Third largest export agricultural crop:

Saving Sri Lanka’s cinnamon industry

The Cinnamon Industry of Sri Lanka spans several years as being a traditional industry in the country. In early years cinnamon, being one of the most important spices, had been used in the barter system of trade where goods were exchanged instead of money.

The botanical name Cinnamomum zeylanicum Blume, signifies the Sri Lankan origin of the plant. The cinnamon plant produces five major commercial products namely; quills, featherings, chips, leaf oil and bark oil. From these the major export products are the quills which accounts for about 90% of the whole industry.

Cinnamon is the third largest export agricultural crop of Sri Lanka and provides 80-85% of the world demand for cinnamon. Cinnamon cultivation and processing provides a livelihood to over 70,000 growers in the southern region of Sri Lanka and employment to over 350,000 people.

Fifteen thousand metric tons of Ceylon cinnamon is exported from Sri Lanka to Latin America, United States and also to other European countries.

Cinnamon being one of the oldest spices known has a wide range of applications, which accounts for the high demand for the commodity. It is used in food industry as a flavouring agent, in liqueurs, perfumery and in medicine. Its use as an insect repellent is also well-known.

The antimicrobial effects of cinnamon have been studied by several research groups in the country, and it has been shown that it has antibacterial, anti fungal and antiviral activity.

Cinnamon oil has the ability to control mosquito larvae and is also widely used in traditional medicine to treat diarrhoea, nausea and flatulence.

With its widely accepted medicinal value, in recent times research has been directed towards establishing the nutraceutical values of cinnamon on a scientific basis.

It has been proved that cinnamon has the property of reducing cholesterol and sugar levels in blood especially in the water soluble portion of this spice.

Cinnamon therefore is now being used as an adjunct in beverages, where cinnamon sticks are dipped in hot tea or coffee.

Since November 2004 however, the cinnamon industry has taken a beating with the rejection of a number of consignments of cinnamon exported to the European Union. The rejection was based on the grounds that the consignments contained sulphur dioxide.

This seems ludicrous as sulphur dioxide is a permitted as a food additive, functioning as either a preservative,

 antioxidant, or anti browning agent, in certain food items listed by the Codex Alimentarius Commission, which is the FAO body entrusted with setting up international standards for the food industry.

However this list does not include cinnamon although spices such as ginger and mustard which like cinnamon are used as food additives, are included and tolerable limits of Sulphur Dioxide defined.

In 1998 a chemical evaluation was undertaken by the Joint Expert Committee in Food Additives (JECFA) and it was established that sulphur dioxide in acceptable quantities did not have any adverse effects on human health and the tolerable limit of the chemical has been defined as 150 mg/kg of body weight.

To study this situation and to recommend measures to counteract this threat to the export trade of the country, a national committee was set up by the Department of Commerce consisting of the stakeholder in the field and other local bodies such as the Industrial Technology Institute, Sri Lanka Standards Institutions, Export Development Board and the Spice Council.

Armed with sufficient scientific data to back her request, Sri Lanka through its National CODEX Committee made formal representation to the Codex Alimentaris Commission to identify cinnamon as a foodstuff where sulphur dioxide could be used and to permit as an interim measure a maximum level of 150 parts per million until such time a standard is established by the Codex Alimentaris Commission.

Sri Lanka also wrote to the WTO Committee on Sanitary and Phytosanitary measures requesting their intervention as well, and apprising them of the adverse trade implications to Sri Lanka under the present regulations.

The Industrial Technology Institute, being part of the committee, and having carried out several studies in the chemistry and technology of cinnamon and the industry as a whole, launched a further investigation into the processes employed by the traditional cinnamon industry prior to export of the product to substantiate the claims of the safety in the cinnamon products exported.

According to EU regulations, if cinnamon contains more than a prescribed amount of sulphur dioxide, this should be indicated in the label, since sulphites are included in the list of food allergens issued by the European Union.

According to their food labelling directives it is mandatory that any foodstuff containing over the prescribed amount of the listed allergens should be so labeled. However, this labelling could seriously affect our exports, and this is one of the reasons that ITI placed high priority on the present study.

Although cinnamon has been exported from the country for several years, no scientific studies have been conducted on the process itself.

The study undertaken by the Herbal Technology Section of the Institute, had as the major objectives, to standardise the process and to quantify and minimise the residual sulphur dioxide levels in the cinnamon prepared for export.

