about
Using prediction markets to estimate the reproducibility of scientific researchSignature movements lead to efficient search for threatening actionsMonkey pulvinar neurons fire differentially to snake posturesA developmental neuroscience perspective on affect-biased attentionViewing images of snakes accelerates making judgements of their colour in humans: red snake effect as an instance of 'emotional Stroop facilitation'Comment on "Estimating the reproducibility of psychological science"A vocal basis for the affective character of musical mode in melodyFast Detector/First Responder: Interactions between the Superior Colliculus-Pulvinar Pathway and Stimuli Relevant to Primates.Revisiting the fear of snakes in children: the role of aposematic signallingBeyond arousal and valence: the importance of the biological versus social relevance of emotional stimuli.Human young children as well as adults demonstrate 'superior' rapid snake detection when typical striking posture is displayed by the snakeEffect of vicarious fear learning on children's heart rate responses and attentional bias for novel animalsEarly experience affects the strength of vigilance for threat in rhesus monkey infants.Fear of holes.Pulvinar neurons reveal neurobiological evidence of past selection for rapid detection of snakesAnimate Objects are Detected More Frequently than Inanimate Objects in Inattentional Blindness Tasks Independently of Threat.Influence of emotionally charged information on category-based induction.The Hidden Snake in the Grass: Superior Detection of Snakes in Challenging Attentional ConditionsAbsence of predispositional attentional sensitivity to angry faces in children with autism spectrum disordersDelayed disengagement of attention from snakes in children with autismAppraising the role of visual threat in speeded detection and classification tasks.Premenstrual enhancement of snake detection in visual search in healthy women.Measuring attentional biases for threat in children and adults.Breaking Snake Camouflage: Humans Detect Snakes More Accurately than Other Animals under Less Discernible Visual Conditions.Snakes elicit earlier, and monkey faces, later, gamma oscillations in macaque pulvinar neurons.Does women's greater fear of snakes and spiders originate in infancy?Neighborhood crime as a predictor of individual differences in emotional processing and regulation.Thyme to touch: infants possess strategies that protect them from dangers posed by plantsSensitivity to social and non-social threats in temperamentally shy children at-risk for anxiety.Poverty-Related Adversity and Emotion Regulation Predict Internalizing Behavior Problems among Low-Income Children Ages 8-11.The characteristics and limits of rapid visual categorization.The visual detection of threat: a cautionary tale.Evolutionary perspectives on learning: conceptual and methodological issues in the study of adaptive specializations.Of guns and snakes: testing a modern threat superiority effect.Patterns on serpentine shapes elicit visual attention in marmosets (Callithrix jacchus).The influence of color on snake detection in visual search in human children.Negative emotion interference during a synonym matching task in pediatric bipolar disorder with and without attention deficit hyperactivity disorder.A comparison of rural and urban Indian children's visual detection of threatening and nonthreatening animals.Developmental Differences in Infants' Attention to Social and Nonsocial Threats.Similarity relations in visual search predict rapid visual categorization.
P2860
Q24289249-396850A0-EAFA-4689-AB59-C0F02554B992Q27302919-644BCD65-0510-41CB-9FA2-3DB841CCD0CCQ27322434-65697AF5-F3A0-4174-8E6C-1E324FB83D0EQ28079001-C5862BEF-D6B4-47D3-92E7-54AA7D90B61CQ28646616-88556347-90B8-454B-A24D-DEBEB0589B65Q29420742-269DB1D4-CAFC-4024-B25C-F9CB1A6102B1Q30352597-D7CAE43F-103C-429E-9C07-FE80EF117179Q30361847-2C904DCC-AEE1-4CC3-BEDE-765FFC6353A0Q30369144-C396A100-4FB3-4C02-A188-65786F8E4571Q30510969-F087146E-C78C-441B-B789-F4AD0ACC2122Q33769889-2D5DD88A-5B4F-41D3-B5C2-1963412AB164Q34222961-14CB0318-AD16-4E42-9B5C-8EC555DAAAA9Q34315449-829B80D8-916A-48FB-8370-2B2CC889349DQ34367054-20FA0F62-0244-449A-BF66-18D5B4D0F681Q34380760-CFC32527-69FD-4AF4-976E-9636ECE2F664Q34521218-08A0B966-9594-412A-90E7-71CECD9E74E2Q34571091-9E409F2C-080E-49AF-936C-B802EE02E769Q34672795-FE88B054-0F73-46A4-B553-8E5A93BD4D53Q34728096-552136E5-A6A6-4E16-846D-C8F365CC5D12Q35140302-74D8B1C5-513C-4B2D-8A85-04CE87046A47Q35746549-CD3F714D-781D-4389-8377-441AAC8B2D47Q35814048-19707D54-563A-4BAA-86E0-C14C025C7C2EQ35970408-B2FFA448-ACF3-4932-A383-B1B6C173EE43Q36175065-46EB1822-F7E3-4CC0-8F73-51DA2B0D6BAEQ36555128-A4984526-0A92-4EE7-856C-37EDD84BBB18Q37405009-C7370913-543C-432A-8FA2-DFFDCCAC8CD0Q37418151-21B431CD-58B9-4275-8E6D-A810D40D9B79Q37494748-D2F368E0-6E70-4475-A87C-C7A89B2D2CE3Q37626605-4C117BB8-4C6E-476A-9D09-5B99630CD412Q37727734-60741BD0-4947-4DD5-B636-D8A423573180Q37946888-CFA8584D-0009-4593-A2FF-ACB9643367CCQ38090589-804AF679-E2FF-49A2-BB96-F09A0362B101Q38373012-DF327EB8-7D30-4F73-80EA-12852D1CC908Q38437479-75B7DC0C-EF9B-4A37-9317-9CDAE509E195Q38862370-71D75A3A-B37B-48DB-BC58-1CACA73568FEQ39121031-8FBF0282-0DE0-4990-99F0-F1C93DD4CDD9Q39469219-66820BEB-629F-415E-8E32-0CCFC38E5E20Q40105161-17B1D08A-244D-4DFB-899E-88193E741282Q41721365-3C3C8EDB-61FE-4474-A0C1-3F41449F53B9Q42065860-9B19E966-F43F-46DB-9DD6-30BAF488B920
P2860
description
2008 nî lūn-bûn
@nan
2008 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի մարտին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Detecting the Snake in the Grass
@ast
Detecting the Snake in the Grass
@en
type
label
Detecting the Snake in the Grass
@ast
Detecting the Snake in the Grass
@en
prefLabel
Detecting the Snake in the Grass
@ast
Detecting the Snake in the Grass
@en
P2860
P3181
P1476
Detecting the Snake in the Grass
@en
P2093
Judy S. DeLoache
Vanessa LoBue
P2860
P304
P3181
P356
10.1111/J.1467-9280.2008.02081.X
P577
2008-03-01T00:00:00Z