DAIRY MILK & MILK PRODUCTS ADULTERATION, ITS TEST FOR IDENTIFICATION

 

The festivals like Deepawali (Diwali), Tihar (Bhaitika) and Chhat is approaching in which the demand of milk becomes almost double while production either remains constant or sometimes it decreases due to fluctuations of weather. So this period is the prime time for adulteration and contamination of dairy milk. As we know, milk in its natural form has high food value. It supplies nutrients like proteins, fat, carbohydrates, vitamins and minerals in moderate amounts in an easily digestible form. Due to its nutritive value, milk is significant to young and old people.

Milk contains more than 100 substances that are either in solution, suspension or emulsion in water, the important being casein - the major protein of milk, lactose - milk sugar, whey and mineral salts. The casein micelles and fat globules give milk most of its physical characteristics, and give taste and flavor to dairy products such as butter, paneer, curd, cheese etc. The composition of milk varies considerably with the breed of cow, stage of lactation, feed, season of the year, and many other factors. However, some relationships between constituents are very stable and can be used to indicate whether any tampering with the milk composition has occurred.

The nature of adulterants generally encountered in milk and milk products are water, removal of fat, addition of skim milk powder, reconstituted milk, thickening agents such as starch, flour, glucose, urea, salt, chlorine. Preservatives such as neutralizers which usually consists of sodium bicarbonate, sodium carbonate, sodium hydroxide and calcium hydroxide. Some include animal fats, aflatoxins and vegetable oils. Thus it is obvious that apart from less harmful adulterants, toxic and potentially injurious substances also are being added to milk. Despite food legislation, adulteration remains uncontrolled.

Here are a few examples of what adulterants can be added to milk in order to maintain its freshness and market value which in turn is harmful to the consumer leaving them clueless of what direct effect these adulterants have on them.

Water is an adulterant in milk which is often always added to increase the volume of milk which in turn decreases the nutritive value of milk which if contaminated poses a health risk especially to infants and children.

Detergents are added to emulsify and dissolve the oil in water giving a frothy solution, the characteristic white colour of milk. Detergents cause gastro-intestinal complications.


Urea is added to milk to provide whiteness, increase the consistency of milk and for leveling the contents of solid-not-fat (SNF) as are present in natural milk. The presence of urea in milk overburdens the kidneys as they have to filter out more urea content from the body.

Hydrogen Peroxide is also added to milk to prolong its freshness, but peroxides damages the gastro intestinal cells which can lead to gastritis and inflammation of the intestine.

Starch is also used as an adulterant and if high amounts of starch are added to milk this can cause diarrhea due to the effects of undigested starch in colon. Its accumulation in the body may prove very fatal for diabetic patients.

Carbonates and bicarbonates are added to milk too, this can cause disruption in hormone signaling that regulate development and reproduction.

Why is so much milk adulterated?

Increased demand for milk products during the festival season leads to rampant adulteration. Since milk and milk products constitute such a huge market, adulteration is an easy way to make money for many people. It cuts production costs and boosts profit margin. While adulteration peaks during the festival season, the huge milk economy of our country ensures that adulteration is an easy money-making opportunity round the year.

How is milk adulterated?

Though water remains the most common milk adulterant, increasingly detergent, caustic soda, glucose, white paint and refined oil are being used to adulterate milk. Water thins the milk but other adulterants make it appear thick. Adulterants like salt, detergents and glucose add to the thickness and viscosity of the diluted milk while starch prevents its curdling. So non-water adulterants make it difficult for a consumer to suspect that the milk is diluted or adulterated.

Dangers of adulterated milk

Adulterated milk can impair the functioning of various organs of the body, causing heart problems, cancer, and in extreme cases, even death. According to a recent advisory issued by the World Health Organization, if adulteration isn't put to a stop, a large chunk of global population would be suffering from serious and fatal diseases like cancer by the end of 2025.
It's doesn't take much to find out if your milk is adulterated. A few quick and easy tests can tell you if your milk is laced with any adulterant. There are also adulteration test kits available in the market today. Although a little pricey, these kits are helpful to use. These days premium and organic milk is also available. Many start-ups have appeared in big cities which provide such milk at nearly double the price of ordinary milk.

What is Adulteration?

