of different stimuli in consecutive trials despite a lack of training or reinforcement. The Behavior emerged from experiments using animals, mainly rodents, who naturally demonstrated the behavioral pattern when placed in previously unexplored maze shapes .
Spontaneous Alternation testing is a behavioral assessment method derived from SAB. It is used to investigate exploratory behavior and cognitive function. These assessments are most often done with animals. The test serves great purpose in comparative psychology, wherein non-human animals are studied to investigate differences within and between species with the aims of applying their findings to a greater understanding of human behavior. It is particularly useful in studying the potential neuroanatomical and neurobiological mediators of cognitive function seeing as, where there are ethical limitations posed in the physiological study of humans, there is greater opportunity for more invasive procedures to be ethically conducted into non-human animals.
Explanations for Spontaneous Alternation
Earlier explanations for SAB thought the behavior to be a result of reactive inhibition. According to Hull's concept, the animal turns right in a T-maze after it has already turned left, as turning left the first time diminished the value of the tendency to do so again. The inhibitive response is cumulative and therefore repeats, resulting in SAB.Several experiments conducted in the 1950s found reason to refute this theory, demonstrating SAB to be a stimulus-based behavior, as opposed to one which is response-based.These experiments point towards perception, attention, memory and motivation as psychological processes which produce SAB.
Perception: The pursuit of directional movement relies on the subject's manner of gathering information from its surroundings.
Attention: The subject selectively abstracts cues from the greater informational environment, informing their concentrate focus and influencing behavior.
Memory: In order to demonstrate a consistent alternating pattern in behavior, the cues which are attended to and perceived from the first arm of the maze must be stored and retrieved for the pursuit of the alternate arm to be initiated.
Motivation: As movement into either arm of the maze isn't traced, nor reinforced, the animal must have a purpose which is fulfilled by SAB that is not exclusively cognitive. Experimental research suggests that the behavior is underpinned by an innate drive towards exploring that which is unfamiliar, or less familiar than the other alternative/s. Dember and Earl describe this to be 'a manifestation of exploratory motivation' within their general theory of exploration and curiosity. The implied hardwiring of the behavior in the brain draws on the concept of evolutionary psychology. Estes and Schoeffler proposed that SAB originated as an adaptive behavior which enabled animals to gather information related to the distribution of resources needed for survival. With this logic, an animal is likely motivated to enter environments in an alternating pattern because they will have already exhausted the resources from that which they most recently visited.
Spontaneous Alternation and Spatial Working Memory
There is a comprehensive amount of research which suggests that efficient spatial alternation behaviour requires optimal spatial working memory.Spatial working memory refers to the ability to retain spatial information, in the form of environmental cues, in working memory, where it is stored temporarily and elicited actively during the completion of a task.This allows one to build, and continuously update, cognitive spatial maps of novel environments as they are being explored, so that they are able to return to areas which they distinguish as less familiar – thereby optimizing information gathering strategies.
Therefore, in tests where SAB is reduced, there is an indication of impairment in spatial working memory, seeing as one's ability to distinguish where they have or have not been is diminished. Hence, spontaneous alternation tests are useful in investigating spatial working memory and the factors which may influence it.
Ageing was found to be a factor which influences SAB. Spontaneous alternation testing with a Y-maze found that the frequency of the behavior reduces with age in mice at 9- and 12- months. Variation in physiological ability did not account for this, instead the observations were attributed to gradual degradation in spatial learning. Anatomical changes to limbic and non-limbic pathways associated with normal and pathological ageing in rodents correlate with the decrease in SAB. These include the neurochemical pathways in the hippocampus and basal forebrain– both associated with spatial working memory and learning in humans, as well as in rodents. Legions in the brain and various drugs can significantly impair spontaneous alteration. In another study done with mice, increasing the hormone estrogen showed improved spontaneous alteration performance. These findings may suggest a decrease in exploratory behavior as a result of associated neurobiological changes which implicate the capacity and function of spatial working memory.
Apparatus Design and Test Calculations
The apparatus used for spontaneous alternation testing takes multiple forms – the T-maze and the Y-maze being those which are most commonly used in experimental psychology. Both apparatus are named to mimic the maze shapes which they portray. The rat is placed in the middle of the maze and is allowed to move freely through each arm. Variations in apparatus can result in subtle changes to the rate of SAB, though the general behavioral pattern persists.SAB can be evaluated as a percentage indicating how frequently spontaneous alternation is observed across several trials. There are three outputs of the spontaneous alternation test. One output is the number of entries one makes into each arm of the maze – one entry being defined by when the hind paws of the subject species crosses the boundary distinguishing one arm completely. Another output is the number of alternations the animal makes – one alternation being the number of consecutive entries into each arm of the maze without any repeats in any order. These are then put into the following equation to yield percentage alternation:
The cognition of the animal can be assessed based on the score where a lower score is considered cognitively impaired. Chance is determined by the number of arms the maze has, in a three-arm maze it is 22%, in a four-arm or plus maze it is around 9%.
Human infants
Spontaneous alteration was tested in human infants at ages 6 months and 18 months. The young children were presented two identical toys placed in different spots. The six-month-old infant did not, significantly, interchange which toy it chose in subsequent trials so there was no pattern of spontaneous alternation. However, the 18-month-old child did alternate between the toys, curiosity motivating them to try the toy they had not chosen (the novel toy, displaying spontaneous alternation as well as spatial memory. Although both ages showed inhibition of return, which is described as reacting to an object that has not been seen before, faster than an object previously seen, only the 18-month-old children actually chose the novel toy. This suggests that inhibitory control, or voluntary control over actions, is needed to, at least physically, perform spontaneous alteration.Stress
When testing the effects of stress on spontaneous alteration in mice, two different methods of stressors have been involved in research studies. The first is called the inescapable stressor, where the mouse could not escape the bright light being shined into the maze, and escapable where the light was shining into the maze but there were areas covered and dark for the mice to find shelter. These methods caused stress because mice prefer dim areas to bright areas. The inescapable stressor caused the mice's spontaneous alteration to decrease, but the escapable stressor did not have an effect on their levels of spontaneous alteration.Criticisms
Animal Models: As a method predominantly used in studies involving non-human animals, there are inherent criticisms which arise from the extent to which findings can extend towards humans in comparative psychology. While the spontaneous alternation test was designed to gain insight into human cognition and behavior, its direct replication using human subjects is rarely conducted. Life-sized mazes are impractical to create and lack naturalism in their implementation, eliciting a number of confounding variables related to social desirability and demand characteristics. Proposals have been made for the use of virtual reality mazes to test SAB, with one study reporting that SAB was observed in a VR representation of a T-maze.The Mere-Exposure Hypothesis: Zajonc's hypothesis reflects the tendency for animals to be drawn towards stimuli which is familiar. Addressing this contradiction to SAB, some experiments suggest that SAB is more likely to be demonstrated after the animal has been subjected to a period of long-term confinement to one environment, following which a preference for novel environments is built.