Last year, I went through a major rethink about my approach to the Rhythm for Reading blog. To ‘incubate’ the new outlook I’ve spent a great deal of time exploring new themes and scoping out a broader awareness of rhythm in everyday life.
The shift started unexpectedly twelve months ago. I happened to be working in the San Francisco Bay Area in November, as the State of California braced for the driest month of the year, which typically generates a high fire risk. You may remember the wildfires that blazed out of control at that time. More than 80 people tragically lost their lives in the deadly ‘Camp Fire’ that completely destroyed the town of Paradise. For eight days, the Bay Area lay under a thick blanket of smoke. From my hotel window and when travelling to work I could see that the condors had stopped riding the thermals high in the sky. There was hardly any sunlight, and the air quickly became the filthiest on the planet. Nature seemingly had shutdown, but we humans had stayed calm and carried on regardless. The freeways were absolutely crammed with vehicles, pumping fumes into the already saturated air.
Although I was lucky enough to be staying in air-conditioned accommodation during the worst days of pollution, I worked with people who were not so fortunate. They told me about the dreadful effects of the smoke on their young children and elderly neighbours. Given that an hour of exposure to the Camp Fire smog was judged to be the equivalent of chain-smoking ten cigarettes, it was unsurprising that poorer people in the Bay Area, those without air-conditioning living some four hundred miles from the wildfires, were struggling with their breathing, feeling nauseous and even collapsing. This situation made me realise the extent to which I have taken clean air for granted. I have always gratefully acknowledged the work done by trees to reduce carbon dioxide during the night, but naively, I have assumed that this natural recycling process was sustainable. Following the Camp Fire, I no longer presume that forests will continue to maintain the fragile balance of gases that sustain life on our planet.
In California last year, deadly particulate matter from the burning of the forest caused the toxicity in the air. In other words, we were inhaling carbon particles from the very trees that we need in the long term to recycle the air. In the same twelve month period, it has been heart-breaking to see fires started deliberately, that have caused enormous devastation in the Amazon Forest, the ‘Lungs of the Earth’, and tragically, huge areas of New South Wales, Australia are ablaze as I write this.
Like me, you may have been shaken recently into a new awareness of our responsibility for Earth’s atmosphere. Is this the beginning of the end? Historically, seasonal rhythms have driven the cyclical flooding of rivers, as seen in the beautiful hieroglyphs of Ancient Egypt. The predictability of dry seasons and rainy seasons has supported the cultivation of food crops for twelve thousand years. Going back even deeper into pre-history, when an alternating rhythm of warmer and cooler periods caused the ice-sheets of North America and Scandinavia to advance and retreat, hunter-gatherer peoples became highly adaptive and innovative.
According to anthropologist Professor Brian Fagan, Cro-Magnon humans, Neanderthals and many of the larger mammals proved to be temperature tolerant, demonstrating ample capacity to adapt during climactic shifts of the rhythmic, ‘Dansgaard-Oeschger (D/O) oscillation’ (Fagan, 2010, p.55). There was also a remarkable explosion of creativity that followed warmer periods of climate change, marked by magnificent art in the caves of South Africa, Spain, Germany, Austria and France.
Unlike the hunter-gatherers, who breathed pristine unpolluted air in conditions that were on average considerably cooler than those of today, we inhabit a rapidly warming planet, in which unprotected forests as well as coral reefs are lost every year. The situation that we face is pushing us towards the upper limit of our temperature tolerance. Unfortunately, industrial technologies and economic models have encouraged a false perception of our independence of nature, which has led to widespread abuse of the natural world.
Earth’s indigenous peoples on the other hand, have maintained values and technologies that are closely aligned with nature (Fagan, 2011). Living and breathing in harmony with nature, they have maintained sustainable cultural traditions, that offer a balance between ideals of freedom and security. Now, we must all work together to restore rhythm and balance, to protect and nurture higher values of respect and appreciation for Earth’s resources.
Fagan, B. (2010) Cro-Magnon: How the ice-age gave birth to the first modern humans, Bloomsbury Press.
Fagan, B. (2011) The First North Americans: An archeological journey, Thames and Hudson
I had no idea that I would be writing a post on computation whilst working in Silicon Valley – I am amazed by the coincidences that life delivers. It seems that music and technology go together here and I look forward to exploring some of the ideas behind the Rhythm for Reading programme in relation to the principles of computational thinking.