Food Adulteration is an act of intentionally debasing the quality of food offered for sale either by the admixture or substitution of inferior substances or by the removal of some valuable ingredient, Food Adulteration takes into account not only the intentional addition or substitution or abstraction of substances which adversely affect nature, substances and quality of foods, but also their incidental contamination during the period of growth, harvesting, storage, processing, transport and distribution.

“Adulterant” means any material which is or could be employed for making the food unsafe or sub-standard or misbranded or containing extraneous matter.

Food is adulterated if its quality is lowered or affected by the addition of substances which are injurious to health or by the removal of substances which are nutritious. It is defined as the act of intentionally debasing the quality of food offered for sale either by the admixture or substitution of inferior substances or by the removal of some valuable ingredient.

Food is declared adulterated if:

• A substance is added which depreciates or injuriously affects it.

• Cheaper or inferior substances are substituted wholly or in part.

• Any valuable or necessary constituent has been wholly or in part abstracted.

• It is an imitation.

• It is coloured or otherwise treated, to improve its appearance or if it contains any added substance injurious to health.

• For whatever reasons its quality is below the Standard.

Adulterated food is dangerous because it may be toxic and can affect health and it could deprive nutrients essential for proper growth and development.

Methods for detection of common adulterants in Milk and Milk Products


(A) Milk

Tests which can be done at Home

  1. Milk Water: The presence of water can be detected by putting a drop of milk on a polished slanting surface. The drop of pure milk flows slowly leaving a white trail behind it, whereas milk adulterated with water will flow immediately without leaving a mark.
  2. Starch: Add a few drops of tincture of Iodine or Iodine solution. Formation of blue colour indicates the presence of starch. Iodine solution is easily available in the medical stores.
  3. Urea: Take a teaspoon of milk in a test tube. Add half teaspoon of soybean or arhar powder, Mix up the contents thoroughly by shaking the test tube. After 5 minutes, dip a red litmus paper in it. Remove the paper after half a minute. A change in colour from red to blue indicates the presence of urea in the milk.
  4. Detergent: Shake 5-10 ml of sample with an equal amount of water. Lather indicates the presence of detergent.
  5. Synthetic milk: Synthetic milk has bitter after taste, gives a soapy feeling on rubbing between the fingers and turns yellowish on heating. Synthetic milk is made by adding while colour water paint, oils, alkali, urea and detergent etc.
  6. Synthetic milk - Test for protein: The milk can be easily tested using Urease strips. Colour chart in Urease strips helps to arrive at the quantity of urea present in the milk. Urease strip is a biostrip based on enzymatic assay.
  7. Synthetic milk - Test for Glucose /Invert sugar: Take a strip of Diacetric strip and dip in to the milk for 30 sec to 1 min. If the strip changes the color then it shows the sample of milk contains glucose. If there is no change in the color of the strip, then glucose is absent. Glucose inverts sugar syrup is added to the milk increases the consistency and taste.

Tests which have to be done in Laboratory

1. Vanaspati - Take 3 ml of milk in a test tube. Add 10 drops of Hydrochloric Acid. Mix one teaspoonful of sugar. After 5 minutes, examine the mixture. The red colouration indicates the presence of vanaspati in the milk

2. Formalin - Take 10 ml of milk in a test tube and add 5 ml of concentrated Sulphuric acid from the sides of the wall without shaking. If a violet or blue ring appears at the intersection of two layers then it shows presence of formalin. Formalin enhances the life of milk and thus is added for preservation purpose.

3. Ammonium Sulphate - • Take 5 ml of hot milk in a test tube. Add a suitable acid, eg., Citric Acid. The whey obtained is separated and filtered. Take the whey in another test tube and add 0.5 ml of 5% Barium Chloride. Appearance of precipitate indicates the presence of Ammonium Sulphate.

Or
• Take 5 ml of milk in a test tube. Add 2.5 ml of 2% Sodium Hydroxide, 2.5 ml of 2% Sodium Hypochlorite and 2.5 ml of 5% Phenol Solution. Heat for 20 seconds in boiling water bath. If bluish colour turns to deep blue, it indicates the presence of Ammonium Sulphate. However, in case it turns pink, it shows that the sample is free from Ammonium Sulphate. The presence of sulphate in milk increases the lactometer reading.

