Lecture 2

Question 1

What is food analysis?

Answer 1

The development, application and study of analytical methods for characterizing foods and their constituents

Question 2

Why is food analysis important?

Answer 2

Information about foods, produce foods that are safe and nutritious, allow the consumer to make informed decisions

Government regulations ensure quality of the foods, ensure food industry makes safe foods with high quality, there is fair competition between companies, eliminates economic fraud

Quality control ensure food composition doesn’t change, characterize raw materials

Question 3

What are the six components to proximate analysis?

Answer 3

1. Moisture
2. Ether extract
3. ASH
4. Nitrogen
5. Crude Fibre
6. NSE

Question 4

What is the formula for moisture?

Answer 4

%Moisture = [(wet weight - dry weight)/wet weight] x 100%

Question 5

What is the formula for %Dry Matter?

Answer 5

%Dry Matter = 100% - %Moisture

Question 6

Why is determining water content in feed important?

Answer 6

Water weight (price and shipping)

Moisture in storage
Too much - food spoils quickly
Too little - food is less palatable

Moisture dilutes energy and nutrients in food

Moisture is important for optimum intake/performance of animals

Question 7

How is the first component (moisture) created?

Answer 7

Feed sample is air dried to separate the dry matter and moisture

Question 8

What are the potential error/limitations of moisture?

Answer 8

Drying can remove other volatile compounds (SC FA, minerals) which can cause a slight under-estimation of dry weight

Question 9

How is ether extract created?

Answer 9

Feed sample is air dried to create moisture and dry matter, an organic solvent (ether) is incorporated into the dry matter and separates it into two precipitates and the one on top is used to extract the fat

Question 10

What is the formula for ether extract/crude fat %?

Answer 10

%Crude fat = [(weight of their extract)/wet weight of sample] x 100%

Question 11

What are the potential sources of error in the ether extract/crude fat component?

Answer 11

• other things are soluble in organic solvents such as chlorophyll, resins, waxes, plants which could over-estimate crude fat determination
• newer and more sensitive methods now exist

Question 12

How is ASH extracted?

Answer 12

From the precipitates created from the organic ether solvent, the bottom precipitate is ignited (to get rid of anything w carbon = organic)

Question 13

Why is it important to measure ASH content?

Answer 13

Nutritional labelling
Quality/taste of food
Microbiological stability
Nutritional requirements
Manufacturer processing

Question 14

What is the formula for ASH (mineral content)

Answer 14

%ASH = [(weight of ASH)/wet weight of sample] x 100%

Question 15

What are the potential sources of error/limitations for ASH (mineral content)?

Answer 15

• volatile minerals may be lost when burning the residue
• no information about the individual minerals
  (It is now mandatory for food labels to indicate sodium content)

Question 16

How is the nitrogen component extracted?

Answer 16

Kjedal’s analysis

Question 17

What are the two assumptions made for Kjedahls analysis?

Answer 17

1. All nitrogen is in protein
2. All protein contains 16% nitrogen

Question 18

What are the three steps for Kjeldahls analysis?

Answer 18

1. Digestion - a food sample is mixed with sulfuric acid, which converts nitrogen to ammonia
2. Distillation - separates the ammonia
3. Titration - quantifies the amount of ammonia

Question 19

What is the formula for % crude protein?

Answer 19

%Crude Protein = [(N in sample x 6.25)/wet weight of sample] x 100%

6.25 is the conversion factor, it is calculated by 100% (total protein) / 16% nitrogen percentage = conversion factor

Question 20

What are the potential sources of error in the Kjeldahl analysis?

Answer 20

1. Assumes proteins have 16% nitrogen, the actual range is 13-19% therefore the conversion factor could change
2. Other sources of nitrogen are found in nitrites, urea, nucleic acids etc. therefore this would slightly over-estimate crude protein content

Question 21

What is the process in extracting crude fibre?

Answer 21

Ether extraction of dry matter is then boiled in acid, the residue is then boiled in alkali, lastly the product of that is ASH + Crude fibre, this is ignited to separate ASH and crude fibre, the crude fibre is then analyzed

Question 22

What is the formula for crude fibre content?

Answer 22

%Crude fibre = [(weight of ASH + Crude Fibre) - (weight of ASH)/wet weight of sample] x 100%

Question 23

What is the difference between crude fibre and dietary fibre?

Answer 23

Crude fibre tells us about the cellulose and lignin content (insoluble fibres) Dietary fibres is used to describe all fibres (both soluble and insoluble)

Question 24

What is the potential source of error in crude fibre?

Answer 24

Unable to distinguish different fibre components. Measuring crude fibre under-estimates the actual dietary fibre content of feed by up to 50%

Question 25

What are insoluble vs. Soluble dietary fibres?

Answer 25

Insoluble: Cellulose, lignin, hemicellulose
Soluble: Pectins, Gums, Mucilages

Question 26

What are the benefits of insoluble vs soluble dietary fibres?

Answer 26

Insoluble: regulates bowel movements, maintains pH, removes toxins, reduces constipation, does not dissolve in water, remains intact through intestinal tract
Soluble: regulates blood sugar, reduces cholesterol, forms gel, does dissolve in water

Question 27

What is the formula for Nitrogen free extract (NFE)

Answer 27

Digestible Carbohydrate content = %NFE = 100% - (%moisture + %crude fat + %ASH + %crude protein + %crude fibre)

Question 28

What are the potential sources of error/limitations in NFE?

Answer 28

NFE accumulates all of the errors that exist in other components

Question 29

What are the pros and cons to proximate analysis?

Answer 29

Pro: still used as the basis for human food labelling and animal feed analysis, has prompted the development of more advanced analytical assays to improve food characterization
Cons: No information on the digestibility of food/feed, no information on specific amino acids, minerals, lipids, carbs

Question 30

What is the formula for digestible carbohydrates in grams

Answer 30

(Total wet weight) x (NFE percentage in decimal form)

Question 31

What are the two more accurate fibre analyses to complement the proximate analysis?

Answer 31

1. Van Soest method
2. Southgate method

Question 32

What is the Van Soest method?

Answer 32

Fibre analysis in feeds, not used in human food analysis, differentiates between insoluble fibres (cellulose and hemicellulose) and (lignin), determines fermentable and non-fermentable CHO

Question 33

What is the Southgate Method?

Answer 33

Provides information about sugars, starch and various fibres, useful for human nutrition and food labeling, does not differentiate sufficiently between various insoluble fibre components adequately, so this method is not used for agricultural applications