Clifton Langdon scite author profile

Among the most prevailing assumptions in science and society about the human reading process is that sound and sound-based phonology are critical to young readers. The child's sound-to-letter decoding is viewed as universal and vital to deriving meaning from print. We offer a different view. The crucial link for early reading success is not between segmental sounds and print. Instead the human brain's capacity to segment, categorize, and discern linguistic patterning makes possible the capacity to segment all languages. This biological process includes the segmentation of languages on the hands in signed languages. Exposure to natural sign language in early life equally affords the child's discovery of silent segmental units in visual sign phonology (VSP) that can also facilitate segmental decoding of print. We consider powerful biological evidence about the brain, how it builds sound and sign phonology, and why sound and sign phonology are equally important in language learning and reading. We offer a testable theoretical account, reading model, and predictions about how VSP can facilitate segmentation and mapping between print and meaning. We explain how VSP can be a powerful facilitator of all children's reading success (deaf and hearing)-an account with profound transformative impact on learning to read in deaf children with different language backgrounds. The existence of VSP has important implications for understanding core properties of all human language and reading, challenges assumptions about language and reading as being tied to sound, and provides novel insight into a remarkable biological equivalence in signed and spoken languages. WIREs Cogn Sci 2016, 7:366-381. doi: 10.1002/wcs.1404 For further resources related to this article, please visit the WIREs website.

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The cortical organization of listening effort: New insight from functional near-infrared spectroscopy

White

Langdon

2021

NeuroImage

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Mathematics anxiety in deaf, hard of hearing, and hearing college students

Mishra

Walker

Oshiro

et al. 2022

Annals of the New York Academy of Sciences

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While mathematics anxiety (MA) has been widely researched in recent decades, this study addresses significant gaps: namely, research that explores the relationship between MA and self‐reported mathematics experiences; samples adults with a range of MA levels; and controls for general anxiety. Additionally, the study sampled deaf and hard of hearing (DHH) students, whose diverse life and educational experiences often differ from hearing students’. We investigated whether DHH students’ experiences with mathematics (i.e., parental behaviors, school environment, and mathematics feelings) and demographic variables (i.e., hearing status, age, and gender) predict their MA, and whether these relationships differ from those in hearing students. Self‐report questionnaires were completed by 296 DHH and hearing college students. Linear regression analyses controlling for general anxiety led to the following inference: DHH students who reported more positive attitudes toward mathematics and school environments demonstrated higher MA. Also, the relationships between mathematics feelings, parental behaviors, and MA differed between DHH and hearing students. Logistic regression analyses showed no contribution of MA to students’ likelihood of pursuing STEM degrees in either DHH or between DHH and hearing groups. Overall, this work breaks new ground in the study of MA in DHH students and challenges standard views of the relationships between MA and individual experiences.

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The Importance of Early Number Concepts for Learning Mathematics in Deaf and Hard of Hearing Children

Langdon¹,

Kurz²,

Coppola³

2023

Perspectives on Early Childhood Psychology and Education

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The eyes don’t point: Understanding language universals through person marking in American Signed Language

Thompson

Emmorey

Kluender

et al. 2013

Lingua

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Clifton Langdon

Visual sign phonology: insights into human reading and language from a natural soundless phonology

The cortical organization of listening effort: New insight from functional near-infrared spectroscopy

Mathematics anxiety in deaf, hard of hearing, and hearing college students

The Importance of Early Number Concepts for Learning Mathematics in Deaf and Hard of Hearing Children

The eyes don’t point: Understanding language universals through person marking in American Signed Language

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