EssentialOilspresentationupdatedversionOct2011.ppt

Flavours, Fragrances &
Essential Oils
Art,
Agriculture,Science,
Industry &
Entrepreneurship
Presentation by Murray Hunter
© Murray Hunter 2007

1. Introduction
2. Definitions
3. The Nature of the Industry
4. The Olfactory System and
Classification of Fragrances
5. Uses and Markets
6. Natural Product Chemistry
7. Extraction Theory and Practice
8. Aroma Chemicals
9. The Essential Oil Development
Process
10. Screening Process
11. Development Process
12. Problems in Developing New
Essential Oils
13. Regulatory Requirements
14. Flavour & Fragrance Operations
15. Organic Farming
16. Some Essential Oils
Economics
17. Some Fine Fragrance Profiles
18. Formulary of Finished Products
19. The Trends of Fine Fragrance
20. Essential Oils in Thailand
21. Potential Research Projects
22. Potential Careers in the Industry
23. References

Some Generic Global
Issues
Introduction

CO2 Emissions
Resource
Depletion
Global Warming
Changed
Weather
Patterns
Decline
of Arable
Land
Temp.
Increase
Sea
Levels
Rise
Decline of
eco-system,
biodiversity
and
sustainability
Pests &
Diseases
Droughts
Floods
Food Crisis
Declining
Productivity
Alternative
Land Use
Rising Costs
Urbanisation
Unstable
Production
Lack of finance for
production
Population
Growth
Production
Growing
unemployment
Consumption
Loss of
Confidence
And
consumption
Bank Liquidity
Global Warming, The Food and Economic
Crisis

Average age of farmers in Malaysia

EssentialOilspresentationupdatedversionOct2011.ppt

Templating of Natural Aromatic Molecules

Templating of Natural Aromatic Molecules
Plants
Animals
Food
Objects
Analysis Modeling Synthesis Product
Biotechnology
Organic
Odour plus
Stability
Threshold
Efficient
Value
synthesis
Added Benefits
Applications
Perfumery
Cosmetics
Stable in formulations
Cost effective
Efficacy (i.e.,
antimicrobial)
Botany/ethnobotany
Bio-prospecting
Head-space
Chromatography
Separation
Extraction
Screening
Antimicrobial
Anti-fungal
Anti-tumor
Anti-aging
Flavour & Fragrance
Botany
Biochemistry
Computational
Chemistry

Production Processes
Farm size & layout
Organisation & methods
Propagation
Cultivation
Processing
Marketing
Climate
Weather
Rainfall
Wind
Sunshine
UV radiation
Temperature
Humidity
Conducive weather
Or
Floods, droughts, etc
Physical
Environment
Soil
Topography
Atmosphere
Natural flora &
fauna habitat
Urbanisation
Suitability of conditions
Pollution (air, land & water)
Labour sources
Water resources
(create hinterland where
farm part of)
Human
Habitisation
Knowledge
Suppliers & contractors
Pollution
Attitudes and concerns
Resource inputs,
fertilizers, herbicides,
insecticides, machinery,
research capabilities
Positive Inputs
Water
Sunshine
Nitrogen
Agricultural inputs
Fertilizers etc
Knowledge
Labour
Negative Inputs
Adverse physical
conditions
Pests & diseases
Pollution
Heavy metals
Business
Environment
Markets
Finance
Trade environment
Customers
Financing &
various kinds of
capital
Competition
Low prices
Changing demand
patterns
Government
Infrastructure
Regulation
Taxes &
subsidies
Trade
environment
Research
Negative Outputs
Runoffs, wastes,
carbon
Some
recycling
back to
system
Positive Outputs
Products
Revenue flow
back to
system
An Agricultural Enterprise as a
System

Wind drift
Farm/Plantation
Soil Floor
Sub-Soil
Fertilisers,
herbicides,
insecticides
Leaf & organic
decompositions
Sub-terrainium water
Sun
Climate & Weather
Cultivation
Propagation
Processing
Economic
Products
Runoffs
Surface water
Wastes
Chemical
residuals
Some
wastes
recycled
Watershed runoffs
onto farm/plantation
Atmosphere
Nitrogen,
gasses, etc
Lakes
Rivers
Canals
Oceans
Daylight hours
UV radiation
Temperature
Humidity
Rainfall
Conducive weather, or
floods, droughts, etc
Regional Eco-System
A Farm/Plantation as a System
Other Farms
Insects
and pests
Genetic
Biodiversity

Soil Surface
Rainfall (Moisture Source)
Organic Materials
Phosphorous (P)
Sulfur (S)
Nitrogen (N)
Nitrogen fixing bacteria
In root system
Water (H2O)
Mineral Based Materials
(Amphibole & Feldspar)
Calcium (Ca)
Potassium (K)
Magnesium (Mg)
Iron (Fe)
Carbon (C)
Oxygen (O2)
Hydrogen (H) Through
air in
pores

Idea from
Research Institute,
University faculty
or individual
within them
Undertake study
with objectives
interesting to
researchers
Primarily
single
discipline
approach
Objectives based on
discipline thinking
Project
results and
conclusion
Publish
Paper at
Conference
Add to CV
Little commercial interest:
Private sector unaware
No or limited economic study or little
consideration to scale up potential
NB: to bioprocess engineer has this as a
fundamental consideration (difference between
scientist and engineer)
Typical Research Model

Planning
Phase
R&D
Phase
Commercial Phase
Start-up Growth Maturity
Information
seeking and
Planning
orientation
Seeking of
information,
looking for ideas,
screening for
opportunities,
setting of a vision
and planning out
the project
Test hypothesis, review
market, confirm viability,
develop applications,
increase knowledge,
learn how to operate
commercial operation.
Collaborate with
customer & R&D
Institutions
Research and
collaborative
orientation
Begin with an
entrepreneurial
management style, then
move to marketing
orientated style and
eventually corporate
management style
Start-up
Develop
company,
production and
early customer
base, usually
very personal &
hands on.
Growth
Develop value-added products,
new market, customers, expand
production, move to more formal
management
Maturity
Corporate orientation
with well defined
depts. Formalised
marketing & production
roles in organization,
take strategic outlook
for business.

Specific Issues &
Challenges To Malaysia

Low Crop Diversity in Malaysia

Limited number of students
interested in natural product
chemistry & agro-
entrepreneurship
Very few world class
professors

Essential Oil
A volatile oil obtained from a
wide variety of plant, scrub,
and tree species and from
various parts of the plant
anatomy, such as the roots,
rhizomes, wood bark, leaves,
stems, fruit, flowers and seeds.
Usually extracted by hydro or
steam distillation, expression
or effleurage - Hunter 1996

Concretes and
Absolutes
Volatiles and waxes
extracted from plant material
with hydrocarbon solvents
(usually benzene and
hexane) through washing
and removal of the volatile
solvent with distillation. A
waxy aromatic substance
remaining is called a
concrete. The concrete is
washed with alcohol to
remove the volatile materials
and ethanol removed
through vacuum distillation
to leave an absolute.

Plant Material
Expressed
Oil
Cold expression
of citrus fruits
Terpeneless Oil Terpene Tails
Essential
Oil
Water, water &
steam and steam
Distillation
Absolute
Concrete
Solvent Extraction
Washing with ethanol
and vacuum distilling
ethanol away
Pomade
Enfleurage
Vacuum distill away the
ethanol
Oleoresin
CO2
Extract
CO2 Extraction
The Natural Aromatic Product Family

Raw Herbs
Fresh
Consumption
Dried Fermented
Extracts
Medicinal
Powders
Medicinal
Beverages
Essential Oils & Other
Volatiles
Flavour &
Fragrance
Personal Care
& Cosmetics
Standardised Extracts
Phytopharmaceutical
Products
Fractions & Isolates
Bioactive
Compounds
Prescription & OTC
Drugs
Figure 1: The Family Tree of Herb Derivatives
Agricultural
Application
Traditional Herbal Medicines
Aromatherapy
Enzymes

The Biotechnology Pyramid
Genomics
Fermentation
Micro-propagation
Mutagenesis
Thermodynamic
Processes
Green
Biotechnology Reframed
Disciplines
White
Biotechnology
Red
Biotechnology
Micro-organisms

Trader
Manufacturers
Wholesalers
Retailers
Consumers
Usually bulk oils to traders
who do all distribution.
Lowest price and little
control over market, but
wide distribution
With differentiated
product some flexibility
to sell to
manufacturers, costs
higher but increased
margin maybe
compensate.
This part of supply chain for
smaller packs and end
products. Can be local,
national or international.
Value added method like
branding in use.
Usually branded item small
packs, end product. Either
selective (region or retailer
type), or general
distribution. High value, low
volume with added
distribution costs.
Usually direct to
consumers through
internet and/or direct
marketing organisation.
Usually specialised end
products with high profit
Need high
volume due to
low margin
unless
specialised
product
Need differentiated
product. Above
average returns,
higher marketing
costs
Need branded
specialised
product, high
margins volume
depends on
coverage
Business focus
towards consumer
marketing away
from agricultural
production
Supply Chain/Product Focus
Bi-products to Other
Supply Chains
Essential Oil Producer

Characteristics of the Flavour &
Fragrance Industry
The flavour and fragrance ingredients trade has its own culture and
business strategies, which can be summarised as follows:
a) Flavour and fragrance ingredients are subject to derived demand,
where demand originates from final flavoured and fragranced end
product demand,
b) Demand for flavour and fragrance ingredients is relatively inelastic in
the short term,
c) Flavour and fragrance ingredients are subject to fluctuating and
cyclic demand,
d) Purchasing and use of flavour and fragrance ingredients is based on
artistic and technical complexity, and
e) The world market is geographically concentrated.
Unger (1987)

World Geographical Distribution of
Flavour & Fragrance Compound Sales
28%
14%
11%
10%
37% USA
Europe
Japan
Asia
Other

Cosmetics,
USD 90 M, 6%
Agrochemicals,
USD 150 M, 10%
Intermediates, USD
120 M, 8%
Pharmaceuticals,
USD 220 M 15%
Aromatherapy
USD 250 M 17%
Flavour &
Fragrance, USD
650 M, 44%
The Size of the Essential Oil Market

The market size for Natural Raw Material for the Flavor
and Fragrance Market is USD650 M
Essential Oil Production
USD 650 million
Fragrance & Flavour
Production
USD 20 Billion

Ratio of Natural to Synthetic Materials Used
in the Flavour & Fragrance Industry
Essential Oils &
Natural Aromatic
Materials
13%
Synthetic Raw
Materials
87%

Growth of Flavour & Fragance Industry
0
5
10
15
20
2002 2003 2004
USD
Billion
$

60%
40%
0%
50%
100%
Fragrance
Flavors
Flavor/Fragrance Split 2002

326
252
196
192
80
72
54
50
30
800
650
Various Food Products Processed Meat
Beverages Dairy Products
Animal Feed Processed Food & Vegetables
Flour & Starch Products Oils and Fats
Fish Products Cosmetics
Household Products
World Wide Market Size
Estimate 2003
(USD Billion)

EssentialOil
Production
Trading
Flavour&
Fragrance
Compounding
EndProduct
Manufacture Wholesaler Retailer
Consumer
1.0 1.6 2-3.0 (6-9) 2-2.5 (18-24)
Relative and (Absolute) Value Added Through Chain
1.1-1.2
(19.8-28.8)
1.2-1.4
(23.76-
40.32)
The Essential Oil Value Chain (Flavour & Fragrance Industry)

Indonesia
• USD 85 Million
Cajuput
Cananga
Cassia
Citronella
Clove
Clove Leaf
Ginger
Gurjun Balsam
Nutmeg
Palmarosa
Patchouli
Sandalwood
Vetiver
Vanilla
Massoia
Malaysia
Tea Tree 200Ha
Pepper Oil
Nutmeg Oil
Lime Oil
Lemongrass
Tangerine
Ginger
Tuberose
Tumeric
Vetivert
Grapefruit
Sweet Basil
Clove
Citronella
Galabga
Jasmine
Kaffir Lime
Champaka
Plai Oil
Coffee Bean Extract
Rose Absolute
Laos
Benzoin Resin
(100 Tonnes)
Sassafras Oil
Agarwood
Cambodia
Cajuput Oil
(100 Tonnes)
Sassafras Oil
(1-200 Tonnes)
Lemongrass
Tea Tree Oil
Vietnam
Old Established
Industry
Cornmint Oil
Basil
(40 Tonnes)
Citronella
(2-500 Tonnes)
Cajuput Oil
(150 Tonnes)
Sassafras Oil
Star Anise
Litsea Cubeba
Cassia
Patchouli
Palmarosa
Tea Tree
Eucalyptus Citriodora
Ginger
Agarwood

Top Twenty Essential Oils Produced in the World
Essential Oil Botanical Name Volume
(Tonnes)
Under Threat
Cosmetics
Under Threat
Biocides
Under threat
Fragrance
Orange Citrus sinensis 26000 X X
Cornmint Mentha Arvensis 4300
Eucalyptus Euc. globulus 3728 X X X
Citronella Cym winterianus 2830 X X X
Peppermint Mentha piperita 2367
Lemon Citrus limon 2158 X X
Euc. Citriodora Eucalyptus citriodora 2092 X X X
Clove Leaf Syzygium aromaticum 1915 X X X
Cedarwood (US) Juniperus virginiana 1640
Litsea cubeba Litsea cubeba 1005 X X
Sassafras (Brazil) Ocotea pretiosa 1000 X X
Lime Citrus aurantifolia 973 X X
Spearmint Mentha spicata 851
Cedarwood
(China)
Chamaecyparis funebris 800
Lavandin Lavandula intermedia 768 X X
Sassafras (China) Cinnamomum micranthum 750 X X
Camphor Cinnamomum camphora 725
Coriander Coriandrum sativum 710
Grapefruit Citrus paradisi 694 X X
Patchouli Pogostemom cablin 563 X X

Potential Models of Essential Oil
Production
• Wild Collection
• Co-operative or Contract growing
(community organisation)
• Small Scale Plantation
(boutique/niche/agro tourism
/vertical integration –
manufacture consumer
products)
• Large Scale Plantation
(competitive cost advantage
required to enter market)
• Production of Essential Oil as a
Bi-product (focus on other
industry, timber, etc)

Wild Collection & Distillation
Tea Tree
Australia

Small Holder (Patchouli Indonesia)

Cambodia (Lemongrass, Cajuput)

Large Scale Plantation Tea Tree

Aromatic Products from Citrus Fruits
Harvested
Oranges Extractor Cold Press
Process
Press Liquor &
di-limonene
Vacuum Distillation
Technical Grade
di-limonene
Peel Heat
Evaporator
Molasses
Ferment to
Alcohol
Cattle Feed
Orange Juice
Centrifuge
Cold
Pressed
Orange
Oil
Distillation
Terpeneless Folded
Oil Food Grade
di-limonene

Business Positioning – The Value Chain
USD 1.2 Billion
Industry – poor
man’s industry
Through Product
Development
Through Seeing
Production as a
Means to Another
Business
Agro tourism FMCG Various Products
Ind. Products

Price
Price
Quantity Quantity
Demand
Demand
Current
Supply
Current
Supply
Forecast
Supply (FS)
Actual
Future
Supply
(AFS)
Forecast
Supply (FS)
Actual
Future
Supply
(AFS)
P1
P3
P2
Aggregate
Decrease in
Production
P1
P2
P3
b) Upward Trend in Pricing
Leading to Greater Supply
a) Downward Trend in Pricing
Leading to Decreased Supply
A forecast is accepted that supply will
decrease in the coming year and traders
buy up stocks leading to higher prices
(P2). Producers see good returns and
increase production leading to a glut of
supply, thus decreasing prices (P3). This
fluctuation is on a time lag depending
upon the time frame from extra planting to
harvests.
Aggregate
Increase in
Production
A forecast is accepted that supply will
increase in the coming year and traders
don’t buy up stocks leading to lower prices
(P2). Producers see poor returns and
switch to alternative crops, leading to a
shortage of supply, thus increasing prices
(P3). This fluctuation is on a time lag
depending upon the time frame from extra
planting to harvests.

Wild Collection and
Threatened Plant Species

Bargaining Power of
Producers
Bargaining Power of Producers

?
The Olfactory System & Odour
Classification

The Human Olfactory System
Odour molecules pass through the
olfactory organ

15-25%
30-40%
45-55%
Top Notes
Middle Notes
Base Notes
The Structure of a Fragrance
Bergamot oil, Rosewood oil (linalool),
Linalyl acetate, Neroli oil, Ciste Oil
Rose Oil 5%, Jasmin absolute
4%, Ylang Ylang Oil, Aldehyde
C11, C12, Methyl ionone 8%,
hydroxycitronellal 10%, Cinamic
Alcohol, Styrax. Phenol ethyl
alcohol, Phenylacetaldehyde
Vetiveryl acetate,
Sandalwood,
Isoeugenol, Vanillin
1.5%, Coumarin
15%, Nitromusks
10%
“First Impression” in Perfume.
High Volatile Citrus, Fresh, Green
notes…..
“ Heart of fragrance”.
Intermediate Volale
Floral, Aldehydic notes…..
Basic of fragrance”.
(Bottom) Low Volatile
Woody, Powdery, Musky …..

