October 3rd 2007

Numeracy for Very Special Learners through Host Curricula and Host Environments


Numeracy is an ability to think numerically and to use mathematics at the level necessary for a particular person to function reasonably well at home, in school, at work and in the community. In his introduction to the numeracy strategy documents now used in all schools, David Blunkett lays the foundation for this interpretation, stating “Numeracy is a key life skill”.

Everyday life requires a level of numeracy that is usually concrete (as opposed to abstract) and based very much on problem solving “in the here and now”. This “real life numeracy” is particularly relevant to learners with profound and complex learning difficulties. The key life skill of numeracy gives them the opportunity to sense, to perceive and to begin to form an understanding of themselves and of their immediate environments. It also offers the opportunity to take an active role in influencing themselves, others, objects and events, through a numerical approach. Real life numeracy can only be achieved by such learners through numeracy that is:

concrete,
connected to reality,
relevant to their restricted life style,
based on the earliest levels of intellect,
rich in the contexts of learning,
repetitive (and then some!),
horizontal in its progression,
interactive and manipulated using all the senses.

A main aim for an appropriate numeracy curriculum might be:
to provide a realistic concrete numeracy programme that provides learning for life.


Certainly this main aim must include a toolbox of skills for the early levels of numeracy, such as attention, perceptions, movement, communication, simple abstract thought, sensory awareness and simple concept formation. It is difficult for special learners to make the leap from the concrete to the abstract, but numeracy is “cradle to grave”, i.e. the opportunities are always there.

Early numeracy development.

Thinking begins well before we are born. A baby in the womb listens to sounds, moves their body to suck a thumb, becomes aware of same and different tastes and smells, is aware of a bright light outside the womb and is constantly carried around in space. Numeracy begins on the first day of life as early sensory perceptions are interpreted in ways shown below.

Flo chart 4

These simple benchmarks can form a concrete platform upon which to build perceptions of numeracy.

One way of providing a rich numerical environment for such early benchmarks is through the use of host curricula. A host curriculum is used as a showcase in which to present numerical concepts in a meaningful manner, for example via cookery, rebound therapy, Sherborne movement, physical education, hydrotherapy and massage.

Looking at the host curriculum of massage, this sensory experience can concentrate in a concrete way upon “number” through:

sequence of movements,
awareness of angles of body and limbs,
sensation of rotation and motion,
temperature,
direction,
gravitational pull,
enclosure,
patterns on the skin,
feeling of weight or heaviness,
midline of the body (halves),
sensation of stopping,
relaxation or tension of muscles,
speed,
pressure,
“1, 2, 3”,
cause and effect,
and on and on and on!

Thus, the host curriculum of massage offers a concrete, sensory-based method of presenting numeracy to the very special learner, directly through the skin and body.

Targets for “number massage” will be drawn from the learner’s individual education plan. Some will be specifically from the toolbox of prerequisite skills and a selected few for numeracy. The targeted goals fall in some of the following areas:

shapes,
rhythm and sequence,
cause and effect,
spatial relationships,
problem solving,
measurement,
language of numeracy.

Numeracy targets set through this host curriculum should not be established in isolation, but should be reinforced in other numerical sessions. For example:

A project on “circles” would increase the circular and rotational techniques used in the session. It would also increase use of circles and rotation in cookery (the egg whisk, the pastry cutter, the stirred soup).


A target on volume and enclosure would increase the emphasis on cradling body parts and wrapping body parts during the massage session. It would also increase the cradling of body parts in hydrotherapy and being “the mummy” in a drama session, wrapped in bandages!
A target on temperature – measurement – would increase the use of warmed oils, the use of an ice pack or quicker movements on the skin (creating friction) to increase the perception of heat. Temperature would also be included in a host environment such as the multisensory room set up as Africa or Alaska.


What do I mean by a host environment? For the concrete interaction required for numeracy to develop, a host environment is so much more meaningful than being parked around a table in front of a form board or box of textures. Host environments, such as the dark room, using ultraviolet light, really motivate and challenge perceptions, e.g. the glowing switch in the dark that controls and moves a fluorescent circle on the wall. You really learn about circles and enclosure when under the parachute in a “Mongolian tent” while using the school hall for numerical parachute play. The hydrotherapy pool provides an environment where a relaxed body can absorb the geometry of angles of limbs, feel the pressure and pull of the water and the swirls of rotating in the pool.

In conclusion, numeracy is a vital part of life for very special learners, but it must be on their levels of understanding. They are apprentices in number, learning the simple steps first before more complex interactions can develop. The educator must be assertive as the master craftsperson in enabling a vigorous approach to numeracy through host curricula and host environments – not through meaningless chanting of number rhymes or matching rings on a pole.

References:

Bremner, J. Gavin, 1998. Infancy, Blackwell Publishing.
Butterworth, Brian, 1999. The Mathematical Brain, MacMillan Publishing.
Dehanne, Stanislas, 1997. The Number Sense, Penguin.
DFEE, 1999. National Numeracy Strategy.
Longhorn, Flo, 1997. Enhancing Education through the Use of Ultraviolet Light and Fluorescing Materials, Catalyst Education Resources Ltd.
Smith, Ann Montagu, 1997. Mathematics in Nursery Education, David Fulton Press.