Reading programs for low-income populations often give disappointing results. Failures may be partly due to a neglect of practice in decoding letters. Visual stimuli are best learned symbol by symbol, with pattern analogies and much practice to unite smaller components and speed up identification. The prerequisite for comprehending volumes of text is parallel-processing of letters. This happens when the letter-by-letter decoding function moves to the visual word form area of the brain, which recognizes words as if they were faces. Strangely, people may become fluent readers in transparent orthographies without knowing the relevant language. To teach the poor, governments and donors should promote instruction of individual letters and independent student practice with teacher feedback; then, students may achieve parallel processing. Teachers would emphasize comprehension and writing after the attainment of fluency. This methodology requires a rather lengthy textbook for every student, but it simplifies classroom activities and teacher training. To attain the Sustainable Development Goals of 2030, teachers must base instruction on specific scientific studies rather than “best practices”.
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Abadzi, H. (2008). Efficient learning for the poor: New insights into literacy acquisition for children. International Review of Education, 54(56), 581–604.
Abadzi, H. (2012). Can adults become fluent in newly learned scripts? Education Research International. doi:10.1155/2012/710785.
Abadzi, H. (2013). Literacy for All in 100 days? A research-based strategy for fast progress in low-income countries. Global Partnership for Education Working Paper Series 7. Washington, DC: World Bank.
Aguirre, G. (2004). Perceptual learning and consolidation studied with perfusion fMRI. Dana Foundation. http://www.dana.org/Media/GrantsDetails.aspx?id=38965#sthash.MAeAGIfw.dpuf.
Alloway, T. P., & Alloway, R. (2013). The working memory advantage. New York, NY: Simon & Schuster.
Ansari, D., & Coch, D. (2006). Bridges over troubled waters: Education and cognitive neuroscience. Trends in Cognitive Sciences, 10(4), 146–151.
August, D., Carlo, M., Calderón, M., & Proctor, P. (2005). Development of literacy in Spanish-speaking English-language learners: Findings from a longitudinal study of elementary school children. Perspectives, 31(2), 17–19.
Baddeley, A. (2003). Working memory and language: An overview. Journal of Communication Disorders, 36(3), 189–208.
Bahrick, H. P., & Hall, L. K. (2005). The importance of retrieval failures to long-term retention: A metacognitive explanation of the spacing effect. Journal of Memory and Language, 52(4), 566–577.
Bouhali, F., Thiebaut de Schotten, M., Pinel, P., Poupon, C., Mangin, J.-F., Dehaene, S., et al. (2014). Anatomical connections of the visual word form area. The Journal of Neuroscience, 34(46), 15402–15414.
Bower, B. (2015). Trackers decipher ancient footprints: Hunters help reconstruct behavior of early Europeans. Science News, 188(8–9), 11.
Cappelletti, M., Leff, A. P., & Price, C. J. (2012). How number processing survives left occipito-temporal damage. Neurocase, 18(4), 271–285.
Chabbott, C. (2014). Institutionalizing health and education for all: Global goals, innovations, and scaling up. New York, NY: Teachers College Press.
Chang, L. Y., Plaut, D. C., & Perfetti, C. A. (2016). Visual complexity in orthographic learning across writing system variations. Scientific Studies of Reading, 20(1), 64–85.
Coyne, G. (2015). Language education policies and inequality in Africa: Cross-national empirical evidence. Comparative Education Review, 59(4), 619–637.
Cribiore, R. (1996). Writing, teachers, and students in Greco-Roman Egypt. American Society of Papyrologists. Atlanta, GA: Scholars Press.
Czigler, I. N. (2010a). Conscious and unconscious aspects of working memory. In I. Czigler & I. Winkler (Eds.), Unconscious memory representations in perception (p. 5). Amsterdam: John Benjamins.
Czigler, I. N. (2010b). Representation of regularities in visual stimulation. In I. Czigler & I. Winkler (Eds.), Unconscious memory representations in perception (pp. 107–131). Amsterdam: John Benjamins.
Dehaene, S., & Cohen, L. (2007). Cultural recycling of cortical maps. Neuron, 56, 384–398.
Dehaene, S., & Cohen, L. (2011). The unique role of the visual word form area in reading. Trends in Cognitive Sciences, 15(6), 254–262.
Dekker, L. (2015). The neural localization of musical score reading. Master’s thesis, Utrecht University, Medical Center, Utrecht.
Devlin, K. (2010). The mathematical brain. In D. De Souza (Ed.), Mind, brain, and education. Bloomington, IN: Solution Tree Press.
Dufau, S., Grainger, J., Midgley, K., & Holcomb, P. J. (2015). A thousand words are worth a picture: Snapshots of printed-word processing in an event-related potential megastudy. Psychological Science, 26(12), 1887–1897.
