The use of colouring matter has been acknowledged to play an
important role in the consumer acceptability of certain dairy products.
However, the need to monitor the compounds used to has been recognized since
the early days of the century when cheaper coloured salts of heavy metals were
used instead of natural colour. Milk, cream, condensed milk and dried milk are
not permitted to contain added colouring matters. However, dairy products viz.,
cheese, butter, flavoured milk, ice cream are only permitted to contain a
restricted number of colours. Specifications for commonly used colourants are
given below.
Specification for รข-Carotene (Food
Grade) as per IS:3841-1966
S.
No. Characteristic
Requirement
1. Description
It is obtained as dark violet hexagonal prisms when crystallized
from benzene-methanol solution; or as red rhombic, almost quadratic plates,from
petroleum ether.
2. Melting point, °C 183±1
3. Solubility
Soluble in carbon disulphide, benzene and chloroform; moderately
soluble in n-hexane, cyclohexane, petroleum ether and oils; practically
insoluble in methanol and ethanol; insoluble in water.
4. Spectrophotometric requirements
- The wavelengths of absorption maxima of all trans b-carotene in cyclohexane (0.2 mg per 100 ml) and in 1 cm cell shall be 456 nm to 355 nm region.
(b) A solution of b-carotene in chloroform on addition of
antimony trichloride solution shall give a dark blue colour having maximum absorption
at a wavelength of 590 nm.
5. Colour reaction
When 2 ml of concentrated sulphuric acid is added to 2 ml of 0.2
percent solution of b-carotene in chloroform, the acid layer shall turn blue.
6. Purity, % by mass 95.0 Min.
7. Arsenic (as As), ppm 5 Max.
8. Lead (as Pb), ppm 20
Max.
Specification
for Annatto colour for food products as per IS:2557-1994
S.
No. Characteristic Requirement
1. General
The material shall be derived only from the plant Bixa
orellana L. and shall not contain any
extraneous colouring matter. It shall be processed, packed, stored and
distributed under hygienic conditions in licensed premises (IS:2491-1972).
2(a) Solution of Annatto colour in oil
- Annatto extract in oil, as solution or suspension, is prepared by extraction of the outer coating of seeds with vegetable oils. Only the vegetable oils included under the Prevention of Food Adulteration Rules, 1955 shall be used, either singly or in a mixture.
(b) The solution of annatto colour in oils shall be clear and
shall remain so on storage in suitable containers at 15°C except for a slight deposit
of stearin or shall be in the form of a suspension.
2(b) Colour
(a) The colour of solution in amyl acetate at a dilution of 1:1000
(w/v),when measured in a Lovibond Tintometer with a 1 cm cell, shall be not
less than 5.o yellow units and 0.4 red units, or
(b) be not less than the colour of the inorganic solution
(potassium dichromate-0.32g, cobalt ammonium sulphate (CoSO4.(NH4)SO4.6H2O)-2.02g
and sulphuric acid (sp. Gravity 1.84)-2 ml to make solution to 1 litre with
distilled water.
3(a) Solution of Annatto colour in water
Water-soluble annatto is prepared by extraction of outer coating
of the seeds with dilute (0.5-3%) aqueous alkali (sodium or potassium hydroxide).
The solution shall clear and shall be remain so on storage in suitable
containers at a temperature of 15°C.
3(b) Colour
The colour of solution in 0.1 N sodium hydroxide or potassium
hydroxide at a dilution of 1:1000 (w/v), when measured in a Lovibond Tintometer
with a 1 cm cell, shall be not less than 5.0 yellow units and 0.4 red units,
Identification
Spectrophotometry
Annatto extracts in oil, diluted with chloroform exhibit absorbance
maxima at 439, 470 and 501 nm. Water-soluble annatto extracts, diluted with water
exhibit absorbance maxima at 453 and 482 nm.
Column
chromatography and Carr-Price reaction
Prepare a small chromatography column by filling a glass tube
(7´mm internal dia.), stoppered with glass wool, with alumina (800-200 mesh) slurried
in benzene so that settled alumina fills about 2/3rd of the tube. Fill the column with benzene and adjust the flow
rate to about 30 drops/min using a rubber outlet tube and clamp using the
benzene layer is 2-3 mm above the alumina surface.
Annatto
extract in oil
Add to the top of the alumina column 3 ml of a solution
containing sufficient sample in benzene to impart a colour equivalent to a 0.1%
potassium dichromate solution; elute with benzene until a pale yellow fraction
is washed from the column. Wash the column with three 10 ml volumes of dry
chloroform; then add 5 ml of Carr-Price reagent and allow it to run onto the
top of the column. The orange-red zone (bixin) at the top of the column
immediately becomes blue-green.
