We human beings were never born to read; we invented reading and then had to teach it to every new generation. Each new reader comes to reading with a 'fresh' brain - one that is programmed to speak, see, and think, but not to read.
Maryanne Wolf
Fluency is the developmental process that connects decoding with everything we know about words to make the meaning of the text come to life. Fluency is a wonderful bridge to comprehension and to a life-long love of reading.
Typically, when you read, you have more time to think. Reading gives you a unique pause button for comprehension and insight. By and large, with oral language - when you watch a film or listen to a tape - you don't press pause.
We are not only what we read. We are how we read.
Look around on your next plane trip. The iPad is the new pacifier for babies and toddlers. Younger school-aged children read stories on smartphones; older boys don't read at all, but hunch over video games. Parents and other passengers read on Kindles or skim a flotilla of email and news feeds.
We humans invented literacy, which means it doesn't come for free with our genes like speech and vision. Every brain has to learn it afresh.
Every opportunity to practice is a gift to the developing reader. Practice, practice, practice, in every form and medium!
Children need to have both time to think and the motivation to think for themselves, to develop an expert reading brain, before the digital mode dominates their reading. The immediacy and volume of information should not be confused with true knowledge.
The act of learning to read added an entirely new circuit to our hominid brain's repertoire. The long developmental process of learning to read deeply changed the very structure of that circuit's connections, which rewired the brain, which transformed the nature of human thought.
Reading is a bridge to thought.
After many years of research on how the human brain learns to read, I came to an unsettlingly simple conclusion: We humans were never born to read.
No one can ever prepare a parent for two things: the immeasurable love that comes with having a child; and the sorrow and confusion that comes when your child appears to learn in a different way from other children.
I am an apologist for the reading brain. It represents a miracle that springs from the brain's unique capacity to rearrange itself to learn something new.
The questions that our society must ask revolve around whether the time-consuming demands of the deep-reading processes will be lost in a culture whose principal mediums advantage speed, multitasking, and processing the next and the next piece of information.
Digital technology can be a great resource, but it can also be a pernicious one, so it's how we, as a society, really study the cognitive impact of that and use evidence-based research to go after the technology designers to do a better job of dealing with the problems of memory and attention we are seeing.
In reading, we are both scientists and poets.
Literacy is so much entwined in our lives that we often fail to realize that the act of reading is a miracle that is evolving under our fingertips.
The brain is constantly adapting.
There are, no doubt, as many conceptualizations of the good life as there are lives that aspire to it, but surely one of the most important pathways to its achievement begins with the desire to seek what is good - for the self, for those we love, for 'our neighbor,' for our earth.
There's a richness that reading gives you, an opportunity to probe more than any other medium I know of. Reading is about not being content with the surface.
Reading requires the brain to rearrange its original parts to learn something new.
What we read, how we read, and why we read change how we think.
Learning to read, for the brain, is a lot like an amateur ringmaster first learning how to organise a three-ring circus. He wants to begin individually and then synchronise all the performances. It only happens after all the separate acts are learned and practised long and well.
We have to move into the 21st century, but we should do so with great care to build a 'bi-literate' brain that has the circuitry for 'deep reading' skills and, at the same time, is adept with technology.
Deep reading refers to a whole continuum of processes that include some of the most important things about thinking and how we connect thought to what we read - critical analysis, analogical reasoning, how we infer from the text, how do we take another's perspective.
The most basic definition of fluency is simply the ability to read text accurately and quickly.
The same plasticity that allows us to form a reading circuit to begin with, and short-circuit the development of deep reading if we allow it, also allows us to learn how to duplicate deep reading in a new environment. We cannot go backwards. As children move more toward an immersion in digital media, we have to figure out ways to read deeply there.
Reading or written language is a cultural invention that necessitated totally new connections among structures in the human brain underlying language, perception, cognition, and, over time, our emotions.
I have no doubt that the digital immersion of our children will provide a rich life of entertainment and information and knowledge. My concern is that they will not learn, with their passive immersion, the joy and the effort of the third life, of thinking one's own thoughts and going beyond what is given.
The attention span of children may be one of the main reasons why an immersion in on-screen reading is so engaging, and it may also be why digital reading may ultimately prove antithetical to the long-in-development, reflective nature of the expert reading brain as we know it.
Inevitably, there will be many aspects of culture that would benefit from a more reflective or contemplative approach to them.
It's an individual waste and it's an economic waste for Australia not to recognise dyslexia.
The first and most common reason for not being a fluent reader is that the child does not yet know how to decode very well yet. They lack automatic decoding skills, and this prevents them from being able to read accurately, much less smoothly and quickly. Decoding accuracy is the first prerequisite to fluency.
There are no genes or areas in the brain devoted uniquely to reading. Rather, our ability to read represents our brain's protean capacity to learn something outside our repertoire by creating new circuits that connect existing circuits in a different way.
The integration of the simpler and the deeper reading processes is not automatic and requires years of learning by the novice reader, as well as extra milliseconds for any expert to read a more sophisticated text.
After we become literate, we literally 'think differently' about language: images of brain activation between literate and nonliterate humans bear this out.
As work in neurosciences indicates, the acquisition of literacy necessitated a new circuit in our species' brain more than 6,000 years ago. That circuit evolved from a very simple mechanism for decoding basic information, like the number of goats in one's herd, to the present, highly elaborated reading brain.
There's an old rule in neuroscience that does not alter with age: use it or lose it. It is a very hopeful principle when applied to critical thought in the reading brain because it implies choice.
We know from research that the reading circuit is not given to human beings through a genetic blueprint like vision or language; it needs an environment to develop. Further, it will adapt to that environment's requirements - from different writing systems to the characteristics of whatever medium is used.
I am an educator and neuroscientist who studies how the brain learns to read and what happens when a young brain can't learn to read easily, as in the childhood learning challenge, developmental dyslexia.
Each young reader has to fashion an entirely new 'reading circuit' afresh every time. There is no one neat circuit just waiting to unfold. This means that the circuit can become more or less developed depending on the particulars of the learner: e.g., instruction, culture, motivation, educational opportunity.
I worry that the superficial way we read during the day is affecting us when we have to read with more in-depth processing.
The brain is plastic its whole life span.
As a cognitive neuroscientist and scholar of reading, I am particularly concerned with the plight of the reading brain as it encounters this technologically rich society.
I have always worried about who can read, who can't, who doesn't, and the great, life-altering consequences hidden within those distinctions.
I work in a mix of areas and am informed by them all: child development, psycholinguistics, education, and most especially, cognitive neuroscience.
The acquisition of literacy is one of the most important epigenetic achievements of Homo sapiens. To our knowledge, no other species ever acquired it.
The quality of our reading is not only an index of the quality of our thought; it is our best-known route to developing whole new pathways in the cerebral evolution of our species.
My work on what is called 'deep reading' explores the range of linguistic, cognitive, and affective processes that underlie not only the emergence of creative thought when we read but also the development and strengthening of capacities like empathy and critical analysis that we can apply to the rest of our lives.
We would be the worst of fools if we would ever lose this extraordinary capacity to go beyond the limits of past thought and past prejudices.