Classification of Odours
Spicy
Medicated
Aldehydic
Marine
Coniferous
Minty
Green
Herb
-aceous
Fruity
Balsamic
Animalic
Woody
Floral
Agrestic
Curtis & Williams (1994)

Floral Family Broom Sweet, Floral, Herbaecious
Carnation Delicate, Floral, Clove
Cassie Floral, Orange flower, Violet
Clover Sweet, Honey, Herbaecious, Floral
Cyclamen Floral, Lily, Lilac, Violet, green
Gardenia Floral, Tuberose, Jasmin, Orange flowr, Green
Hawthorn Floral, Bitter almond, Bitter, Diffusive
Heliotrope Floral, Almond, Balsamic, Fruity
Honeysuckle Swet, Floral, Heavy, Orange Flower, Tuberose,
Honey, Rose
Hyacinth Fresh, Green, Floral, Jasmin, Balsamic
Jasmin Sweet, Floral, Heavy, Fruity, Herbaecious
Jonquil Fresh, Floral, Sweet, Heavy, Honey, Green
Lilac Fresh, Meadow-Floral, Jasmin, Green
Lily Sweet, Heavy, Floral
Lily of the Valley Floral, Rose, Green, Slightly citrus
Lime Blossom Floral, Fresh, Lily, Lilac, Orange Flower
Magnolia Floral, Lily, Ylang Ylang
Mimosa Sweet, Floral, Hawthorn, Orange flower, Green
Narcissus Delicate, Fresh, Green, Floral, Sweet
Orange Flower Floral, Heavy, Animalic, Fresh, Rich, Bitter
Orris Delicate, Dry, Woody, Somewhat Violet
Reseda Floral, Green, Anisic, Herbaceous
Rose Sweet, Floral, Honey, Waxy, Slightly spicy,
Fruity
Sweet Pea Sweet, Delicte, Floral, Orange Flower, Hyacinth,
Lily
Tuberose Heavy, Floral, Orange Flower, Ylang Ylang,
Caramel, Green
Violet Floral, Powdery, Green
Wallflower Floral, somewhat liliacy, bitter almond
Ylang Ylang Rich, Sweet, Medicated, Floral, Fruity, Clove
Floral Family Descriptions

Woody Family Cedarwood Woody and slightly earthy, with smoky notes
Hibawood Like cedarwood, but more intensely woody,
Dry, Pungent
Rosewood Woody, Floral, Sweet, Spicy, Delicately Fatty
Sandalwood Soft, Sweet, Woody, Slightly Balsamic
Woody Family Descriptions
Animalic Family Amine Fishy notes, Ammonia
Castoreum Warm, Phenolic, Sweet, Somewhat herbaceous,
clean smelling
Catty Feline odour
Civet Warm, Slightly faecal, Musky
Equine Horse like
Faecal Indolic, skatolic
Indolic Lilac, Heavy, Animalic, Naphthalenic
Musky Blackberry like
Leather Phenolic, Cresylic, Animalic, Castoreum,
Balsamic
Animalic Family Descriptions

Balsamic Family Cistus Rich, Balsamic, Ambergris, Herbaceous
Labdanum Rich, Balsamic, Ambergris
Myrrh Rich, Warm, Balsamic, Spicy
Opopanax Warm, Vegetable note, Rich, Balsamic, Spicy
Peru Balsam Sweet, Balsamic, Rich, Soft, Vanilla,
Cinnamate, Benzoate
Styrax Sweet, Balsamic, Cinnamate
Tolu Balsam Sweet, Balsamic, Cinnamate, Vanilla
Vanilla Soft, Sweet, Powdery, Balsamic
Balsamic Family Descriptions
Herbaceous Family Lavender Fruity, Floral, Herbaceous, Woody, Balsamic
Rosemary Herbaceous, Resinous, Woody, Balsamic
Sage Herbaceous, Slightlycamphoraceous
Herbaceous Family Descriptions
Agrestic Family Earthy Fresh, Woody, Vegetable
Forest Moist, Fresh, Vegatable, Woody
Fungal Mushroom like
Galbanum Sharp, Agrestic, Green, Earthy, Coniferous
Hay Sweet, Warm, Agrestic, Herbaceous
Agrestic Family Descriptions

Green Family Cress Hyacinth like, Green
Cucumber Green like sliced green vegetable pods
Fresh and Clean
Grassy Fresh, Green, Fruity
Leafy Light, Green
Green Family Descriptions
Minty Family Peppermint Fresh, Cool, Mentholitic, Minty, Slightly Green
Spearmint Sweet, Warm, Minty, Herbaceous, Green
Mossy Notes Forest, Woody, Phenolic, Green, Somewhat
marine
Minty Family Descriptions
Coniferous Family Description
Coniferous Family Pine Resinous, Balsamic, Terpenitic
Resinous Forest, Woody, Terpenite, Balsamic

Marine Family Ambergris Marine, Seaweed, Mossy, Dry
Beach
Ozonic Fresh, Marine, SlightlySweet
Seaweed Marine, Mossy, Amine
Marine Family Descriptions
Aldehydic Family Fatty, Waxy (pleasant in dilution)
Aldehydic Family Descriptions
Medicated Family Camphorous Camphor
Cineolic Eucalyptus,
Cresylic Cresolic, Phenolic
Ethereol alcoholic
Mentholic Menthol
Phenolic Phenol
Terpenic monoterpenes
Thymolic Thymol
Wintergreen Methyl salicylate
Medicated Family Descriptions

Fruity Family Bergamot Fresh, Lemon, Sweet Orange, Herbaceous,
(Citrus Sub-Class) Pepper, Floral
Grapfruit
Lemon
Lime
Mandarin
Orange Sweet
Orange Bitter
Pithy Orange Peel
Tangerine
Fruity Family Apple
Apricot
Banana
Blackberry
Blackcurrent
Pear
Peach
Pineapple
Prune
Rasberry
Strawberry
Vinous Cognac like
Watermellon
Fruity Family Descriptions
Sub-Class (Citrus)

Spicy Family Celery
Cinnamom
Clove
Coriander
Cumin
Fenugreek
Ginger
Nutmeg
Pepper
Spicy Family Description
Miscellanious Bitter Almond
Notes Anisic
Benzoate
Burnt
Caramel
Cinnamate
Coconut
Fatty
Geranium
Honey
Metallic
Naphthenic
Nondescript
Oily
Patchouli
Salicylate
Smoky
Sulphorous
Tobacco
Waxy
Miscellaneous Notes

Light Heavy
Sweet Dry
Fresh Stale
Warm Cool
Soft Hard
Smooth Harsh
Rich Thin
Delicate Coarse
Odour Characteristics
Bitter
Difussive
Powdery
Pungent
Sharp
Tropical
Additional Characteristics

Spicy
Medicated
Aldehydic
Marine
Coniferous
Minty
Green
Herb
aceous
Fruity
Balsamic
Animalic
Woody
Floral
Agrestic
Fragrance Description Workshop

Fragrance Description Worksheet
Light Heavy
Sweet Dry
Fresh Stale
Cool Warm
Soft Hard
Smooth Harsh
Thin Rich
Coarse Delicate

0 Bitter 10
0 Diffusive 10
0 Powdery 10
0 Pungent 10
0 Sharp 10
0 Tropical 10

GC-MS
Performance Test
A Fragrance Development Lab
A trained human more accurate than a GC-MS

A Green Factory
UV Input
Enzymes

Oxygen
Carbon
Dioxide
Water
Glycolysis
Glycose
Nitrates &
Mineral Salts
Isoprenoids
(terpenoids)
6-Deoxyxylulose
Polysacccharidess
Disaccharides
Phosphoenol
pyruate
Pyruvate
KREBS
CYCLE
Acetyl-CoA
Mevalonic
Acid
Malonyl-CoA
Complex
Isoprenoids
(terpenoids)
Aliphatic
Amino Acids
Polyketides
Complex
Alkaloids
Alkaloids
Pentose Phosphate Pathway
Erythrose 4-
phosphate
Shikimate
Pathway
Aromatic
Amino Acids
Phenylpropan
oids
Hydroxy-
Benzoic Acid
Flavonoids
Complex
Flavonoids
Secondary
Metabolites
Primary
Metabolites
Primary
Metabolites

Volatiles from
an attacked
plant
Parasitoids
Predators
Plant Insect
Gene Activation Signal
Indirect
Responses
Direct
Responses
Volatiles
Leaf shape
Plant architecture
Secondary
metabolites
Volatiles
Physical Barriers
Secondary
metabolites and
proteins
Nutritional hurdle
Inhibitors
Increased activity
Heterogeneous set
High specificity
bifunctionality
High complexity
Wound
Insect
Elicitors
SIGNAL
Gene
Activation
Herbivory
Avoidance
New metabolites
Temporal/ spatial
avoidance
Sequestration of
the poisons
Utilization of
alternative hosts
Increase the
consumption rate
Modify the
nutritive quality of
the host plant
tissue
Establish
associations with
microorganisms
Improved
digestive enzymes
High activity
Modified spectrum
Low sensitivity to
PIs
Proteinases to
destroy PIs

Acetyl CoA
3-methylglutaryl CoA
(HMG-CoA)
Mevalonate
Isoprenyldiphosphate (IPP) and
Dimethyllallyldiphosphate (DMAPP)
Geranyl pyrophosphate
(GPP)
Geranyl geranyl
pyrophosphate
(GGPP)
Other Terpenes
(Triterpenes & Tetraterpenes)
C30+ (6 Isoprene Units +)
Monoterpenes
Glyceraldehyde
phosphate
Pyruvate
Mevalonate Pathway
Deoxyxylulose
Phosphate Pathway
Farnesylpyrophosphate
(FPP)
Sesquiterpenes
C5 (1 Isoprene Unit)
C10 (2 Isoprene Units)
Diterpenes & Carotenoids
Ionones (from degraded
carotenoids)

Terpenes
• Unsaturated hydrocarbons
•Found mostly in plants
•Usually monoterpenes and
sesquiterpenes used in flavours
and fragrances
•Generally weak odours not fully
represented from the essential
oils they come from
•Sometimes poorly soluble in
weak ethanolic solutions
•Primarily used as extenders
•Can oxidate or polymerise easily
changing odour and lessening
volatility
Cis-3,7-Dimethylocta-2,6-1-ol
Colourless to pale liquid
Stable
Application: Magnolia, Neroli, Jasmin, Lilac
and other floral perfumes
Origin: Rose, Neroli, Petitgrain, Lavender,
Lemongrass, Palmarosa and citrus oils

Geraniol
Trans-3,7-Dimethylocta-2,6-dien-ol
Colourless liquid
Stable
Applications: Floral and most other
perfumes
Origin: Rose, Citronella, Geranium
and Palmarosa
Linalool
3,7-Dimethylocta-1,6-dien-3-ol
Colourless Liquid
Stable
Applications: Almost universal
application in fragrances, especially
floral
Origin: Rose, rosewood, Lavender,
minor constituent of others

Biosynthesis and
isomerization-
cyclization of
geranyl
pyrophosphate

The biosynthesis and
isomerisation process
is undertaken by
enzyme from the oil
glands of plants in
nonoterpene
producing species

Esters
Transacylase
(coenzyme)
Dihydrofolate Reductase
(coenzyme)
Dihydrofolate Reductase
(coenzyme)
Aldehydes &
Ketones
Alcohols
Acids
(carboxlic)
& Acyl CoA

Alcohols
•Hydroxy compunds consisting
of hydrocarbon chains
•Primary, secondary and
tertiary alcohols (i.e., no.
carbon atoms), also aliphatic
alcohols
•Terpenoid alcohols very
important chemicals found in
many plants
•Polyhydric alcohols (2 or more
hydroxy groups) odourless, but
solvents
•Acyclic alcohols faint odours
(close to phenols)
Phenylethyl Alcohol
2-Phenylethanol
Colourless liquid
Stable
Sweet rosy like odour
Applications: widely used in synthetic form
From floral to aldehydic, chypre and fougere
Fragrances
Origins: Rose, Neroli, Geranium and Ylang Ylang

Octenol
OH
Oct-1-en-3-ol
Colourless liquid
Stable
Strong, fatty, orange like, balsamic
Applications: In the reconstruction
of lavender and lavindin oils
Origin: in some mushrooms and
savory oil
Citronellol
3,7-Dimethyloct-6-en-1-ol
Colourless liquid
Stable
Applications: used extensively in
florals
Origin: Rose, citronella oils

Islam & Alcohol
Ethanol (alcohol) is a ‘spirit’ odour
substance
It is a different chemical composition to alcohols used in
flavour & fragrance
Dodecan-1-ol
Benzyl Alcohol
Spirit alcohol forbidden
in Islam for consumption
(An-Nahl 16:67), but
allowed in
medicine.Many Islamic
scholars allow it for use
on the skin.

Amines
•Compound with one or
more hydrogen atoms of
ammonia, replaced with
hydrogen radical
•3 types, primary,
secondary and tertiary
•Most foul smelling
“animalic”
Methyl Anthranilate
(Methyl 2-
aminobenzoate)
Colourless liquid
Discolouration
From many flowers such as
orange and ylang ylang

The Esters
• Derived from alcohols in
reverseable reactions
• Fruity notes
•Not very pH stable
Colourless liquid
Stable
Applications: Versitile in many
fragrances, especially jasmin and
gardenia
Origin: Jasmin, Tuberose, neroli,
Ylang Ylang
Benzyl Acetate

The Aldehydes
• Fatty aldehydes have
pungent odours
•Aliphatices used in
perfumery and flavours
mainly from synthetic
sources
•Usually used in very
diluted forms
•Aldehydes are very
reactive (oxidisation,
polymerisation and acetal
formations)
Benzaldehyde
Colourless liquid
Can oxidize to benzoic acid
Applications: In traceable
amounts in sweet florals
Origin: Bitter almond oil, cassia

Lactones
• Naturally ocuring in many
fruits
•Most often hydroxy group of
alcohols which reacte with
carboxylic acids
•Contain ester functional
group in the cyclic part of the
molecule
•Important fruit flavours &
fragrances
Y-butyrolactone & a-
caprolactone

Carboxylic Acids
• Organic acids with a
carbonyl and hydroxy
group
•Usually derived from
aliphatic alcohols or
aliphatic aldehydes
through oxidisation
•Odours usually
resemble precursers
Colourless crystaline
solid
Slightly pungent odour
Benzoic Acid

Shikimate
Chorismate
Prephenate
p-hydroxybenzoate
p-aminobenzoate
Phenylalanine
Cinnamic
Acids
Tyrosine
Alkaloides
Aromatic
Amino Acids
Anthranilate
Tryptophan
Phenyl-C3
Compounds
Phenyl-C1
Compounds
Flavonoids
The Shikimic Acid Pathway

Phenols
•Compounds with 1 or
2 hydroxy groups,
similar to benzyl
alcohols
•Tend to be toxic and
caustic
•Prone to oxidisation
•Basically clean type
odours
Eugenol
4-allyl-2-methoxyphenol
Stable
Colourless liquid
Applications: Carnation, spicy
fragrances, rose and oriental
perfumes
Origin: Clove, cinnamom leaf oil,
patchouli, Ylang Ylang

Sulfate
ATP
Sulphurlyase
Adenylation
Adenosin 5’-
phosphosulphate
(APS)
Phosphorised
APS reductase
Sulfite
Sulfide
O-acetylserine
(thiol)lyase
Ferrodoxin-
dependent sulphite
reductase
Cysteine
O-acetylserine
3’-phosphate 5-
phosphosulphate
(PAPS)
APS Kinase
PAPS Reductase
Primary Sulphur
Reduction Pathway
Minor Sulphur
Reduction Pathway
Adapted from Kopriva
and Koprivova, 2004

Extraction theory and practice

Principals: Latent Heat
• Molecule speed and energy
dependent upon temperature
•Change from liquid to gas state
requires energy
•Due to motion of molecules, all
compounds with determinable
boiling points will emit vapours
from their surafaces, if area
closed this will insert pressure
upon the molecule, termed
vapour pressure
•These vapours will saturate the
molecule and take up additional
molecules
•This saturated vapour will
carry other molecules
Amount of heat required to vapourise a unit
mass of liquid, without raising the
temperature of the vapour above that of the
liquid is called LATENT HEAT of
vapourisation
Heat and relative pressures are important in distillation

The Gas Laws
Energy can neither be created nor destroyed in any system of constant mass and
that heat is energy
First Law of Themodynamics
Mechanical Equivalent of heat
Energy exerts a force to move a mass against the forces of friction
i.e., 540 kilocalies of latent heat required to vapourise 1 kilogram of
water in one second requires 2268 watts of power
Second Law of Thermodynamics
Heat cannot be transferred from cooler to hotter body

The Gas Laws
Fourier’s Law of Heat Conduction
Heat will be conducted from one
plane surface to another at a rate proportional to the area of contact and at the
magnitude of differential temperatures
Boyle’s Law
At constant temperatures, the volume of a given mass of gas is inversely
Proportional to the pressure on the gas
Charles’ Law
Under constant pressure, the volume of a given mass of gas is proportional
To its absolute temperature

The Gas Laws
Avogadro’s Law
Equal volumes of ideal gases under equal conditions of temperature and
pressure contain equal numbers of molecules
All the above laws also apply to mixed
vapours

Mixed Vapours
If two immiscible liquids are in equilibrium with a common vapur
space, each will contribute equally to any unit volume of that space.
Thus, a mixture of two mutually insoluble liquids will boil when the
temperature attains the point where the sum of the two
characteristic vapour pressures becomes equal to the surrounding
pressure.
This is how distillation vapourises relatively high boiling materials
under normal atmospheric pressure, without approaching the
corresponding boiling temperatures of the essential oil;s
constituents.

Mixed Vapours
Molecules
of water
vapour a
Molecules
of water
vapour b
Liquid
water a
Liquid oil
b
Liquid water
a
Liquid oil
b
Molecules of
water and gas
vapour
The composition of mixed vapours from immiscible liquids
Eg. Water 99.6c Eg linalyl acetate
226c
Together at 99.6c

The Principal of Essential oil Hydro
Distillation
The principal of all hydro distillation for the recovery of essential oils consists
In bringing together two mutually insoluble liquids, water and oil, at a temperature close
To the boiling point of the more volatile of the two, the water, so that the addition
Of a small extra vapour pressure from the oil, will cause the mixture’s total pressure
To equalise to the surrounding pressure.
Dalton’s Law

Releasing Oil from Plant Materials
In steam distillation water condenses of plant surfaces and
latent heat surrounds the material and raises volatile
materials to boiling point

Releasing Oil from Plant Materials
Herb surface
Water liquid mixed liquids oil liquids water liquids
Vapour phase
98c saturated mixed
vapour
General vapour space 99c
Region of oil vapour
elution
Method of Oil Release through Putative
Impression from Leaves

Steam in
Mixed Vapour Out
Re-condensation
Re-condensation
Re-condensation
Re-condensation
Re-condensation
Re-vapourisation
Re-vapourisation
Re-vapourisation
Re-vapourisation
Re-vapourisation

Oil
Produced
(%)
20
40
60
80
100
Time (hours)
0.5 1.0 1.5 2.0 2.5 3.0
20 40 60 80 100 120
Litres Water Passed
The Time-Steam-Yield Rate Relationship for a Distillation

Eugenol
1,8 Cineole
Methyl Chavicol
Linalool
Percentage
of
the
Distillate
Progressive Total of Constituent in Quantity
Stage One Stage Two Stage Three
. The Distinct Stages of Distillation and During the Second Phase for Sweet Basil Oil

Slightly Soluble
(<500ppm)
Moderately Soluble
(501-1999ppm)
Very Soluble
(>2000ppm)
Aldehyde C11
Aldehyde C12 (lauric)
Aldehyde C12 MNA
Amyl cinnamic aldehyde
Amyl salicylate
Benzyl salicylate
Cedrol
Citronellol
Citronellyl butyrate
Citronellyl formate
Eudesmol
Geranyl formate
Limonene
Linalyl acetate
a-Pinene
Calamene
1,8-Cineole
Nerol
Neryl acetate
Rose oxide
Benzlaldehyde
Benzyl acetate
Cinnamic alcohol
Citronellyl acetate
a-copanene
Eugenol
Geranial
Geraniol
Limonene
Linalool
Mentone
Myrcene
(E)-β-ocimene
Phenylethylacetate
Phenylethylalcohol
Sabinene
Terpinen-4-ol
a-Terpineol
Terpinolene

Practice of Distillation
Different methods of distillation will be used
according to:
a) Structure of leaves and other plant materials
b) “potential modification” of plant’s chemical
constituents to heat
c) Some resinous materials not volatile and wont
react to distillation

Due to material distillation times
with differ for various essential oils
Lavender
Mint

H&R Guide to Fragrance Ingredients

Steam Distillation Still
Steam Inlet from
boiler
Still Drain Valve
Welded Wire Mesh Floor
Still chamber for
plant material
(loaded by cartridge
or directly)
Vapour outlet to
condenser
Vapour Condenser
Condenser cooling
water inlet
Condenser cooling
water outlet
Separator Flask
Steam Outlet

Steam Inlet
Downward Steam Flow
Plant Material
Condenser Array
Grated Base
Side opens so cartridge with
Plant material can be slide in
and out of still.
Water & Oil Collector
Collector vessel
Schematic View of a Hydro-diffusion
Distillation System

Aroma Chemicals Derived from Terpenes

Aldehyde C16 (strawberry)
Ethyl methyl phenyl glycidate
(the methyl ester of methyl phenyl
glycidic acid)
Odourless liquid
Used at low dosage levels for fruity notes in jasmines, lilac, rose and orange flower
and as a sweetening agent
Not reported in nature

Anisaldehyde
4-Methyoxybenzaldehyde
Colourless liquid
Used in lilac, gardenia, honeysuckle and other florals
and to produce powdery notes
A minor constituent of vanilla

Benzaldehyde
Colourless Liquid
Used in traces for floral fragrances and in higher quantities for
industrial fragrances
Found in bitter almond, peach, apricot, ylang ylang, cinnamon
bark, cassia.

Benzyl Salicylate
Colourless liquid
Used as a solvent for crystaline, musk smelling aroma chemicals,
as a blender and fixative for florals
Naturally occurs in ylang ylang

Cedrol
Colourless crystals
Powerful odour used as a fixative in soap perfumes and household products
Naturally occurs in cedarwood and cypress oils

Cinnamyl Alcohol
3-Phenylprop-2-1-ol
White crystalline mass or pale yellow liquid
Modifier and fixative in rose, hyacinth, lilac,
muguet and other florals, particularly for soaps
Found in cinnamon leaf oil

Coumarin
2-Hydroxycinnamic acid lactone
Colourless crystals
Used in chypre and fougere fragrances, lavenders and
other herbal florals, usally as a fixative
Found in Tonka bean absolutes, lavender oils

Dihydromyrcenol
2,6-Dimethyloct-7-en-2-ol
Slightly coloured yellow liquid
Major ingredient in base of citrus fragrances, as a refresher
in lilac, lily of the valley and distinction in rose fragrances.