Water-soluble
annatto
Transfer 2 ml or 2 g to a 50 ml separating funnel and add
sufficient 2N sulphuric acid to make the solution acidic in pH paper (pH 1-2).
Dissolve the red precipitate of norbixin by mixing the solution with 50 ml of benzene.
Discard the water layer and wash the benzene phase with water until it no longer gives an acid reaction. Remove any
undissolved norbixin by centrifugation or filtration and dry the solution over
anhydrous sodium sulphate. Transfer 3-5 ml of the dry solution to the top of an
alumina column prepare as described above. Eluate the column with benzene, three
10 ml volumes of dry chloroform, followed by 5 ml of Carr-Price reagent added
to the top of the column. The orange-red band of norbixin immediately becomes
blue-green.
Thin
layer chromatography
Annatto
extract in oil
Use silica gel with 12 percent calcium sulphate as binding
agent, and a mixture of acetic acid, chloroform and acetone (1:50:50, by
volume) as developing solvent. He sample in oil produces at least 3 or 4 red or
yellow spots, Two red spots are clearly more intense than the other spots.
Dissolve the two spots in benzene and identify the spot that is bixin by
Carr-Price reaction.
Water-soluble
annatto
Prepare a chromatogram as described in 9(a). Three or four spots
are obtained, of which 2 spots have an orange colour and the others an orange-yellow
colour. Dissolve the orange spots in benzene and identify one of he spots that
is norbixin by Carr-Price reaction.
Purity(as Carotenoids)
Annatto extract in oil, expressed as bixin, % by mass 0.24 Min.
Water-soluble annatto expressed as norbixin, .% by mass 0.24 Min
6. Arsenic (as As), mg/kg 3
Max.
7. Lead (as Pb), mg/kg 10
Max.
8. Copper (as Cu), mg/kg 30
Max.
9. Heavy metals, mg/kg
40 Max.
Specification
for Saffron (Filaments and powder form) as per IS:5453-1996
S.
No. Characteristic Requirement
1. Flavour : Flavour
shall be characteristic of saffron, slightly bitter and slightly pungent. The
product shall be free from foreign flavours.
2. Freedom from moulds, insects, etc. : Saffron shall be free from living insects and
shall be practically free from mould growth, dead insects, insect fragments and
rodent contamination, visible to naked eye.
Saffron Saffron
(in filaments) (in powder
form)
3. Moisture & volatile matter, % by mass 12 Max. 10 Max.
4. Total ash, % by mass 8
Max. 8 Max.
5. Acid insoluble ash, % by mass
(a) Grade 1 & 2 1.0
Max. 1.0 Max.
(b) Grade 3 & 4 1.5 Max. 1.5 Max.
6. Solubility in cold water, % by mass 65
Max. 65 Max.
(on dry basis)
7. Bitterness expressed as direct reading of the absorbance of
picrocrocine at 257 nm (on dry basis)
(a) Grade 1 70 Min. 70 Min.
(b) Grade 2 55 Min. 55 Min.
© Grade 3 40 Min. 40 Min.
(d) Grade 4 30 Min. 30 Min.
8. Safranal, expressed as direct reading of the absorbance at
330 nm (on dry basis) 20-50 20-50
9. Colouring strength, expressed as direct reading of the
absorbance of crocine at 440 nm (on dry basis)
(a) Grade 1 190 Min. 190 Min.
(b) Grade 2 150 Min. 150 Min.
© Grade 3 110 Min. 110 Min.
(d) Grade 4 80 Min. 80 Min.
10. Total nitrogen, % by mass (on dry basis) 3.0 Max.
3.0 Max.
11. Crude fibre, % by mass 6 Max. 6 Max.
Specification
for Tartrazine (Food Grade) as per IS:1694-1994
S.
No. Characteristic Requirement
1. Freedom from contaminants: Material shall be free from mercury,copper and chromium in any
form: aromatic amines, aromatic nitro compounds, aromatic hydrocarbons and
cyanides.
2. Total dye, % by mass (on dry at 105±1°C for 2h basis) 87
Min.
3. Loss on drying at 135°C, % by mass and Chlorides & sulphates
(as sodium salt), % by mass 13 Max.
4. Water-insoluble matter, % by mass 0.2
Max.
5. Combined ether extracts, % by mass 0.2 Max.
6. Subsidiary dyes, % by mass 1.0
Max.
7. Dye intermediates, % by mass
0.5 Max.
8. Lead (as Pb), mg/kg 10
Max.
