Gender Differences in Spatial Ability of Young Children: The Effects of Training and Processing Strategies

Number of times cited according to CrossRef: 65

• Tingyan Zhang, Chuansheng Chen, Chen Chen, Wei Wei, Gender differences in the development of semantic and spatial processing of numbers, British Journal of Developmental Psychology, 10.1111/bjdp.12329, 38, 3, (391-414), (2020).
  Wiley Online Library
• Ramona Cardillo, Cristiana Erbì, Irene C. Mammarella, Spatial Perspective-Taking in Children With Autism Spectrum Disorders: The Predictive Role of Visuospatial and Motor Abilities, Frontiers in Human Neuroscience, 10.3389/fnhum.2020.00208, 14, (2020).
  Crossref
• Håkan Larsson, Gunn Nyberg, Dean Barker, Juggling with gender. How gender promotes and prevents the learning of a specific movement activity among secondary school students, Gender and Education, 10.1080/09540253.2020.1792846, (1-16), (2020).
  Crossref
• Weipeng Yang, Haidan Liu, Nanxi Chen, Peng Xu, Xunyi Lin, Is Early Spatial Skills Training Effective? A Meta-Analysis, Frontiers in Psychology, 10.3389/fpsyg.2020.01938, 11, (2020).
  Crossref
• Thorsteinn Sigurjónsson, Trine Bjerva, Jon Anders Græsli, Gender differences in children's wayfinding, International Journal of Cartography, 10.1080/23729333.2020.1757214, (1-18), (2020).
  Crossref
• Xiaoxia Zhang, Chuansheng Chen, Tao Yang, Xiaohui Xu, Spatial Skills Associated With Block-Building Complexity in Preschoolers, Frontiers in Psychology, 10.3389/fpsyg.2020.563493, 11, (2020).
  Crossref
• Xiaohui Xu, Chuansheng Chen, Jianfang Ma, Xiaoting Zhao, Mengwen Jiao, Zhiyong Xin, The Use of a Novel Term Helps Preschoolers Learn the Concept of Angle: An Intervention Study With Chinese Preschool Children, Frontiers in Psychology, 10.3389/fpsyg.2020.568388, 11, (2020).
  Crossref
• Kirsten W. J. Touw, Bart Vogelaar, Floor Thissen, Sanne Rovers, Wilma C. M. Resing, Progression and individual differences in children's series completion after dynamic testing, British Journal of Educational Psychology, 10.1111/bjep.12272, 90, 1, (184-205), (2019).
  Wiley Online Library
• Antonio Rodán, Patricia Gimeno, M. Rosa Elosúa, Pedro R. Montoro, María José Contreras, Boys and girls gain in spatial, but not in mathematical ability after mental rotation training in primary education, Learning and Individual Differences, 10.1016/j.lindif.2019.01.001, 70, (1-11), (2019).
  Crossref
• Alina Nazareth, Rosalie Odean, Shannon M. Pruden, The Use of Eye-Tracking in Spatial Thinking Research, Early Childhood Development, 10.4018/978-1-5225-7507-8, (588-609), (2019).
  Crossref
• Li Yuan, Feng Kong, Yangmei Luo, Siyao Zeng, Jijun Lan, Xuqun You, Gender Differences in Large-Scale and Small-Scale Spatial Ability: A Systematic Review Based on Behavioral and Neuroimaging Research, Frontiers in Behavioral Neuroscience, 10.3389/fnbeh.2019.00128, 13, (2019).
  Crossref
• Ramona Cardillo, Silvia Lanfranchi, Irene C Mammarella, A cross-task comparison on visuospatial processing in autism spectrum disorders, Autism, 10.1177/1362361319888341, (136236131988834), (2019).
  Crossref
• Lu Wang, Mediation Relationships Among Gender, Spatial Ability, Math Anxiety, and Math Achievement, Educational Psychology Review, 10.1007/s10648-019-09487-z, (2019).
  Crossref
• José Antonio González‐Calero, Ramón Cózar, Rafael Villena, José Miguel Merino, The development of mental rotation abilities through robotics‐based instruction: An experience mediated by gender, British Journal of Educational Technology, 10.1111/bjet.12726, 50, 6, (3198-3213), (2018).
  Wiley Online Library
• Angelica Moè, Mental rotation and mathematics: Gender-stereotyped beliefs and relationships in primary school children, Learning and Individual Differences, 10.1016/j.lindif.2017.12.002, 61, (172-180), (2018).
  Crossref
• Randi A Doyle, Daniel Voyer, Photographs of real human figures: Item types and persistent sex differences in mental rotation, Quarterly Journal of Experimental Psychology, 10.1177/1747021817742079, 71, 11, (2411-2420), (2018).
