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1. The effect of feedback validity on learning in children and adults: an electrophysiological study

   Larson, C.; Moore, I.; Fox, A.; Arbel, Y. (March 2019, Cognitive Neuroscience Society ... Annual Meeting abstract program)

   The present study evaluated at the behavioral and neurophysiological level the effect of feedback validity on learning in adults and children. Participants (82 children aged 7-11; 42 adults aged 18-25) completed a two-choice classification task, in which they sorted items from eight different categories into one of two bins, by pressing one of two buttons on a response box. Each response was followed by positive or negative feedback. Four of the eight categories were mapped consistently to a specific response, leading to consistent valid feedback. The other four were mapped to a specific response 80% of the time; in 20% of these trials, participants received invalid feedback. As participants performed the task, their EEG data were recorded. Behaviorally, accuracy was greater for the consistently valid condition than the inconsistently valid condition for both adults and children. There were no significant differences in accuracy between adults and children. Feedback-related event related potentials (ERPs) were evaluated and compared between the two groups. The amplitudes of the feedback related negativity (FRN) and fronto-central positivity (FCP) were sensitive to valence and age group, with FRN being larger in children, and FCP larger in adults. Interaction effects suggested that FRN response to positive feedback was sensitive to feedback validity in both age groups. However, the FCP was sensitive to validity for only for positive feedback in children and only for negative feedback in adults. These results further evidence of differing neurophysiological reactions to feedback in learning between children and adults. 

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2. Electrophysiological Examination of Feedback-Based Learning in 8–11-Year-Old Children

   https://doi.org/10.3389/fpsyg.2021.640270  

   Arbel, Yael; Fox, Annie B. (February 2021, Frontiers in Psychology)

   null (Ed.)

   The study aimed at evaluating the extent to which the feedback related negativity (FRN), an ERP component associated with feedback processing, is related to learning in school-age children. Eighty typically developing children between the ages of 8 and 11 years completed a declarative learning task while their EEG was recorded. The study evaluated the predictive value of the FRN on learning retention as measured by accuracy on a follow-up test a day after the session. The FRN elicited by positive feedback was found to be predictive of learning retention in children. The relationship between the FRN and learning was moderated by age. The P3a was also found to be associated with learning, such that larger P3a to negative feedback was associated with better learning retention in children. 

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3. Do you ever get tired of being wrong? The unique impact of feedback on subjective experiences of effort-based decision-making

   https://doi.org/10.31234/osf.io/5jekt  

   Xu, Anna; Frömer, Romy; Wolff, Wanja; Shenhav, Amitai (December 2023, PsyArXiv)

   To achieve a goal, people have to keep track of how much effort they are putting in (effort monitoring) and how well they are performing (performance monitoring), which can be informed by endogenous signals, or exogenous signals providing explicit feedback about whether they have met their goal. Interventions to improve performance often focus on adjusting feedback to direct the individual on how to better invest their efforts, but is it possible that this feedback itself plays a role in shaping the experience of how effortful the task feels? Here, we examine this question directly by assessing the relationship between effort monitoring and performance monitoring. Participants (N = 68) performed a task in which their goal was to squeeze a handgrip to within a target force level (not lower or higher) for a minimum duration. On most trials, they were given no feedback as to whether they met their goal, and were largely unable to detect how they had performed. On a subset of trials, however, we provided participants with (false) feedback indicating that they had either succeeded or failed at meeting their goal (positive vs. negative feedback blocks, respectively). Sporadically, participants rated their experience of effort exertion, fatigue, and confidence in having met the target grip force on that trial. Despite being non-veridical to their actual performance, we found that the type of feedback participants received influenced their experience of effort. When receiving negative (vs. positive) feedback, participants fatigued faster and adjusted their grip strength more for higher target force levels. We also found that confidence gradually increased with increasing positive feedback and decreased with increasing negative feedback, again despite feedback being uniformly uninformative. These results suggest differential influences of feedback on experiences related to effort and further shed light on the relationship between experiences related to performance monitoring and effort monitoring. 

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4. Global Functional Connectivity at Rest Is Associated with Attention: An Arterial Spin Labeling Study

   https://doi.org/10.3390/brainsci13020228  

   Chen, Shichun; Zhang, Yakun; Zhang, Zongpai; Zhou, Tony D.; Duan, Wenna; Weinschenk, George; Luh, Wen-Ming; Anderson, Adam K.; Dai, Weiying (February 2023, Brain Sciences)

   Neural markers of attention, including those frequently linked to the event-related potential P3 (P300) or P3b component, vary widely within and across participants. Understanding the neural mechanisms of attention that contribute to the P3 is crucial for better understanding attention-related brain disorders. All ten participants were scanned twice with a resting-state PCASL perfusion MRI and an ERP with a visual oddball task to measure brain resting-state functional connectivity (rsFC) and P3 parameters (P3 amplitudes and P3 latencies). Global rsFC (average rsFC across the entire brain) was associated with both P3 amplitudes (r = 0.57, p = 0.011) and P3 onset latencies (r = −0.56, p = 0.012). The observed P3 parameters were correlated with predicted P3 amplitude from the global rsFC (amplitude: r = +0.48, p = 0.037; latency: r = +0.40, p = 0.088) but not correlated with the rsFC over the most significant individual edge. P3 onset latency was primarily related to long-range connections between the prefrontal and parietal/limbic regions, while P3 amplitudes were related to connections between prefrontal and parietal/occipital, between sensorimotor and subcortical, and between limbic/subcortical and parietal/occipital regions. These results demonstrated the power of resting-state PCASL and P3 correlation with brain global functional connectivity. 

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5. Dampened El Niño in the Early Pliocene Warm Period

   https://doi.org/10.1029/2019GL085504  

   White, S. M.; Ravelo, A. C. (February 2020, Geophysical Research Letters)

   Abstract El Niño‐Southern Oscillation (ENSO) is the strongest mode of interannual climate variability, and its predicted response to anthropogenic climate change remains unclear. Determining ENSO's sensitivity to climatic mean state and the strength of positive and negative feedbacks, notably the thermocline feedback, will help constrain its future behavior. To this end, we collected ENSO proxy data from the early and mid‐Pliocene, a time during which tropical Pacific zonal and vertical temperature gradients were much lower than today. We found that El Niño events had a reduced amplitude throughout the early Pliocene, compared to the late Holocene. By the mid‐Pliocene, El Niño amplitude was variable, sometimes reduced and sometimes similar to the late Holocene. This trend in Pliocene ENSO amplitude mirrors the long‐term strengthening of zonal and vertical temperature gradients and verifies model results showing dampened ENSO under reduced gradients due to a weaker thermocline feedback. 

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