9. Arsenic (as As), mg/kg 3
Max.
10. Heavy metals, mg/kg 40
Max.
Specification
for Carmoisine (Food Grade) as per IS:2923-1995
S.
No. Characteristic Requirement
1. Freedom from contaminants: Material shall be free from mercury,selenium and chromium in any
form: aromatic amines, aromatic nitro compounds, aromatic hydrocarbons and
cyanides.
2. Total dye, % by mass (on dry at 105±1°C for 2h basis) 87 Min.
3. Loss on drying at 135°C, % by mass and Chlorides &
sulphates
(as sodium salt), % by mass 13
Max.
4. Water-insoluble matter, % by mass
0.2 Max.
5. Combined ether extracts, % by mass 0.2 Max.
6. Subsidiary dyes, % by mass 1.0
Max.
7. Dye intermediates, % by mass 0.5
Max.
8. Lead (as Pb), mg/kg 10
Max.
9. Arsenic (as As), mg/kg 3
Max.
10. Heavy metals, mg/kg 40
Max.
Specification
for Sunset yellow (Food Grade) as per IS:1695-1994
S.
No. Characteristic Requirement
1. Freedom from contaminants: Material shall be free from mercury, copper and chromium in any form: aromatic amines,
aromatic nitro compounds, aromatic hydrocarbons and cyanides.
2. Total dye, % by mass (on dry at 105±1°C for 2h basis) 87
Min.
3. Loss on drying at 135°C, % by mass and Chlorides &
sulphates
(as sodium salt), % by mass 13 Max.
4. Water-insoluble matter, % by mass 0.2
Max.
5. Combined ether extracts, % by mass
0.2 Max.
6. Subsidiary dyes (lower sulphonated dyes including 3.0 Max.
traces of orange II), % by mass
7. Dye intermediates, % by mass 0.5
Max.
8. Lead (as Pb), mg/kg 10
Max.
9. Arsenic (as As), mg/kg 3
Max.
10. Heavy metals, mg/kg 40
Max.
Specification
for Ponceau 4R (Food Grade) as per IS:2558-1994
S.
No. Characteristic Requirement
1. Freedom from contaminants: Material shall be free from mercury,selenium and chromium in any
form: aromatic amines, aromatic nitro compounds, aromatic hydrocarbons and
cyanides.
2. Total dye, % by mass (on dry at 105±1°C for 2h basis) 82 Min.
3. Loss on drying at 135°C, % by mass andChlorides &
sulphates
(as sodium salt), % by mass 18
Max.
4. Water-insoluble matter, % by mass
0.4 Max.
5. Combined ether extracts, % by mass 0.4
Max.
6. Subsidiary dyes, % by mass 1.0 Max.
7. Dye intermediates, % by mass 0.5
Max.
8. Lead (as Pb), mg/kg 10
Max.
9. Arsenic (as As), mg/kg 3
Max.
10. Heavy metals, mg/kg 40
Max.
Specification
for Brilliant blue FCF (Food Grade) as per IS:6406-1994
S.No.Characteristic Requirement
1. Total dye, % by mass (on dry at 105±1°C for 2h basis) 85 Min.
2. Loss on drying at 135°C, % by mass and Chlorides & sulphates
(as sodium salt), % by
mass 15 Max.
3. Water-insoluble matter, % by mass 0.2
Max.
4. Combined ether extracts, % by mass 0.2
Max.
5. Subsidiary dyes, % by mass 3.0
Max.
6. Dye intermediates, % by mass
(a) O-sulpho-benzaldehyde 1.5 Max.
(b) N,N’ ethyl-benzyl-aniline-3-sulphonic acid
0.3 Max.
© Leuco base
5 Max.
7. Lead (as Pb), mg/kg
10 Max.
8. Arsenic (as As), mg/kg 3 Max.
9. Heavy metals, mg/kg 50 Max.
Specification
for Ponceau 4R (Food Grade) as per IS:2558-1994
S.
No. Characteristic Requirement
1. Freedom from contaminants: Material shall be free from mercury,selenium and chromium in any
form: aromatic amines, aromatic nitro compounds, aromatic hydrocarbons and
cyanides.
2. Total dye, % by mass (on dry at 105±1°C for 2h basis) 82 Min.
3. Loss on drying at 135°C, % by mass and Chlorides &
sulphates
(as sodium salt), % by mass 18 Max.
4. Water-insoluble matter, % by mass 0.4
Max.
5. Combined ether extracts, % by mass 0.4 Max.
6. Subsidiary dyes, % by mass 1.0
Max.
7. Dye intermediates, % by mass 0.5
Max.