  Crossref
• Nathalie Sinclair, Joan Moss, Zachary Hawes, Carol Stephenson, Learning Through and from Drawing in Early Years Geometry, Visualizing Mathematics, 10.1007/978-3-319-98767-5_11, (229-252), (2018).
  Crossref
• Beth M. Casey, Harriet Fell, Spatial Reasoning: A Critical Problem-Solving Tool in Children’s Mathematics Strategy Tool-Kit, Visualizing Mathematics, 10.1007/978-3-319-98767-5_3, (47-75), (2018).
  Crossref
• Teomara Rutherford, Sarah M. Karamarkovich, David S. Lee, Is the spatial/math connection unique? Associations between mental rotation and elementary mathematics and English achievement, Learning and Individual Differences, 10.1016/j.lindif.2018.01.014, 62, (180-199), (2018).
  Crossref
• Zeus Gracia-Tabuenca, Martha B. Moreno, Fernando A. Barrios, Sarael Alcauter, Hemispheric asymmetry and homotopy of resting state functional connectivity correlate with visuospatial abilities in school-age children, NeuroImage, 10.1016/j.neuroimage.2018.03.051, 174, (441-448), (2018).
  Crossref
• Lynn McGarvey, Lixin Luo, Zachary Hawes, Spatial Skills Framework for Young Engineers, Early Engineering Learning, 10.1007/978-981-10-8621-2_5, (53-81), (2018).
  Crossref
• Leanne Elliott, Heather J. Bachman, SES disparities in early math abilities: The contributions of parents’ math cognitions, practices to support math, and math talk, Developmental Review, 10.1016/j.dr.2018.08.001, 49, (1-15), (2018).
  Crossref
• Jerome Kagan, Kinds of individuals defined by patterns of variables, Development and Psychopathology, 10.1017/S095457941800055X, (1-13), (2018).
  Crossref
• Laura M. Fernández-Méndez, María José Contreras, M. Rosa Elosúa, From What Age Is Mental Rotation Training Effective? Differences in Preschool Age but Not in Sex, Frontiers in Psychology, 10.3389/fpsyg.2018.00753, 9, (2018).
  Crossref
• Billie Eilam, Uri Alon, Children’s Object Structure Perspective-Taking: Training and Assessment, International Journal of Science and Mathematics Education, 10.1007/s10763-018-9934-7, (2018).
  Crossref
• REFERENCES, Monographs of the Society for Research in Child Development, 10.1111/mono.12286, 82, 1, (110-125), (2017).
  Wiley Online Library
• Sven Bertel, Stefanie Wetzel, Steffi Zander, Physical Touch-Based Rotation Processes of Primary School Students, Spatial Cognition X, 10.1007/978-3-319-68189-4_2, (19-37), (2017).
  Crossref
• Zachary Hawes, Joan Moss, Beverly Caswell, Sarah Naqvi, Sharla MacKinnon, Enhancing Children's Spatial and Numerical Skills through a Dynamic Spatial Approach to Early Geometry Instruction: Effects of a 32-Week Intervention, Cognition and Instruction, 10.1080/07370008.2017.1323902, 35, 3, (236-264), (2017).
  Crossref
• Donna Kotsopoulos, Joanna Zambrzycka, Samantha Makosz, Gender Differences in Toddlers’ Visual-Spatial Skills, Mathematical Thinking and Learning, 10.1080/10986065.2017.1328634, 19, 3, (167-180), (2017).
  Crossref
• Alina Nazareth, Rosalie Odean, Shannon M. Pruden, The Use of Eye-Tracking in Spatial Thinking Research, Eye-Tracking Technology Applications in Educational Research, 10.4018/978-1-5225-1005-5.ch012, (239-260), (2017).
  Crossref
• Ahmed A. Moustafa, Richard Tindle, Zaheda Ansari, Margery J. Doyle, Doaa H. Hewedi, Abeer Eissa, Mathematics, anxiety, and the brain, Reviews in the Neurosciences, 10.1515/revneuro-2016-0065, 28, 4, (2017).
  Crossref
• Véronique Cornu, Christine Schiltz, Tahereh Pazouki, Romain Martin, Training early visuo-spatial abilities: A controlled classroom-based intervention study, Applied Developmental Science, 10.1080/10888691.2016.1276835, (1-21), (2017).
  Crossref
• Cengiz Yakut, Gender stereotyping, training and practice factors related to learning a complex visual motor task, Cogent Psychology, 10.1080/23311908.2017.1326576, 4, 1, (2017).
