EU_Declaration68.pdf
Botanical Name: Coriandrum sativum L. Common name: Coriander, Kothumalli, Kothimbir Read More
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Botanical Name: |
Coriandrum sativum
L. |
|
Common name: |
Coriander, Kothumalli, Kothimbir, Dhana, Malli, Dhania. |
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Plant family: |
Apiaceae |
|
Genus: |
Coriandrum |
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Appearance/Color: |
A thin, colorless to pale yellow liquid |
|
Odor: |
A slightly sweet, herbaceous and spicy smell |
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Blends With: |
Cinnamon Bark, Bergamot, Ginger, Neroli, Grapefruit and
Orange |
|
Origin: |
India |
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Source: |
Seeds |
|
Method
of Extraction |
Supercritical CO2 Extraction |
Supercritical
CO2 extraction is an efficient separation method, to separate active
ingredients from plant material. Supercritical solvent extraction is one of the
gentlest, most flexible, dynamic and nature friendly techniques used for the
extraction of spices, herbs and flowers using food grade CO2. These
are the products extracted at ambient temperatures and at high pressures to
avoid loss of aroma and degradation of actives. Apart from being solvent
residue free, supercritical fluid extraction is a green process, highly rated
for its eco-friendliness. The low viscosity and high diffusivity of
supercritical fluid enhances the penetrating power based on the high mass
transfer of solutes into the fluid.
Supercritical
extraction using CO2 is considered organic compatible and widely
used in the manufacturing of organic certified products. Kancor, with its
global sourcing capabilities, more than two decades of expertise in CO2
extraction and wide range of products, offers an edge over others in this world
of discerning tastes. Supercritical CO2 extraction is known for
producing a high-quality product primarily because the CO2 gas can
reach its supercritical point at pressures and temperatures that don’t damage
the cannabinoids and terpenes being harvested.
Coriander (Coriandrum sativum L.)
is a plant from the family of Apiaceae. Seeds and the herb of coriander, both
of which are used as spice or a medicinal plant. It contains flavoring
compounds such as linalool, geraniol, pinen, limonene, geranylacetat, terpinen,
and borneol. It is broadly cultivated in various environments around the
globe. In general, coriander falls into two major categories based on fruit
size. This ultimately determines its oil content and use.
India is the biggest producer,
consumer and exporter of coriander in the world with an annual production of
around three lakh tonnes. It is an annual, herbaceous plant which originated
from the Mediterranean and Middle Eastern regions and known as medicinal
plants. It contains an essential oil (0.03 to 2.6%) (Nadeem et al., 2013). All
parts of this herb are in use as flavoring agent and/or as traditional remedies
for the treatment of different disorders in the folk medicine systems of
different civilizations (Sahib et al., 2012). Coriander closely resembles flat
leaf parsley. This resemblance makes many people confused between the two
however, coriander has strong fragrance and parsley has mild fragrance. It
grows best in dry climates however it can grow in any type of soil like light,
well drained, moist, loamy soil, and light to heavy black soil (Verma et al.,
2011). Its seeds are almost ovate, globular and have a mild, sweet, slight
pungent like citrus flavor with a hint of sage. The most important constituents
of its seeds are the essential oil and fatty oil
Coriander (Coriandrum sativum)
is a medicinal and aromatic plant, widely grown in several parts of the world.
The essential oil of coriander is obtained from fully ripe dried seeds or
leaves using steam distillation. The oil is a colorless or pale yellow liquid
with a characteristic linalool odor and mild sweet, warm, and aromatic flavor.
Coriander oil is rich in linalool, limonene, ?-pinene, camphene, geranyl
acetate, and linalyl acetate. Coriander oil is extensively used in the food
industry as a flavoring agent. The essential oil also contributes to the
storage stability of the food products providing protection against
food-spoiling microorganisms. The dietary uses of the coriander essential oil
are therefore helpful in maintaining good health.
