From www.cropwatch.org
http://www.cropwatch.org/crop3.htm
Cropwatch Three
Blue Cypress oil
[ Callitris intratropica Benth. et Hook f.]
© Tony Burfield May 2004
In keeping with our follow up
investigations on failed get-rich-quick plantation schemes in Australia, I
am thankful to Jim Gobert for alerting me to another story, which has,
allegedly, lost investors millions. Blue cypress essential oil is produced
by a special process from the heartwood, wood, and bark of the North Cypress
Pine - a member of the Southern Conifer group of the Cupressaceae family,
which grows to 45m. and has fragrant wood. It is one of a number of native
cypress trees which grow in the aboriginal lands of Australia (e.g. the
northerly Bathurst and Melville Islands), but its geographic isolation has
prevented its commercial exploitation for a considerable time. Aboriginal
uses of the resin from Callitris intratropica include employment as glue and
for contraceptive uses (Bowman & Harris 1995). It was widely promoted in the
essential oils and aromatherapy professions a decade past. It can be steam
distilled from the heartwood/wood/bark, but a solvent extracted “oil” is
also available, appearing as a deep blue-black, highly coloured mobile
liquid, where much was previously made of its azulene-like properties.
Properties
However
Cropwatch’s opinion is that it is hard to see why the oil should be
particularly attractive to perfumers. Burfield (2000) describes the oil as
follows: “In colder weather the oil may become semi-, or almost completely,
solid (presumably due to the guaiol content). The odour is overwhelmingly
woody, and slightly earthy, the top-note being multi-faceted, with the following
aspects being discernable: there is a medicinal almost ylang-like note, a minor
pine-like quality, a touch of spiciness and a pineapple-like fruitiness. After a
few minutes the odour profile becomes piney-resinous, loosing some dryness and
becoming sweeter. The dry-out is woody-earthy and celery-like.” It isn’t
regarded by the author as particularly interesting perfumery material, but it
may have a certain novelty ingredient status.
The
composition of the oil is summarized again by Burfield (2000): “The oil contains
sesquiterpenes such as b-elemene and d-selinene and sesquiterpene alcohols such
as guaiol (26%) and b-eudesmol (6.3%). The blue colouring may be ascribed, at
least in part, to the presence of guaiazulene (1.6%) although other complex
structures with a resemblance to the azulene moiety are present.
In a
(somewhat strange) attempt to compare the oil with other commercial oils, some
attention has been drawn to an alleged similarity with another guaiol containing
oil: guaiacwood oil, although the sweetness of guaiacwood oil is not
particularly mirrored in this oil. However the oil has been ‘image marketed’ in
the cosmetics trade on the fact that it is the only wood oil containing
guaiazulene which has alleged anti-bacterial properties (although a more
cost-effective and more ecologically sound plant source of guaiazulene might be
German chamomile oil). Bowles (2000) previously set out the oil’s history &
chemistry, as well as outlining the uses of the oil, and its anti-inflammatory,
anti-irritant and anti-viral effects. The author’s experience of the oil has
been less upbeat, centering around poor keeping quality and unacceptable batch
to batch variability.
Legal
wrangles
The Age,
an Australian newspaper, carried a story (“Bitter Blue”) on April 21, 2004,
described a legal wrangle over patents and allegations of deception. The battle
is described as being between Mike Collins who claims to have discovered the oil
first, and Bill McGilvray, well known essential oil producer, and former
president of the Australian Tea-Tree Industry
Association. The article describes a decision taken by
the Delegate of the Commissioner of Patents
in June 2002, ruling that
McGilvray should loose the rights to log the trees on
Aboriginal and on Crown land for allegedly breaching contracts and failing to
pay royalties according to the Government and spokesmen of the Tiwi aboriginal
people. It is further
reported in the article that seven South African investors lost $100,000 in the
wrangle. You can read the full story at http://www.theage.com.au/articles/2004/04/20/1082395850945.html
References:
Bowles J.
(2000) Simply Essential. Aug 2000.
Bowman
D.M.J.S. & Harris S. “Conifers of Australia’s dry forests and open woodlands.
In: Ecology of the Southern Conifers pp252-270 eds. Enright NJ & Hill RS.
Smithsonian Institution Press, Washington DC.
Burfield T
(2000) Natural Aromatic Materials – Odours & Orgins pub AIA Tampa.
2.
Sandalwood Update.
It has been
puzzling many of us exactly what is going on with Sandalwood oil EI – suspicious
as ever, some of us old hands suspect that some batches of oil are being
adulterated in new ways which we haven’t yet fathomed!
Sandalwood Oil East African Osyris lanceolata
Hochst. & Steud.