Exaltolide (Firmenich)
Colourless crystaline powder or clear liquid
Used at very low dosages as a fixative and intensifier of other
fragrance notes in fine fragrances
Occurs in traces in angelica root oil
cyclopentadecanolide
15-Hydroxypentadecanoic acid ketone

Hedione (Firmenich)
Methyl dihydrojasmonate
Colourless liquid
Used extensively in floral fragrances to create radiance and diffusive
power.
Not reproted in nature

Cis-3-Hexenol
Cis-Hex-3-en-1-ol
(Leaf alcohol)
Colourless to slightly green liquid
In trace amounts for natral green foliage notes in florals
Occurs widely in green leaves and many essential oils

Indole
Colourless crystals
Very lightly in solution as a floral enhancer in jasmines and
heavy florals, together with some aldehydic fragrances
Occurs in orange flower, jasmine

Alpha-Ionone
4-(2,6,6-Trimethylcyclohex-2-enyl)-but-3-en-2-
one
Pale yellow liquid
In violet compositions, also rose, as a floraliser. Used to contribute to non-
florals to enhance the powdery notes in heliotropes, and vanilla
In boronia and cassie absolutes and other essential oils

Liliial (Givaudan-Roure)
p-tert-Butyl alpha-methylhydrocinnamic aldehyde
Colourless to pale yellow liquid
Very widely used in florals as a floral fortifier

Methyl Salicylate
Methyl 2-hydroxybenzoate
Colourless liquid
In synthetic floral compositions, especially Ylang ylang and tuberose.
Heavy florals. In trace amounts in light florals.
In wintergreen oil, ylang ylang.

Phenyl ethyl alcohol
2-Phenylethylethanol
Colourless liquid
Widely used in florals, especially rose and with aldehydes.
In rose oil, neroli, geranium and ylang ylang

Vertenex (IFF)
P-tert-Butyl cyclohexyl acetate
Colourless liquid
Modifier, blender and sweetening agent for most perfumes.

Vetiveryl acetate
A mixture of bicyclo- and tricyclo-
vetiveryl acetates
Colourless liquid
Effective in chypre, aldehydic and oriental fragrances for lifting and
freshening. Also as a fixative.

The Essential Oil
Development Process

Biological Screening
Bio-prospecting
Literature Review
Consider Crop
Reintroduction
Consider New Crop
Introduction
Identify Chemical
Constituents of Essential Oil
Screening for Development
Potential
o Match chemical constituents of
essential oil with possible market
uses
o Evaluate application potential of
essential oil
o Evaluate theoretical yields, cost of
production
o Evaluate time and cost of
development
Value Determination (Use Criteria)
Preliminary study due to volume of
possibilities
Screening Process
Market Development
Policy
(Product & Enterprise)
o Identify
Opportunities
o Develop Evaluation
Criteria
o Identify Customer
Industry
o Determine Required
Quality and Monitor
Development
o Consider Market
Entry Strategies
o Determine Scope,
Resources and
Limitations
Scaling Up of the Project
Environmental Analysis
Evaluation of
Capabilities
Resources, skills,
knowledge, Technology,
Financial
Market Analysis
Field Development
o Project preparation &
early work
o Land Selection
o Development of
planting, cultivation and
harvesting techniques
o Development of oil
extraction techniques
Development Process
Regulatory
Screening
(FDAs, REACH, SCCP,
BPD, etc)
Market Entry
Enterprise
&
Business
Evaluation

Availability
Increases
Usefulness Increases
Media Reports
Ideas
Data
Information
Knowledge
Wisdom
The Continuum from media
reports to wisdom in relation
to availability and usefulness

Value today
known and
action taken on
the basis of
today’s value
Many people take
this action
Over supply
Into the future

Market Requirements of an
Essential Oil
Required Oil Yield, Quality for
production/market Viability
Propagation and Planting Costs
Crop Management
Harvesting & Extraction Costs
Volume and Market Acceptance
Laboratory
Research
Field Research
Weather
Land
Suitability
Knowledge
and Skills
De-stabilising
Event –
competitor,
regulation, new
substitute
Market
Contacts &
Network
Actual Yields and Oil Quality
Other unforseen
external factors –
politics, disaster,
war, regulation, etc
Assumptions &
Patience
Validity based
on information
& Judgement
Risk Environment in Essential Oil
Development
Evaluation &
selection of
suitable
planting
materials
Knowledge of
specific crop
management
techniques
Knowledge of
harvesting, handling
& extraction
techniques
Economies of
scale & correct
business model,
Market strategy
Plant physiology &
propagation
protocols
All factors effect on
yield & quality

$ Cost
$ Return
Degree
of
Processing
Final Product Form
Selection of
Crop
Trials
Propagation
Land
Preparation
Planting,
Maintenance &
Irrigation
Harvesting &
Extraction
Product
Development
Final Product
Crop &
Project
Failure
No
Return
Compost
&
Mulch
Biofuel
Animal
Feed
Crude
Essential
Oil
Organic
Agro-
product
Cosmetic
&
Aromatherapy
Nutriceutical
Pharmaceutical
Conceptual Value Added Processing
Options with Revenue and Cost
Implications

Consumers
Wholesalers & retailers
Manufacturers
Flavour & Fragrance
Houses
Traders & Brokers
Primary Producer
Essential oil as
primary Product.
Focus on market
demand & supply
and meeting
standard
Essential oil as
an ingredient in
a product.
Focus on uses
and applications
research
Manufacture of end
products. Focus on
formulation and end
product
development
 Technical
Focus
 General or
Niche
Customers
Vertical
Integration
Along
the
Supply
Chain
 Application
Focus
 Technology
Focus
 IP Focus (?)
 Specific
Customer
 Branding
 Theme
 Consumer
Marketing
 Reaching
Mass or
selected
Markets
 New Product
Development
Agro Industrial Consumer
Orientation Orientation Orientation
Consumer
Trends
Important
Technical
Trends
Important
Demand &
Supply, Buying
Criteria Important
Venture Focus Along Different Parts of the Supply Chain

Essential oil as
primary Product.
Focus on market
demand & supply and
meeting standard
Essential oil as an
ingredient in a product.
Focus on uses and
applications research
Manufacture of end
products. Focus on
formulation and end
product
development
Vertical
Integration
Along
the
Supply
Chain Focus Along the Supply Chain
Production Orientation
Application Orientation
Market
Orientation

Essential Oil
Other Aromatic
Extract
Aromatic Chemical
(bio-route)
Aromatic Chemical
(physical route)
Agro-Tourism Agricultural
By-Products
The set of opportunities for an essential oil producer
Flavour &
Fragrance
Commodity Oil
Specialty Oil
Aroma Chemical
Aromatherapy &
Cosmetic
Production &
marketing of
products
Pharmaceutical
Agro-chemical
Business
through
select
supply
chains
Single Crop Portfolio of Crops
Higher differentiation and value adding
Builds brand image and support.
Complements other activities.
General Trading
(marketing)
 Region’s production
 Specialised single oil
marketing
 General multi-oil
marketing
Diversification of activities
Mulches
Bio-fuel
Cattle feeds
Paper
Utilisation of wastes
Production of herbs
and spices
Other diversification
Research Should
be Focused Here

Natural Feed-Stocks
Physical Extraction
Essential Oils
Solvent Extraction
Aromatic Extracts
Selective
Extractions
Aroma Chemicals
Enzyme Precursors
Microorganism
synthesis
Specialty Chemicals
Mostly Imitation
Here
The Areas of
Growth are Here

Other Potential Economic Products
Lemon Myrtle
Dried leaf
Spice extract
Essential Oils
Herbal Tea, Food
Flavouring, Spices
Antibacterial,
Antimicrobial, Antioxidant
Dietary Supplement,
Energy Drinks,
Toiletries (soap,
shampoo) , Aromatherapy
and Fragrances
Pharmaceutical
Functional Food
Nutraceutical
Body Care
Semi - Finished Finished Product
Potential Product
Development

Discovery: 2-10 years
The extraction or synthesis of a new clinical or biological substance
Preclinical Testing: 4 years
Laboratory and animal testing
Clinical trials: 7 years Phase 1
20-80 health volunteers used to determine safety, pharmacological and
dosage.
Clinical trials: Phase 2
100-300 patient volunteers used to determine safety and
efficacy
Clinical Trials: Phase 3
1000-5000 volunteer patients used to determine
clinical health benefit and incidence of adverse
reactions
TGA Registration 1.5-2 years
35-40K pages of data submitted for
evidence on average
Pharmaceutical Benefits
Scheme: 8 months
Determination of cost
effectiveness
Product Promoted to the Medical Profession
Post Marketing Monitoring: monitor safety and efficacy
when used in wider population, with other diseases and
taking other medicines.

Opportunity
JV,
partnerships,
strategic
alliances, etc
Underlying
Knowledge
Unexploited
or idle
resources
Sustainability
of the
venture for
long-term
survival
Cost and
performance
benefits of
product
Impact on
and from
local
community
Access to
capital
R&D
Economies of scale or
competitive advantage
through differentiation
Access to
market/network
Market driven
selection of
crops and
product Customer
driven
management
Govt./institutional
support
Some Success
factors

An Existing Crop – Product Already Traded
This can be seen as an improvement on existing production or setting
up new production in an area already producing the crop.
 Improving cultivation and harvesting methods to
improve productivity
 Finding new customers and channels to increase sales
An Existing Crop – Leading to a New Product
This may involve moving along the value chain to a new market
based on an essential oil already produced or producing an
essential oil for some type of value added product.
 Improving cultivation and harvesting methods to
improve productivity
 Finding out what products potential customers want In
a new product
 Producing a new product according to identified
consumer needs
 Organising the supply chain for the new product to get
to market
 Making the product available to more consumers who
are likely to want it
A New Crop to a New Geographic Area
This involves producing an essential oil already in trade in a new
geographical area.
 Establishing the most efficient way to cultivate, harvest
and process the essential oil
 Matching the newly produced essential oil with
customer expectations and requirements
 Organising the supply chain so the essential oil reaches
the market
 Making the essential oil available to new customers
who are likely to require it
A New Crop and New Product
This involves producing a product higher up the value chain,
differentiating it and producing the essential oil.
 Making informed decisions about new crop choices
 Establishing the most efficient way to cultivate, harvest
and process the essential oil
 Finding out from potential customers what they want in
the new oil
 Making sure the oil meets the customers needs as
closely as possible
 Organising the supply chain so the essential oil reaches
the market
The Essential Oil Strategic Matrix

Market Analysis
• Knowledge of Industry
• Knowledge of Potential Applications
• Knowledge of Customers
• Understanding of Derived Demand
• Understanding of Trends
• Understanding of Other Developments &
Improving Technology and Knowledge

Competitive Rivalries
Lemongrass quick yield and
straightforward to cultivate and distil
– expect high elasticity of supply
from both existing and new
producers.
Producers of substitutes very
aggressive
Bargaining Power of Suppliers
Collecting the most suitable
planting material require effort.
Extraction and
harvest .technology needs to be
acquired or developed
Analytical equipment or service
maybe expensive/remote.
Substitutes
Citral (main constituents) can
be produced from a number of
chemical feed stocks.
Alternative oils (litsea cubeba)
cost much less to produce.
Lemon myrtle oil much
smoother and acceptable to
end users
Many alternatives to
lemongrass in product
formulations.
Trends & Technology
Alternative technologies to
steam distillation (CO2)
can make much smoother
oil but will increase capital
needs greatly.
Natural, exotic, organic,
FAIRTRADE could
increase oils popularity (?)
if seen as exotic.
Substitutes
Trends
&
Technology Bargaining
power of
buyers
Bargaining
power of
suppliers
Competitive
Rivalries
Regulation
Regulation
SCCP placed lemongrass oil
under scrutiny as a cosmetic
ingredient in EU.
Industry Competitors
Intensity of Rivalry
Bargaining Power of Buyers
Currently small item of trade in
flavour industry, strong
relationships with established
producers.

Opportunities
Threats
Cognitive Bias
Strengths Weaknesses
 Competitors identifying the same
opportunities and enacting upon them
 The regulatory environment and
potential changes within it
 Inability to penetrate the existing
supply chain and make alternative
strategies
 Dependence on survival from a single
or very few customers
 Depending on a single product for total
revenue
 Adverse acts of God, bad weather,
drought, etc.
Opportunities
Threats
Cognitive Bias
Strengths Weaknesses
 Competitors identifying the same
opportunities and enacting upon them
 The regulatory environment and potential
changes within it
 Inability to penetrate the existing supply
chain and make alternative strategies
 Dependence on survival from a single or
very few customers
 Depending on a single product for total
Any factor or group of factors that
may potentially hinder enterprise
growth in a sustainable manner
without any contingencies verse acts
of God, bad weather, drought, etc.
 An identified market where enterprise resources
and competencies will be able to exploit
 The potential opportunity will have a large
enough market size to sustain the enterprise
 The enterprise will be able to take advantage of
this opportunity better than any other
competitors
 Outside elements in the supply chain will support
the enterprise
Any factor or group of factors that will allow
the enterprise to grow in a sustainable
manner from the market environment
 Personal and enterprise competencies,
knowledge & experience that can be
utilised for the benefit of the enterprise
 Facilities, infrastructure, financial
backing & liquidity, long timeframe
view
 Ability to learn through research and
experimentation
 Any network connections with industry
and access to the supply chain for both
information and marketing
 Ambition and vision (but not
delusional), focus & commitment
 Ability to innovate technically, market
and organisational wise
Any factor or group of factors that
can assist the enterprise gain
competitive advantage over its
competitors
 Competency gap
 Short term timeframe, no fall back position if
positive results delayed or there are technical or
market failures
 Poor infrastructure that hinders production or
marketing
 Shortage of funds to undertake project to
completion
 Qualified or lack of commitment by any key
people within organisation
 Lack of network, knowledge and access to supply
chain
Any factor or group of factors that can hinder
the enterprise gain competitive advantage
over its competitors
Opportunities are seen with
bias according to knowledge,
experience, wisdom,
educational background,
market knowledge,
competencies, etc.

High
Market
Growth
Low
Strong Weak
Relative Competitive Position
Crude
Essential Oil
Steam
Distilled
Essential
Oil under
CO2
extraction
Cosmetic
production for
international
market
Organic
Cosmetic
production for
international
market
Essential Oil
Based Agro-
chemical

Organisational Capability
Creative, Opportunity, conceptual, strategic,
Learning, Organisational, financial, Technical,
Marketing, Networking and Commitment
Competencies
How the Business is Currently
Performing
The base for potential future
Development
Resources Existing and Available to
the Business
The Set of Potential
Opportunities
Time
and
Company
Evolution/Change
Enterprise Performance
Personal
Objectives
Strengths
and
Weaknesses
Theme
Personal
Resources
Network
Product
Management
Finance
4
Ps
&
Skills
Facilities
Attributes
External
Influences
&
Threats
Market
Economy
Regulation
Technology
Position
Social
Situation
Change
&
Competition
Aspirations
Development
Key internal
influences on
the strategic
process
The process of
product/market
development
Key external
influences on
the strategic
process
Competitive Position
Cognitive Bias
Structural/Support
Strategies
Interventional
Strategies

Threat of New Entrants
Threat of competition from
new technology
(in past from petrochemicals)
Bargaining Power
Of suppliers
Restrictions on
The supply of
beta-pinene
The required
feedstock
Other producers of
geraniol
Industry
competitiveness
Intensity of rivalry
Threat of substitutes
Possible reformulation with
other rose materials eg.
Phenyl ethyl alcohol
Bargaining power of
buyers
Concentration of
usage into few major
compounders
strengthen buyer
power
Adapted from
Porter, M. E,
Competitive
Advantage: Creating
and Sustaining
Superior
Performance, New
York, Free Press,
1985
Porter’s Five Force
Analysis for Gernaiol

Price
Time
New producers entering
the market
Price by determination of value to end users
Price by determination of production costs
(Most efficient production)

Potential with Right Products and Correct Distribution and Branding
Depend on Location
Potential with Right
Products and Correct
Distribution and
Branding
Potential with Right
Products and Correct
Distribution and
Branding
Limited Unless a
Specific Market Exists
Potential Large Market
Dispersed Worldwide
Very Limited Unless
Large Domestic Market
Local Market International Market
Essential
Oil
Differentiated
Product
Specialty/End
Product
Much Larger Market
with Competition
Diversification
Local or International Market Opportunities

Scale and Vision/Mission of the
farm/plantation
• Vision and mission and objectives

The Farm Family
Family & Farm History,
Current farm Operation,
Current Family Status.
Strategic Business
Analysis
Land
Labour
Capital
Business Goals
Family Values
The Vision
“Mission Statement”
Family Goals
Self Assessment
Communication Skills
Decision Making Skills
Knowledge
Personal Goals
Business
Plan
Production &
Operations
Marketing
Personnel
Financial
Risk
Management
Retirement
Plan
Timing of
retirement
Life after
retirement
Retirement
Income needs
Retirement
Income sources
Farm
withdrawals
Succession
Plan
Grooming
successors
Fairness to all
children
Transfer
strategies
Financing the
transfer
Tax planning
Estate
Plan
Valuing the
estate
Liquidity needs
Planning you
will
Establishing
living powers
Tax planning
Investment
Plan
Disposable
income
Time horizon
Investment
options
Risk
management
Tax planning
Adapted from Manitoba Agriculture

Issue Comments
Focus Paradigm Requires focus on concept of product application where current focus is on cultivation
This requires research
This requires an entrepreneurial approach
Concepts not readily understood by conventional farmers
Basic Research Needs access to Worldwide data
Requires availability of suitable germplasms
Requires basic R&D to determine where crop technically suitable
Requires R&D to determine whether potential crop is economically feasible
Very difficult to get R&D assistance
Shortage of skills and expertise in many areas
Crop Management and Processing Propagation technologies
How to plant, cultivate and manage the crop
How to harvest, extract, store and handle
How to process
How to package
Transportation and storage
Marketing Infrastructure Require coordination of production with demand (important with new essential oil production)
Require correct channels of distribution (critical)
Requires a marketing strategy (change of paradigm from producing orientation)
Economics and Logistics Requires enough volume to economically transport and distribute (especially in low to medium value oils)
Requires a solution to inconsistencies of quality and production
Organisation Need committed people with strong leadership and trust
Government Need to translate support into action
Need funding allocations for research & development
Need infrastructure
Regulation Need to fund infrastructure to meet EPA & HACCP, etc
Need to identify and fulfil the requirements of various regulatory bodies
Finance Very difficult to obtain funding for these projects
Customers & Consumers Need to identify who are the customers in which part of the value chain
Need to work closely with selected customers

To Development Process
First Stage: Theoretical &
Biological
Screening
Screening
For
Development
Potential
To Market Development
Linked to all
stages
Regulatory
Screening
REACH, BPD, SCP, GRAS, etc

Bio-prospecting
Literature Review
Consider Crop Reintroduction
Consider New Crop Introduction
Identify Chemical Constituents of Essential Oil
Screening for Development
Potential
o Match chemical constituents of essential oil
with possible market uses
o Evaluate application potential of essential oil
o Evaluate theoretical yields, cost of production
o Evaluate time and cost of development
Value Determination (Use Criteria)
Preliminary study due to volume of possibilities
The Screening Process
Regulatory Screening
(FDAs, REACH, SCCP, BPD, etc)
Generation of
Possibilities
Elimination of
Possibilities
Leads to a number of potential
possibilities that can be further studied

Potential New Crop Ideas screened
through a process that eliminates
potential ideas.
? The industrial product ideation
process aims to generate ideas from
a zero base.
Leads to one crop
(idea) to be
developed
Leads to many ideas to
be further screened

Bio-Prospecting
Desktop Studies

Actual Conditions Range of Possible Growing Conditions for Potential Crop
 General climate
 Range of micro-climates
 Topography that influences micro-climates
 Rainfall range (access to irrigation)
 Temperature ranges
 Daylight hours
 Soil types
 Soil characteristics (pH, humus profile, soil layers, etc)
 Preferred climate(s)
 Preferred micro-climates
 Preferred topography
 Preferred rainfall levels
 Preferred temperature ranges
 Preferred daylight hours
 Preferred soil types
 Preferred soil characteristics
Comparison Factors between Potential Cultivation Site and Potential Crop
Latitudes 44° North & South