Historically, the word compute derives from Latin roots: com (together) and putare (to settle an account). In the French language of the 17th century, the verb ‘computer’ meant to reckon or to calculate the amount. As we know only too well from the reporting of negotiations between the UK and EU, it is important to attend to the broad principles as well as the details. From the perspective of computer science, a systematic approach is used to align the broad principles and the fine details by following a process involving four cornerstones of computational thinking: decomposition, pattern matching, abstraction and algorithms.
Decomposition: In general, music is associated with ‘composition’ rather than decomposition. However, playing any piece of music involves decomposition. Before performing, musicians are faced with a problem: how should the music sound and feel? They answer this question by considering musical elements such as, form and tempo (overall layout and speed), harmonic structure (organisation of key changes in relation to the form), rhythmic and melodic features (beats, riffs, tunes, patterns and repetitions), as well as the texture - the distribution of the sounds in relation to each other. Each musical style has a fairly typical blueprint consisting of certain types of form, harmonies, textures, rhythms and melodies which musicians constantly refine with experience.
Pattern recognition: For many people, the appeal of music lies in its attention grabbing patterns, the hypnotic qualities of repeating beats and the deeply satisfying musical feel of certain riffs and grooves. This is not surprising because like other mammal species, our early development took place surrounded by the rhythm of our mother’s heartbeat, respiration and digestion patterns. New born infants can detect changes in rhythmic patterns of language and music with remarkable sensitivity. It seems that pattern recognition begins very early on in our development and continues throughout life.
In computational thinking, the extraction of general information from a recognised pattern (e.g. all dogs have four legs) involves looking for similarities and disregarding everything else. Well, when we listen to music and extract the beat from the complete musical sound – (just before we begin nodding or tapping along with it), we have extracted the constantly recurring ‘generalised’ information and brought this to the front of our awareness. In this way, the beat becomes useful as an organisational device because we naturally perceive the other more varied and changeable sounds in relation to it.
Abstraction: The process of abstraction, knowing what to retain and what to ignore as part of pattern recognition is an acquired discipline that becomes second nature with practice. For example, finding the beat and focusing on it (perhaps whist taking exercise) is a powerful form of orientation in musical sound that most people naturally adopt. The process of recognising rhythmic patterns via the extraction and abstraction of the beat often happens spontaneously and extremely quickly – in a matter of a few seconds, depending rather on the quality of the musical sounds.
Algorithms: An algorithm is a sequence of steps required to build a model of a solution to a problem, such as a series of instructions or rules to make a cup of tea. To programme a robot to make a cup of tea would be complex because the single instruction ‘pour’ for example would need to be broken down into all the tiny action pieces (involving angles, weight, resistance, timing etc). Returning to music, having abstracted the beat from musical sounds, it is possible to rebuild a sense of the organisation of the music in relation to the beat. For example, there may be recurring catchy tunes or rhythmic patterns that make the music instantly recognisable. The beat is the organisational principle in our brain’s perception of musical sounds. Similarly, the beat is also the organisational principle of musical sounds as represented in musical notation. The representation of music in music notation involves a framework called a musical staff, consisting of five horizontal lines. The system of notation is rule-based and the information it contains is extremely precise. However, like an algorithm, only the necessary details are included; all other musical information is inferred by (stylistically aware) musicians.
In Rhythm for Reading sessions, there is a strong emphasis on beats, riffs, patterns and repetitions, as well as on an awareness of the form and structure of a piece of music. After a couple of sessions, even very young children spontaneously apply the principles of decomposition and pattern recognition. Their innate awareness of sound prompts them to extract and abstract the beat and to feel the organisation of melodic and rhythmic patterns around the beat. They love to discover the patterns in musical notation and can use these to explain the overall organisation of simple pieces of music.
It’s been fun to play a little with the idea of explaining musical processes in terms of computational thinking – there is certainly plenty of common ground. However, there is also an important difference. While computational thinking occurs in a sequence, which is later integrated by a computer, the musical equivalents of decomposition, pattern recognition, abstraction and algorithms are integrated by the human brain’s capacity to read musical notation, to elaborate the notation and produce musical sounds in time with others. Not only do we integrate all of these processes naturally, we find it highly rewarding to do this <in sync>.