  Crossref
• Florian H. Kasten, Christoph S. Herrmann, Transcranial Alternating Current Stimulation (tACS) Enhances Mental Rotation Performance during and after Stimulation, Frontiers in Human Neuroscience, 10.3389/fnhum.2017.00002, 11, (2017).
  Crossref
• Ayşegül Ulutaş, Esra Demir, E. Hilal Yayan, MOTOR GELİŞİM EĞİTİM PROGRAMININ 5-6 YAŞ ÇOCUKLARIN KABA VE İNCE MOTOR BECERİLERİNE ETKİSİNİN İNCELENMESİ, Abant İzzet Baysal Üniversitesi Eğitim Fakültesi Dergisi, 10.17240/aibuefd.2017.17.31178-338846, 17, 3, (1523-1538), (2017).
  Crossref
• K. Sutton, A. Williams, D. Tremain, P. Kilgour, University entry score, Journal of Engineering, Design and Technology, 10.1108/JEDT-10-2013-0073, 14, 2, (328-342), (2016).
  Crossref
• Andrea Scheuringer, Belinda Pletzer, Sex differences in the Kimchi-Palmer task revisited: Global reaction times, but not number of global choices differ between adult men and women, Physiology & Behavior, 10.1016/j.physbeh.2016.07.012, 165, (159-165), (2016).
  Crossref
• Chen Shen, Marina Vasilyeva, Elida V. Laski, Here, but not there: Cross-national variability of gender effects in arithmetic, Journal of Experimental Child Psychology, 10.1016/j.jecp.2016.01.016, 146, (50-65), (2016).
  Crossref
• Oai Ha, Ning Fang, Spatial Ability in Learning Engineering Mechanics: Critical Review, Journal of Professional Issues in Engineering Education and Practice, 10.1061/(ASCE)EI.1943-5541.0000266, 142, 2, (04015014), (2016).
  Crossref
• Daniel Halpern, Kyong Eun Oh, Marilyn Tremaine, James Chiang, Karen Bemis, Deborah Silver, Learning Visualization Strategies: A qualitative investigation, International Journal of Science Education, 10.1080/09500693.2015.1116128, 37, 18, (3038-3065), (2016).
  Crossref
• Wei Wei, Chuansheng Chen, Qi Dong, Xinlin Zhou, Sex Differences in Gray Matter Volume of the Right Anterior Hippocampus Explain Sex Differences in Three-Dimensional Mental Rotation, Frontiers in Human Neuroscience, 10.3389/fnhum.2016.00580, 10, (2016).
  Crossref
• Sharlene D. Newman, Mitchell T. Hansen, Arianna Gutierrez, An fMRI Study of the Impact of Block Building and Board Games on Spatial Ability, Frontiers in Psychology, 10.3389/fpsyg.2016.01278, 7, (2016).
  Crossref
• Hanyu Lin, Influence of design training and spatial solution strategies on spatial ability performance, International Journal of Technology and Design Education, 10.1007/s10798-015-9302-7, 26, 1, (123-131), (2015).
  Crossref
• Alia L. Yasen, Jacob Raber, Jeremy K. Miller, Brian J. Piper, Sex, but not Apolipoprotein E Polymorphism, Differences in Spatial Performance in Young Adults, Archives of Sexual Behavior, 10.1007/s10508-015-0497-1, 44, 8, (2219-2226), (2015).
  Crossref
• Jennifer T. Sneider, Derek A. Hamilton, Julia E. Cohen-Gilbert, David J. Crowley, Isabelle M. Rosso, Marisa M. Silveri, Sex differences in spatial navigation and perception in human adolescents and emerging adults, Behavioural Processes, 10.1016/j.beproc.2014.11.015, 111, (42-50), (2015).
  Crossref
• Jamie J. Jirout, Nora S. Newcombe, Building Blocks for Developing Spatial Skills: Evidence From a Large, Representative U.S. Sample, Psychological Science, 10.1177/0956797614563338, 26, 3, (302-310), (2015).
  Crossref
• Nikolay Lütke, Christiane Lange-Küttner, Keeping It in Three Dimensions: Measuring the Development of Mental Rotation in Children with the Rotated Colour Cube Test (RCCT), International Journal of Developmental Science, 10.3233/DEV-14154, 9, 2, (95-114), (2015).
  Crossref
• Colleen M. Ganley, Marina Vasilyeva, Alana Dulaney, Spatial Ability Mediates the Gender Difference in Middle School Students' Science Performance, Child Development, 10.1111/cdev.12230, 85, 4, (1419-1432), (2014).
  Wiley Online Library
• Rena Li, Why women see differently from the way men see? A review of sex differences in cognition and sports, Journal of Sport and Health Science, 10.1016/j.jshs.2014.03.012, 3, 3, (155-162), (2014).