Actual Conditions Range of Possible Growing Conditions
for Potential Crop
 General climate
 Range of micro-climates
 Topography that influences micro-
climates
 Rainfall range (access to
irrigation)
 Temperature ranges
 Daylight hours
 Soil types
 Soil characteristics (pH, humus
profile, soil layers, etc)
 Preferred climate(s)
 Preferred micro-climates
 Preferred topography
 Preferred rainfall levels
 Preferred temperature ranges
 Preferred daylight hours
 Preferred soil types
 Preferred soil characteristics
Comparison Factors between Potential
Cultivation Site and Potential Crop

Lemongrass
Caraway
Tea tree
Artemisia
Vanilla
Rue
Perilla
Geranium
Hyssop
Cardamom
Dill
Aloe
(Eaaglewood)
Sandalwood
Lemon Balm
Galanga
Cumin
Lime
Coriander
Lemon
Ylang Ylang
Angelica
Lavender
Plant
Cymbopogon
citratus
Carum carvi
Melaleuca
alternifolia
Artemisia vulgaris
Vanilla planifolia
Ruta graveolens
Perilla frutescens
Pelargonium
graveolens
Hyssopus officinalis
Elettaria
cardamomum
Anethum
graveolens L.
Aquilaria
malaccensis Lam.
Santalum album
Melissa officinalis
Alpinia galanga
Cuminum cyminum
Citrus aurantifolia
Coriandrum sativum
Citrus limon
Cananga odorata
Angelica
archangelica
Lavendula
angustifolia
Botanical Name
Grassland
s
Temperat
e
Sub-
tropical
Tem/tropi
cal
Tropical
Mediterra
nean
Tropical
Temp/Sub
-Tro
Mediterra
nean
Temp/Tro
pical
Temperat
e
Tropical
Arid-
monsoon
Temperat
e
Tropical
Sub-
tropical
Tropical
Coast
Versatile
Mediterra
nean
Tropical
Temperat
e
Mediterra
nean
Habitat
24◦
C
16°
C
21°
C
21°
C
17°
C
10°
C
-
15°
C
20°
C
22°
C
14°
C
24°
C
17°
C
22°
C
6°C
15°
C
-
5°C
15°
C
30°
C
20°
C
30°
C
30°
C
26°
C
24°
C
-
18°
C
22°
C
30°
C
25°
C
30°
C
26°
C
28°
C
17°
C
18°
C
-
19°
C
28°
C
18°
C
7°C
10°
C
10°
C
4°C
10°
C
7°C
10°
C
6°C
18°
C
10°
C
6°C
18°
C
9°C
18°
C
4°C
-
21°
C
-
7°C
34◦
C
26°
C
45°
C
33°
C
30°
C
32°
C
36°
C
35°
C
26°
C
32°
C
38°
C
30°
C
34◦
C
26°
C
32°
C
28°
C+
-
32°
C
-
24°
C
Temperature
Range
Optimal
Max.
1500
mm
600m
m
800m
m
1500
mm
500m
m
600m
m
1500
mm
500m
m
-
450m
m
500m
m
1500
mm
800m
m
1250
mm
1500
mm
250m
m
1500
mm
600m
m
500m
m
3000
mm
1300
mm
3000
mm
3000
mm
1500
mm
1000
mm
1700
mm
1700
mm
-
3000
mm
1300
mm
3000
mm
2700
mm
2500
mm
2500
mm
1250
mm
2000
mm
1300
mm
1000
mm
20°
N&S
45-
60°N
0-
32°N&S
0-60°N
20°S-
20°N
30-
45°N
0-50°N
30-50°
25-66°
5-
35°N&S
28-
45°N&S
0-
25°N&S
20°
N&S
30-
45°N&S
20°
N&S
Along
30°N
30°S-
30°N
40°S-
40°N
40°S-
45°N
10-
15°N&S
30-
45°N&S
35-
55°N&S
Rainfall
Lat.
Range (mm)
<1400m
<700m
<700m
<1200m
<2000m
<1400m
-
<1000m
<2500m
<1700m
lowlands
lowlands
<2200m
<2200m
-
<400m
700-
1700m
<1700m
Altitude
Direct Sunlight
Direct sunlight
Direct sunlight
Direct sunlight
Part shade
Direct sunshine
Light shade
Light shade
Direct sunlight
Shaded areas
Direct sunlight
Direct sunlight
Direct exposure
Direct exposure
Partial Shade
Direct exposure
Direct Sunlight
Direct exposure
Direct exposure
Direct after maturity
-
Direct Sunlight
Diurnal
Radiation
Hours

Worksheet for Rough Calculation of
Financial Viability at Initial Screening Stage
1. Costs of Crop Domestication
Can they potential crop be domesticated into field production easily?
If not, will biomass be wild-collected?
What method would be most suitable for propagation,
from seed, cuttings, tissue culture, other?
Does nursery propagation of the potential crop require any other special care?
What staffing will be required?
What would be the approximate costs of achieving the above?

2. Field Preparation and Infrastructure
What overall infrastructure will be needed?, nursery, road access, fencing,
outbuildings, farming equipment, etc.
What land preparation is needed, land levelling and contouring, drainage, etc.
Does the crop require large amounts of water to thrive during growth?
Is there adequate water available through rainfall to satisfy this?
Will irrigation be required? If so, what method?
Will dams and catchment areas have to be
constructed to ensure a plentiful water supply?
What will be the approximate costs of this?
Are there any other potential costs?

3. Planting and Maintenance
Approximately how long will the crop take from field planting to harvest maturity?
How will the potential crop be planted?, manually/automated?
What will be the costs involved?
What would the approximate planting density be?
Will nutrients have to be applied? If so, how regularly?,
How much? What method will be used to apply them?
What will be the approximate costs of this?
How often are re-plantings required? After each harvest, after a number of seasons,
after how many years, what are the costs involved to prepare for each re-planting?

4. Harvesting, Extraction and Post Extraction
Is harvest timing crucial?, ie, a time of day,
a very short window in a particular month, etc
What are the costs involved in achieving this harvest window?
What method of harvest will be utilised?
Manual, semi-mechanised, fully mechanised
What would be the approximate costs of building the harvest equipment?
What method of extraction will be required? Hydro-distillation, steam distillation,
destructive distillation, vacuum distillation, solvent extraction, other
What power sources will be utilised? What are their costs?
How will spent biomass be dealt with?
Does it have any economic value or can it be used back in the farming process?
Is the technology understood for the above processes?
If not, what will be the costs of acquiring it?
What will be the fabrication costs to build the above?
What regulations (ie., EPA) are relevant to the processes?
And how much will development and compliance cost?
Will specialist staff be required?
What would the approximate cost of energy to oil yield?

5. Estimated (guessed) Project Size and Yields
How many hectares do you anticipate to cultivate?
How many years will it take to achieve this?
What (based on literature and other knowledge) would be the approximate
biomass per hectare achievable? (min. and max. est.)
Does the biomass have to be wilted, stored or
otherwise processed before extraction?
What would be the yield as a percentage of biomass after extraction?

6. Estimated Financial Viability
1. Research costs =
2. Costs of crop domestication =
3. Field preparation and infrastructure costs =
4. Propagation, planting and maintenance costs =
5. Harvesting, extraction & post extraction costs =
Total Capital Costs (1+3) =
Total operational costs (2+4+5) =
Total amount of oil yielded =
Total oil value =
Value – total operational costs =
Return/total capital costs x 100 = Return on investment

• Bio-prospecting
• Literature Review
• Consider Reintroduction of a Crop
• Consider Introduction of New Crop
Identify Chemical Constituents of Essential
Oil

Screening For Development
Potential
• Match Chemical Constituents of Essential
Oil to Possible Market Uses
• Evaluate Application Potential of Essential
Oil
• Evaluate Yields, Cost of production
• Evaluate Time and Cost of Development
• Value Determination (Use Criteria)

Screening
• Require Knowledge of Essential Oil
Applications
• Require knowledge of International Market
• Require Knowledge of International
Regulations
• Need to Collaborate with Industry Parties

Screening Protocols
• Anti inflammatory
• Anti microbial
• Skin whitening
• UV absorbing
• Anti age actives
• Flavour & fragrance application
• Aromatherapy

Group Characteristics Examples Uses
Flavour/Odour
Profile due to one
or more
constituents
Usually high
volume/low to
medium value
products. Level of
chemical constituents
very important in
trade. Aroma
chemicals often good
substitutes.
Mint
Lemongrass
Some citrus oils
Eucalyptus
Clove
Perfume and Flavour
compounds
Flavours where
natural status is
desired
Some citrus oils used
for cleaning solvents.
Isolation of natural
aroma chemicals,
eg., eugenol from
clove oil.
Flavour/Odour
Profile due to one
or few major
constituents that
cannot be easily
reconstructed
Usually medium to
high volume, medium
priced oils. Olfactory
and flavour
characteristics more
important in
purchase decisions.
Difficult to
reconstitute.
Vativert
Sandalwood
Patchouli
Perfumery and
flavour compounds
(both functional and
fine perfumery)
Character from
main constituents,
but richness and
complexity from
minor constituents
Low volume/high
characteristics
important in
purchase decisions
and pricing. In most
cases oils can be
reconstituted
efficiently.
Rose oil
Jasmine absolute
Many herb oils
Fine perfumery
(mainly
reconstitutions used
for functional
perfumes)
Limited flavour use
Majority of herb oils
used for flavours but
beginning to be used
in fragrances
None of the main
constituents
contribute
decisively to the
desired
odour/flavour
profile
Low volume/hogh
characteristics most
important in
purchase decisions.
In most cases good
reconstitutions can
be produced.
Mimosa absolute Fine perfumery
(usually too
expensive to use for
functional products)
Classes, Characteristics
and Uses of Essential Oils
Adapted from Naf (1989) and
Petrzilka (1991) in Hunter
(1995)

A new material must have the following
characteristics to have commercial potential
a) The novelty of the new essential oil
b) The perceived potential uses and applications of the
new essential oil
c) The closeness of any substitutes to the new essential
oil
d) The stability of the new essential oil
e) The cost/price performance ratio of the new essential
oil
f) The toxicity aspects of the new essential oil
g) The general consistency of supply and quality
h) The prevailing market/product trends, and
i) The current level of technology
Kastner (1991) modified by Hunter (1995)

Evaluating the Characteristic Strengths and Weaknesses of Essential Oils
The novelty of a new essential oil
The major factor determining the novelty is the perceived uniqueness
of the essential oil’s organoleptic profile. Thus, the degree of novelty
is limited by the closeness of potential substitutes. The concept of novelty
extends to essential oils that are more cost effective sources of natural
aroma chemicals. New natural sources of aroma chemicals would also
fit into this criteria of novelty.

The potential uses and applications of a new essential oil
Without perfumers and flavourists perceiving applications potential, a new
essential oil will remain in the realm of curiosity. Time, effort and imagination
on the part of perfumers and flavourists is required to discover useful
applications for new essential oils. It is under this criteria that most new
essential oils will struggle to find acceptance as a new aromatic material.

The closeness of any substitutes
It is difficult to find essential oils that cannot be duplicated by reconstitutions.
New essential oils with close substitutes are of little value to the flavour
and fragrance industry, unless they can offer a significant cost or stability
advantage. The only exception is when a new essential oil is a source of
a natural aroma material.

The Toxicity
The cost of proving a new material is safe to use in flavours and
fragrances is a major obstacle to the development of new aromatic
materials. The industry has an impeccable reputation for self
regulation and added EU regulations increases the cost of preparing
dossiers on new materials even more. In markets outside the EU,
most international flavour and fragrance houses would not consider
using a new essential oil unless it meets IFRA safety and toxicity
recommendations and is included on the GRAS list.

The Cost Price/Performance Ratio of the
New Essential Oil
Important in the application potential of the
new essential oil. New material must offer
a perceptible odour/flavour at low
concentrations

The Stability of the New essential Oil
Stability as an essential oil and stability in
end products.

The general consistency of quality and supply
Natural material will vary in quality according to geographic origin,
type of soil, level of nutrients in the soil, climate and weather,
rainfall, time of harvest, season, method of extraction, altitude
and the incidence of pests and diseases. Likewise there are
risks with continual supply of natural materials because of
adverse weather conditions, changes in climate, floods and
other natural disasters, wars, political upheavels and the
inexperience of new producers. Launching new consumer
products require large investments on the part of the end
product manufacturer. Flavour and fragrance houses do
not want to be placed in a position of being unable to supply
a manufacturer with a flavour or fragrance compound because
of the unavailability of a raw material.

The prevailing market/product trends
Market and product trends slowly evolve. Changes in market trends
are the result of complex forces, including technology, which makes
new trends possible, advertising, and cultural influences upon
consumer tastes and preferences. A particular essential oil may
become more or less important to the flavour and fragrance industry,
depending upon these trends.

The current level of technology
New technology advances influence the value of existing aromatic
materials to the flavour and fragrance industry. The development
of new essential oil reconstitutions are aimed at eliminating some
of the potential toxicity and solubility problems of existing essential
oils. Reconstitutions are generally more stable and cheaper than
their more expensive natural counterparts. As better and more cost
effective reconstitutions are developed in the future, the use of some
essential oils will decline. Since the advent of more sophisticated
analytical techniques, like GC-MS, headspace analysis, electronic
noses, aroma chemical and specialty product manufacturers have
been better able to isolate powerful aromatic molecules from essential
oils and synthesise these compounds. The discovery of new aroma
chemicals in essential oils due to increased equipment sensitivity
is more likely to lead to synthesis rather than cultivation.

The novelty of a
new essential oil
The potential
uses & applications
of the new essential
oil
The closeness of
any substitutes
The stability of
the essential oil
in applications
The
cost/performance
ratio
The Toxicity
The general
consistency of
quality and supply
The prevailing
market/product
trends
The current
level of
technology
Low Novelty High Novelty
Low Potential High Potential
Close
Substitutes
No Close
Substitutes
Poor Stability Good Stability
Poor Ratio Good Ratio
High Toxicity Low Toxicity
Low
Consistency
High
Consistency
Low Trend
Match
High Trend
Match
High
likelihood of
synthesis
Low
Likelihood of
Synthesis
A B
D
C
A Grid showing the characteristics of a new essential
oil

Potential essential oil crop
idea
Bio-prospecting
Screening Protocols
o Anti inflammatory
o Anti microbial
o UV absorbing
o Anti ageing actives
o Flavour & fragrance
application
o Aromatherapy
o Anti cancer
Desktop study
Knowledge Required
o Essential oil applications
o International market
(Flavour & fragrance,
cosmetics, personal care,
agro-chemical,
aromatherapy, etc.)
o International regulations
Need to collaborate with
industry parties
Ethno-
botany
Other
literature
(Journals,
etc.)
Study of
same
latitude
Crops
What has value to
industry?
o Chemical
constituents
o Odour/flavour
profile
o Potential
applications
Match chemical
constituents with
possible market
uses
Evaluate
application
potential of
essential oil
Evaluate
theoretical yields,
cost of production
Evaluate time and
cost of
development
Value Determination
(Preliminary study due to volume of possibilities)
Choice and Access to Market
Jurisdiction Regulatory Framework

Regulatory Screening
• United States
- GRAS (Generally Regarded as Safe)
• RIFM – Collections of Monographs
• Food and Drug Administration
• Europe – REACH, BPD, SCP
More Later on this subject

Second Stage:
Development Process
Environmental
Analysis
Evaluation of
Capabilities
Market Analysis
Technical
Development
Opportunities &
Threats
Finance,
Knowledge, Land
Tenure, etc
Market, Customers,
Options
Project
Development in
the Field
Commercialisation
Strategies
Market
Development

Production Processes
Farm size & layout
Organisation & methods
Propagation
Cultivation
Processing
Marketing
Climate
Weather
Rainfall
Wind
Sunshine
UV radiation
Temperature
Humidity
Conducive weather
Or
Floods, droughts, etc
Physical
Environment
Soil
Topography
Atmosphere
Natural flora &
fauna habitat
Urbanisation
Suitability of conditions
Pollution (air, land & water)
Labour sources
Water resources
(create hinterland where
farm part of)
Human
Habituation
Knowledge
Suppliers & contractors
Pollution
Attitudes and concerns
Resource inputs,
fertilizers, herbicides,
insecticides, machinery,
research capabilities
Positive Inputs
Water
Sunshine
Nitrogen
Agricultural inputs
Fertilizers etc
Knowledge
Labour
Negative Inputs
Adverse physical
conditions
Pests & diseases
Pollution
Heavy metals
Business
Environment
Markets
Finance
Trade environment
Customers
Financing &
various kinds of
capital
Competition
Low prices
Changing demand
patterns
Government
Infrastructure
Regulation
Taxes &
subsidies
Trade
environment
Research
Negative Outputs
Runoffs, wastes,
carbon
Some
recycling
back to
system
Positive Outputs
Products
Revenue flow
back to
system
An Agricultural Enterprise as a
System

Evaluation of Resources &
Capabilities
• Resources
- Funding
- Time
- Facilities & Infrastructure
- Equipment
- Literature
• Capabilities
- Available Skills
(Research Team)
- Experience

Research into genetic
material and propagation
methods
Ongoing genetic
material improvement
research
Leads onto
Acceptable genetic
material for
commercial
production and a
set of propagation
practices
Leads onto
Research into planting,
spacings densities,
best environmental
conditions, nutrient
and moisture levels
Acceptable field
practices for the
crop
Leads onto
Research into harvesting
methods, harvest
timeframes, pre-extraction
handling methods
Acceptable harvest
and pre-extraction
practices for the
crop
Ongoing agronomic
research aimed
towards better yields
and chemical
composition
Leads onto
Research into various
extraction methods and
techniques
Acceptable
extraction
practices
Research into post
extraction handling
methods
Acceptable post
extraction handling
practices
Ongoing research into
post extraction
handling
Leads onto
Leads onto
Leads onto
Leads onto
The set of optimum enterprise site
specific agronomic and extraction
practices
An Operational Farm
Research and
Management Plan

Understand factors and
issues
Identify research
opportunities.
Understand the
phenomena and
prioritize them. Find
methods and techniques
to solve problems and
exploit research
opportunities.
Utilise knowledge and
technology through
specific trials under field
conditions to make
improvements in yields
and obtain specified oil
constituents.
Evaluate results,
develop practices for
field and processing
tasks.
Experiment on relevant
Issues & Factors
Identification and
Evaluation of Research
Opportunities
Survey Priorities
Procedure in Selecting Critical Research Issues
(Develop a body of knowledge and specific technologies climate, soil and
site specific)
Develop potential
practices
Principal operational methods
Growth, propagation, planting,
maintenance, harvesting & processing

Carbon dioxide
Glycolysis
Glucose 2 Acetyl CoA Fatty acid
Acetoacetyl-CoA thiolase
Acetocetyl CoA
HMGS-CoA syntesis
3-hydroxy-3-methyl-glutaryl-CoA (HMG-CoA) HMGL-CoA lyase
HMGR-CoA reductase
Mevalonate
Mevalonate pyrophosphate IPP isomerase
Isopentenyl pyrophosphate (IPP) DMAPP (C5)
Monoterpene synthases
and cyclase
Geranyl pyrophosphate (C10)
prenyltransferase
Farnesyl pyrophosphate (FPP) (C15)
Sesquiterpene
Synthesis &
Cyclase
Diterpene synthase
& Cyclase Squalene
syntase
Geranyl geranylpyrophosphate (C20)
Squalene (C30)
Cytokinins
Isopentyl adenine
rubber
Monoterpenes
s
Sesquiterpenes
Polyprenols
Farnesylated
proteins
Sterols
Saponins
Hormones
Lipoproteins
Diterpenes
Carotenoids
Abscisic acid
Chlorophyll
Vitamin K
Pare and Tumlinsen (1997), Chappel (1995),
Weissenborn et al (1995), van der Heijden et al,
1994, and van Kush (1994).

