Frankincense (Boswellia sp.)

Frankincense (Boswellia sp.)

by | Dec 10, 2021 | Plant Profiles, Plants & People, Trees

Featured image by Mauro Raffaelli, CC BY-SA 3.0 , via Wikimedia Commons

Plant Profile: Frankincense

Frankincense is well-known as ‘that stuff that is burnt in church’. But what exactly is it, and where does it come from?

In common parlance, ‘Frankincense’ is often used as a generic term for all kinds of incense, but botanically, it refers to oleoresin sourced from  Boswellia trees.

Description:

The Boswellia genus has its greatest distribution in tropical regions of Africa and Asia. It comprises small shrubs or trees that are rich in fragrant oleoresins and well-adapted to arid and inhospitable terrain.

Four species are classified as Frankincense trees:

  • Boswellia sacra (syn. Boswellia carteri, southern Arabia)
  • Boswellia serrata (Indian Frankincense, syn. Boswellia thurifera)
  • Boswellia papyrifera ( Ethiopia, Eritrea, Sudan)
  • Boswellia frereana (Horn of Africa)

The Biblical Frankincense is derived from Boswellia sacra, a small, shrubby desert tree with pinnate leaflets and thorny branches found in Oman. It lives on rocky slopes and ravines.

In India, Boswellia serrata is the most common variety. It is a more stately tree that usually has divided trunks.

Small, 5-petaled whitish-yellow flowers appear in axillary racemes. The trees frequently seem to be growing directly from the rocks and boulders to which they cling with adaptive, disk-like swellings at the bottom of the trunk. But these adaptations only develop in response to the environment, if necessary.

Excessive harvesting reduces the number of flowers and the size and viability of the seeds. Cattle and camels browse on the leaves and branches, especially in times of drought.

Name:

The name ‘Frankincense’ probably came from the old French expression, ‘franc encens’ meaning ‘valuable incense’. Frankincense is also known as ‘Olibanum’, which derives from the Arab word ‘al Luban’, meaning ‘milk’, an allusion to the milky sap that turns into Frankincense when it dries.

Boswellia serrata - Indian Frankincense

Dinesh Valke from Thane, India, CC BY-SA 2.0 , via Wikimedia Commons

History

Familiar by name, yet obscure. The source of Frankincense has been shrouded in mystery since long before the birth of Christ. The origins of its use are uncertain, but it is well-documented that Frankincense was widely used in the Egyptian Temples to honour Ra and Horus. On her epic journey, Queen Sheba brought along numerous Frankincense trees as a special gift for King Solomon. Unfortunately, those trees were doomed. Frankincense trees only thrive in arid conditions and are limited to a specific geographic range. But, it’s the thought that counts. The gift was a significant sign of honour and respect.

Incense fuelled the economy of the Arab world, much as oil does today. Towns positioned at strategic locations along spice or incense routes prospered considerably from this trade. In the Ancient World, Frankincense was more valuable than gold. The obscurity of its origin gave rise to wild tales. Frankincense trees were said to be guarded by dragon-like creatures, ready to strike out at any intruder. Keen to protect their fortunes, traders had invented such terrifying stories to deter enterprising and adventurous young men from going off in search of the trees.

But, scare tactics aside, the long journey across the desert was indeed as dangerous as it was lucrative.

Tree Stewardship

Oman, Somalia and Ethiopia are the most important suppliers of Frankincense today. As in the days of Solomon, the most common use of Frankincense is to honour the Gods. While the average annual quantities used have decreased since Solomon’s times, science has found new applications. Harvesting is still done using the traditional method of bleeding wild trees. Although uncultivated, individual trees ‘belong’  to particular families who live nearby (by unspoken agreement). These families look after the trees and claim the right to harvest them.

In the ancient world, all Frankincense trees were considered the property of the King. It fell on him to negotiate the harvesting rights with the merchants, for a percentage of the profits, of course. Studies show that families who take a ‘guardian’ role towards the trees are more likely to use sustainable practices. Unlike the roaming harvesters, who don’t care much about the welfare of a particular tree, any desert dweller will naturally want to protect the source of their livelihood.

Harvesting

Harvesting Frankincense is a time-consuming process. Several deep incisions are cut into the tree trunk, and a small piece of bark is removed. (According to modern research, more than five incisions causes considerable stress to the trees.) This wounding causes the tree to ‘bleed’, and a milky white substance protrudes that seals and heals the wound to prevent infection. After three months, the resin has hardened enough to scrape off the tree trunk. This ‘bleeding’ process is repeated three times to obtain the highest quality Frankincense. Only the resin collected from the final bleeding is rated as ‘superior quality. Once solidified, the resin is sorted into tears and grains of different colours and sizes. The quality is determined by the degree of opacity. Resin destined for distillation is shipped off while still slightly sticky inside. This indicates a high concentration of volatile oil.