No – not
the Sandalwood East African material deriving from Tanzanian Osyris
tenuifolia Engl. (“bastard sandalwood”) which has lanceol as its principle
component! It was somewhat surprising for us to learn at this point that there
is a new kid on the block in the form of Sandalwood oil East African from
Osyris lanceolata. The scented wood from this 8-10m. tree native
to S. Africa, makes an interesting oil, having an initial strong sickly sweet
note which rapidly gives way to a metallic-rubbery-woody note slightly reminding
of Cedarwood. The profile lacks the sensuality of E.I. Sandalwood oil. The
dry-own is a smooth somewhat sweet creamy woody note, much less crude and more
pleasant than the top note and more similar to E.I. Sandalwood, but as noted for
the top note, still lacking the sensual quality of E.I. Sandalwood oil. Its
highish concentration of sanatols (probably 32% max) and high santalyl acetate
content (approx 35% typical) may make it seem an attractive proposition to some.
Apparently
150 tons of logs of Osyris lanceolata per month are being imported into
India by a company in Mumbai (which claims to be the largest importer) – and
who’s literature states sales of oils, chips, powder etc. are made into chewing
tobaccos, attars, perfumery and the agarbatti/joss-stick industries. The company
admits also to producing between 750-800 Kg of East African sandalwood oil per
month (Banker 2004). However the sustainability of this practice is far from
clear - reports of the threatened status of Osyris lanceolata in the
Eastern Arc mountains of Tanzania can be viewed at
http://global.finland.fi/julkaisut/group_3.htm. Further, a report on
oil on the resource status of Osyris lanceolata in Tanzania and oil
quality variation amongst endemic trees populations by Mwang'ingo, P.L. et
al.can be viewed at
http://www.inasp.info/ajol/journals/safj/vol199abs.html.
From these reports the situation would seem to show cause for concern.
Ref: Banker
R (2004) Personal communication to author.
Sandalwood oil New
Caledonian Santalum austrocaledonicum
Viell. var. austrocaledonicum.
Now being
promoted and sold by several essential oil companies, it remains to be seen how
long this source, previously reported to be threatened, will last. So what do we
know?
We know
that sandalwood trees (Santalum austrocaledonicum) which grow from 5-12m.
and may reach 30-45 cm. in girth, are widespread on the Isle of Pines and in the
Loyalty islands around Noumea and to the north of the main island. On Grande
Tierre it only occurs in a few restricted areas (SPRIG 2000). We also know from
the same source that three varieties are distinguished S. austrocaledonicum
var. austrocaledonicum, S. austrocaledonicum var. pilosulum,
S. austrocaledonicum var. minutum, and that morphological and oil
content differences occur between S. austrocaledonicum var.
austrocaledonicum trees on Loyalty Island and “the Ile des Pines”
provenance. We also know that subspecies of Santalum species might show
some variations sesquiterpenoid composition, however S. austrocaledonicum
oils from several geographic locations are known to be able to pass the ISO 3518
criteria for Sandalwood oils, although the optical rotation criteria may be a
stumbling block.
New
Caledonia was reported as having 360,000 hectares of forest land but only 10,000
under cultivation ref:
www.fao.org/DOCREP/004/Y1997E/y1997e19.htm
As the European Forestry
Institute points out at http://www.efi.fi/cis/english/creports/vanuatu.php “In
general, current timber export markets in Asia and New Caledonia do not require
information on the environmental standards and impacts of logging operations”.
This is important because energy intensive steam distillation of small charges
(250-300Kg) of sandalwood chippings or shavings to produce the sandalwood crude
oil (this crude grade is being sold into aromatherapy), take up to 2 days to
complete and thereby generate relatively large amounts of carbon emissions per
kilo of oil, contributing to the overall negative ecological impact of the
operation. As several minor Pacific Islands are currently being submerged
through the effects global warming, this is a sensitive issue. Cropwatch
has been making representation to Australian entrepreneurs in the Pacific
connected with Sandalwood exploitation suggesting that the implementation of
solar distillation rather than importing diesel to generate steam would perhaps
help reduce this negative impact, however it is to be remembered that Australia
is not a signatory to the Kyoto protocol and has little internal pressure to act
in a deep green ecological manner. It is also to be remembered that Oceana
itself causes a huge carbon emission loading to the world atmosphere which can
only be added to by diesel or wood-fired distillation processes.
Cherrier
(1993) reported on the difficulties of sandalwood cultivation in New Caledonia
noting heartwood development was proportional to proper development (fast
growing trees producing less heartwood). On the narrower subject of
sustainability, Ehrhart (1997) presented a fairly optimistic report on the
status of known consistent sandalwood stocks in New Caledonia (in contrast to
the depleted situation in many/most other South Pacific locations), and makes
the point that surveyed sustainable logging management should be possible in
these circumstances (yearly quotas have been set at 55 to 60 tons of wood).