Essential Oil Technical
Development
• Project Preparation and Early Work
- Stakeholders
- Team
- Objectives
- Funding
- Plan

Development
• Land Selection
- Suitable (Soil, Rainfall, drainage, access)
- Climate
- Location
- Tenure
- Future Expansion

Tansy
Tanacetum vulgare L
(Asteraceae)
Genotype
Chemotypes
Camphor Type
1,8-Cineole
Type
Artemisia
ketone Type
Thujone Type
Myrtenol Type
Chemotype Variances
Other
Chemotype
Compound C1 C2 C3
1,8-Cineole 16.0 27.2 14.5
Borneol 1.8 0.1 0.8
Camphor 16.2 9.8 0.5
Terpenin-4-ol 2.4 13.8 1.9
Myrtenol 24.9 10.6 15.8
E-Nerolidol Tr. 1.7 0.6
a-pinene 5.5 4.9 0.5
ß-pinene 2.2 2.3 Tr.
Spathulenol 1.3 1.7 1.8
a-thujene Tr. 0.1 Tr.
a-Terpinene 0.5 3.1 0.5
Ў-Terpinene 0.9 5.6 0.3
o-Cymene 0.7 3.4 0.3
Sabinene 1.7 1.7 Tr.
Camphene 1.5 0.8 1.1
Adapted from Mockute & Judzentiene (2003), (2004)
and Steiner, et.al., (2005).

Sample Linalool Methylchavical Olfactory Profile
India 14.2% 77.5% A grassy herbaceous and mildly spicy predominating note, with a
herbaceous subsidiary note; back notes slightly fruity.
French 55.3% 10.9% A smmoth fresh and diffusive herbaceous note with harmonized cool anisic
and slightly balsamic subsidiary notes and warm woody back notes.
Australian 34.3% 34.7% A clean vegetableptype note with a cool herbaceous menthol-like
subsidiary note; a green and grassy back note.
Seychelles 27.7% 40.2% A sharp diffusive clean grassy herbaceous note, with a fruity anisic
subsidiary note and a very slightly camphoraceous back note.
Reunion (Australian grown) 3.4% 75.7% A sharp, if not somewhat dry, anisic note; the subsidiary notes were
herbaceous with a slight sweet camphoraceous floral back note.
Lachowicz, K., J., Jones, G., P., Briggs, D., R., Bienvenu, F., E., Palmer, M., V., Ting, S., T., and Hunter, M., Characteristics of Essential Oil from Basil
(Ocimum basilicum L.) Grown in Australia, Journal of Agriculture and Food Technology, Vol. 44, No. 3., 1996, pp. 877-881.
Different Major Chemical and Olfactory Profiles of Five Basil Oils

Topographic Variations
Mentha piperata
Mint

Texture
Layer Depth
Organic Material
Moisture Content
pH
Drainage & Evaporation, etc

Genetic Material
Habitat &
Topography
Suitability
Soil Type,
Texture &
Drainage
Suitability
Temperature
Range
Suitability
Rainfall
Suitability
Access to
Irrigation
Diurnal
Radiation
Crop
Maintenance
Cycle
Pest, Disease &
Weed Control
Issues
Easily
Available
Need to
Develop
Very Suitable
Not Suitable
or Need to
Develop
Very Suitable Not Suitable
Very Suitable Out of Range
Very Suitable Deficient or
Excessive
Yes No
Very Suitable Out of Range
Common &
Generic
Require
Specialized
Processes
Common &
Generic
Require
Specialized
Processes
Harvest &
Extraction
Processes
Common &
Generic
Require
Specialized
Processes
The Agronomic Characteristics Required for the New Essential Oil

Development
• Development of Propagation Material
- Easy to Domesticate?
- Seed Collection (genetic variance)
- Other Propagation Methods

Genetic material
Chemotype Variances for Melaleuca
cajuputi
Principal
Oil
Constituents
Variant 1 Variant 2 Variant 3 Variant 4 Variant 5 Variant 6
a-pinene 2.1 2.5 3.1 2.1 19.5 3.8
a-thujene 0.3 0.9 1.2 0.2 - 0.8
b-pinene 1.1 0.9 1.1 1.4 8.6 2.5
Limonene 5.6 4.9 4.8 5.2 17.4 6.9
1.8-cineole 62.8 41.6 34.0 66.5 21.5 50.7
g-terpinene 1.2 7.4 5.0 0.9 8.7 3.1
g-cymene 1.3 3.5 5.7 0.5 3.0 1.4
Terpinelene 0.6 1.0 0.5 0.3 4.1 1.5
b-
caryophyellene
3.7 6.9 7.4 3.3 2.8 4.9
Aromadendrene 0.9 1.4 1.7 0.7 1.2 0.9
Humulene 1.8 3.9 0.3 1.9 0.1 2.3
Vindifflorene 4.5 3.1 2.5 3.8 1.7 3.7
a-terpineol 4.5 3.0 2.4 3.8 1.9 3.8
Geographic Variances within a single chemotype

Constituent Variations
Slee, M., U., 1995

Sample Linalool Methylcha
vical
Olfactory Profile
India 14.2% 77.5% A grassy herbaceous and mildly spicy predominating note, with a
herbaceous subsidiary note; back notes slightly fruity.
French 55.3% 10.9% A smmoth fresh and diffusive herbaceous note with harmonized
cool anisic and slightly balsamic subsidiary notes and warm
woody back notes.
Australian 34.3% 34.7% A clean vegetableptype note with a cool herbaceous menthol-like
subsidiary note; a green and grassy back note.
Seychelles 27.7% 40.2% A sharp diffusive clean grassy herbaceous note, with a fruity anisic
subsidiary note and a very slightly camphoraceous back
note.
Reunion (Australian grown) 3.4% 75.7% A sharp, if not somewhat dry, anisic note; the subsidiary notes
were herbaceous with a slight sweet camphoraceous floral
back note.
Different Major Chemical and Olfactory Profiles of Five Basil Oils
Hunter et al, 1996

Preparation
& Transfer
Area
Composting &
Media Mixing Area
Seed Sowing Area
Seedling Standing Area
Perimeter Drain
Recycling Tank
Seedling Standing Area

Land Preparation
Leveling and contouring
Drainage

Objective of Trials to Develop Agronomy
Plan
Peppermint Management

Wind drift
Farm/Plantation
Soil Floor
Sub-Soil
Fertilisers,
herbicides,
insecticides
Leaf & organic
decompositions
Sub-terrainium water
Sun
Climate & Weather
Cultivation
Propagation
Processing
Products
Runoffs
Surface water
Wastes
Chemical
residuals
Some
wastes
recycled
Watershed runoffs
onto farm/plantation
Atmosphere
Nitrogen,
gasses, etc
Lakes
Rivers
Canals
Oceans
Daylight hours
UV radiation
Temperature
Humidity
Rainfall
Conducive weather, or
floods, droughts, etc
Regional Eco-System
A Farm/Plantation as a System
Other Farms

o Location
Topography
Slope & drainage
o Climate –
Sunshine hours
Season
Rainfall
Humidity
Temperature
UV Radiation
(Micro-climate variation)
o Soil
Soil Type
pH
Water holding
qualities
Humus
Compactness
Prior use
Mineral residuals
o Genetic Material
Plant physiology
Propagation
characteristics
o Agronomic
Practices
Fertiliser/nutrients
Irrigation
Weed & pest
control (also time
intervals)
Plant density
o Harvest & Extraction Practices
Time & method of harvest
Pre-harvest handling &
preparation
Method of
Extraction
Time of
Extraction
Length of
Extraction
Factors Effecting Essential Oil Yield & Composition

Yield and
Chemical
Constituents
of the
Essential Oil
Location
Topography
Slope & drainage
Climate
Sunshine hours
Seasons
Rainfall
Humidity
Temperature
UV radiation
Genetic Material
Collection
Purchase
Plant physiology
Propagation
characteristics
Soil
Nutrients
pH
Drainage & water
holding qualities
Humus
Compactness
Mineral residuals
Agronomic
Practices
Soil type
Irrigation
Pest & weed
control
Plant
densities
Harvest &
Extraction
Practices
Time & method of
harvest
Pre-harvest handling
& preparation
Method of extraction
Extraction time

Essential Oil Development Research Project Gantt & Milestone Chart
Activity/Research Objectives Q1 Q2 Q3 Q4 Q1 Q2 Q3 Q4
Genetic Material/Propagation
1. Selection Initial selections
2. Propagation trials Seed/vegetative
3. Index selection Continuing Prog
Land Preparation
1. Clearing & Initial Preparation 10 Ha. Plot
2. Level & slope
3. Irrigation infrastructure Sprinkler system
Planting/Maintenance Trials
1. Trial row planting/spacings/plots Var. densities
2. Nutrient trials NPK x 3levels
3. Weeding trials Manual vs. chem.
Harvesting Trials
1. Harvest trials Manual
2. Post harvest handling variations Packing density
3. Mechanisation trials Mod. Harvester
Extraction Trials
1. Distillation trial (part maturity) Stage sampling
2. Distillation trial (full maturity) Ea. Rep. plots
3. Large scale field distillation compare lab samp
4. Variances of distillation times Yield/constituents
5. Charge packing variance trials Yield variance
Economic Appraisal Full castings
M1: Propagation
Methodolgy
M2: Optimum
spacing/density
M3: Optimum Nutrient
levels
M4: Optimum weed
control techniques
M5: Knowledge Yields
& Biomass
M6: Knowledge
composition/
Var. conditions
M7: Optimum Distil
parameters
M8: Full economic
study

Trials
Response of Major Constituents to Nitrogen
Ovens Valley, Victoria, Australia,
1991/92
Response of Major Constituents to
Nitrogen (P. odoratum)
0
10
20
30
40
50
60
1 2 3 4 5 6
Nitrogen Level
%
1-decanol
1-dodecanol
decanal
dodecanal

Response of Yield to Nitrogen Level
Persicaria odoratum
Ovens Valley, Victoria, Austalia (91,92)
Response of Yield to Nitrogen Application
0
5
10
15
20
1 2 3 4 5 6
Nitrogen Level
Kg.
per
Ha.

Year 1
Year 2
Year 3
Year 4
Year 5
0.12 0.2 0.6
1.2
1.2
0.3 0.5
1.6
3.2 3.2
Diagram 2: Production yield of leaves per tree basis
Yieldof Dry Leaves (Kg) Yieldof Fresh Leaves (Kg)
Biomass Production – Lemon Myrtle

Development
Planting
Harvesting Techniques
Extraction
Techniques

Technology
Required
Level of
Mechanization
Required
Research &
Development
Time-frame
Capital
Requirements
Crop Cycle
Timeframe
(Additional)
Infrastructure
Required
Regulatory
Issues
Skills,
Competencies
& Capabilities
Required
Networks,
Market, Potential
Competitors, etc.
Low &
Generic
High &
Specialized
Low and/or
Generic
High and/or
specialized
Short & straight
forward
Long &
Complex
Low High
Short Long
Low
High
Low Need of
Consideration
High Need of
Consideration
Common &
Generic
Rare &
Specialized
Available
Networks, Wide
Market & high
competition
Need Network,
Specialized
Market, Few
Competitors
Potential
Revenue High
Low
The Project Characteristics.

A Simple Competency Audit Example (Hunter 2009, P. 299).
Competency Present Not
Present
Comments
Technical
1. Botany
2. Plant Physiology
3. Chemistry/Analytical
4. Micro-propagation
5. Nursery Management
6. Environmental Engineering
7. Chemical engineering/thermodynamics/etc
8. Soil Management
9. Agronomy/plant nutrition/field
management
10. Entomology
11. Irrigation engineering
12. Agricultural Engineering
13. Regulation knowledge
14. Cosmetic chemistry/food etc
15. Perfume/flavours
16. Packaging & design
17. Consumer product manufacturing
Basic
Basic
Experience
Experience
Experience
Basic
Basic
Basic
Low
Low
Low
Low
Low
Low
Low
Low
Low
Need guidance
Need assistance
Need guidance
Assistance
Available
Can design
Need appraisal
Use contractor
Use institute
Replicated
experiments
With Environment
Use contractor
Can develop
Need assistance
Learn from
experience
Use contractor

Competency Present Not
Present
Comments
Opportunity/Entrepreneurial/Commitment
1. Able to screen environment for opportunities
2. Able to evaluate opportunities
3. Commitment level
Yes
Yes
Passionate
Need to see realistically
Relationship
1. Have relationships in target industries
2. Have relationships in research area
3. Have relationships in finance industry
A few
A few
Some
Organising/Management
1. Able to project manage
2. Able to administrate
3. Able to financially manage operation
4. Able to undertake research
5. Able to keep key people motivated
Yes
Yes
Yes
Yes
Yes
Strategic
1. Understand dynamics of market and industry
environment
2. Able to plan for a business within this environment
3. Able to implement, evaluate and adjust plans in this
environment
Yes
Yes
Yes
Believe so but not
tested

Planting & Maintenance
Post harvest
practices
Irrigation
Methods
Planting
& Harvesting
Methods

Green/Biological/Natural
Minimum interventionalist
Linear/Industrial/Chemical
Wild Harvest
Biodynamic Farming
Organic Farming
Chemical Free
Reduced Pesticide
Low Input
Sustainable Minimum Till
Conventional
High Input Chemical Intensive
Natural Farming
Traditional Farming
Biological Farming

THE OPERATION OF ORGANIC PHILOSOPHY
(Fundamental Principals and Practices)
Objectives Soil Health &
Fertility
Pest & Disease
Management
Weed
Management
Eco-system
Biodiversity
Sustainability
Crop Rotation
Green Manure
Animal
Manure
Cover Crops
Intercropping
Farmscape
Composting
Mulching
Buffers
Crop Rotation
Green Manure
Animal
Manure
Cover Crops
Intercropping
Bio-control
Farmscape
Buffers
Crop Rotation
Green Manure
Animal
Manure
Cover Crops
Mineral
supplements
Natural
Fertilizers
Mulching
Composting
Tillage
Intercropping
Bio-control
Farmscape
Buffers
Crop Rotation
Green Manure
Cover Crops
Composting
Intercropping
Crop Diversity
Bio-control
Natural
Pesticides
Sanitation
Tillage
Farmscape
Fire
Buffers
Crop Rotation
Cover Crops
Intercropping
Mulching
Flame Control
Natural
Herbicide
Integrity
Buffers
Records
Certification
Improvement
Practices
Foundations
Site Selection
Conversion
Habitat
Creation
Planning

Farmscapping
Barriers
Crops
Boundaries
Sanitation
Crop Diversity
Forecasting and Monitoring
Climate & Weather Forecast, Pest Mapping, Setting
Thresholds, Monitoring, Record Keeping.
Evaluation and Decision Making
Cultural Controls
Soil Health
Crop Genetic Diversity
Planting times
Harvest times
Crop Rotations
Intercropping
Mulches
Biological Controls
Natural enemies
(predators & parasites)
Mechanical
Controls
Tillage
Pest Traps
Flaming or
Controlled Fire
Flooding
Soil Solarization
Clipping
Vacuuming
Steam Sterilization
Genetic Controls
Phonemes
Release of
beneficial/
Predator Insects
Microorganisms
Biological and Organic Pesticides
Insecticidal soaps, Horticultural oils, Biorational
Pesticides, Particle Film , Botanical Pesticides
Curative Methods
Preventative methods
Organic Pest Control
(Bio-Intensive Integrated Pest Management)

Overhead Sprinklers Drip Irrigation Capillary Sand Beds
Installation cost Moderate Moderate/High High
Maintenance Low High High
Durability Excellent Low Moderate
Labour Low Moderate Low
Water Distribution Fair Good Good
Water Use Efficiency Poor, wasteful Good Good
Pump Requirement Large, high pressure Small, low pressure Small, low pressure
Water Volume Requirement Large Small Small
Wind Influence Serious None None

Climate Scenario
 Temperature
 Solar Radiation
 Wind
 Humidity
 Rainfall
Topography and Soil
Characteristics
 Water holding capacity
 Drainage
 General topography
Physical System
 Type of System
 Manpower requirements &
availability
 Economics
 Efficiency (i.e., delivery, run-
off)
Windbreaks &
other protective
measures
Plant & Crop
Requirements
 Crop factor
 Stage of growth
 Basic physiology
Irrigation Practices
Procedures and
Timetables
Influenced by
plant spacing
& density and
life span
Rainfall
Reliability

X = 0.6 m
• • • • •
Y = 1.0 m
• • • • •
• • • • •
Plant Populations
• Regular plant spacings
maximise biomass
• Climate, weather, soil fertility and
Plant physiology influence
Plant spacings
• Selected plant spacings influence
Biomass, leaf size, fruit & rhizome
Size, stem growth.

A D B C
B A C D
C B D A
D C A B
Randomised Complete Block Design for a Field Experiment.

1
A
2
B
3
A
1
B
2
A
3
B
3
B
1
B
1
A
2
B
3
A
2
A
2
A
2
B
3
B
1
B
3
A
1
A
A Factorial Arrangement
of Treatments
(Moisture (A)
and Nitrogen (B))
in a Randomised
Complete Block Design
• Fertilizer Application
• Pesticide Application
• Herbicide Application
• Irrigation
• Spacings & plant populations

Selected method often restricted by type of crop
Most herbaceous crops can be mowed
Many flowers must be hand
picked
Innovative systems can be designed and
developed

Harvest Timing Critical for Some
Crops (Mentha piperata)

Harvesting Maturity
Desired Standard
Tea Tree (Melaleuca alternifolia)

Selection of Extraction System
Scale up
Pilot
Plant
Large Systems

Influencing Factors
Compound
characteristics
(volatility/mol. Weight)
Surrounding Material
Distillation
Historical
Solvent
Extraction
Cold
Pressing
Highly volatile
terpenes
Compounds
mixed with
waxes, also
lactones,
esters etc.
Low/medium volatility/stable
Influencing Factors
Price vis. Market
Volume
Plant cell structures
Field size
Topography
Soil/field characteristics
Part of plant (i.e.,
rhizome/leaf)
Coppice
Automated
harvest and
distillation
system
Harvest and
later load system
Manual
harvesting
due to
scale,
material,
investment
Extensive
large scale
farming
High --- Low
Value
Specialties
Distillation
Hydro
Steam
Destructive
Material
Characteristics
Material
Characteristics
Solubility in
water
CO2
‘Finer’
composition
spectrum
Fractional
Distillation
Individual
aroma
compounds

A Basic Harvest to Distillation Flowchart for
Peppermint Oil
Determination of Harvest time
(Sampling)
Mowing and leaving to wilt on
field
10 tonne fresh herb per Ha.
Fresh herb contains 80%
moisture
Wilting Must wilt to 50% moisture
level where ‘crisp and
brittle’
Pick up with forage harvester
Collect 6 tonne of dry herb
Deliver to Distillation system
Must insure that herb is not
bruised.
Use cartridge or box to
avoid too much handling
Distillation
Volume of 4 m2 per tonne
of herb.
If single charge, yield 15kg
oil
If distillate ratio is 0.062/1
(oil/water), then 241.8 litres
water required for
distillation.
Assume 35 minutes distillation time, 10
minutes change over, 6.90 litres/minute
steam rate per minute. 9 hours will handle
12 tonnes of dried herb in a vat of 4m3.

Initial Parameters of
Prototype
Still diameter
Still height
Steam source
Steam type
Initial Distillation
Conditions
Material preparation
Packing density
Steam flow/temp/pressure
Stop point of distillation
Initial Distillation Results
Oil Constituents
Oil Yield
Total oil verses time
Oil to water ratio
Determination of distillation
Stop point
Determination of distillation
Time (according to various
conditions)
Evaluate steam
flow/temp/pressure to yield
Determination of steam flow/
Temp/pressure rates
Further modification of
still

Vapour Outlet Running
into Corrugated Tank
Lid with Clamps
Counterweight
Brick
Compartment
Distillation Vat
Welded Steel Mesh Bottom
Water
Corrugated Iron Condenser Tank
Vapour Outlet Running
into Corrugated Tank
Oil
“T” Pipe for
Pressure
Equalisation
Separator
Constant Level
Tank
“Firebox” for wood fire

Boiler
Condensers
Separators
Box No. 1. Box No. 2.
Boxes driven in by tractor
and coupled up to steam
inlet and condenser.
Each box can be distilled on rotation
or both together, governed by boiler
capacity.

Development
Are Developed Techniques able to Create a
Viable and Economic Industry?