Several steps are involved in the processing of cinnamon. Sulphur fumigation constitutes one of the most important steps in cinnamon processing. The use of sulphur is two fold.

As a fumigant to control the infestation of pests and microbes, making use of its antimicrobial properties, and as a bleaching agent to impart the characteristic golden yellow colour of Ceylon cinnamon.

A study of the traditional processing of cinnamon, showed that once the branches of the cinnamon trees are cut and the bark separated, the quills are air dried indoors.

The bales of cinnamon quills are then stacked on racks and exposed to sulphur, which is burnt in a metal container placed under the racks. This fumigation process is carried out in a closed chamber.

Through fumigation sulphur dioxide residues are introduced in the cinnamon, but studies revealed that even immediately after fumigation, the residue level was relatively low and within three days this level drops even further if the quills are dried to an appropriate moisture level.

Higher moisture levels will increase the retention of Sulphur dioxide in cinnamon.

The importance of introducing Good Manufacturing Practices (GMP) to the traditional process is therefore evident, if the Sulphur level is to be reduced.

The researchers are now working on this aspect, and also exploring alternative methods of fumigations so as to completely eliminate the presence of sulphur dioxide.

The use of ozone and super heated steam are two such alternatives, but the high cost of these methods could negatively effect the final selling price of product.

To study this situation and to recommend measures to counteract this threat to the export trade of the country, a national committee was set up by the Department of Commerce consisting of the stakeholder in the field and other local bodies such as the Industrial Technology Institute, Sri Lanka Standards Institutions, Export Development Board and the Spice Council.

Armed with sufficient scientific data to back her request, Sri Lanka through its National CODEX Committee made formal representation to the Codex Alimentaris Commission to identify cinnamon as a foodstuff where sulphur dioxide could be used and to permit as an interim measure a maximum level of 150 parts per million until such time a standard is established by the Codex Alimentaris Commission.

Sri Lanka also wrote to the WTO Committee on Sanitary and Phytosanitary measures requesting their intervention as well, and apprising them of the adverse trade implications to Sri Lanka under the present regulations.

The Industrial Technology Institute, being part of the committee, and having carried out several studies in the chemistry and technology of cinnamon and the industry as a whole, launched a further investigation into the processes employed by the traditional cinnamon industry prior to export of the product to substantiate the claims of the safety in the cinnamon products exported.

According to Eu regulations, if cinnamon contains more than a prescribed amount of sulphur dioxide, this should be indicated in the label, since sulphites are included in the list of food allergens issued by the European Union.

According to their food labelling directives it is mandatory that any foodstuff containing over the prescribed amount of the listed allergens should be so labelled.

However, this labelling could seriously affect our exports, and this is one of the reasons that ITI placed high priority on the present study.

Although cinnamon has been exported from the country for several years, no scientific studies have been conducted on the process itself.

The study undertaken by the Herbal Technology Section of the Institute, had as the major objectives, to standardise the process and to quantify and minimise the residual sulphur dioxide levels in the cinnamon prepared for export.

Several steps are involved in the processing of cinnamon.

Sulphur fumigation constitutes one of the most important steps in cinnamon processing. The use of sulphur is two fold.

As a fumigant to control the infestation of pests and microbes, making use of its antimicrobial properties, and as a bleaching agent to impart the characteristic golden yellow colour of Ceylon cinnamon.

A study of the traditional processing of cinnamon, showed that once the branches of the cinnamon trees are cut and the bark separated, the quills are air dried indoors.

The bales of cinnamon quills are then stacked on racks and exposed to sulphur, which is burnt in a metal container placed under the racks.

This fumigation process is carried out in a closed chamber.

Through fumigation sulphur dioxide residues are introduced in the cinnamon, but studies revealed that even immediately after fumigation, the residue level was relatively low and within three days this level drops even further if the quills are dried to an appropriate moisture level.

Higher moisture levels will increase the retention of Sulphur dioxide in cinnamon.

The importance of introducing Good Manufacturing Practices (GMP) to the traditional process is therefore evident, if the sulphur level is to be reduced.

The researchers are now working on this aspect, and also exploring alternative methods of fumigation so as to completely eliminate the presence of sulphur dioxide.

The use of ozone and super heated steam are two such alternatives, but the high cost of these methods could negatively effect the final selling price of the product.

(ITI)