d8d3943149e3536073aeb0a38f3f1404.ppt
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NUTRIENTS IN RELATION TO PROXIMATE ANALYSES M. WAN ZAHARI DVT 1084 - UMK 3/16/2018 1
Elements and Atomic Weight Name Symbol Atomic Wt Carbon C 12 Magnesium Mg 243. 3 Hydrogen H 1 Sodium Na 23 Oxygen O 16 Chlorine C 1 35. Phosphorus P 31 Cobalt Co 59 Potassium K 39 Copper Cu 63. 5 Iodine I 127 Flurine F 19 Nitrogen N 14 Manganese Mn 55 Sulfur S 32 Zinc Zn 65. 4 Calcium Ca 40 Molybdenum Mo 96 Iron Fe 55. 8 Selenium Se 79
Many different feed nutrients are currently recognized, and new ones are still being found. Those currently recognized are as follows: A. Carbohydrate: Contains C, H, and O, with H and O in the same proportion as in water. They consist largely of hexosans. These are made up of hexose or 6 -carbon atom molecules. 1. Monosaccharides e. g glucose, fructose, galactose 2. Disaccharides e. g. sucrose, maltose 3. Polysaccharides e. g. starch, glycogen, cellulose, lignin 3/16/2018 3
Many different feed nutrients are currently recognized, and new ones are still being found. Those currently recognized are as follows: Fats: Contain C, H and O with more C and H in proportion to the O than with carbohydrates. Fats contain 2. 25 times as much energy per kg as do carbohydrates. 1. Saturated fat e. g stearic, palmatic 2. Unsaturated fat e. g Oleic, linolenic, arachidonic 3/16/2018 4
Many different feed nutrients are currently recognized, and new ones are still being found. Those currently recognized are as follows: C. Protein: Always contain C, H, O, N and sometimes Fe, P, and/or S. The only macronutrient which contains N Feed proteins on the average contain 16% N. Formed by various combinations of amino acids of which there are some 25+ to be found in proteins. Amino act as organic acids which carry the amino group (NH 2). 3/16/2018 5
Continuation…. . D. Minerals: Of the 20 elements that function in animal nutrition, C, H, O & N are regarded as non- mineral elements 16 are mineral elements: 7 Macro minerals are Ca, P, K, Na, S, Cl & Mg and 9 Micro minerals are Fe, I, Cu, Co, F, Mn, Zn, Mo and Se. E. Vitamins: Organic substances required by animals in very small amounts for regulating various body processes. They all contain C, H, O and several contain N & mineral elements F. Water: Contain H & O. Water is found in all feed (ranging from 10% to 80%). Besides serving as nutrient and other important body functions, it is very important factor in feed processing & storage &feed value 3/16/2018 6
Continuation…. . D. Minerals: Of the 20 elements that function in animal nutrition, C, H, O & N are regarded as nonmineral elements 16 are mineral elements: 7 Macro minerals are Ca, P, K, Na, S, Cl & Mg and 9 Micro minerals are Fe, I, Cu, Co, F, Mn, Zn, Mo and Se. 3/16/2018 7
Continuation…. . . Vitamins: Organic substances required by animals in very small amounts for regulating various body processes. They all contain C, H, O and several contain N & mineral elements E 3/16/2018 8
Continuation…. . Water: Contain H & O. Water is found in all feed (ranging from 10% to 80%). Besides serving as nutrient and other important body functions, it is very important factor in feed processing & storage &feed value F. 3/16/2018 9
SUMMARY OF THE VARIOUS FUNCTIONS WHICH THE DIFFERENT NUTRIENTS MAY SERVE BASIC FUNCTION ACCESSORY FUNCTION As a Structural Material for Body Building and Maintenance As Energy for Heat Production, Work, and Fat Deposition As or for the Formation of a Body Regulator As a Source of Nutrients for Milk (or Egg Production) Protein Yes Certain Amino acids Yes Carbohydrates Only as fat formed from carbohydrates enters into makeup of cellular growth Yes Yes Fats Only as fat enters into makeup of cellular growth Yes Certain Fatty acids Yes Minerals Yes No Yes Vitamins No No Yes Water Yes No Yes 3/16/2018 10
Proximate Analysis of Feedstuffs A system for approximating the value of a feed or material for feeding purposes, without actually using the feed in feeding trial, was developed at the Weende Experiment Station in Germany over 100 years ago. It based on the separation of feed components into groups or fractions in accordance with their feeding value. The various fractions are: Water Crude protein Crude fat or ether extract 3/16/2018 Crude fiber Nitrogen-free extract Mineral matter or ash 11
Proximate Analysis of Feedstuffs Following proper procedures in obtaining and preparing a sample is essential for an accurate analysis on given lot of feed. 1. Procedures to determine the various fractions: Water- oven dry : Loss of wt during drying 100 = % water Wt of sample after drying 100 = % DM Wt of sample before drying 100 - %DM = water 3/16/2018 12