Marketing Strategies
• Develop in Conjunction with International
Company
- They will have their own strategy
• Raw Material
• Finished Product
• Local Market
• International Market

Problems in developing new
essential oils
(Specific problems to essential oils)
1. Lack of industry knowledge
2. Regulatory environment
3. Lack of novelty
4. Technical expertise
5. Planting wrong chemotype
6. Cost timeframe (first returns)
7. Politics

Table xx. Issues and problems Encountered in New Crop Development
1
Issue Comments
Focus Paradigm  Requires focus on concept of food where present focus is on
cultivation
 This requires research
 This requires entrepreneurship approach
 Concepts not understood by farmers
Basic Research  Needs access to worldwide data
 Requires availability of suitable germplasms
 Requires basic R&D to determine whether crop technically
suitable
 Requires basic R&D to determine if potential crop is
economically feasible
Crop Management &
Processing
 Propagation technologies
 How to plant, cultivate & manage to crop
 How to harvest, extract, store and handle
 How to process
 How to package
 Transportation and storage
Marketing Infrastructure  Require coordination of production with demand
 Require correct channels of distribution
 Requires a marketing strategy
Economies and Logistics  Requires enough volume to economically transport and
distribute
 Requires solution to inconsistencies of quality and production
Organisation  Need committed people with strong leadership and trust
Government  Need to translate support into action
 Need funding allocations
Finance  Very difficult to obtain funding for these projects
Consumers
Hunter (2006)

Competencies Required During the
Essential Oil Development Process
Screening &
Bio-prospecting
Propagation &
domestication or
introduction
Planting, cultivation
& maintenance
Harvesting,
Extraction and
wastage handling
New product
development &
creation of value
added products &
activities
Strategic, operations,
finance and technical
management
Product & venture
management
Marketing &
commercialisation
Sustaining and growing
the enterprise
(adapting & survival)
Output: Result/Performance,
Sustainable and healthy enterprise or
a struggling and failing enterprise
Opportunity and technical
competencies require:
Botany, ethno-botany, research ability,
chemistry, bio-chemistry, analytical
chemistry. Market and specific technical
product knowledge
Technical Competencies require:
Plant physiology, micro-propagation, nursery
management, agronomics
Technical competencies
require:
Bio-system engineering,
Soil management,
entomology, plant nutrition,
Agronomics, field
management, irrigation
engineering
Technical competencies
require:
Thermodynamics and plant
physiology, heat transfer,
distillation engineering,
chemistry, chemical
engineering, agricultural
engineering, environmental
engineering (waste
management)
Strategic, opportunity
and technical
Project management,
marketing management,
chemistry, cosmetic
chemistry, perfumery/
flavour knowledge,
Packaging & design,
manufacturing
engineering
Strategic, organizational,
relationship opportunity
Business strategic, industry
knowledge, industry
networks, ability to raise
finance, ability to plan,
implement & adjust,
leadership, entrepreneurial
Strategic and
organizational
Administrative, financial
management, technical
management, strategic
management, personnel
management, resources
management,
entreprenuerial

SCCP Responsibility
• SCCP (The Scientific Committee on Consumer Products
– previously called the SCCNFP: Scientific Committee
on Cosmetic & Non Food Products) is an expert
committee set up under the EC Health and Consumer
Protection DG. SCCP reports to the EC H&CP Scientific
Steering Committee on matters relevant to the EC
countries in their defined area. The committee comprises
a diverse range of experts in toxicology from industry,
the medical fields and tertiary institutions.
• SCCP/SCCNFP have provided scientific opinions on a
wide range of ingredients used in personal care products
including actives & excipients for oral care, haircare and
skincare products.

Cosmetic Products in EU are regulated by
Directive 76/768/EEC and Amendments
Section 7(a) of 76/768/EEC states:-
“Assessment of the safety for human
health of the finished product. To that end
that manufacturer shall take into
consideration the general toxicological
profile of the ingredient, its chemical
structure and its level of exposure”.

Areas of Raw Material Review by
SCCP
Criteria Protocol Comments
2. General
Nomenclature
Purity
Physical properties
-MP
-BP
-Density
-Rel. Vap. Dens
-VP
-Log PoW
-Solubility
Function

3.3.1 Acute Toxicity
-Acute Oral
-Acute Dermal
-Acute Inhalation
OECD 425
OECD 402
OECD 403
US$3000
US$5000
US$10,000
3.3.2 Irritation/Corrosivity
-Skin Irritation
-Mucous Membrane
-Skin Sensitisation
Irritation: OECD 404 or
OECD 431 (Episkin)
Draize OECD 405
Murine Lymph assay
OECD 429 or
Guinea Pig OECD 406
US$5000
US$5000
US$10,000
US$12,000
3.3.4 Dermal/Percutaneous Absorption OECD 428 Not possible to do in vivo on
essential oil.
US$50,000
3.3.5 Repeat Dose Toxicity
-Repeat Dose oral/dermal/inhalation (28
day)
-Subchronic 90 day
oral/dermal/inhalation
-Chronic (>12 months)
OECD 410
OECD 411
OECD 452
US$50,000
US$150,000
US$550,000
SCCP

3.3.6 Mutagenicity/
Genotoxicity
Ames US$4000
Cannot be effectively done on
antimicrobial compounds
3.3.7 Carcinogenicity OECD 453 US$1,200,000 – 3 years duration
3.3.8 Reproductive Toxicity
-Two Generation Reproduction Toxicity
- Teratogenicity
OECD 416
OECD 414
US$450,000
US$100,000
3.3.9 Toxicokinetics Complex for essential oil
3.3.10 Photo induced Toxicity
- Phototoxicity
3T3 NRU US$3000
3.3.11 Human Data Case studies of poisonings, allergic
reactions etc
SCCP

Total Cost for SCCP Dossier
~ US$2,500,000

BPD History
• Proposed by EC in 1993.
• Adapted by EC and European Parliament
on 16.2.1998.
• Published 24.4.1998.
• Enacted 14.5.1998.
• Implemented:-
– EU States 14.5.2000.
– New Member states : date of accession
• Transition period 10 years (to 14.5.2010).

BPD Objectives
• High level of protection of human health
and environment.
• Harmonisation of requirements for
authorisation of biocides.

What Are Biocidal Products?
• Active substances and preparations
containing one or more active substances.
• Put up in a form in which they are supplied
to the user . . .
• Intended to destroy, deter, render
harmless, prevent the action of or exert a
controlling influence on any harmful
organism . . .
• By chemical or biological means

Biocidal Product Types
MAIN GROUP 1: DISINFECTANTS & GENERAL BIOCIAL PRODUCTS
• Product-type 1: Human hygiene biocidal products
• Product-type 2: Private Area and public health are disinfectants
and other biocidal products
• Product-type 3: Veterinary hygiene biocidal products
• Product-type 4: Food and feed area disinfectants
• Product-type 5: Drinking water disinfectants

MAIN GROUP 2: PRESERVATIVES
• Product-type 6: In-can preservatives
• Product-type 7: Film preservatives
• Product-type 8: Wood preservatives
• Product-type 9: Fibre, leather, rubber and polymerised materials
preservatives
• Product-type 10: Masonry preservatives
• Product-type 11: Preservatives for liquid-cooling and processing
systems
• Product-type 12: Slimicides
• Product-type 13: Metalworking-fluid preservatives

MAIN GROUP 3: PEST CONTROL
• Product-type 14: Rodenticides
• Product-type 15: Avicides
• Product-type 16: Molluscicides
• Product-type 17: Piscicides
• Product-type 18: Insecticides, acaricides and products to control
other arthropods
• Product-type 19: Repellents and attractants

MAIN GROUP 4: OTHER BIOCIDAL PRODUCTS
• Product-type 20: Preservatives for food or feedstocks
• Product-type 21: Antifouling products
• Product-type 22: Embalming and taxidermist fluids
• Product-type 23: Control of other vertebrates

What Is Not A Biocide?
• Plant protection product.
• Medicine.
• Veterinary medicines
• Medical devices
• Cosmetic
• Food additive

What Are Active Substances?
• A substance or micro organism including a
virus or a fungus . . .
• Having general or specific action on or
against harmful organism.

What Are Harmful Organisms?
Any organism which has:-
• An unwanted presence or a determined
effect.
• For humans, their attributes or the
products they use or produce or for
animals or for their environment.

Approval Process
• Active substance must be listed in “Annex
1”.
• The product is:-
• Sufficiently effective
• No unacceptable effects on target organisms
• No unacceptable effects on human or animal
health
• No unacceptable effects on the environment

Acceptance Arrangements
• Existing active substances:-
• Contained in biocidal products on the market in EU
area before May 14, 2000
• Subject to 10 year Review Program
• May stay on market until EU decision is made
• New active substances:-
• May not be used in EU before full review
• New EU member states:-
• Treated as new existing substances

BPD Data Requirements
All data requirements we laid out in annexes
II, III and IV of the Directive 98/8/EC
• Annex part A is for active substances
• Annex part B is for biocidal products
containing them

INFORMATION GATHERING
EFFECTS ASSESSMENT
•Hazard identification
•Dose (concentration) – response (effect) Assessment
EXPOSURE ASSESSMENT
•Human exposure assessment
(Workers, consumers, via the environment)
•Environmental exposure assessment
(water, soil, air)
RISK CHARACTERISATION
HUMAN HEALTH
Evaluation of effects data and comparison with
exposure data
ENVIRONMENT
Evaluation of effects data and comparison with
exposure data
OUTCOME OF RISK ASSESSMENT
One or more of the following conclusions/results
i) No
immediate
concern
No need to
consider
again
before next
tonnage
trigger
ii) Concern
Define
further
information
needs and
requests at
next
tonnage
trigger
iii) Concern
Define
further
information
needs and
seek
immediately
iv) Concern
immediately
make
recommen-
dations for
risk
deduction
i) Need for
further
information
and/or
testing
ii) At present
no need for
further
information
and/or
testing and
no need for
risk
reduction
measures
iii) Need for
limiting the
risks
Recommen-
dation of an
inclusion of
the active
substance in
Annex I, IA
or IB
Recommen-
dation of a
non-
inclusion of
the active
substance in
Annex I, IA
or IB
NEW SUBSTANCES EXISTING SUBSTANCES BIOCIDES

• Member states designated Rapporteurs – these are
responsible for data review in specific categories
• Charges:-
Rapporteurs €
Belgium 50,000
Denmark 175,000
Germany 75 – 125,000
Netherlands to 350,000
Austria 200
– 220,000
• Individual states may impose additional levies for
products registered (e.g. UK ~ US$1000 p.a.)

Rapporteur Review Data
• Review ~ 15 months
• Other MS have 3 months for comment
Data is owned by the entity compiling the
dossier

BPD Data Requests
General:-
• Substance identification (CAS, IUPAC, formula etc)
• Substance information – colour, purity, physical properties
• Spectra
• Synonyms and trade names
• Impurities
• Additives
• Quantity used in EU
• Labelling
• Hazard classification and labelling
• Usage pattern – including application, types of use, volume per
application, recovery, industry types
• Manufacturing method
• Existing exposure restriction and limits
• Hazards
• Degradation products

Physical & Chemical Properties
• MP
• BP
• VP
• Viscosity
• Density
• Granulometry
• Partition coefficient
• Solubility in different media
• Surface Tension
• Flash point, flammability, explosivity
• Oxidising properties
• Dissociation constant

Environmental Fate
• Photodegradation
• Stability in water and soil
• Monitoring data
• Field studies
• Transport between environmental compartments
• Actual use degradation model
• Biodegradation, BOD/COD
• Bioaccumulation

Ecotoxicity
• Acute toxicity to:-
• Fish
• Aquatic invertebrates
• Aquatic plants (e.g. algae)
• Micro-organisms
• Chronic toxicity to:-
• Fish
• Aquatic invertebrates
• Toxicity to:-
• Sediment dwelling organisms
• Terrestrial plants
• Soil dwelling organisms
• Other non mammalian terrestrial species
• Biotransformation and Kinetics

Toxicity
• Acute oral
• Acute inhalation
• Acute dermal
• Skin irritation
• Eye irritation
• Sensitisation
• Repeat dose toxicity
• Genetic toxicity in vitro
• Genetic toxicity in vivo
• Carcinogenicity
• Toxicity to fertility
• Developmental toxicity/teratogenicity
• Exposure experience

Effect Against Target Organism
• Function
• Effects on organisms to be controlled
• Organisms to be protected
• User
• Resistance
End point summary Risk Assessment

Total Cost for BPD Dossier
Compliance
~ US$4 million+

REACH
Registration, Evaluation and
Authorisation of Chemicals

Objectives at REACH
• Protection of human health and the environment
• Maintenance and enhancement of the
competitiveness of the EU chemical industry
• Prevention of fragmentation of the internal
market
• Increased transparency
• Integration with international efforts
• Promotion of non-animal testing
• Conformity with EU international obligations
under the WTO

Objectives at REACH
EU:-
“Regulation proposed by the commission
on 29 October 2003 achieves all the
objectives identified in the White Paper
and this represents a model of sustainable
development by pursuing objectives of the
three pillars:-
– Economic (industrial [ ])
– Social (health protection and jobs)
– Environment

Tests Required for Original
REACH Registration
A) Greater than 1MT p.a.
Melting/freezing point
Boiling point
Relative density
Vapour pressure
Surface tension
Water solubility (or water extractivity for polymers)
n-Octanol-water partition coefficient
Flash point or flammability
Explosivity
Auto-flammability
Oxidising properties
Granulometry
Skin irritation or corrosivity evaluation or in vitro tests
Eye irritation evaluation or in vitro test
Skin sensitisation evaluation or local lymph node assay
Ames test
In vitro chromosome aberration test
Acute Daphnia toxicity
Algal growth test
Ready biodegradation
Deadline for Registration
10 years from REACH enacting legislation

REACH Registration
B) Greater than 10MT p.a.
Light-stability for polymers
Long-term extractivity for polymers
Skin irritation (unless classified from
Annex V data)
Eye irritation (unless classified from
Annex V data)
In vitro gene mutation assay
Acute oral toxicity
Acute inhalation or dermal toxicity
28-day (or 90-day) repeat-dose study in
the rat (normally oral exposure)
Developmental toxicity screening study
(OECD 421)
Developmental toxicity study
Toxicokinetics assessment (a prediction
based on the available data)
Acute fish toxicity
Activated sludge respiration inhibition test
Hydrolysis test
Adsorption/desorption screening test
Plus A) requirements
6 years from REACH enacting
legislation

REACH Registration
C) Greater than 100MT p.a.
Stability in organic solvents and identification of degradants
Dissociation constant
Viscosity
Reactivity to container material
In vitro Mutagenicity studies
28-day or 90-day repeat-dose study in the rat (if not part of the
Annex VI data)
Developmental toxicity studies in two species (if not part of
the Annex VI data)
Two-generation fertility study in the rat (if there are adverse
findings from the 28-day or 90-day studies)
21-day Daphnia reproduction study
Chronic fish toxicity study
Simulation test on the ultimate degradation in surface water
Soil simulation test
Sediment simulation test
Fish bioaccumulation study (unless there is a low predicted
bioaccumulation potential, e.g. from Log PoW < 3)
Further adsorption/desorption study
14-day earthworm toxicity
Study of the effects on soil micro-organisms
Short-term toxicity to plants
Plus A) and B) requirements
3 years from REACH enacting legislation

Manufacturer/Importer of
Substances
Outside scope of REACH
< one tonne per annum
Under customs supervision
Medical Product
Polymer
Material for food additive
“Natural” Substance
exemption > one tonne per annum
Not on “Natural”
Exceptions (Annex V)
New Substance
Substance issued with
opinion about potential
hazard
No
Registration
Manufacturer/Importer
prepares dossier
Dossier Evaluation
1. For hazardous
properties
2. possesses
unacceptable risks
Restrictions
made by
the
Commission
Authorisation
Risk Assessment:
Industry says can adequately control risks: Authorise/not allow
authorisation or restrict
Industry says cannot adequately control risks:
Socio-economic benefits and substitutes evaluated
Authorised if benefits greater than risk/no authorisation if
benefits too small for risks
If there are
suspicion of
risks
REACH Process
Registration, Evaluation &
Authorisation of
Chemicals

Risk Assessment
 Hazard Identification
 Hazard Characterization
 Exposure Assessment
 Risk Characteristics
Risk Management
 Risk Evaluation
 Option Assessment
 Option Implementation
 Monitoring and Review
Risk Communication
Improve quality of consumer information
To facilitate healthier food choice
 Declaration of GMO Materials
 Nutritional Information
 Eliminate Misinformation
 Scientifically Substantiate
Claims

Figure 7.7. Summary of the International Regulatory Process
(EU, United States, Japan, Australia, New Zealand, ASEAN)
Essential Oils
For:
Flavours
Fragrances
Cosmetics
Agro-
chemicals
United States
1. Flavours: Permitted ingredients on GRAS
list, (new substances safety evaluation)
2. Perfumes: Self regulation but follow FMA
fragrance material database
3. Cosmetics: Voluntary notification, adhere to
industry lists
4. Pesticides: Pre-registration and evaluation
required
Japan
1. Flavours: Adhere to
positive list, new
product notification
2. Perfumes: adherence
to positive, controlled
and negative lists
3. Cosmetics:
adherence to positive,
controlled and
negative lists,
registration for quasi-
drugs
4. Pesticides: Pre-
market, assessment,
evaluation &
registration
Australia and New Zealand
1. Flavours: Under a joint Authority with a positive list with use restrictions
2. Perfumes: New ingredients require registration under NICNAS
3. Cosmetics: Registration under NICNAS. Cosmetics with therapeutic claims
under TGA, New Zealand under HSNO
4. Pesticides: Evaluation for risk & registration
European Union
1. Flavours: Regulated under a
positive list and full risk
management during production
and supply chain required.
2. Perfumes: Material must be on
inventory list or require a
notification and assessment by
REACH
3. Cosmetics: Materials must be
on REACH inventory, under
control SCCP, new cosmetics
require notification and
adherence to positive, restricted
and prohibited lists
4. Biocidal Products: All materials
must be approved for use for
biocidal products and on REACH
inventory
ASEAN
1. Flavours: Various levels of control from
pre-registration, adherence to positive
and restrictive lists, licencing of
manufacturers
2. Perfumes: Degree of self regulation,
GMP and licensing in some jurisdictions
3. Cosmetics: Almost total pre-
registration in all jurisdictions, cosmetics
with therapeutic claims treated as drugs.
4. Pesticides: Evaluation and pre-
registration and licensing of
manufacturers in all jurisdictions

Derelict vanilla plantation,
Seychelles.
EU/IFRA policy will repeat similar scenes.

Old clove distillation works, Zanzibar
before eugenol was classified as R36-
43.
Subsequently became derelict!