8. Lead (as Pb), mg/kg 10 Max.
9. Arsenic (as As), mg/kg 3
Max.
10. Heavy metals, mg/kg 40
Max.
Specification
for Brilliant blue FCF (Food Grade) as per IS:6406-1994
S. No. Characteristic Requirement
1. Total dye, % by mass (on dry at 105±1°C for 2h basis) 85 Min.
2. Loss on drying at 135°C, % by mass and Chlorides &
sulphates
(as sodium salt), % by mass 15
Max.
3. Water-insoluble matter, % by mass
0.2 Max.
4. Combined ether extracts, % by mass 0.2
Max.
5. Subsidiary dyes, % by mass 3.0
Max.
6. Dye intermediates, % by mass
(a) O-sulpho-benzaldehyde 1.5
Max.
(b) N,N’ ethyl-benzyl-aniline-3-sulphonic acid 0.3
Max.
© Leuco base 5 Max.
7. Lead (as Pb), mg/kg 10 Max.
8. Arsenic (as As), mg/kg 3
Max.
9. Heavy metals, mg/kg 50
Max.
Specification
for Fast Green FCF (Food Grade) as per IS:6022-1994
S.
No. Characteristic Requirement
1. Freedom from contaminants: Material shall be free from aromatic amines, aromatic nitro
compounds, aromatic hydrocarbons and cyanides.
2. Total dye, % by mass (on dry at 105±1°C for 2h basis) 85 Min.
3. Loss on drying at 135°C, % by mass and Chlorides & sulphates
(as sodium salt), % by mass 13 Max.
4. Water-insoluble matter, % by mass 0.2
Max.
5. Combined ether extracts, % by mass 0.2
Max.
6. Subsidiary dyes, % by mass 1.0
Max.
7. Organic compounds other than colouring matter, uncombined
intermediates and products of side reactions:
(a) Sum of 2-, 3-, 4-formyl benzene sulphonic acid, 0.5
Max.
sodium salt, % by mass
(b) Sum of 3- and 4-[ethyl (4-sulfophenyl) amino] 0.3
Max.
methyl benzene sulphonic acid, disodium salt,% by mass
© 2-formyl-5-hydroxybenzene sulphonic acid, 0.5
Max.
sodium salt, % by mass
(d) Leuco base, % by mass 5.0
Max.
(e) Unsulphated primary aromatic amines 0.01 Max.
(as aniline), % by mass
8. Lead (as Pb), mg/kg 10
Max.
9. Arsenic (as As), mg/kg
3 Max.
10. Chromium (as Cr), mg/kg 50 Max.
11. Mercury (as Hg), mg/kg Absent
12.
Heavy metals, mg/kg 40
Max.
Specification
for Indigo carmine (Food Grade) as per IS:1698-1994
S.
No. Characteristic Requirement
1. Freedom from contaminants: Material shall be free from
mercury, copper and chromium in any form: aromatic amines, aromatic nitro
compounds, aromatic hydrocarbons and cyanides.
2. Total dye, % by mass (on dry at 105±1°C for 2h basis) 85 Min.
3. Loss on drying at 135°C, % by mass and Chlorides &
sulphates
(as sodium salt), % by mass 15
Max.
4. Water-insoluble matter, % by mass 0.4 Max.
5. Combined ether extracts, % by mass 0.4
Max.
6. Subsidiary dyes, % by mass 3.0
Max.
7. Isatin sulphonic acid, % by mass 1.0 Max.
8. Lead (as Pb), mg/kg 10 Max.
9. Arsenic (as As), mg/kg 3
Max.
10.
Heavy metals, mg/kg 40
Max.
Specification
for Amaranth (Food Grade) as per IS:1696-1994
S.
No. Characteristic Requirement
1. Freedom from contaminants: Material shall be free from mercury, selenium and chromium in
any form: aromatic amines, aromatic nitro compounds, aromatic hydrocarbons and
cyanides.
2. Total dye, % by mass (on dry at 105±1°C for 2h basis) 85 Min.
3. Loss on drying at 135°C, % by mass and
Chlorides & sulphates (as sodium salt), % by mass 15 Max.
4. Water-insoluble matter, % by mass 0.5
Max.
5. Combined ether extracts, % by mass
0.2 Max.
6. Subsidiary dyes, % by mass 4.0
Max.
7. Dye intermediates, % by mass 0.5
Max.
8. Lead (as Pb), mg/kg 10
Max.
9. Arsenic (as As), mg/kg 3
Max.
10.
Heavy metals, mg/kg 40 Max.
Specification for Caramel as per IS:4467-1996
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