4. Salt - Take 5 ml of Silver Nitrate reagent in a test tube. Add 2-3 drops of Potassium Dichromate Reagent. Add 1 ml of milk in the above test tube and mix thoroughly. If the contents of the test tube turn yellow, then milk contains salt. If it turns to chocolate colour or reddish brown, the milk sample is free from salt. Addition of salt in milk is mainly resorted to with the aim of increasing the corrected lactometer reading.

5. Hydrogen Peroxide - • Take 5 ml milk in a test tube. Add 3 drops of Paraphenylene Diamine and shake well. Change in colour of the milk to blue confirms that the milk is adulterated with Hydrogen Peroxide.

Or
• To 10 ml of milk sample in a test tube add 10-15 drops of Vanadium Pentoxide reagent and mix. Pink or red colour indicates presence of Hydrogen Peroxide.

6. Sugar - Take 3 ml of milk in a test tube. Add 2 ml of the hydrochloric acid. Heat the test tube after adding 50 mg of resorcinol. The red colouration indicates the use of sugar in the milk.

7. Sodium bi-carobonate / Neutralizer - Take 3 ml of milk in a test tube and add 5 ml of rectified spirit to it. Then add 4 drops of rosalic acid solution. The appearance of red / rosy colouration indicates the presence of Sodium bi-carbonate in the milk.

8. Boric acid - Take 3 ml of milk in a test tube. Add 20 drops of hydrochloric acid and shake the test tube or mix up the contents thoroughly. Dip a yellow paper- strip, and remove the same after 1 minute. A change in colour from yellow to red, followed by the change from red to green, by addition of one drop of ammonia solution, indicates that the boric acid is present in milk. To prepare the yellow paper strip, dip Strips of filter paper in an aqueous solution of the turmeric, and dry it up.

9. Removal of Fat - The Lactometer reading will go above 26. The milk will apparently
remain thick.

(B) Milk Products

Tests which have to be done at Home

  1. Khoa and its products - Starch - Boil a small quantity of sample with some water, cool and add a products few drops of Iodine solution. Formation of blue colour indicates the presence of starch.
  2. Chhena or Paneer - Starch - Boil a small quantity of sample with some water, cool and add a few drops of Iodine solution. Formation of blue colour indicates the presence of starch.

Tests which have to be done in Laboratory

1. Sweet Curd – Vanaspati - Take 1 teaspoon full of curd in a test tube, Add 10 drops of hydrochloric acid. Mix up the contents shaking the test tube gently. After 5 minutes, examine the mixture. The red colouration indicates the presence of vanaspati in the curd.

2. Rabri - Blotting paper - Take a teaspoon of rabri in a test tube. Add 3 ml of hydrochloric acid and 3 ml of distilled water. Stir the content with a glass rod. Remove the rod and examine. Presence of fine fibres to the glass rod will indicate the presence of blotting paper in rabri.

3. Ghee, Cottage Cheese, Condensed Milk, Khoa, Milk Powder etc. - Coal Tar Dyes - Add 5 ml of dilute Sulphuric Acid or concentrated Hydrochloric Acid to one teaspoon full of product sample in a test tube. Shake well. Pink colour (in case of dilute Sulphuric Acid) or crimson colour (in case of concentrated Hydrochloric Acid) indicates presence of coal tar dyes. If Hydrochloric Acid does not give colour, dilute it with water to get the colour to see the result.

4. Ghee Vanaspati or Margarine - Take about one tea spoon full of melted sample of ghee with equal quantity of concentrated Hydrochloric acid in a test tube with stopper and add to it a pinch of sugar. Shake for one minute and let it stand for five minutes. Appearance of crimson colour in lower (acid layer) indicates presence of vanaspati or margarine.

• The test is specific for sesame oil which is compulsorily added to vanaspati and margarine.
• Some coal tar dyes also give a positive test.

 • If the test is positive ie. Red colour develops only by adding Strong Hydrochloric acid (without adding crystals of sugar) then the sample is adulterated with coal tar dye. If the crimson or red colour develops after adding and shaking with Sugar, ensures presence of vanaspati or margarine only.

Photo courtesy:  https://kathmandupost.com/money/2018/07/29/project-halts-milk-purchase-causes-chaos