Department of Psychology, Florida State University, Tallahassee, FL, USA.
Department of Educational Psychology, Texas A&M University, College Station, TX, USA.
J Child Psychol Psychiatry. 2020 Jun;61(6):689-698. doi: 10.1111/jcpp.13134. Epub 2019 Oct 8.
Reading is important for children's success in school and beyond, yet many adolescents fail to reach expected levels of proficiency. This highlights the need to better understand the factors that influence reading effectiveness over time, including genes and environment. Greater expression of genetic influence on first- and second-grade reading fluency has been observed in higher quality classroom reading environments. To what degree this early environment continues to influence genetic and other environmental influences on later reading is unknown and was tested in this study.
The quality of the early classroom reading environment was approximated by gains in oral reading fluency (ORF) across the school year among first- or second-grade classmates of 546 MZ and 1,016 DZ twin children (mean age = 7.13 years; SD = 0.45) who had reading comprehension scores from a state-wide mandatory test in school year 2013-2014 when most twin pairs were in seventh to tenth grade (mean age = 14.41; SD = 1.13) in a variable called Class ORF Gain. Biometrical models were fit to the data to assess whether Class ORF Gain moderated the genetic, shared environmental and/or nonshared environmental variance associated with adolescent reading comprehension.
Class ORF Gain moderated shared environmental influences on reading comprehension 6-9 years later. When early classroom reading gains were poor, variability in reading comprehension in adolescence was high and was associated largely with shared environmental influences. When early classroom reading gains were good, overall and shared environmentally influenced variability in adolescent reading comprehension was lower so that genetic influences were most relevant in explaining that variability.
Our findings suggested that classroom reading environment experienced when children were learning to read had a lasting influence on the factors underlying variability in later reading effectiveness.
阅读对于儿童在学校及以后的成功至关重要,但许多青少年未能达到预期的熟练水平。这凸显了需要更好地理解影响阅读效果的因素,包括基因和环境。在更高质量的课堂阅读环境中,观察到第一和二年级阅读流利度的遗传影响表达增加。这种早期环境在多大程度上继续影响后期阅读的遗传和其他环境影响尚不清楚,并在本研究中进行了测试。
通过对 546 对 MZ 和 1016 对 DZ 双胞胎儿童的同班同学在整个学年中的口语阅读流利度(ORF)的提高来近似早期课堂阅读环境的质量(平均年龄= 7.13 岁;标准差= 0.45),这些双胞胎儿童在 2013-2014 学年有全州范围内的阅读理解测试成绩,当大多数双胞胎在 7 到 10 年级(平均年龄= 14.41 岁;标准差= 1.13)时,有一个名为 Class ORF Gain 的变量。生物测量模型被拟合到数据中,以评估 Class ORF Gain 是否调节了与青少年阅读理解相关的遗传、共享环境和/或非共享环境方差。
Class ORF Gain 调节了共享环境对 6-9 年后阅读理解的影响。当早期课堂阅读收益较差时,青少年时期阅读理解的变异性较高,并且主要与共享环境影响相关。当早期课堂阅读收益较好时,青少年阅读理解的整体和共享环境影响的变异性较低,因此遗传影响在解释这种变异性方面最为相关。
我们的发现表明,儿童学习阅读时所经历的课堂阅读环境对后期阅读效果变异性的潜在因素具有持久影响。