Abstract
Negativity bias, i.e., tendency to respond strongly to negative stimuli, can be captured via behavioural and psychophysiological responses to potential threat. A virtual environment (VE) was created at room-scale wherein participants traversed a grid of ice blocks placed 200 m above the ground. Threat was manipulated by increasing the probability of encountering ice blocks that disintegrated and led to a virtual fall. Participants interacted with the ice blocks via sensors placed on their feet. Thirty-four people were recruited for the study, who were divided into High (HN) and Low (LN) Neuroticism groups. Movement data were recorded alongside skin conductance level and facial electromyography from the corrugator supercilii and zygomaticus major. Risk-averse behaviours, such as standing on ‘safe’ blocks and testing blocks prior to movement, increased when threat was highest. HN individuals exhibited more risk-averse behaviour than the LN group, especially in the presence of high threat. In addition, activation of the corrugator muscle was higher for HN individuals in the period following a movement to an ice block. These findings are discussed with respect to the use of room-scale VE as a protocol for emotion induction and measuring trait differences in negativity bias within VR.
Highlights
Negativity bias, i.e., tendency to respond strongly to negative stimuli, can be captured via behavioural and psychophysiological responses to potential threat
An analysis of mean duration revealed a significant main effect for Level [F(2,29) = 7.95, p = 0.002, eta2 = 0.35], i.e., participants spent longer standing on blocks at Level 3 (L3) (M = 13.93 s, SD = 9.62) compared to L1 (M = 7.90 s, SD = 4.54) or Level 2 (L2) (M = 8.24 s, SD = 5.00)
When participants made a Risk Assessment, we found a pattern of individual differences wherein High Neuroticism (HN) individuals showed greater activation of the zygomaticus during the period 751–1500 ms after one-footed movement compared to the Low Neuroticism (LN) group, this pattern was reversed during the 0–750 ms period
Summary
Negativity bias, i.e., tendency to respond strongly to negative stimuli, can be captured via behavioural and psychophysiological responses to potential threat. Activation of the corrugator muscle was higher for HN individuals in the period following a movement to an ice block These findings are discussed with respect to the use of room-scale VE as a protocol for emotion induction and measuring trait differences in negativity bias within VR. The illusion of height is an example of a threat stimulus[24] that elicits anxiety in the majority of people Negative emotional states, such as anxiety, incorporate predispositions for specific types of actions[25,26]; for example, increased levels of anxiety predispose the organism towards behaviours associated with a voidance[27], e.g., move away from the edge of a high roof, walk slowly when there is a risk of falling. Increased negativity would precipitate activation of the sympathetic branch of the autonomic nervous system, e.g., increased skin conductance level (SCL) is associated with arousal during emotional e xperiences[38,39,40]
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