Flavour & Fragrance House
Operations

Perfume Brief
Type of product
Market Positioning
Price range
Dosage
Expectations
Cost range
Product manufacturing
methods
Shelf life
Lead time

Fragrance Attributes
Features Benefits
Signal
Attributes
Base
Cover
Impact
Odour
Profile
Malodour
Counteractant
Substantivity
Ingredients
Eg essential
oils
Tangible
Benefits
Pleasant
Fragrance
Lasting
Fragrance
Offensive
Odour
Cover
Intangible
Benefits
Romance
Well-Being
Caring
Security
Lifestyle
Association
Strength
Performance
Variant
Indicator of Use
Life Status
Freshness
Structure of Attributes for a
Fragrance in a Product

Actualisation
(The Artist)
Self-fulfillment
Rice
Soap
Fresh
Vegetables
Most
Household
Cleaning
Products
Water
Purifiers
Fashion Clothes (e.g.
Jeans)
Chewing Gum
Car Air Fresheners
Travel & Vacations
Fine Fragrances
Aromatherapy products
Luxury cars
Nutraceuticals & herbs
Books
Fine Dining & Processed Foods
Study after retirement
Fresh vegetables (Organic)
Esteem
(The Executive)
Achievement,
prestige,fulfillment
Social (Worker)
Family, relationships,
workgroups
Safety (The Farmer)
Home, Security and stability
Physiological (The Hunter)
Basic Biological Needs – Food, water, air

FRESH EFFICACY
GENTLE STRONG
Floral Family
Citrus Family Medicated
Metallic
Ozonic
Spicy
Peppery
Woody
Green
Peach
Balsamic
Ambergris
Powdery
Musk
Mint
Agrestic
Coniferous
Psychological grid of fragrance interpretation

Olfactory input
Sensation: a sensory message
transmission of information about
the environment to the brain
To sensory receptors
Transduction: convert
physical energy into neural
energy
Cognitive Processing Memory retrieval
Interpretation
Meaning
(imagination, emotions,
fantasy, belief)
Symbolism: Product/strategy attributes,
advertising, themes, symbols, logos,
colours, social attitudes and acceptance,
etc.
Behaviour
Other inputs: sight, hearing,
touch, & taste
Shared meaning & fantasy

The Perfume Development
Fragrance Matching
New Fragrance
according to customer
requirement

Testing in Application
Test & Evaluation

Approximate Size of the World Organic Market
2008 (USD Billion) Fruit &
Vegetables,
12.9, 35%
Meat and
Poultry, 1.5,
4%
Dairy, 3.6,
10%
Bread &
Grains, 4.5,
12%
Beverages,
3.6, 10%
Cosmetics,
6.5, 18%
Processed
Foods, 3.9,
11%

Comparison of the Industrial and
Biological Models of Agriculture
Industrial Model Community Model
Energy Intensive Information Intensive
Linear Process Cyclical Processes
Farm as a Factory Farm as an Ecosystem
Enterprise Separation Enterprise Integration
Single Enterprise Many Enterprises
Monoculture Diversity of Plants and Animals
Low-Value Products Higher Value Products
Single Use Equipment Multiple Use Equipment
Passive Marketing Active Marketing

Certification and Value
Organic Products have 3 times the value
as conventional crops

Rose Oil (Rosa damascena)
Rose alcohols, methyleugenol, beta-damascenone and (-)-cis-rose oxide
Produced in Bulgaria, Turkey, Morocco, Thailand, India, China
major constituents: (-)-citronellol, certain specific
paraffines, geraniol and nerol, phenethyl alcohol,
and methyleugenol. Others (-)-cis-rose oxide,
beta-damascenone, beta-ionone, 1-p-menthen-9-al,
and rose furan (340 other constituents)
Method of Extraction: Hydro-distillation of
flowers

Rosemary Oil (Rosmarinus
officinalis)
(+)-borneol, (+)-bornyl acetate, (+)-camphor, (+)-alpha-terpineol, (+)-verbenone and 1,8-cineole
Method of Extraction: Steam distillation of
flowering tops
Produced in Spain, Morocco and Tunisia
Major Constituents:(+)-Borneol, (+)-verbenone ,
(+)-Alpha-pinene, (+)-bornyl acetate, (+)-camphor
and 1,8-cineole

Acacia Absolute (Acacia decurrens
var. dealbata (Mimosaceae)
2-hydroxyacetophenone
Origin: Eastern Australia
Major Constituents: 2-hydroxyacetophenone
Method of Extraction: Solvent extraction

Agarwood (Aquilaria agallocha)
karanones in Agarwood
Origin: Western Australia, Indonesia,
Thailand, Laos
Constituents: multitude of oxygenated
sesquiterpenes
Method of Extraction: infect with a mould,
react by producing an aromatic resin, oil
extracted by supercritical CO2 from the
oleoresin

Ambrette seed Oil
Abelmoschus moschatus
5(Z)-tetradecen-14-olide ambrettolide
Major Constituents: macrocyclic musks
5(Z)-tetradecen-14-olide and
7(Z)-hexadecen-16-olide, also called ambrettolide

Basil Oil Ocimum basilicum
estragol, eugenol, methyleugenol
and methyl cinnamate
linalool, 1,8-cineole
and caryophyllene
Major constituents: linalool and methylchavicol
(estragol), eugenol, methyleugenol,
methyl cinnamate, 1,8-cineole, caryophyllene
Extraction method: Steam Distillation

Bay Leaf Oil Pimenta racemosa
chavicol, eugenol and myrcene
Main Constituents: chavicol, eugenol
and myrcene
Method of Extraction: Steam Distillation
Origin: West Indies

Beeswax Absolute
phenylacetic acid and
methyl phenylacetate
Main Constituents: phenylacetic acid and
methyl phenylacetate and lower esters
(multitude of other odourants)
Method of extraction: extraction of the
beeswax with ethanol followed by evaporation,
yielding around 1 % of absolute
useful for creating honeyed flower
nuances in luxury perfumes

Benzoin Resin
Styrax benzoin, S. tonkinensis
coniferyl benzoate and
cinnamyl cinnamate
Produced mainly in Asiatic countries such as Indonesia, Sumatra,
Java, Laos, Thailand and Vietnam. Two varieties of benzoin gums exist
in the trade: benzoin gum Siam from S. tonkinensis and benzoin gum
Sumatra from S. benzoin
coniferyl benzoate (65-75 %), p-coumaryl benzoate (10-15 %), cinnamyl
cinnamate (styracine) (0.5-6%) , benzoic acid (12 %), siaresinolic acid (6
%) and vanillin (0.3 %).Cinnamyl cinnamate has a mild, soft and very
tenacious balsamic-floral odour. However, the odour of the balsam
is influenced by minor amounts of volatile constituents like benzaldehyde
and methyl benzoate. Benzoin gum Sumatra is richer in cinnamates,
cinnamic acid and styrene
Method of extraction: Distillation

Buchu leaf Oil
Agathosma betulina
'sulphur-terpenoids'
from buchu leaf
Origin: South Africa
Extraction: Steam distillation of the leaves
Major Constituents:menthone and isomenthone,
diosphenol, limonene, pulegone and isopulegone.
constituents responsible for the characteristic black
currant odour are p-menthane-8-thiol-3-one
(mercapto-menthone) and its S-acetate (ca. 3 %).

Boronia Absolute Boronia
megastigma
examples of boronia odorants derived from carotene:
beta-ionone, 3a-hydroxymegastigm-7(E)-ene-9-one
and megastigm-7(E)-ene-3,9-dione
Production: Tasmania, Australia
Method of Extraction: The flowers are extracted
with petroleum ether, yielding a waxy concentrate
after evaporation. The concentrate is then extracted
with alcohol, chilled, filtered and finally evaporated
at reduced pressure (Rota-Vapor).

Coriander Oil Coriandrum sativum
2(E)-decenal and 2(E)-dodecenal
(+)-linalool
Main constituents: The green leaves have a powerful and
penetrating, 'aldehydic' aroma dominated by 2-alkenals, e.g.
2(E)-decenal and 2(E)-dodecenal, (+)-linalool
Method of Extraction: Steam Distillation

Cedarwood Oil (Cedrus atlantica)
atlantone cedrol and cedrene
Origin: USA and China
Main Constituents: 30 % of (+)-cedrol,
alpha-cedrene and other sesquiterpenes
used for the synthesis of advanced
odorants of the 'precious-woody' and ambery type

Michellia Champaca
Origin: India and China (some in
Thailand)
methyl benzoate and
(E,E)-alpha-farnesene
from champak headspace
Identified Constituents: Methyl benzoate,
phenethyl alcohol, phenylacetonitrile, indole
and methyl anthranilate, along with sesquiterpenes,
e.g. (E,E)-alpha-farnesene, constituted the body of
the headspace. Moreover, ionones, e.g.
dihydro-beta-ionone, (Z)-methyl-epi-jasmonate,
a number of aromatic esters, etc., have been
identified in extracts from the flowers
Method of extraction: Solvent Extraction

Clove Oil (Syzygium aromaticum)
Bud
eugenol, eugenyl acetate caryophyllene
Origin: Madagascar, Zanzibar and
Indonesia (Limited)
The fragrant buds contain about 20 % essential
oil. Eugenol (ca. 80 %), eugenyl acetate and
caryophyllene are the major constituents.
Extraction Method: Steam
Distillation

Lavender Oil (Lavandula angustifolia)
(-)-linalool,
(-)-linalyl acetate
(-)-lavandulol and
(-)-lavandulyl acetate
True lavender oil is steam distilled from the freshly cut
flowering tops and stalks of Lavandula angustifolia
The classical cultivation area is in the Haute Provence region in France at
an altitude of 600-1500 m, where this species grows naturally. The distillation
takes place at small local distilleries, collectively producing around
100 t yearly. Today, however, L. angustifolia is grown for oil production
in several countries.
(-)-(R)-linalool (35 %) and its acetate (40 %) are the most important constituents
of lavender oil. (-)-(R)-lavandulol and its acetate are characteristic, as well as
1-octen-3-yl acetate. More than 300 components have been identified,
among them a number of sesquiterpenoids and a multitude of odour-
determining trace constituents. Coumarin makes itself conspicuous in
particular from the withered flowers

Lemon Oil (Citrus limon)
citral
3,7-dimethyl-2(E),6-
octadienal
(+)-limonene
Lemons are cultivated primarily for their
juice. Italy is one of the major
exporters.
Lemon juice is rich in citric acid and vitamin C (ascorbic acid) and is used in
cooking for its freshness and sourness. However, the characteristic lemon
flavour is due to the essential oil of the peel and is dominated by the aldehyde
citral (geranial + neral, ~ 5 %) combined with smaller amounts of linear aliphatic
aldehydes (C7-C13). As with most citrus oils, (+)-limonene is by far the major
component (~ 65 %)
Method of extraction: Expression or steam distillation

Lemongrass Oil (Cymbopogon
citratus)
citral
geranial : neral = 4 : 1
main constituent of lemongrass oil is citral
(75 %), present as a 4:1 mixture of geranial,
3,7-dimethyl-2(E),6-octadienal, and neral,
3,7-dimethyl-2(Z),6-octadienal
The development of newer synthetic methods
in terpene chemistry has made these oils less important

Ginger Oil (Zingiber officinale)
citral, beta-sesquiphellandrene, zingeberene,
and gingerols/shogaols
The fresh ginger rhizome is a versatile ingredient of the
far eastern cuisine, and is now commonly used in most
of the world. Its flavour is lemony-balsamic and its taste
is medium hot.The lemony character of fresh ginger is
due to citral. Major components of the essential oil are
the sesquiterpenes beta-sesquiphellandrene and
zingiberene. The 'sharp' constituents, causing the
burning sensation on the mucous membranes, are
substituted phenols (gingerols/shogaols)
Extraction Method: Steam Distillation
Origin: Indonesia, India, Sri Lanka, China

Massoia Bark Oil (Cryptocarya massoy)
Origin: New Guinea and Irian Jaya Highlands
Massoia bark has a sweet, coconut-like aroma and is
steam distilled to yield massoia bark oil. The bark is
obtained by cutting the tree at the base, making circular
incisions at one meter intervals, lifting the bark off and
allowing it to dry. Each tree yields on average 65 kg of
air dried bark.
C-10 massoia lactone C-12 massoia lactone
Extraction: hydro-distillation of the bark, heartwood
and fruits of the massoia tree afford pale yellow-
coloured oils in 0.7, 1.2 and 1.0 % yields, respectively
Constituents: C-10 massoia lactone, or 5,6-dihydro-6-pentyl-2H-pyran-2-one,
(65-68 %), and the C-12 massoia lactone, or 5,6-dihydro-6-heptyl-2H-pyran-2-
one, (17-28 %), while the major fruit oil constituent is benzyl benzoate (68%)

Nutmeg (mace) Oil (Myristica
fragrans)
(+)-sabinene, (+)-1-terpinen-4-ol
safrole, myristicin and elemicin
Oil consisting of approximately 90 % terpenes, with sabinene,
alpha- and beta-pinene, and 1-terpinen-4-ol as major components.
However, a number of phenol ethers play a decisive role for the
overall fragrance, three of them are above.
Production: Indonesia
Extraction Method: Hydro Distillation

Pandanus Oil (Pandanus
odoratissimus)
phenethyl methyl ether
pandanol
Origin: native of South East Asia and is much
cultivated on the Indian East Coast
The flowers are hydro-distilled to yield a 'kewda attar
phenethyl methyl ether (
pandanol) (38 %), together
with terpinen-4-ol (19 %),
alpha-terpineol (8 %) and
phenethyl alcohol (7 %) [79].
Phenethyl alcohol and its
derivatives are common
odorants in flowers

Orange Oil Sweet (Citrus sinensis)
(all-E)-alpha-sinensal
2,6,10-trimethyl-2(E),6(E),9(E),
11-dodecatetraenal
(+)-limonene
Major Contstituents: (+)-limonene is the major
component, but the distinctive fresh sweetness
from the orange peel is mainly due to the
sesquiterpene aldehyde sinensal, especially
the isomer (all-E)-alpha-sinensal, whose odour
detection threshold is as low as 0.05 ppb.
Orange oil, obtained by cold-pressing of the peels,
is made in several countries in conjunction with
orange juice production.

Patchouli Oil (Pogostemon cablin)
(-)-patchoulol and
norpatchoulenol
Obtained by steam
distillation under
pressure or CO2-
extraction of the
dried leaves
Patchouli is mostly
grown in Indonesia
There are no synthetic
equivalents of the
patchouli scent.
Main Constituents: (-)-patchoulol
(30-40 %). However, it is maintained
that norpatchoulenol, present in only
0.3-0.4 %, is playing a principal part
in the overall odour picture.

Pepper Oil (Piper nigrum)
(+)-3-carene piperine
Main producer: Sarawak, Malaysia
Main Constituents: The pepper seeds
contain avolatile oil and the non-volatile
compound piperine, the latter being
responsible for the burning effect
on the mucous membranes.Also,
cyclic monoterpenes with
3-carene as the major component
(around 35 %). Moreover, a number of
hitherto unidentifiedsesquiterpenes probably
contribute to its character.
Extraction: Steam Distillation of the
crushed seeds

Peppermint Oil (Mentha piperita)
(-)-menthol, (-)-menthyl acetate,
(-)-menthone and (+)-menthofurane
Origin: USA, China, India and Australia
The main component of peppermint oil is
(-)-menthol (ca. 50 %) followed by (-)-menthone
(ca. 20 %) and(-)-menthyl acetate (ca. 10 %). A
characteristic of peppermint oil is the high
content of (+)-menthofurane (ca. 3 %,
sometimes much higher) and a number of
specific sesquiterpenes, one of them viridiflorol.
Distillation

Petitgrain Oil (Citrus aurantium)
(-)-linalyl acetate
(-)-linalool
trace constituents from petitgrain oil
Method of Extraction: Steam
distillation of the leaves
(-)-Linalyl acetate and (-)-linalool in the proportion
2:1 make up about 80 % of the oil, but a great
number of trace constituents, a few of which are
shown above, contribute to its special character
Azzaro pour Homme (Azzaro 1978).
Origin: Paraguay

Shitake Mushrooms (Lentinus edodes)
lenthionine
Main Flavour Constituent: 1,2,3,5,6-
pentathiepane, called lenthionine

Star Anise (Illicium verum)
(E)-anethole
shikimic
acid
anisatin
Vietnam and southern China
Main component (80-90 %)
is (E)-anethole and
(E)-anethole
Steam distillation

Vanilla (Vanilla planifolia)
vanillin and a vanilla vitispirane
fruits ('beans' or 'pods') are harvested
before they ripen, but the powerful
vanilla flavour only develops after a
several months of special curing.
The beans are spread in the sun in the morning, then covered and kept
enclosed during the night. After a while the green beans turn brown,
and the glycosidically bound vanillin is slowly liberated.
Vanillin, or 4-hydroxy-3-methoxybenzaldehyde, is by far the major
odorant from vanilla, but several additional aroma compounds are
formed during the curing process (more than 100 are identified).
Guaicol, creosol, acetovanillone, vanillyl alcohol and methyl salicylate
seem to be of importance, together with vitispiranes
Production: West Indies, Madagascar and Bali

Ylang Ylang (Cananga odorata)
benzyl acetate (ca. 25 %), p-cresyl methyl ether (ca. 20 %),
methyl benzoate (ca. 5 %), methyl salicylate, cinnamyl acetate,
(-)-linalool (ca. 15 %), geranyl acetate (ca. 10 %), farnesyl acetate (ca.
as well as a number of other sesquiterpenes and their oxygenated
derivatives, e.g. muurolol T (ca. 2 %)
Extraction Method: Steam distillation of the flowers
Origin: Indonesia, Madagascar

Jasmine Absolute (Jasminum
grandiflorum)
(-)-jasmine lactone, (Z)-jasmone, (-)-
and (-)-epi-methyl jasmonate.
benzyl acetate, p-cresol
and indole.
J. sambac
(Z)-3,4-epoxyhex-1-yl acetate and
trans-2-ethyl-3-acetoxy-tetrahydrofurane from
Arabian jasmine, J. sambac
Egypt is the main producer,
but demand islowering. In
recent years reconstructed oils
have been available, almost
identical with the natural product,
but at a much lower prize.
Extraction Method: Solvent extraction

Melaleuca bracteata
Source of Aromatic Ethers
that can Assist in Relieving
Plant Stress
Cultivates Well in Thailand
Rapidly Growing Market
1,8-cineole A-terpineol Methyl eugenol

Artemisia annua
A source of artemisinin
for treatment of malaria
World Shortage
Straight forward
cultivation

Backhousia citriodora (Lemon
Myrtle)
High Investment to
Expand Industry in
Australia
Strong Demand as an
Ingredient for tea
Good Crop to Grow in Most
Parts of Thailand
CHO
CHO
Citral (geranial 51.43 %
and neral 42.12 % )

Eucalyptus citriodora
Good Monsoon Crop
Easy to Cultivate
Oil is a bi-product
Excellent & High
Valued Hard Wood
One year for oil
10 years for timber
Percentage of oil yields
is 0.9 %.
citronellal (88.62%), β-pinena (0.16%),
1, 8-cineol (0.32%), 5-hepten (0.14%),
linalool (0.12%), citronellol (0.52%),
isopulegol (0.33%), 3- cyclohexanol
(3.66%)and β-citronellol (0.52%).