Medicinal uses:

Most Frankincense is used for religious purposes. But it also has a long history as an ingredient of medicines and cosmetic preparations. Early writers such as Pliny, Dioscorides and Avicenna have recorded such uses of Frankincense as were common in their time. But in time, the therapeutic properties had been all but forgotten – until some years ago, when new studies found Frankincense effective for a wide range of hard-to-treat diseases.

The ethnomedicinal applications of Frankincense are very diverse, ranging from dental disease to skin conditions, respiratory complaints and digestive troubles. In the Ancient World, every part of the tree was used: root, bark, bud, flower, fruit and resin and essential oil.

Astringent

The powdered bark was used to make an astringent paste for swellings (oedema). Mastitis was treated by boiling the dried or fresh gum in the patient’s own milk to form a thick paste for topical application.

The bark’s astringent properties are used in ointments for treating sores and chapped skin. Emperor Nero is said to have used a pomade made from a mixture of resin and wax to disguise the tell-tale bags beneath his eyes that appeared after a night of excess.

Vulnerary

The charred, powdered bark was kept as a first aid application for wounds. Mixed with water, it made an instant dressing for injuries and burns. If available, the fresh bark was also used for this purpose. The lotion provides an excellent antiseptic wash to clean dirty or infected wounds.

The bark was also used for setting broken bones. Two pieces of the wood were used as splints, with strips of Frankincense bark wrapped around them to hold in place a bandage that had been soaked in soft resin. The drying resin helped to provide firm support for the mending bone.

Child Birth

Frankincense also played a role in women’s medicine. Chewing the bark alleviates morning sickness. A potion made from snakeskin and resin dissolved in wine was said to ease difficult or prolonged labour. Frankincense was burnt for 40 days during and post-partum, to protect mother and child. Squatting over the smouldering resin was said to restore muscle tone and support healing of any laceration, and speed recovery from the strains of labour.

Eyes

Its antiseptic properties have also been used to treat ophthalmic diseases. In Ethiopia, the soot of the resin is believed to be beneficial for the eyes. Sore or tired eyes are fumigated with the smoke.

Teeth and gums

The resin was chewed as a ‘therapeutic chewing gum’ to stimulate the gums and treat dental infections such as gingivitis.

Stomach problems

A bark decoction makes a stimulating and cleansing tea. The inner root of young trees was chewed as a remedy for stomach problems. Buds and fruit were used as a cleansing tonic for the digestive system.  A decoction of Frankincense resin, cinnamon and cardamom, settles an upset stomach. 

Other uses

Even the incense was used therapeutically. The smoke acts as an expectorant and clears phlegm from the head and chest. It purifies the air and relaxes the patient while soothing their pain, especially severe headaches.

Frankincense smoke is a powerful insect deterrent, a  property that helps prevent serious diseases like malaria or dengue fever.

Frankincense is said to improve memory and dispel lethargy. An old recipe for an epilepsy treatment recommends boiling it in with hare’s lungs in white wine.

Modern uses

Modern research has focused on Olibanum’s anti-inflammatory properties, particularly to treat rheumatoid arthritis and soft tissue rheumatism. Frankincense extract is also effective for gastrointestinal diseases such as colitis and Crohn’s disease.

Censer

OTHER USES

Perfume

The clean, fresh, balsamic fragrance of Frankincense has perfumed our world since ancient times. Originally, the term ‘to perfume’ derived from the Latin ‘per fume’ meaning ‘to pass something through the smoke’.  Clothes were fumigated, not only to give them a pleasant scent but also to kill any pathogens. Perfuming is essentially a cleansing practice.

Today, the perfume industry uses Frankincense essential oil as a fixative to scent soaps, detergents and countless cosmetic articles.

The ancient Egyptians were pioneers in cosmetics and perfumery. Among other things, they invented the eyeliner known as Kajal (Khol). Khol was made from charred powdered resin mixed with waxes, oils and other substances. It was believed to protect and improve vision. Modern versions are still available, but no longer contain Frankincense.

Fresh, soft Frankincense resin can be used to seal minor cracks in pottery and other utensils. The gum hardens upon drying.  In combination with other resins, it has been used to caulk ships.

In Ancient Egypt, Frankincense and Myrrh were essential items in the funerary rites used to embalm the mummies in preparation for the afterlife.

Gums, Resins, Latex

Gums, Resins, Latex

by | Oct 27, 2021 | Plants & People, Plants for every day uses

Gums, resins and latex do not generally come to mind when we consider the importance of plant products. Vegetables, fruit, wood, maybe medicinal herbs, essential oils, fibres and dyes are far more present.

 

What are gums and resins?

Simply put, gums and resins are the sticky stuff that some plants excrete when the outer ‘skin’ or bark has been injured. 

 

Most familiar to us are Frankincense and Myrrh, the precious gifts of the three wise men brought to honour the birth of the baby Jesus. These two oleoresins come from oriental two different species of the Burseraceae family, also known as the ‘balsam tree’ family.