Coriander Essential Oil in
Pharma
Coriander nutrition is basically
due to its green leaves and dried fruits. Like all other green leafy
vegetables, its leaves are a rich source of vitamins, minerals and iron. Its
leaves contain high amount of vitamin A (?-carotene) and vitamin C. The green herbs
contain vitamin C upto 160 mg/100 g and vitamin A upto 12 mg/100 g (Girenko,
1982). It is very low in saturated fat and cholesterol and a very good source
of thiamine, zinc and dietary fiber. Green coriander contains 84% water.
Besides nutritional benefits, it is well known for its health or medicinal
benefits as well as for additional benefits like it acts as antimicrobial
agent. The type of meat and temperature did not influence the antimicrobial
activity of the oil; indicating the potential of coriander oil to serve as a
natural antimicrobial compound against Campylobacter jejuni in food
(Rattanachaikunsopon and Phumkhachorn, 2010). The most important and well
characterized functional aspect involves antioxidant activity
Essence of Coriander Essential
Oil
Coriander oil has distinct
applications in kitchen to add flavors in recipes. The plant seeds, leaves and
roots are edible, although they have very distinct flavors and uses. The herb
has a light and fresh flavor. Coriander can be used as whole plant and can be
processed because of its perishable nature of leaves and to increase the
palatability of ripe fruits (seeds) before using it as flavoring agent in
different food preparations. Whole plant of coriander mainly fresh leaves and
ripe fruits are used for culinary purposes. Coriander leaves have different
taste than its seeds, with citrus overtones. It promotes digestion, gives
relaxation and on the top is used for skin purposes. Due to its unique taste
and smell, it possesses some medicinal properties as well. Further, the oil can
be consumed to produce healthy cholesterol in the body.
COMMON USAGE
·
Increases libido
·
Treats spasms
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Eliminates gas
·
Purifies the blood
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Reduces pain
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Acts as deodorant
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Stimulates hormone secretion
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Inhibits fungal infections
Ingredients:
|
S.No |
Key Constituents |
Strength (%) |
|
1 |
linalool |
59.0-87.5 |
|
2 |
a-pinene |
0.1-10.5 |
|
3 |
g-terpinene |
0.1-9.1 |
|
4 |
b-pinene |
0.1-8.6 |
|
5 |
p-cymene |
0-8.4 |
|
6 |
Camphor |
1.6-7.7 |
|
7 |
geraniol |
0.3-5.3 |
|
8 |
Camphene |
tr-4.6 |
|
9 |
(P)-limonene |
0.2-3.2 |
|
10 |
Geranyl acetate |
0-3.1 |
|
11 |
Terpinen-4-ol-tr |
3.0 |
|
12 |
a-terpineol |
0.1-2.2 |
TOXICOLOGICAL
INFORMATION
Safety Summary
·
Hazardous: No Data
·
Contraindications: Not Known
·
Photo-toxicity: Not photo-toxic
Organ Specific Effects
·
Neurotoxicity Agarwood Oil vapors are sedative
to mice
Systemic Effects
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Acute Toxicity: Coriander seed oil acute oral
LD50 in rats >5 g/ kg; acute dermal LD50 in rabbits 4.13 g/kg.
·
Skin corrosion/irritation: May be irritating to
skin.
·
Serious eye damage/irritation: May be irritating
to eyes. Prompt rinsing and removal of the substance will avoid damage.
·
Respiratory sensitization: Not applicable under
normal use.
·
Germ cell mutagenicity: Not specified
·
Carcinogenicity: Not listed As Carcinogen
·
Reproductive toxicity: Not specified
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STOT-single exposure: Not specified
·
STOT-related exposure: Not specified
ECOLOGICAL
INFORMATION
·
Ecotoxicity Aquatic hazard acute category 2,
Aquatic hazard chronic category 2.
·
Persistence & Biodegradability No additional
data available.
·
PBT Assessment Results No additional data
available
·
Persistence and degradability Biodegradation is
expected
·
Bio-accumulative potential Bioaccumulation is
unlikely
·
Mobility in soil Unknown
Do not discharge into the
environment, especially not into waterways, sewers and the environment.