  Crossref
• A. V. Slavutskaya, N. Yu. Gerasimenko, E. S. Mikhailova, Gender-Related Strategies for Solving Visuospatial Tasks, Neuroscience and Behavioral Physiology, 10.1007/s11055-014-9973-7, 44, 6, (709-716), (2014).
  Crossref
• Rena Li, Meharvan Singh, Sex differences in cognitive impairment and Alzheimer’s disease, Frontiers in Neuroendocrinology, 10.1016/j.yfrne.2014.01.002, 35, 3, (385-403), (2014).
  Crossref
• Brian N. Verdine, Roberta Michnick Golinkoff, Kathryn Hirsh-Pasek, Nora S. Newcombe, Finding the missing piece: Blocks, puzzles, and shapes fuel school readiness, Trends in Neuroscience and Education, 10.1016/j.tine.2014.02.005, 3, 1, (7-13), (2014).
  Crossref
• Beth M. Casey, Eric Dearing, Alana Dulaney, Miriam Heyman, Remy Springer, Young girls’ spatial and arithmetic performance: The mediating role of maternal supportive interactions during joint spatial problem solving, Early Childhood Research Quarterly, 10.1016/j.ecresq.2014.07.005, 29, 4, (636-648), (2014).
  Crossref
• A. V. Slavutskaya, N. Yu. Gerasimenko, E. S. Mikhailova, Mechanisms of orientation sensitivity in the human visual system: Part I. Behavioral characteristics of orientation sensitivity. Influence of the task type, experimental conditions, and gender, Human Physiology, 10.1134/S0362119714050144, 40, 6, (660-668), (2014).
  Crossref
• Eric Peterson, Robin L. Peterson, The Development of Global and Local Processing: A Comparison of Children to Adults, Journal of Cognition and Development, 10.1080/15248372.2012.753603, 15, 3, (506-519), (2014).
  Crossref
• Ellahe Chabani, Bernhard Hommel, Effectiveness of visual and verbal prompts in training visuospatial processing skills in school age children, Instructional Science, 10.1007/s11251-014-9316-7, 42, 6, (995-1012), (2014).
  Crossref
• Pamela L. Hirsch, Elisabeth Hollister Sandberg, Development of Map Construction Skills in Childhood, Journal of Cognition and Development, 10.1080/15248372.2012.669219, 14, 3, (397-423), (2013).
  Crossref
• Maike Blüchel, Jennifer Lehmann, Jan Kellner, Petra Jansen, The improvement in mental rotation performance in primary school-aged children after a two-week motor-training, Educational Psychology, 10.1080/01443410.2012.707612, 33, 1, (75-86), (2013).
  Crossref
• Claire E. Stevenson, Marian Hickendorff, Wilma C.M. Resing, Willem J. Heiser, Paul A.L. de Boeck, Explanatory item response modeling of children's change on a dynamic test of analogical reasoning, Intelligence, 10.1016/j.intell.2013.01.003, 41, 3, (157-168), (2013).
  Crossref
• Hanyu Lin, The Influence of Design Training and Spatial Solution Strategies on Spatial Ability Performance, Cross-Cultural Design. Methods, Practice, and Case Studies, 10.1007/978-3-642-39143-9_45, (403-409), (2013).
  Crossref
• Helga Krinzinger, Thomas Günther, Lesen, Schreiben, Rechnen – gibt es Unterschiede zwischen den Geschlechtern?, Lernen und Lernstörungen, 10.1024/2235-0977/a000029, 2, 1, (35-49), (2013).
  Crossref
• E.S. Mikhailova, A.V. Slavutskaya, N.Yu. Gerasimenko, Gender differences in the recognition of spatially transformed figures: Behavioral data and event-related potentials (ERPs), Neuroscience Letters, 10.1016/j.neulet.2012.07.005, 524, 2, (74-78), (2012).
  Crossref
• Steve V. Coxon, The Malleability of Spatial Ability Under Treatment of a FIRST LEGO League-Based Robotics Simulation, Journal for the Education of the Gifted, 10.1177/0162353212451788, 35, 3, (291-316), (2012).
  Crossref
• A. V. Slavutzkaya, N. Yu. Gerasimenko, E. S. Mikhailova, Recognition of spatially transformed objects in men and women: Analysis of behavior and evoked potentials, Human Physiology, 10.1134/S0362119712030139, 38, 3, (238-248), (2012).
  Crossref
• D. F. Halpern, How Neuromythologies Support Sex Role Stereotypes, Science, 10.1126/science.1198057, 330, 6009, (1320-1321), (2010).
  Crossref