Saturday, November 8, 2008

Keep Australia Beautiful with Blessed Earth

Keep Australia Beautiful has been selling T shirts as a fundraiser for many years now, often modeled by a who’s who of the celebrity world.

This year, in keeping with it’s ethic mission of promoting positive environmental change through individual actions, Keep Australia Beautiful has developed a range of Australian Made, Organic Cotton, Sweatshop Free T Shirts featuring the Keep Australia Beautiful logo.

Blessed Earth have been appointed the sole distributor and we have established a special section for the T shirts in the product categories of the home page. Click Here to view and purchase the T shirts.

The shirts are available for women (sizes XS, S, M, L, XL) and men (S, M, L, XL, XXL).

Sales of these shirts help fund programs such as:

For your enjoyment, we now include some celebrity models from the past.

Thursday, November 6, 2008

Wool Odour and Toxics Absorption

Wool’s unique structure and moisture absorption properties make it naturally resistant to the build up of body odours. Its complex chemical structure also allows it to bind harmful toxic agents from air such as those associated with sick building syndrome, with little or no re-emission of the vapours.

Sweating is a natural way that the human body regulates its temperature in response to hot conditions or strenuous exercise, and some people naturally sweat more than others. The body continuously secretes moisture through sweat glands(about 3,000,000 of them) all over its surface and this sweat would normally evaporate quickly. Sweat itself has no odour, but if it remains on skin for a few hours, bacteria develop and often lead to body odour.

Many extreme athletes with long term uses for clothing such as mountaineering have reported far less odour build-up using wool garments than with man made fibres, especially for wear close to the skin. Companies specialising in active outdoor wear are using the natural attributes of wool such as moisture absorption, comfort and breathability, but also its odour control and absorbing properties to provide a range of high performance layered products that can be used from next-to-skin wear through to outerwear.

There are several different ways that wool prevents and controls the development of body odours, and these depend on both the unique chemistry and the physics of the wool fibre.
  • Natural fibres such as wool, because of their moisture absorbing properties, allow the skin to 'breathe'. This removes moisture from the skin surface, as opposed to synthetics which do not have these moisture absorption properties. This moisture is taken up inside the wool fibre, making the conditions on the skin surface less favourable to bacterial action.
  • The fibre surface is hydrophobic and cannot be penetrated by bacteria; water bound within the fibre is not available for microbes to utilise, and wool provides a poor environment for growth of bacteria.
  • The wool scale structure on the fibre surface makes the surface uneven and difficult for microbes to attach to it. There is some evidence that the fibre surface exposed by loss of scaleedge material has an anti-bacterial effect.
  • The very outer layer of the epicuticle has a high concentration of a unique C21 fatty acid bound to the surface and there is speculation that this bound acid layer has anti-bacterial properties.
  • Wool has a complex internal chemistry that potentially allows it to bind acidic, basic and sulphurous odours. These are important components of body odour.
  • In high humidity conditions and in water, wool passes through a glass transition that dramatically increases its rate of absorption and desorption as shown in graph 1. The synthetics do not show these effects in water and under normal wear conditions.
If skin is in a hot and sweaty state, wool absorbs the moisture and this may cause it to exceed the glass until it exceeds the glass transition temperature. At this point the rate of diffusion of small and large molecules into the wool fibre increases and it absorbs odour faster. When the body cools down, and the moisture evaporates, the fibre falls below
the glass transition curve and the rate of diffusion slows. The fibre effectively 'traps' the odours. When the garment is laundered, even under mild conditions, the temperature of the wash water will be sufficient to allow the fibre to again pass through the glass transition, increasing the rate of diffusion and releasing the odour molecules from the fibre
into the water. The odour components are washed away.

Even before washing, wear trials have shown that wool socks were preferred for lack of odour after wear, especially when compared with synthetics, in conditions ranging from sedentary to sporting activity. Odours are prevented from developing, and when they do form, they are trapped in the fibre. After washing, wool socks also were perceived to retain fewer odours even though the wash conditions were cooler than for other fibres. The water sensitive glass transition ensures release of trapped odours.

Absorption of indoor air pollutants

Indoor Air Quality (IAQ) is affected by many things including outdoor air quality, people and their activities, heating and ventilation, building materials, finishes, furnishings and floor coverings. Air contaminants, particularly VOC (Volatile Organic Compounds), can be generated by many indoor sources.

