Research Article
“Watch out!”: Effects of instructed threat and avoidance on human free-operant approach–avoidance behavior
Michael W. Schlund,
Kay Treacher,
Oli Preston,
Sandy K. Magee,
David M. Richman,
Adam T. Brewer,
Gemma Cameron,
Simon Dymond,
Corresponding Author
Michael W. Schlund
Department of Behavior Analysis, University of North Texas
Address correspondence to Michael W. Schlund, University of North Texas, 1155 Union Circle, Box 310919, Denton, TX 76203-0919. Phone 940 565 2274, Fax 940 565 2467. Email [email protected]; https://www.researchgate.net/profile/Michael_SchlundSearch for more papers by this authorKay Treacher
Department of Behavior Analysis, University of North Texas
Search for more papers by this authorOli Preston
Department of Psychology, Swansea University, United Kingdom
Search for more papers by this authorSandy K. Magee
Department of Behavior Analysis, University of North Texas
Search for more papers by this authorDavid M. Richman
Department of Educational Psychology and Leadership, Texas Tech University
Search for more papers by this authorAdam T. Brewer
Department of Psychology and Liberal Arts, Florida Institute of Technology
Search for more papers by this authorGemma Cameron
Department of Psychology, Swansea University, United Kingdom
Search for more papers by this authorSimon Dymond
Department of Psychology, Swansea University, United Kingdom
Department of Psychology, Reykjavík University, Iceland
Search for more papers by this authorMichael W. Schlund,
Kay Treacher,
Oli Preston,
Sandy K. Magee,
David M. Richman,
Adam T. Brewer,
Gemma Cameron,
Simon Dymond,
Corresponding Author
Michael W. Schlund
Department of Behavior Analysis, University of North Texas
Address correspondence to Michael W. Schlund, University of North Texas, 1155 Union Circle, Box 310919, Denton, TX 76203-0919. Phone 940 565 2274, Fax 940 565 2467. Email [email protected]; https://www.researchgate.net/profile/Michael_SchlundSearch for more papers by this authorKay Treacher
Department of Behavior Analysis, University of North Texas
Search for more papers by this authorOli Preston
Department of Psychology, Swansea University, United Kingdom
Search for more papers by this authorSandy K. Magee
Department of Behavior Analysis, University of North Texas
Search for more papers by this authorDavid M. Richman
Department of Educational Psychology and Leadership, Texas Tech University
Search for more papers by this authorAdam T. Brewer
Department of Psychology and Liberal Arts, Florida Institute of Technology
Search for more papers by this authorGemma Cameron
Department of Psychology, Swansea University, United Kingdom
Search for more papers by this authorSimon Dymond
Department of Psychology, Swansea University, United Kingdom
Department of Psychology, Reykjavík University, Iceland
Search for more papers by this authorAll authors have no conflict of interest.
Research and manuscript preparation was supported by the Beatrice H. Barrett Research Endowment, Department of Behavior Analysis, University of North Texas.
This paper is dedicated to Alan Baron, who was the first author's undergraduate and graduate (MS) advisor at UW-Milwaukee. He was a dedicated scholar, teacher and research pioneer on negative reinforcement and avoidance. He has my sincere gratitude and will be truly missed.
Abstract
Approach–avoidance paradigms create a competition between appetitive and aversive contingencies and are widely used in nonhuman research on anxiety. Here, we examined how instructions about threat and avoidance impact control by competing contingencies over human approach–avoidance behavior. Additionally, Experiment 1 examined the effects of threat magnitude (money loss amount) and avoidance cost (fixed ratio requirements), whereas Experiment 2 examined the effects of threat information (available, unavailable and inaccurate) on approach–avoidance. During the task, approach responding was modeled by reinforcing responding with money on a FR schedule. By performing an observing response, participants produced an escalating “threat meter”. Instructions stated that the threat meter levels displayed the current probability of losing money, when in fact loss only occurred when the level reached the maximum. Instructions also stated pressing an avoidance button lowered the threat level. Overall, instructions produced cycles of approach and avoidance responding with transitions from approach to avoidance when threat was high and transitions back to approach after avoidance reduced threat. Experiment 1 revealed increasing avoidance cost, but not threat magnitude, shifted approach–avoidance transitions to higher threat levels and increased anxiety ratings, but did not influence the frequency of approach–avoidance cycles. Experiment 2 revealed when threat level information was available or absent earnings were high, but earnings decreased when inaccurate threat information was incompatible with contingencies. Our findings build on prior nonhuman and human approach–avoidance research by highlighting how instructed threat and avoidance can impact human AA behavior and self-reported anxiety.
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