Contribution is a tremendously positive aspect of human nature. At this time of year in many schools, it’s possible to detect a special sense of dignity emerging from a collective sense of contribution. Central to the season of Harvest Festival, contribution is a natural response to our awareness of our of abundance and supply. We pause to appreciate the hard work of the farmers and the benefits of a favourable climate, essential for the long-term sustainability of crops and livestock. It is a time to reflect and give thanks for the magnificent, vibrant beauty of our planet. Sharing the gifts of our abundance with the wider community reminds us that the gift of contribution is also the gift of belonging.
In classrooms, a quite different notion of contribution exists. Students’ contribution in the classroom is evaluated by teachers. Yet at the same time, contribution is restricted by the limited amount of time teachers are able to allocate each unit of work. Tension around contribution in the classroom arises between the need to cover the curriculum and the time students may need to assimilate concepts before they feel ready to reflect and engage via questions or discussion. A possible solution is to allow more time. Expanding the time allowed for students’ contribution seems to slow the whole process of learning down. However, this may be time well spent, particularly for lower attaining students, who may learn differently or simply need more time to process the information, as argued by Rowe, (1986).
Contribution is also a form of social action. In the context of Harvest Festival, there is a sense that everybody contributes what they can, but in a classroom the act of contributing to a curriculum that may or may not seem relevant and relatable can be stressful for some students. Accordingly, ‘children tend to feel vulnerable in school’ (Pollard, 1987, p.4), where they are subject to a process of assessment and rules. Children learn to adapt, to cope with power and discipline of the teacher, to avoid situations that may lead to humiliation or disrespect, particularly in front of peers in the classroom. Seen through this lens, contribution can be complex, troubling for students, and very different to the contribution that takes place in the school hall during a Harvest Festival.
In Rhythm for Reading sessions, contribution is extremely important. Each session lasts only ten minutes in length, so the students need to commit themselves to tasks from the very beginning of the session. Every second is dedicated to contribution. The main difference between students’ contribution in Rhythm for Reading sessions and the classroom is that they contribute simultaneously as a group rather than as individuals. This reduces the sense of vulnerability considerably. The contribution that they make as a group involves consideration of others; for example in the way that they blend their voices together so that no one is louder or quieter than anyone else. This achieves a true sense of group cooperation in which everyone can feel that the energies of contributing and belonging are truly symbiotic.
Although the pressures on teachers and students are seemingly increasingly difficult to resolve, Rhythm for Reading by its nature is non-competitive, harmonious and inclusive. As such, it bridges the chasm between the starkly contrasting forms of contribution occurring in the classroom and the school hall. Rhythm for Reading makes use of rhythmic patterns rather than words to develop reading skills, yet builds fluency, cognitive control and confidence, while cementing group cohesion and commitment to learning.
Pollard, A. (1987). Introduction: New Perspectives on Children, In A. Pollard (Ed.) Children and their primary schools: A new perspective, (p. 1- 11), The Falmer Press, taylor & Francis Inc., London, New York & Philadelphia
Rowe, M. (1986). Slowing down may be a way of speeding up! Journal of Teacher Education, 37, 43-50.
The new school year is about to start and for the young people transferring to secondary school, September will bring new friendships, new relationships with teachers as well as new journeys to and from school. A few years ago I worked on a fascinating research project about secondary school transfer across England, interviewing 24 young people at four points in time. The young adolescents left their primary schools full of positivity and high expectations, anticipating with relish many new friendships and exciting opportunities.
I heard about novelty, new ideas, a fresh perspective, a change of environment, hope, excitement and fulfilment. Moving beyond the limits of primary school was a very strong theme - though the young people stressed the importance of maintaining strong connections with their ‘old’ friends, meeting them at weekends to enjoy ‘messing about’ (dancing and singing to their favourite songs), whereas socialising with their ‘new’ friends after school involved talking and listening to one another’s music. Isn’t this contrast interesting? Music appears incredibly important for building deeper social connections.
Looking at everyday social behaviour, music is woven into our lives at a personal level as well as at the level of musical experiences in the wider community. For example, personal musical preferences are important at an individual level, such as when singing and dancing with infants and children, sustaining attention on tasks and work, forming romantic relationships and even in resolving problems with health. However, music is also used more publicly for celebrations in families, social groups, workplaces and communities.