Feldon, D. F. (2007). Cognitive load and classroom teaching: The double-edged sword of automaticity. Educational Psychologist, 42(3), 123–137.
Gori, S., & Facoetti, A. (2014). Perceptual learning as a possible new approach for remediation and prevention of developmental dyslexia. Vision Research, 99(1), 78–87.
Guastello, S. J., Boeh, H., Shumaker, C., & Shimmels, M. (2012). Catastrophe models for cognitive workload and fatigue. Theoretical Issues in Ergonomic Sciences, 13, 586–602.
Gupta, P., Lipinski, J., Abbs, B., & Lin, P.-H. (2005). Serial position effects in nonword repetition. Journal of Memory and Language, 53, 141–162.
Harris, M., & Hatano, G. (1999). Introduction: A cross-linguistic perspective on learning to read and write. In M. Harris & G. Hatano (Eds.), Learning to read and write: A cross-linguistic perspective (pp. 51–70). Cambridge: Cambridge University Press.
Hart, B., & Risley, T. R. (1995). Meaningful differences in the everyday experiences of young American children. Baltimore, MD: Paul Brookes.
Hartley, M. J., & Swanson, V. E. (1986). Retention of basic skills among dropouts from Egyptian primary schools. Working paper series report EDT40. Washington, DC: World Bank.
Iyengar, R., Karim, A., & Chagwira-Betha, F. (2016). Applying a reading program based on cognitive science in rural areas of Malawi: Preliminary results. Journal of Education and Training Studies, 4(5).
Kahneman, D. (2011). Thinking fast and slow. New York, NY: Farrar, Strauss, & Giroux.
Keenan, J. M., Betjemann, R. S., & Olson, R. K. (2008). Reading comprehension tests vary in the skills they assess: Differential dependence on decoding and oral comprehension. Scientific Studies of Reading, 12(3), 281–300. doi:10.1080/10888430802132279.
Kim, Y. S. G., Boyle, H. N., Zuilkowski, S. S., & Nakamura, P. (2016). Landscape report on early grade literacy. Washington, DC: USAID.
Kumano, H., & Uka, T. (2013). Neuronal mechanisms of visual perceptual learning. Behavioural Brain Research, 249, 75–80.
Ledesma, H. M. L., & Morris, R. D. (2005). Patterns of language preference among bilingual (Filipino-English) boys. International Journal of Bilingual Education and Bilingualism, 8(1), 62–80.
Lipina, S. J., & Posner, M. I. (2012). The impact of poverty on the development of brain networks. Frontiers in Human Neuroscience, 6, 1–12.
Marinelli, C. V., Martelli, M. L., Praphamontripong, P., Zoccolotti, P., & Abadzi, H. (2013). Visual and linguistic factors in literacy acquisition: Instructional implications for beginning readers in low-income countries. Global Partnership for Education Working Paper Series on Learning 2. Washington, DC: World Bank.
Miller, G. A. (1956). The magical number seven, plus or minus two: Some limits on our capacity for processing information. Psychological Review, 63, 81–97.
Ministère de l’Education Nationale (2006). Lecture CP1. Abidjan, Côte Ivoire: Editions Burnie.
Mizuno, K., Tanaka, M., Yamaguti, K., Kajimoto, O., Kuratsune, H., & Watanabe, Y. (2011). Mental fatigue caused by prolonged cognitive load associated with sympathetic hyperactivity. Behavioral and Brain Functions, 7(17). Article 9158.
Moore, A. M., Gove, A., & Tietjen, K. (2016). Great expectations: A framework for assessing and understanding key factors affecting student learning of foundational reading skills. In P. McCardle, A. Mora, & A. Gove (Eds.), Progress toward a literate world: Early reading interventions in low-income countries. New Directions for Child and Adolescent Development. Washington, DC: Josey-Bass.
NICHD [National Institute of Child Health and Human Development] (2000). Teaching children to read: An evidence-based assessment of the scientific research literature on reading and its implications for reading instruction—Reports of the subgroups. Report of the National Reading Panel. Publication 00-4754. Washington, DC: U.S. Government Printing Office.
Ouane, A., & Glanz, C. (Eds.) (2006). Optimizing learning and education in Africa: The language factor—A stock-taking research on mother tongue and bilingual education in sub-Saharan Africa. ADEA 2006 Biennial Meeting, Libreville, Gabon (March 27–31).
Pegado, F., Comerlato, E., Ventura, F., Jobert, A., Nakamura, K., Buiatti, M., et al. (2014). Timing the impact of literacy on visual processing. Proceedings of the National Academy of Sciences, 111(49), E5233–E5242.
Pelli, D. G., Burns, C., Farell, B., & Moore-Page, D. C. (2006). Feature detection and letter identification. Vision Research, 46(28), 4646–4674.