However, apart from illegal cropping & fire damage, the danger is that of
over-exploitation – the bio-resources of New Caledonia to supply Sandalwood oil
are unlikely to be able to supply more than a few percent (i.e. probably no more
than 2 tons max.) of the total Sandalwood oil demand – which will be severely
tested now that leading French aroma houses are currently offering oil from this
origin. Further, as indicated above, whilst the emphasis in the sales propaganda
by Sandalwood oil salesmen has largely centered on examining tree
sustainability, the negative aspects concerning the total environmental impact
of the operation can easily be overlooked.
Santalum album plantations Australia
At the time of going to press,
a report about the lack of any impact assessment study ever being carried out,
and a statement concerning economic failure of investment schemes for S.
album plantations have had to be held over for a future issue. Meanwhile
mailed comments on the status of Santalum spp. in Australia covered in
Cropwatch 2 have been received by the author from two senior Australian Forestry
officials, who have unfortunately declined permission to have their observations
reproduced here.
3. Tasmania: destruction of the forest
eco-system.
Its hard to miss the press
coverage on this lately, with The Guardian reporting that concerns about
Australian forests are an election issue, and the singer Chrissie Hynde
supporting the boycott of Tasmania as a holiday destination etc. by People for
the Ethnic Treatment of Animals (Peta). Meanwhile loggers seem to prove once
again prove that whatever the country concerned, they are above the law and
cannot be stopped. Richard Flannagan (Guardian April 21, 2004 p16) wrote
an impassioned article about the setting alight of Tasmanian rainforest which is
felled before being napalmed, much of the wood being sold as unprocessed wood
chips. Magnificent Eucalyptus regnans trees of enormous stature and great
age are gone forever, and pictures of such a cleared area of the Styx Valley in
Tasmania have previously featured in an earlier Guardian feature by David
Fickling (Guardian March 22, 2004). Flannagan also describes the close
relationship that Tasmanian politicians enjoy with Gunns Ltd., the largest
logging company in Australia and how the population is cowed – to question this
action is to risk ostracisation or unemployment. Fickling mentions in more
detail that 2 board members of Gunns were criticised in an official bribery
inquiry in 1989, and the fact that Tasmania’s acting premier, Paul Lennon
visited Scandinavian pulp mills with Gunns chief executive, John Gray. Perhaps
Cropwatch is starting to understand why we meet a brick wall so many we
try to communicate with in that felled continent. Meanwhile comprehensive
information on the unsustainable activities of Gunns Ltd. can be viewed on the
Wilderness Societies website at
http://www.wilderness.org.au/campaigns/corporate/gunns/
4. GM non-food crops.
A very well researched report
by GeneWatch's director Dr. Susan Mayer at
www.genewatch.org/CropsAndFood/Reports/non-food_crops_part2.pdf
identifies some research on GM crops intended for non-food use: grasses,
flowers, trees, and crops such as cotton used for fibre production. Tree species
referred to include Betula pendula, Eucalyptus camuldensis,
Eucalyptus globulus, Liquidamber spp. etc., and details of
trials being carried out in Canada on larches and black spruce figure amongst
much other identified work. Mayer notes that there are no GM trees available
commercially as such, but work has been carried out to transfer insect
resistance, and herbicide tolerance. In the flowers section of the report you
will find reference of "the molecular breeder" Florigene (offices in Australia &
Netherlands) and its’ interests in the cut flower industry – giving relevant
information on patents for roses, carnations, chrysanthemums. Mayer also
disturbingly reports on retailed mauve & violet GM carnations with extended vase
life sold by Florigene & Suntory in Australia & Japan respectively.
In India, Ashok Sharma
reported in February this year writing in the Financial Express (http://www.financialexpress.com/fe_full_story.php?content_id=53684)
that the Indian Minister for Agriculture Rajnath Singh inaugurated the Centre
for Transgenic Plant Development in Jamia Hamdard in Delhi. Sharma reports that
the centre has already developed a transgenic herb Chicory (Cichorium intybus
L.) which has a 40% higher content of esculin, which has skin protective
properties. Other ongoing work at the centre includes studies on ACC oxidase to
improve the shelf life of vegetables & fruits and chalcone synthase for flower
colour modulation. Since several Indian aromatic raw material producers that the
author has spoken to clearly understand that going down the GM route would
jeopardise sales of these materials into EU markets, these developments in
allied areas seem surprising.
References:
Cherrier, J-F, 1993. “Sandalwood in New Caledonia”. In F.H. McKinnell (ed) Sandalwood in the Pacific Region. Proceedings of a symposium held on 2 June 1991 at the XVII Pacific Science Congress, Honolulu, Hawaii. Canberra: ACIAR Proceedings No.49. pp19-22.
Ehrhart Y. (1997) “Descriptions of some Sandal Populations in the South West
Pacific: Consequences etc.” ACIR Proc. 84, 105-112.
SPRIG (2000)
The information supplied in this bulletin is believed
to be accurate, but views, comments, criticisms, corrections or additional
material can be forwarded to
info@cropwatch.org for consideration in future communiqués in the
Cropwatch series.