Broadly speaking, it seems that music that we are exposed to via mass media may help to relax vigilance, inhibition, scepticism and caution. Film makers for example regard music as essential in helping their audience to suspend their disbelief, to relax their critical judgement, to be more easily persuaded by the special effects as well as being captivated by the fiction, the drama and characters. What might explain this?
Humans are mammals and to some extent tend to revert to socially instinctive behaviour when socially uninhibited. Studies of other mammals such as rats and mice have shown that social signals related to mating, nurturing or protecting young are processed in the mid-brain.Remarkably, tiny mice pups produce ultra-sonic squeaks when separated from the rest of the litter and scientists have shown that only mother mice actually hear these high frequencies (Liu et al, 2006; Liu et al., 2007). Since, many mammal species commit infanticide, this specialised form of social signal is highly advantageous, ensuring that the vulnerable pups have a greater chance of survival.
Mythical tales of abandonment, involving fear of the jaws of death followed by the joy of reunion are familiar themes in stories from all around the world. Sound is a primal medium of connection and communication via mid brain processes that are rapid, subjective, subtle and subconscious. Similarly, the telling of stories, the recitation of poems and songs are also examples of how auditory signals are woven together to communicate for example fear, distress and joyful reunion, or other emotions. Telling a story involves a particular style of social engagement known as entrainment, drawing people in, encouraging them to lean into the tale using a particular blend of structure and rhythm and emotional processing. The auditory structures allow listeners to suspend their disbelief, to step inside the story with the narrator creating a state of seeming emotional safety. The use of descriptive language to convey the affect (emotional content) of the narrative may help individuals and communities to process disturbing feelings within a structure, a contextual framework of time and space. The structure allows the tale to be retold and remembered for future social gatherings.
In Rhythm for Reading, the entrainment process involves the sharing of motion, affect, the chanting of rhythmic patterns within musical structures. The specially composed musical resources create the time and space for this type of social engagement. Although this is a reading intervention that doesn’t use words, here are some case studies, demonstrating changes in reading after taking part in our rhythm-based group entrainment exercises.
Liu RC, Linden JF, Schreiner CE. 2006. Improved cortical entrainment to infant communication calls in mothers compared with virgin mice. Eur J Neurosci 23:3087–3097.
Liu RC, Schreiner CE. 2007. Auditory cortical detection and discrimination correlates with communicative significance. PLoS Biol 5:e173.
When a child is able to focus its attention, it is able to learn. When attention is fragmented or fades too quickly, little learning takes place. In this post I will explain why rhythm has a strong role to play in strengthening working memory, self-regulation and cognitive switching. These three aspects of cognitive control influence the way that attention supports learning. A weak working memory is frequently described as an invisible ‘barrier’ to learning and is prevalent in specific learning difficulties such as dyslexia. Working memory is the blackboard of the mind - the mental space upon which mental calculations, tasks, plans or lists can be reordered, manipulated and stored for a short period of time. Children with a weak working memory are able to manipulate and recall a span of only three information units, whereas those with a stronger than average working memory have a span of nine or more information units. However, the ability to manipulate and store information need not be limited by working memory span.
Infants acquire their mother tongue by detecting the rhythmical patterns in the overall stream of speech utterances (Saffran et al., 1996). Sensitivity to rhythm expands working memory by ‘chunking’ the information into rhythmical groups, which is why it is often easier to recite a phone number by clustering the digits together in threes or fours. This chunking strategy probably extends way back through thousands of generations. Preliterate societies have transmitted and conserved cultural practices through singing and storytelling, but also via rhythmical chanting and reciting of verses.
Now that we are a predominantly literate society, we are a little out of touch with the ancient tradition of rhythmically chanting of large amounts of information. However, memory experts show that it is possible to extend the natural span of working memory substantially and to recall information reliably by using chunking strategies (Mathy et al., 2016). For example, Rajan Mahadevan memorised at least 30,000 digits of pi by chunking the digits into groups of ten, he practised recalling the digits and extending the list further day after day (Ericsson & Moxley, 2014).
In classrooms, some children struggle to concentrate. Their attention is scattered rather than focused, or may fade before they can engage with learning. Failed attempts to focus are frustrating for them and often spark a negative spiral, which leads to low self-esteem. Mindfulness training has shown that focussing on the rhythm of the breath is an effective way to overcome distracting, negative thoughts (Siegel, 2007). However, teachers of children who have completed the Rhythm for Reading programme comment on visible improvements in concentration, which indicates that a ten-minute burst of rhythmic activity per week reinforces focussed attention and strengthens cognitive control.