Lengkuas (Alpinia galanga)
UV Properties
Flavour Ingredient
Easy to cultivate
Niche Oil –specialised
market
kampheride, alpinin, galangin, methyl cinnamate , cincole,
1’-acetoxychavicol acetate, 1’-hydroxychavicol acetate,
galantin-3-methyl ether, a-terpineol, 4-hydroxybenzaldehyde,
trans-coniferyl diacetate,trans-p-courmaryl diacetate,
a-bergamotene, b-bisabolene, borneol, borneol acetate,
butanol acetate, campene, carveol I, carveol II,
chavicol acetate, citronellol acetate, a-copaene,
curcumene, p-cymene, p-cymenol, eugenol methyl ether,
1’-acetoxyeugenol acetate, trans-b-farnescene, geraniol acetate,
a-humulene, limonene, myrcene, nerol acetate, pentadecane,
linalool, propanol acetate, 2-methyl sabinene, santalene,
b-sesquiphellandrene (Malaysian Herbal Monograph) ,
g-terpinene, terpinolene, tridecane, caryophyllene oxide,
1’hydroxycineol acetate, p-hydroxycinnamaldehyde,
di-(p-hydroxy-cis-styryl)-methane, a-pinene, b-pinene,
quercetin, kaempferol, quercetin-3-methyl ether, isorhamnetin
and derivative of 4-allylphenol

Geranium (pelargonium species)
Potential High Value
Boutique Crop
Good for Hilly
Terrain
Citronellol, andgeraniol, which occur in different
proportions according to the origin of the oil. Both
Bourbon and North African-types contain unusual
high quantities of (-)-citronellol, isomenthone and
monoterpene formates. However they can be
distinguished by the presence of different
constituents such as guaia-6,9-diene in Bourbon
oil and 10-epi-[gamma]-eudesmol in the African-type.
The Chinese oil is similar to Bourbon-type,
having higher content of citronellol (+40%) and
lower content of Iinalool and geraniol (1,3).
Distillation or
solvent extraction
of the dried leaves

Tea Tree (Melaleuca alternifolia)
No Stable Production
Forecast Shortage
Potential Downstream
Suitable All Areas
Few Pest & Disease Issues
Small or Large Scale Production
Established Market

Product and Market Price of Tea Tree
Oil 1982-2005
0
100
200
300
400
500
600
1982
1984
1986
1988
1990
1992
1994
1996
1998
2000
2002
2004
Year
Tonnes
0
10
20
30
40
50
60
70
Price (AUD)

Tea Tree: Economics
(1st Year)
Estimated Profit (Establishment Year Ha)
Assumptions: Yield: 200kg/Ha. Price USD 40/kg (BHT1360/kg)
Revenue= BHT 272,000
Estimated Costs Amount
Nursery BHT20,000
Planting BHT5000
Maintenance BHT5000
Harvesting & Distillation BHT20,000
Total Cost BHT50,000
Net Profit First Year: BHT222,000
Net Profit First Year (If Organic): BHT 766,000

Tea Tree: Economics
(2nd Year)
Planting BHT5000
Maintenance BHT5000
Net Profit 2nd Year: BHT378,000
Net Profit 2nd Year (If Organic): BHT 1,194,000

Tea Tree: Economics
(Subsequent Years)
Planting BHT5000
Maintenance BHT5000
Net Profit 3rd Year: BHT 567,000
Net Profit 3rd Year (If Organic): BHT 1,791,000

Tea tree Industry in Australia
• High capital Investment Industry

No major producers left in
Australia

China taking over
as the largest
producer

2000
2001
2002
2003
2004
2005
2006
Australia
0
20
40
60
80
100
120
140
160
Tonnes
Comparative Production Australia & China of Tea
Tree Oil
Australia
China
Failure of the Australian
Industry to take a global
business view

Essential Oil
Production
Trading
Flavour &
Fragrance
Compounding
End Product
Manufacture Wholesaler Retailer
Consumer
1.0 1.6 2-3.0 (6-9) 2-2.5 (18-24)
Relative and (Absolute) Value Added Through Chain
1.1-1.2
(19.8-28.8)
1.2-1.4
(23.76-
40.32)
The Essential Oil Value Chain (Flavour & Fragrance Industry)

• Citrus
• Floral
• Aldehydic
• Spicy
• Oriental
• Chypre
• Fougere
Basic Fragrance Types

 Representative Ingredients
Natural : Lemon Oil, Bergamote, Lime….
Chemical : Citral, Dihydo Myrcenol….
 Representative Fine Fragrance
O de Lancome (1975. Lancome)
Bulgari Eau Parfume (1992. Bulgari)
CK one (1994. C.Klein)
Eau Savage (1966.C.Dior)
Bergamot
Lemon
Orange
Rose
Jasmine
Lily of Valley
Oakmoss
Ambergris
Civet
• Citrus notes Citrus + Floral

• Citrus notes
Bergamot
Lemon
Mandarin
Dihydro Myrcenol
Jasmin
Muguet
Amber
Musk
Sandalwood
Green
Citrus
Floral
Amber
Woody Musk

• Floral notes Floral + Floral
Natural : Jamine Abs, Ylang Ylang, Rose Abs.
Tuberose ….
Chemical : Hedion, Benzyl Acetate….
Joy (1935. Jean Patou)
Diorssimo (1956.C.Dior)
Anais Anais (1979. Cacharel)
Paris (1983. YSL)
Beautiful (1985. E. Lauder)
Green
Jasmine
Rose
Ylang Ylang
Violet
Muguet
Musk
Sandalwood
Powdery
Green
Floral
Musk
Woody
Powdery

• Aldehydic notes Floral + Aldehydic
Aldehyd 10
Muguet
Ylang-Ylang
Jasmine
Rose
Carnation
Aldehyde C-11
Aldehyde C-12
Vanilla
Sandalwood
Musk
Floral
Aldehyddic
Woody
Powder
Natural : Not available
Chemical : Aldehyde C-11, Aldehyde C-12..….
Chanel No. 5 (1921. Chanel)
Calandre (1969. 1969. Rabanne)
First (1976. Van Cleef & Arpels)

• Spicy notes Floral + Spicy
Bergamot
Ylang Ylang
Carnation
Jasmine
Rose
Iris
Sandalwood
Cedarwood
Musk
Floral
Spicy Floral
Woody
Musk
Natural : Clove Buds oil, Pepper oil, Cinnamon oil.
Carnation…….
Chemical : Eugenol, Cinnamic Aldehyde ..….
L’air du Temps (1948. Nina Ricci)
Fidji (1966. Guy Laroche)
Egoist (1990. Chanel)

• Chypre notes
What is Chypre….?
Citrus
Green
Aldehyde
Floral (Jasmine,
Rose, Ylang…)
Woody
Mossy
Patchouli
Mitsouko (1919. Guerlain)
Miss Dior (1947. Christian Dior)
Coco (1984. Chanel)
Ysatis (1984. Givenchy)
Natural : Oak moss Abs. Vertiver, Patchouli oil
Galbanum Cederwood, Sandalwood
Chemical : Veramoss, Iso E Super..….

Bergamot
Mandarin
Galbanum
AldehydC-11
Jasmine
Rose
Ylang-Ylang
Muguet
Amber
Mossy
Patchouli
Mossy
Woody
Oriental
Citrus
Green
Aldehyde
Floral
Amber
Woody
Mossy
• Chypre notes - Fine Fragrance

• Oriental notes
What is Oriental….?
Citrus
Mandarin
Lemon
Spicy(cinamon..)
Floral
Vanilla Abs.
Sweet
Balsam
Natural : Vanilla, Tolu Balsam, Mandarin, Cinnamon
Chemical : Vanillin, Galaxolide..….
Shalimar (1925. Guelain)
Obsession (1984. Calvin Klein)
Opium (1977. YSL)
Samsara (1989. Guelain)
Jean Paul Gaultier (1993. J.P.Gaultier)

Bergamot
Orange
Jasmine
Rose
Tuberose
Orangeflower
Vanilla
Amber
Castoreum
Citrus
Floral
Woody
Powdery
• Oriental notes - Fine Fragrance

• Fougere notes
What is Fougere….?
Herbacious
Bergamot
Lavender
Floral (Muguet,
Geranium, Carnation)
Powdery
Mossy
Woody
Natural : Lavender, Lavendin, Eucalyptus
Chemical : Lavender Spike Oil, Carvone-L..….
Brut (1964. Faberge)
Drakkar Noir (1982. Guy Laroche)
Paco Rabanne (1973. Paco Rabanne)
Cool Water (1988. Davidoff)

Bergamot
Lavendin
Clove
Spearmint
Muguet
Geranium
Carnation
Powdery
Mossy
Cederwood
Herbacious
Floral
Woody
Powdery
• Fougere notes - Fine Fragrance

Just as in any other industry technology
in the flavour and fragrance industry is
rapidly changing due to technology,
consumer tastes and regulation
•Technology
•Consumer style change

Illustration of Lily of the Valley
Fragrances from 19th Century and Today
19th Century
Tuberose extract 21oz
Jasmin extract 3oz
Rose extract 2oz
Orange flower extract 2oz
Spirit of rose 2oz
Essence of vanilla 2oz
Ylang ylang No.1 1/2 oz
Bergamot oil 1/2 oz
Bois de rose extract 1/4oz
Present
Hydroxycitronellal 35.0
Rhodinol 18.0
Linalool 14.5
Phenyl ethyl alcohol 12.0
Geraniol 4.5
Di methyl benzyl cabinal acetate 4.5
Amyl cinnamic aldehyde 3.6
Lilial (Givaudan) 2.0
Iso eugenol 0.5
Phenylacetaldehyde dimethylacetal 0.2
Benzyl benzoate 4.2
Indole (10% solution DPG) 1.0
Addition of aroma
chemicals and proprietary
specialties

Emerging Fragrance Trends
Sophisticated Red Fruits
Pomegranate, redcurrant,
raspberry leaves
Red Fruit will go darker
Blackcurrant, blackberry, black
rose and black plum
Gourmand notes
Chocolate replacing vanilla as a
base, brown sugar
Milky notes
Milk, milky coconut
More specific exotic fruit
Passionfruit, star fruit, kiwi, guava,
litchi sorbet instead of pineapple,
and coconut
Pink pepper
New spicy note
Oriental influences
Tea (red tea and green tea),
ginger and bamboo for herbal
notes based on oriental influences
Chocolate, mango and musk
black

USA
Asian Influence
Sesame, wasabi,
ginger, noodle and
Asian cabbage
Indian Influence
Fruit, spice and
toasted nuts, chutney,
quince pear, roasted
coriander,
pistaschio,almond &
walnut
Blue and goat cheese
Mexico
Tarmarind, squash
flowers, huitlacoche
(corn mushroom),
portobello mushroom,
duck meat
North America
Cuisines with most potential for growth
Mediterranean
influence
Indian influence
Middle East influence
Slow Food
Europe
Fusion style
Thai, Indonesian,
Vietnamese influences
Contemporary
cuisine
Mediterranean
influence
Exotic combinations
South America
Fusion style
Thai/Chinese
Western/Chinese
Indonesian/Thai
American/Mediterranean
Italian
French
Asia/Pacific

Emerging Processed Food Flavour
Trends
Exotic Infusions
A spicy kick of lemongrass, curcuma,
pepper, coriander, ginger, basil, cardamom,
cinnamon, oregano
Red Pleasures
Strawberry, cranberry, pomegranate, roobos,
greengage, rhubarb, plum, blood orange,
cherry variants, black current, huckleberry
Black Health
Black tea, black vinegar, black sesame
seeds, black soybeans, black rice, black
sugar, malt
Botanical Power
Honeysuckle, lavender blossom, elderflower,
hibiscus, sunflower blossom, rose
Attracting Opposites
Spicy/mild, sweet/sour, hot/cold, fire/ice
Ethnic Revival
Traditional tastes and flavours, African
hibiscus, Japanese cherry blossom, or
Maroccan kumquat
Flavour Migration
Different categories start to mingle, desert drinks,
coffee, cocktails

Formulary of finished products

Laundry
Liquids
Detergents
Concentrated
Laundry
Powders
Detergents with
Special
Additives
Laundry
Detergent
Tablets
Laundry
Detergents
Powders
Solid Soaps &
Powders
Laundry Blue
Laundry
Detergent Bars
Pre 1900’s
Up to Late 1940’s
1950’s until present
1980’s until present
The Evolution of the Laundry Detergent
Product Evolution changes market positioning

Fragrance
Terpineol 50
Dihydromyrcenol 50
Floramat (Henkel) 50
Vertacetal (Dragoco) 50
P-tertButyl cyclohexal acetate 50
Cyclemen aldehyde 50
Magoflor 50 (IFF) 50
Citronellol 50
Galaxolide (IFF) 50
Benzyl Salicylate 50
Linalool 80
Phenyl ethyl alcohol 100
A-amyl cinnamaldehyde 100
Isoeugenol 10
Undecylenaldehyde 10
Benzyl acetate 20
Allyl ionone 20
Vigorose (IFF) 20
Dimetol (Givauden) 20
Ionone 20
Coumarin 20
Ocimenyl acetate 20
Anisaldehyde 30
Cinnamic alcohol 30
Fragrance Formulation for Kao Attack

Considerations in Developing
Fragrances for Laundry Products
Material %
Material
lost after
12 weeks
%
Material
lost after
24 weeks
Alpha-ionone 86 78
Dihydrojasmone 92 72
Phenyl ethyl alcohol 66 52
Citronellyl acetate 65 31
Linalool 38 27
Phenylethyl amyl ether 35 23
Benzyl acetate 18 13
Benzyl amyl ether 40 12
Linalyl acetate 32 12
Phenylacetaldehyde 20 7
Citral 40 0
Loss of perfume materials from a detergent powder after storage at room
temperature in a cardboard container

Material Diffusion
Constant (D) in
cms x 1010
Camphor 0.22
Citronellol 0.35
Dimethyl benzyl carbinol 0.45
Menthol 0.57
Linalyl acetate 0.82
Eugenol 1.30
Phenyl ethyl alcohol 2.30
Diphenyl methane 3.50
Diphenyl oxide 3.90
Limonene 5.70
Cis-3-hexanol 15.0
Diffusion Constants of Some Perfume Materials Through
High-Density Polyethylene (HDPE) from a Methanol Solution
at 23c

Benefits and Technologies in
Cleaning Clothes
Problem Dirty Clothes
Hand
Washing
Automatic local
Washer/Dryer Launderette
Machine
Dry
Cleaners
Electrical Technology
Solvents
Washing Powders
Fabric Conditioners
Benefit Clean Clothes
Laundry
Powders
Liquid
Detergents

Demographics of Odour
Communication
Perfumery
Marketing
Mix
Cleanliness
Softness
Citrus
Lemon
Herbal
Green
Psychological
Association
Objective: to reinforce the belief of the
consumer in the desired and projected
image of the product
Synergy with product presentation: packaging, colour, advertising, corporate image
Product
Differentiation

Product Formulation
Ingredients Examples Europe Japan USA
Anionic
Surfactants
Alkylbenzene
sulfonates
Fatty alcohol
sulphanates
Olefin sulphanates
5-10% 5-15% 0-20%
Non-Ionic
Surfactants
Alykyl
polyethenglygol
ethers
Nonyphenol
polyethyleneglycol
ethers
3-6% 0-2% 0-17%
Suds control
agents
Silicones, parafins 0.1-3.5% 1-3% 0-0.6%
Foaming
Boosters
Fatty acid
monoethanol
amides
0-2% 0-5% 0-5%
Ion exchangers Zeolit A,
polyacrylic acids
5-10% 10-20% 0-45%
Alkalis Sodium carbonate 5-10% 5-20% 10-35%
Bleaching
Agents
Sodium perborate,
Sodium
percarbonate
20-25% 0-5% 0-5%
Bleach
activator
Tetraacetyl
ethylenediamine
0-2%
Anti
disposition
agents
Cellulose ethers 0,5-1.5% 0-2% 0-0.5%
Enzymes Proteases,
amylases
0.3-0.8% 0-0.5% 0-0.5%
Optical
Brighteners
Stilbene-disulfonic
acid
0.1-0.3% 0.1-0.8% 0.05-0.25%
Anti Corrosion
Agents
Sodium silicate 2-6% 5-15% 0-25%
Fragrance 0.1-0.3% 0.1-0.3% 0.1-0.3%

What is this the formula of?
Part 1
3.50 ml orange oil
1.00 ml lemon oil
1.00 ml nutmeg oil
1.25 ml cassia oil
0.25 ml coriander oil
0.25 ml neroli oil
2.75 ml lime oil
0.25 ml lavender oil
10.0 g food-grade gum arabic
3.00 ml water
Part 2
2.00 tsp. Flavouring formula
20g coca leaf extract
20g cola extract
5 g vanilla
3.50 tsp. 75% phosphoric acid
2.28 l water
2.36 kg plain granulated white
table sugar
0.50 tsp. caffeine
30.0 ml caramel colour
500 ml lime juice
Part 3
Mix parts 1 & 2 together and then
add 1:5 parts of water and carbonate.

Phurua, Loei Province
The system of extraction uses a new family of benign non-CFC gaseous solvents (R134a) 1,1,1,2
tetrafluoroethylene
Producing Rose oil, jasmin grandiflorum and
sambac, champaca, ylang ylang, frangipani.
Selling to Europe and US markets
Coffee Extract
Tuberose

Rose Harvesting Rose Collection
Extraction Preparation
Extraction

Non Commission Officer Welfare
Project

Plai oil (Zingiber cassumunar)
Major Constituents: terpinen-4-ol,
a-terpinene, sabinene, g-terpinene,
cis-3-(2',4',5'-trimethoxyphenyl
-4-[(E)-2''',4''',5'''-trimethoxy-styryl]cyclohex-
1-ene, cis-3-(3',4'-dimethoxyphenyl)-4-[(E)-3''',4'''-
dimethoxystyryl]cyclohex-1-ene, cis-3-
(3',4'-dimethoxyphenyl)-4-[(E)-2''',4''',5'''-
trimethoxystyryl]cyclohex-1-ene (3),(E)-4-
(3',4'-dimethoxypheny1)but-3-en-1-ol, E)-4-
(3',4'-dimethoxypheny1)but-3-en-1-yl acetate,
8-(3',4'-dimethoxyphenyl)-2-methoxynaphtho-
1,4- quinone
Sabinene and terpinen-4-ol
a-terpinene
g-terpinene
distillation of the rhizomes

Cajuput (Gelam) Melaleuca
cajuputi
Local Tree
Number potential Markets
Can Basically Set Price
Easy to Cultivate

Persicaria odoratum (Kesum)
New Material
Good Highland Crop
Small Scale High Value
Pests Easily Controlled
Doesn’t need
Registration as an
Aromatic Chemical

Potential Careers in the Industry
Technical
Natural Products Chemist BHT 30-70K p.m.
Product Development Chemist BHT 40-120K
Analytical Chemist BHT 30-70K
Fragrance Compounder BHT 25-50K
Product Application Chemist BHT 30-80K
Specialist Agrominist BHT 40-80K per Month
Distillation Engineer BHT40-70K per month

Professional
Perfumer BHT 150-500K per month
Flavourist BHT 120-400K per month
Fragrance evaluator BHT 40-60K per Month
Flavour and Fragrance House Sales &
marketing BHT60-120K per month
Product Manager Cosmetic Industry
BHT 60-120K per Month

Entrepreneurial
Essential Oils Farming
Agro tourism & Spa
Cosmetic Business
Aromatherapy/Herbalist
Producer of spices
Islamic Herb Producer

•http://www.bojensen.net/EssentialOilsEng/EssentialOils26/EssentialOils26.htm
•IFF Basic Perfume Course
•Curtis, T. & Williams, D. G., Introduction to Perfumery, New York,
Ellis Horwood, 1994
•Hunter, M., M., Extrait Perfumes, Cosmetic World News, July, 1994, (UK)
•Hunter, M., M., The Evolution of Extrait Perfumes, Cosmetics, Aerosols and Toiletries
in Australia, Vol. 9, No. 2, pp. 19-24, May 1995 (Aus)
•Hunter, M.M., A Framework to Develop New Essential Oils, Cosmetics, Aerosols and
Toiletries in Australia, Vol. 9, No. 4, pp. 23-31, Sept. 1995 (Aus)
•Hunter, M.M., Some Issues and Difficulties Related to Developing New
Essential Oils with Reference to the Essential Oil of Polygonum odoratum,
Grown in Southern Australia, in Baser, K.H.C., (Editor), Flavours, Fragrances
and Essential Oils, Proceedings of the 13th International Congress of Flavours,
Fragrances and essential Oils, Istanbul, Turkey, 15-19 October 1995, P. 389.
•Hunter, M., M., Kesom Oil: A New Essential Oil for the International Flavour Industry,
Agro-Food High-Tech, International Journal of Green Chemistry, Vol. 7., No. 5,
Sept.-October 1996,
•Hunter, M., M., The Flavour and fragrance Industry: Structure and Future trends,
Cosmetics, Cosmetics, Aerosols and Toiletries in Australia, Vol. 9, No. 6,
pp. 20-31, March 1996 (Aus)
•Hunter, M.M., Malaysia: A New Source of Tea tree Oil. Invited Paper presented at Personal Care
Ingredients Asia Exhibition and Conference, April 1997, PWTC, Kuala Lumpur
•Hunter, M. M., Essential Oils: Various Industry Models Around the World, Invited Paper Presented
to the Seminar on Medicinal and Aromatic Plants 2005, Forest Research Institute of Malaysia,
Cititel Mid valley, 13-14th September, 2005.
•Hunter, M., The Growing Demand for essential oils and other plant extracts in agricultural applications,
Berita IKM (Malaysian Institute of Chemistry), December, 2006
•Porter, M. E, Competitive Advantage: Creating and Sustaining Superior Performance,
New York, Free Press, 1985
•Developing Essential Oils in Malaysia as a Global Industry, Paper delivered to the 2nd. Malaysia
Agro-Bio Business Conference, 2006, 13-14th July, PWTC, Kuala Lumpur, Malaysia (Invited Speaker)
References

•Muller, P. M. and Lamparksky, D., Perfumes: Art, Science and Technology, London,
Blackie Academic & Professional, 1994
•Denny, E. F. K., Field Distillation for Herbaceous Oils, Tasmania, Self Published, 1990.
•Brophy, J., J. and Doran, J., C., Essential Oils of Tropical Asteromyrtus, Callistemon and
Melaleuca Species, Canberra, ACIAR, 1996

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