Perfetti, C., Cao, F., & Booth, J. (2013). Specialization and universals in the development of reading skill: How Chinese research informs a universal science of reading. Scientific Studies of Reading, 17(1), 5–21.
Peterson, L. R., & Peterson, M. J. (1959). Short-term retention of individual verbal items. Journal of Experimental Psychology, 58, 193–198.
Pritchard, S. C., Colheart, M., Marinus, E., & Castles, A. (2016). Modelling the implicit learning of phonological decoding from training on whole-word spellings and pronunciations. Scientific Studies of Reading, 20(1), 49–63.
Rhodes, R. (2015). Reading reform at scale: The case of the 3.5 years of the Mali/PHARE program, August, 2008–March, 2012. Paper presented at the Comparative and International Education Conference, Washington, DC (March 8–15).
Rock, I., & Gutman, D. (1981). The effect of inattention on form perception. Journal of Experimental Psychology: Human Perception & Performance, 7, 275–285.
Royer, M., Abadzi, H., & Kinda, J. (2004). The impact of phonological-awareness and rapid-reading training on the reading skills of adolescent and adult neoliterates. International Review of Education, 50(1), 53–71.
RTI [Research Triangle Institute] (2014a). 2014 Endline report of Early Grade Reading Assessment (EGRA) and Early Grade Mathematics Assessment (EGMA). DRC; Projet d’Amélioration de la Qualité de l’Education (PAQUED). www.eddataglobal.com.
RTI [Research Triangle Institute] (2014b). Indonesia: The National Early Grade Reading Assessment (EGRA) and Snapshot of School Management Effectiveness (SSME) survey report of findings. Eddata II Technical and Managerial Assistance, Task Number 23, Contract Number AID-497-BC-13-00009, Strategic Objective (3 June).
Seymour, P., Aro, H. K. M., & Erkskine, J. M. (2003). Foundation literacy acquisition in European orthographies. British Journal of Psychology, 94(2), 143–174.
Share, D. L. (1995). Phonological recoding and self-teaching: Sine qua non of reading acquisition. Cognition, 55, 151–218.
Share, D. L. (2008). On the Anglocentricities of current reading research and practice: The perils of overreliance on an “outlier” orthography. Psychological Bulletin, 134, 584–615.
Simmons, J. P., Nelson, L. D., & Simonsjohn, U. (2011). False-positive psychology undisclosed flexibility in data collection and analysis allows presenting anything as significant. Psychological Science, 22(11), 1359–1366.
Simons, D. J., & Chabris, C. F. (2011). What people believe about how memory works: A representative survey of the U.S. population. PLoS ONE, 6(8), e22757.
Speelman, C., & Kirsner, K. (2005). Beyond the learning curve: The construction of mind. New York, NY: Oxford University Press.
Thomas, M. S. C., & Knowland, V. (2009). Sensitive periods in brain development: Implications for education policy. European Psychiatric Review, 2(1), 17–20.
UNESCO (2015). Education for All 2000-2015: Achievements and challenges. Education for All Global Monitoring Report. Paris: UNESCO.
USAID (2011). Education opportunity through learning: USAID education strategy. http://pdf.usaid.gov/pdf_docs/Pdacq946.pdf.
van Orden, G. C. (1987). A ROWS is a ROSE: Spelling, sound, and reading. Memory and Cognition, 15(3), 181–198.
van Orden, G. C., Pennington, B. F., & Stone, G. O. (2001). What do double dissociations prove? Cognitive Science, 25(1), 111–172.
Warrington, E., & Weiskrantz, L. (1982). Amnesia: A disconnection syndrome? Neuropsychologia, 20, 233–248.
Winthrop, R., & McGivney, E. (2015). Why wait 100 years? Bridging the gap in global education. Washington, DC: Brookings Institution.
World Bank (2015). World development report. Washington, DC: World Bank.
Wymbs, N. F., Bastian, A. J., & Celnik, P. A. (2016). Motor skills are strengthened through reconsolidation. Current Biology, 26(3), 338–343.
Zafeirakou, A. (2014). Going to scale with literacy programs: Evidence-based practices from the Gambia. GPE Working Paper Series on Learning. Washington DC: World Bank.
Ziegler, J. C., Perry, C., & Zorzi, M. (2014). Modelling reading development through phonological decoding and self-teaching: Implications for dyslexia. Philosophical Transactions of the Royal Society B, 369(1634), 20120397.
Zoccolotti, P., De Luca, M., Di Pace, E., Gasperini, F., Judica, A., & Spinelli, D. (2005). Word length effect in early reading and in developmental dyslexia. Brain and Language, 93(3), 369–373.
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Abadzi, H. Turning a molehill into a mountain? How reading curricula are failing the poor worldwide. Prospects 46, 319–334 (2016). https://doi.org/10.1007/s11125-017-9394-9
- Early grade reading
- Visual word form area
- Words per minute
- Reading fluency