Children lacking cognitive control are usually impulsive and struggle with interpersonal skills. They are low in self-regulation, a form of cognitive control that involves willpower and the perseverance to resist distractions and inhibit impulses, particularly while working towards a particular goal or target (Zimmerman, 2000) and usually emerges in very young children prior to starting school (Rothbart et al., 1992). The rhythm-based activities of the Rhythm for Reading programme, which were first designed for a group of children with little or no inhibition or self-regulation, are immensely effective in cultivating self-awareness and self-regulation in line with increased sensitivity to rhythm. There is also a deeper engagement with reading towards the middle of the programme. Being better able to detect the rhythmic ebb and flow in the text, the focus of attention narrows during the process of reading, effectively blocking out distractions. Self-regulation becomes a form of metacognition as the children monitor their awareness of their reading experience. Their information processing becomes sharper, enabling a natural ease to emerge in both self-awareness and cognitive control of the reading process (Long, 2014).
While self-regulation filters out distractions during reading, cognitive switching builds flexibility into reading behaviour. An obvious example would be that if the reader detected an error, they would need to be sufficiently flexible to stop the flow of information, backtrack in the text and then restart without losing the overall thread of the passage. A less obvious example might involve the reader in alternating their awareness between different points of view in a dialogue. A degree of cognitive switching would be involved until these points of view had been securely assimilated and integrated into the overall comprehension of the text. Sensitivity to rhythm assists flexibility during reading by supporting the overall security, stability and assimilation of the text, however demanding it may be.
Cognitive control supports focussed attention and improved sensitivity to rhythm contributes to cognitive control in several ways: (i) organisation of information in working memory, (ii) inhibition of distracting thoughts and (iii) security during cognitive switching. Taken together, these functions support focussed attention, the development of skilled reading and independence as a learner, all of which are required to mitigate the effects of disadvantage (Heckman, 2006).
A newly published paper on a randomised controlled trial shows the statistically significant effect of rhythmic training on disadvantaged children’s reading comprehension. Read more here.
Ericsson, K. A., & Moxley, J. H. (2014). Experts’ superior memory: From accumulation of chunks to building memory skills that mediate improved performance and learning. In T. J. Perfect & D. S. Lindsay (Eds.), SAGE handbook of applied memory (pp. 404-420). London, UK: Sage Publishing
Heckman, J.J. (2006) Skill formation and economics of investing in disadvantaged children, Science, 312, 1900-1902.
Long, M (2014) “‘I can read further and there’s more meaning while I read’: An exploratory study investigating the impact of a rhythm-based music intervention on children’s reading.” Research Studies in Music Education 36.1: 107-124.
Mathy, Fabien, et al. (2016)Developmental abilities to form chunks in immediate memory and its non-relationship to span development.” Frontiers in psychology 7: 201.
Rothbart, Mary K., Hasan Ziaie, and Cherie G. O’Boyle. (1992) Self‐regulation and emotion in infancy.New directions for child and adolescent development 55: 7-23.
Saffran, Jenny R., Richard N. Aslin, and Elissa L. Newport. (1996) Statistical learning by 8-month-old infants.” Science 274.5294: 1926-1928.
Siegel, D. (2007) The Mindful Brain New York: Norton
Zimmerman, B.J. (2000). Attaining self-regulation: A social cognitive perspective. In M. Boekaerts, P.R. Pintrich, & M. Zeidner (Eds) Handbook of self regulation (pp. 13-39). San Diego: Academic Press
‘To be understood - as to understand’ from the prayer of St Francis captures a profound truth: we are at our happiest when we feel truly understood by others. This feeling of mutual understanding strengthens communities and generates an aura of certainty at the core of each individual’s character. The ability to understand exists in all of us, but can easily be obscured by doubt, worry or fear. Removing worries, doubts and fears leads to clarity –as Johnny Nash put it, “I can see clearly now the rain has gone…”. The same principle applies to reading comprehension. The songlike qualities of speech (i.e. prosody) come to life in children’s voices when they are able to read with ease, fluency and understanding.