Wool is a natural protein made up of 18 amino acids. It has a complex physical and chemical structure, and 60% of the amino acids have reactive side chains. This complex chemistry provides wool with the ability to bind with several toxicants in air. Three important pollutants cited as health hazards in air are sulphur dioxide (SO ), formaldehyde and 2 nitrogen dioxide (NO ). Sulphur dioxide and nitrogen 2 dioxide are by-products of combustion processes involving fuels such as petroleum products and coal, and are produced by domestic appliances, open fires and vehicle exhausts.

Nitrogen dioxide

Studies have shown that the presence of wool carpet can have a significant effect in reducing concentrations of nitrogen dioxide. Comparison of wool and nylon carpets showed rapid initial absorption of nitrogen dioxide, with the wool showing improved uptake at varying concentrations. However, upon heating, the nylon carpet re-emitted twice as much NO as the wool carpet.

Testing using the carpet yarn only, removing any absorption effect from backing materials, found the sorption by the wool carpet yarn resulted in a 12 times lower concentration of NO when compared 2 with nylon yarn.

Sulphur dioxide

Studies comparing the rate of sorption of SO by 2 wool, cotton, viscose rayon and nylon fibres found that nylon and rayon became saturated very quickly, and together with cotton had an absorption rate of almost zero after 90 minutes, where wool reached a steady state at a low level of sorption at this time. The prolonged beneficial effect by wool carpet was considered to be due to the high acid-combining potential of wool. In addition, SO is a reducing gas 2 and sulphitolysis reactions at the disulphide bonds in wool may be possible under some circumstances. Because the sorption of sulphur dioxide by wool is a chemical reaction, the uptake is irreversible, with less than 1% of the absorbed SO on an exposed 2 carpet being released over a 2 hour period.


Formaldehyde levels in indoor air can often exceed recommended levels, as formaldehyde is commonly used in resin-based wood products such as chipboard. The formaldehyde is slowly released as the resin hydrolyses, and emissions increase with temperature and humidity. Formaldehyde has a high reactivity to proteins such as wool, it reacts irreversibly with reactive side chains on the protein chains and reemission does not occur. Wool is able to effectively and permanently remove formaldehyde from indoor air. If the temperature and humidity increase, and increase the rate of emission of formaldehyde, wool becomes more reactive and absorbs the formaldehyde even faster. Research has shown a rapid sorption of formaldehyde by wool at both high and low concentrations. Practical trials involving the use of wool as indoor furnishings such as carpet or wall coverings in contaminated buildings have demonstrated the reduction of formaldehyde concentration to less than 0.05 ppm (lower than WHO recommendations).

Saturday, November 1, 2008

About Latex

Almost every day at least one customer will ask us about the relative merits of latex in mattresses, so we’ve set out this statement of our understanding about it.
Latex has become very fashionable and it was tempting to stock it when we first got into bedding. After all, latex mattresses do last a long time and are dust mite resistant.
However those who sell latex mattresses will not volunteer information about the very shortcomings which stopped us from trading the product in the first place.
Here are some of them:

  • It’s not a natural fibre. Latex is marketed as “natural” but in reality it’s a highly processed, man-made substance. It’s natural when it comes out of the rubber tree but that’s about the end of the matter. It has to be whipped into foam at high temperatures (vulcanized) and with the help of some setting agents, then triple filtered to try to get the smell out. It’s a bit like saying that polyurethane foam is natural because it comes from oil which comes out of the ground.
  • Despite the filtering process, it smells, and people are forever telling us they don’t like it and can’t get used to it. Numerous customers have had to get rid of their latex mattress because of that.
  • It doesn’t breathe. The latex marketers will go to great lengths to explain how they put holes in it to allow (some) ventilation; however this is no comparison to the way wool and even cotton naturally breathe.
  • Latex overheats many people and even bedding stores will tell you that latex mattresses “sleep warm”. People who tend to perspire (mostly males) will very likely have problems.
  • Latex mattresses usually have some sort of pillow top, usually wool, partly for comfort and partly for ventilation. However what the bedding industry calls wool is almost invariably a wool/Dacron blend; more man-made substances in a “natural” product.
  • If you are considering buying a latex mattress, at least have it tested by a Kinesiologist or similarly qualified person to see if it is suitable for you. From all of the experiences we have with this, the human body does not like being near latex. It is a man-made, not natural substance. If your body doesn’t like it, that means it is being subtly irritated, even though the mattress may be well constructed.
  • We know from our countless chemically-sensitive customers that latex is invariably out of the question for them. These people are like the mine canaries, indicating what is safe for the body and what isn’t, through their super-sensitive reactions. If they can’t use it then it’s not really pure.
  • Latex is an imported substance.

Not everyone has a bad experience with latex and perhaps at Blessed Earth we hear mostly from people who have had one, as they look for a purer alternative.
However the above case needs to be put for your own careful consideration.