2. Crude protein (CP) Kjeldahl methods-determine the amount of ammonia nitrogen (N) 3. Crude fat (EE) Includes all of that portion of a feed soluble in water. Crude fat is commonly referred to as ether extract. Extract the sample with ether in a Soxhlet extractor. 3/16/2018 13
4. Crude fiber (CF): This fraction was designed to include those materials in a feed which are low digestibility. Included hare cellulose, certain hemicelluloses, and some of the lignin, if present. Some of the lignin, however, may be included in the nitrogenfree extract. - dry sample, extract sample with ether, boil sample with dilute sulfuric acid, filter, boil in dilute sodium hydroxide then filter, dry the residue and weigh, ash the sample Wt of CF 100 = % CF Wt of original sample 14
5. Mineral matter or ash: Ash in a furnace (600 °C) 3/16/2018 15
6. Nitrogen-free extract: (NFE) Commonly referred to as NFE. Includes mostly sugars and starches, and some of the more soluble hemicelluloses, and some of the more soluble lignin. Since this fraction was designed to include the more digestible carbohydrates, any lignin which may come out here will to distort the meaningfulness of the NFE figure as lignin is essentially indigestible. NFE is determined by difference-that is, all those fraction discussed above are added together and subtracted from 100. 3/16/2018 16
As follows: % water % crude protein % crude fat % crude fiber % mineral matter ---------------------------100 – Total = % NFE 3/16/2018 17
7. Expressing compositions: A. In percent (%). This simply say that a feed contains so many parts (grams, milligrams, micrograms, etc. ) of a particular feed component per 100 parts of the overall feed. 3/16/2018 18
B. In parts per million (ppm) This simply says that a feed contains so many parts (g, mcg, etc. ) of a particular feed component per 1, 000 parts of the overall feed. 3/16/2018 19
C. In mg per kilograms (mg/kg). This says a feed contains so many mg of some component per kilogram of the overall feed. Since a kilogram is equal to 1, 000 mg, then “mg per kilogram” is the same “mg per million mg” or “parts per million”. 3/16/2018 20
The composition of feeds may be expressed on any one or more of three dry matter bases. A. As fed: Sometimes referred to as wet or fresh basis. On this basis dry matter of different feeds may range from 0% to 100%. 3/16/2018 21
Air-dry: May be actual or an “assumed dry matter content” basis. The latter is usually 90%. This basis is useful for comparing the composition of feeds having different moisture content. Most feeds, but not all, are fed in an air-dry state. B. 3/16/2018 22
C. Oven-dry: Based on a moisture-free or 100% DM state. Also useful for comparing feeds of different moisture contents. 3/16/2018 23
Why Test Feeds? Nutrient concentration can vary considerably in feeds, especially forages Used feed tests to target specific feeds to different livestock Feed test can help establish the RM value of a feed Use feed test to help determine what feedstuffs to buy for feed processing activities 3/16/2018 24
What causes nutrient concentration to vary? Plant species and variety-protein, starch, fiber and toxins varies among varieties Maturity-as forage plants mature, fiber concentration increases, concentration of DE & NE Leafiness-leaves contain more CP & DE, harvest & storage conditions that save leaves result more CP and energy 3/16/2018 25
What feeds should be analyzed? Analyze all feedstuffs that influence ration cost or animal performance. Important when potential differences between estimated nutrient composition and actual composition are great Forages: nutrient composition varies greatly Feed grains: seasonal & geographical differences-may influence future purchases By-products: vary considerably in nutrient & moisture content Always test non-traditional feedstuffs 3/16/2018 26
What causes nutrient concentration to vary? Harvest-good management techniques ↑ nutritive values Storage-moisture content within specific range Environment-temperature, sunlight, soil moisture & fertility, diseases, weeds, insects 3/16/2018 27
Methods of Feed Testing Physical: sight, smell, touch…. , stage of maturity, foreign materials, best, color-provide limited information Chemical-reliable & accurate predictions of animal performance Near infrared reflectance (NIR) spectroscopy In vivo and in vitro 3/16/2018 28
What analyses should be made? Nutrients of primary concern: Ruminant (CP, DE or TDN, Ca, P), Monogastric (CP, amino acids, ME, CF, Ca, P) Always compare cost of analysis to cost of supplement Analysis for moisture, protein & energy are most important Sampling is the key to accurate feed analysis 3/16/2018 29