In the Simple View of Reading, reading comprehension is described as the ‘product of’ skilled decoding and linguistic comprehension (Gough & Tumner, 1986). The recent focus on oracy (for example Barton, 2018) highlights a focus in some schools on linguistic comprehension. According to researchers, the proportion of children beginning school with speech, language and communication needs is estimated at between 7 and 20 per cent (McKean, 2017) and unfortunately, communication issues carry a risk of low self-esteem and problems with self-confidence (Dockerall et al., 2017).
In the Gough & Tunmer model, the term ‘product of’ seems a little vague. I like to think that ‘product of’ refers to the flexible quality found in skilled reading as well as the dynamic integration of natural language with the alphabetic code. At first, beginning readers struggle to accommodate words and sentences of a variety of shapes and lengths, but as they become more skilled, they ease into a state of flexible, responsive reading, which leads to being able to read sentences whilst processing meaning at the same time. What is even more remarkable about this process is that reading with this wonderful flexibility takes place within distinct time constraints.
The time constraints are a kind of rhythmic signature for language comprehension as well as music and are biologically determined (Long, 2006). Each and every line of a song, poem or musical phrase typically lasts for 3-5 seconds. This brief ‘window’ is our subjective sense of the present moment (Gerstner & Fazio, 1995). In a song, a poem or a musical phrase, this moment is packed with messages and meanings – relating information about feeling, being or doing. The rhythm of reading in any language is very flexible indeed, but it is underpinned by this constant ebb and flow of units of meaning every 3-5 seconds. Becoming aligned with this natural flow of meaning helps children to read words, phrases and sentences with ease, fluency and understanding and also to anticipate words and phrases prior to reading them.
The importance of this rhythmic ebb and flow of meaning cannot be overstated and is a core part of the Rhythm for Reading programme. The programme uses music rather than words to develop rhythmic sensitivity, so it is suitable for children and young people who need a sharp ‘boost’ in reading comprehension, language and communication skills, phonological awareness or cognitive control, whether attending mainstream or special schools.
Barton, G “Teachers should encourage pupils to speak up – and should remember to do so themselves TES News https://www.tes.com/news/teachers-should-encourage-students-speak-and-remember-do-so-themselves Retrieved on 29.4.2018
Dockrell, Julie Elizabeth, et al. “Children with Speech Language and Communication Needs in England: Challenges for Practice.” Frontiers in Education. Vol. 2. Frontiers, 2017.
Gerstner, Geoffrey E., and Victoria A. Fazio. “Evidence of a universal perceptual unit in mammals.” Ethology 101.2 (1995): 89-100.
Gough, Philip B., and William E. Tunmer. “Decoding, reading, and reading disability.” Remedial and special education 7.1 (1986): 6-10.
Long, M. “Stamping, clapping and chanting: An ancient learning pathway?” Educate Journal, 3, 1, (2006) 11-25
McKean, Cristina, et al. “Language Outcomes at 7 Years: Early Predictors and Co-Occurring Difficulties.” Pediatrics(2017): e20161684.
Academic achievement relates strongly and reciprocally to academic self-concept, for example in English and Maths (Schunk & Pajares, 2009) and also reading (Chapman & Tumner, 1995); moreover the importance of motivation increases as perceptions of reading difficulty increase (Klauda et al., 2015). So reading catch-up can also feel as if it’s a catch-22 situation. To resolve this issue, Hattie (2008) recommended that teachers teach self-regulating and self control strategies to students with a weak academic self-concept: ‘address non-supportive self-strategies before attempting to enhance achievement directly’ (Hattie, 2008; p.47).
Peeling back the layers on the self-concept literature, various models and analogies are available (Schunk, 2012). Hattie’s highly effective analogy of a rope captures rather vividly the idea of the congruence of the core self-concept as well as the multidimensionality of intertwining fibres and strands that are accumulated via everyday experiences (2008, p.46). The rope image supports the idea that a particular strand applies to maths, whereas a completely different strand applies to reading and another one for playing football and so on.
The relationship between self-concept and academic achievement is reciprocal (Hattie, 2008) and also specific to each domain (Schunk,2012). Therefore, strengthening self-concept for reading supports achievement in reading, while strengthening self-concept for maths supports maths skills. It is very difficult to strengthen low self-concept in a specific domain before addressing achievement in that area, unless introducing a completely new approach. It is important that the new approach supports self-strategies as well as directly building strength in domain-relevant skills. The Rhythm for Reading programme meets both of these requirements.