 

While Frankincense and Myrrh are arguably the most famous resins, they are by no means the only ones. Resins, gums and latex are widespread in the plant kingdom, and many play an important role in our everyday lives. 

 

What are gums and resins used for?

 

Gums and resins are used as adhesives, emulsifiers, and thickening agents. They are added to varnishes, paints and ink, lend their aromas to perfumes and cosmetics, and even play a role in the pharmaceutical industry.

 

The ancients burnt them as offerings to the Gods. They believed that scents are the nourishment of the gods since they can’t partake of solid food. In Ancient Egypt, gums and resins played a notable role, not just as incense, perfume and medicine, but most importantly, in mummification practices. 

 

Aroma is the subtle (or not so subtle) medium that transmits messages below the threshold of conscious awareness. This type of communication is ubiquitous in the natural world – an invisible signal to potential partners or foes. 

 

Let’s examine the different chemotypes of gums, resins and latexes.

 

Frankincense

Frankincense

Myrrh

Myrrh

Acacia

Gum Arabic (Acacia)

Balsam

This generic term describes all kinds of fragrant, soothing, resinous substances of plant origin. But in chemistry, the term refers to a specific class of resinous substances that contain large amounts of cinnamic- and benzoic acids, and essential oils. Balsam of Peru, Tolu Balsam, Balm of Gilead, and Copaiba balsam are common examples. Their physical properties vary greatly – they may be clear and viscous or dark and sticky, but all coagulate when boiled and solidify when exposed to air. 

 

Medicinally, balsams are used to treat skin problems and respiratory diseases. They are a common ingredient of cosmetics, skincare products and perfumes. However, benzoic acid is a known allergen that can trigger severe reactions. Caution is advised.

 

Gums

Chemically speaking, gums are complex polysaccharides (Carbohydrates) that are either water-soluble or water absorbent. But, they are not soluble in oil. 

 

Gums are extracted from the resinous sap or the endosperm of certain seeds. Guar Gum, for example, comes from the seeds of a herbaceous plant, Cyamopsis tetragonolubus, an African member of the pea family. 

 

Gums are widely used in the food industry as emulsifying and thickening agents. The pharmaceutical and cosmetics industries also utilize them, especially in skincare products. And they are even used to manufacture inks, paper, watercolours and adhesive, like the gum on the back of stamps. Water-soluble gums are found in dietary supplements to bind endotoxins and promote excretion by adding bulk to the stool. A prime example, Psyllium seed, used to treat mild cases of constipation. Even seaweeds can yield gums, like Agar-Agar, used as a thickener instead of gelatine.  

 

Resins

Resins are terpene-based compounds that are chemically completely different from gums. Terpenes constitute one of the largest groups of plant chemicals, and they can be very complex. Unlike gums, resins are not water-soluble but may be either oil- or alcohol soluble, depending on the specific chemical composition. Resins are far more common than gums.

tapping

 

Most resins are obtained by a process known as ‘tapping’ or ‘bleeding’, whereby incisions are cut into the bark. The resin exudes through the incision and is collected in buckets attached underneath. Trees can be bled several times, and it is possible to harvest resins sustainably. But the deliberate injury does put a considerable strain on any tree, and strict limits to the number of incisions and period of productivity must be applied.

Recent research shows that the carbohydrates of these exudates are important energy reservoirs for the trees, and that excessive tapping reduces the numbers of flowers and the size and viability of their seeds. Guidelines are especially needed when the resin is collected from wild populations, where regeneration is left to nature.

 

In the past, resins were far more commonly used in industrial processes. Today, many have been replaced by synthetic alternatives. But their medicinal properties are still used in natural medicine. 

 

Oleoresins

Oleoresins are classified as terpene compounds that are rich in volatile oils. They are softer and more pliable than other resins and provide a valuable source of essential oils used in perfumery or as aromatic fragrances for household products. Occasionally, the term ‘Gum-Resin’ can be found in the literature, but this is a confusing oxymoron and should not be used.

 

Latex

Latex is a thin, slightly sticky sap, usually white or colourless, that coagulates when exposed to air or boiled. Just how elastic the resulting latex will be, depends on its specific chemical composition. The greater the content of Cis-polyisoprenes, the greater the degree of elasticity. 

 

The best known and economically most significant plant-based latex is rubber, which comes from the South American Rubber tree. When first discovered, it triggered a whole ‘boom and bust economy in the Amazon. But the glamorous mirage quickly vanished when, in an act of biopiracy, the seeds of the precious tree were stolen. The seeds were taken to India, where they gave rise to the first rubber plantation, thus breaking the monopoly and dependence on the South-American supplies.

However, it wasn’t long before natural rubber was replaced by synthetic alternatives and plastics, and the whole industry diminished in importance. 

 

Latex has many uses: as sealant paints, rubber tires, insulating sheathing for electrical wires or rubber gloves, boots and other kinds of eclectic apparel.

 

We often forget the role that plants have played as sources of materials for our every need. Even modern industry can’t do without them.

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