Rhythm for Reading works as a catalyst for confidence and reading skills and therefore lifts a negative reciprocal relationship (catch-22 situation) into a positive cycle of confidence and progression. This programme is effective as a reading catch-up intervention because it offers a fresh and dynamic approach, which perfectly complements to traditional methods. Instead of reading letters and words, pupils read simplified musical notation for ten minutes per week. Consequently, they are practising skills in decoding, reading from left-to-right, chunking small units into larger units, maintaining focus and learning, as well as developing confidence, self-regulation and metacognitive strategies all the while.
The musical materials used in the Rhythm for Reading programme have been specially written to be age-appropriate and to secure pupils’ attention, making the effortful part of reading much easier than usual. In fact, throughout the programme, the cognitive load for reading simple music notation is far lighter than for reading printed language, enabling an experience of sustained fluency and deeper engagement to be the main priority. As these case-studies show, this highly-structured approach has had huge successes for low and middle attaining pupils, who were able to read with far greater ease, fluency, confidence and understanding after only 100 minutes (ten minutes per week for ten weeks).
Chapman, J. W., & Tunmer, W. E. (1995). Development of young children’s reading self-concepts: An examination of emerging subcomponents and their relationship with reading achievement. Journal of Educational Psychology, 87, 154–167.
Hattie, J. (1992). Self-concept. Hillsdale, NJ: Erlbaum.
Hattie, John.(2008) Visible Learning: A Synthesis of Over 800 Meta-Analyses Relating to Achievement. Routledge.
Klauda, Susan Lutz, and John T. Guthrie. “Comparing relations of motivation, engagement, and achievement among struggling and advanced adolescent readers.” Reading and writing 28.2 (2015): 239-269.
Pintrich, P.R. and Schunk, D.H. (2002). Motivation in education: Theory research and applications (2nd edition) Upper Saddle River, NJ: Merrill.
Rogers, C.R. (1959). A theory of therapy, personality, inter-relationships as developed in the client-centered-framework. In S. Kock (Ed) Psychology: A study of a science, Vol.3, pp.184-256 New York, McGraw-Hill.
Schunk, D. H. and Pajares, F. (2009). Self-efficacy theory. In K. r. Wentzel & A. Wigfield (Eds.), Handbook of motivation at school (pp. 35-53). New York:Routledge.
Schunk, D.H. (2012) Learning theories: An educational perspective, 6th edition, First published 1991 Boston: Allyn & Bacon, Pearson Education Inc.
People are usually intrigued when I explain that this reading programme requires only 100 minutes from start to finish. In fact, pupils do not necessarily need 100 minutes to accomplish the goals of the Rhythm for Reading programme. Often improved engagement, comprehension, ease, fluency and joy of reading can be achieved after one hour spread across six weeks. A six week programme works well for the majority of children but for some who unfortunately do not attend school consistently, it would be far too easy for them to fall behind. By simply increasing the total length of the Rhythm for Reading programme from 60 to 100 minutes, all the children have enough time to develop their rhythmic awareness and experience the benefits in their reading. When 100 minutes are spread across ten weekly sessions, the programme slots neatly into a school term and this is convenient for everyone.
I am often asked how it’s possible for pupils to make real progress in only ten minutes per week and how certain can we be that the impact is attributable to Rhythm for Reading? These are excellent questions. First of all, pupils are reading everyday in the classroom, so they have ample opportunity to apply the rhythm-based approaches that they learn in the weekly ten-minute sessions to every task that involves reading during the school day. Each ten-minute session acts as a powerful catalyst, aligning decoding skills with the natural language processing abilities of the pupils. As the approach is rhythm-based instead of word-based, pupils with specific learning difficulties such as dyslexia or English as an Additional Language (EAL) benefit hugely from the opportunity to improve their reading without using words. It’s an opportunity to lighten the cognitive load, but to intensify precision and finesse. Secondly, I made sure that Rhythm for Reading was among the first intervention programmes to be evaluated as part of the EEF initiative. In this trial, I chose not to exclude any pupils. This meant that some students that took part were unable to access the reading tests because they could not decode text at all. The randomised controlled trial showed scientifically that improved reading scores were attributable to participation in the Rhythm for Reading programme, even though it took only 100 minutes to complete.