Efficiency of the utilization of the energy of food in piglets, after weaning

1973 ◽  
Vol 81 (2) ◽  
pp. 295-302 ◽  
Author(s):  
G. Burlacu ◽  
G. Băia ◽  
Dumitra Ionilă ◽  
Doina Moisa ◽  
V. Taṣcenco ◽  
...  
Keyword(s):  
G Protein ◽  
Energy Cost ◽  
Metabolizable Energy ◽  
Net Energy ◽  
Crude Fibre ◽  
Large White ◽  
Maintenance Requirement ◽  
Large White Breed ◽  
White Breed ◽  
Gross Energy

SummaryThe efficiency of utilization of the energy of food by weaned pigs of the Large White breed was measured. Three diets based on maize (40–60%) had a metabolizable energy of 75·8±1·2% of the gross energy, and 78·2 ±3·4% of the metabolizable energy was present as net energy.The maintenance requirement of metabolizable energy of pigs weighing 14·3 ± 2·1 kg was 143·6 kcal/kg°0·75/24 h (601 kJ/kg0·75/24 h).The energy cost per g protein and fat synthesized by piglets was estimated to be 7·43 and 12·05 kcal (31·1 and 50·4 kJ) metabolizable energy, respectively.Equations for calculation of metabolizable energy (Yl, kcal) and of the net energy (Y2, kcal), based on digested nutrients, were:Y1 = 4·64×1 + 9·12×2 + 4·25×3'CV = ± 1·2%,Y2 = 3·84×1 + 7·09×2 + 3·28×3'CV = ± 1·4%,where X1 = g protein digested, X2 = g fat digested, X3= g carbohydrate digested (crude fibre × N-free extracts).

Efficiency of utilization of food energy by growing pigs

1978 ◽  
Vol 90 (1) ◽  
pp. 165-172 ◽  
Author(s):  
G. Burlacu ◽  
Monica Iliescu ◽  
Josefina Stavri
Keyword(s):  
Growing Pigs ◽  
Metabolizable Energy ◽  
Food Utilization ◽  
Net Energy ◽  
Large White ◽  
Feeding Regime ◽  
Large White Breed ◽  
White Breed ◽  
Gross Energy ◽  
Ad Libitum

SUMMARYThe efficiency of utilization of the energy of the food by growing pigs of the Large White breed was measured. Ten diets had a digestible energy varying from 75·3 ± 0·91 to 85·7 + 0·81% and a metabolizable energy from 72·3± ·92 to 83·4±0·64% of the gross energy. Net energy was 85·2±3·20% of the metabolizable energy (ME).Regression calculations resulted in the following estimates: a maintenance requirement of 151 kcal ME for growing pigs weighing 9–58 kg and efficiencies of 66·7 and 100% for the utilization of ME for protein and fat accretion, respectively.Feeding regime (ad libitum or restricted at about 80% ad libitum) did not influence food utilization.

Efficiency of the utilization of the energy of food in laying hens

1971 ◽  
Vol 77 (3) ◽  
pp. 405-411 ◽  
Author(s):  
Gh. Burlacu ◽  
Margareta Baltac
Keyword(s):  
Energy Cost ◽  
Crude Protein ◽  
Egg Production ◽  
Dry Matter ◽  
Laying Hens ◽  
Metabolizable Energy ◽  
Net Energy ◽  
White Leghorn ◽  
Maintenance Requirement ◽  
Gross Energy

SUMMARYThe efficiency of utilization of the energy of food in White Leghorn laying hens for egg production was measured. A ration with a gross energy of 4469 kcal/kg dry matter and 19·4% crude protein had a metabolizable energy of 80·1±1·7% of the gross energy, and 78·5±5·3% of the metabolizable energy was present as net energy.The maintenance requirement of metabolizable energy of White Leghorn hens weighing 1·723±48·5 kg and a production of 19·3±0–49 eggs per month was 125·8 kcal/kg0·75/24 hr.The energy cost per g of protein and fat synthesized by laying White Leghorn hens was estimated to be 7·20 and 12·13 kcal metabolizable energy respectively.

Studies of the nutrition of young animals. I. Energy exchanges in the growing pig.

1926 ◽  
Vol 16 (3) ◽  
pp. 425-442 ◽  
Author(s):  
T. B Wood
Keyword(s):  
Growth Rate ◽  
Live Weight ◽  
Scientific Basis ◽  
Point Of View ◽  
Basal Metabolism ◽  
Weight Increase ◽  
Net Energy ◽  
Large White ◽  
Maintenance Requirement ◽  
White Breed

The facts and considerations set out above provide the information necessary to enable an intelligent pig-keeper to compute on a logical and scientific basis a series of rations which from the energy point of view will produce any desired rate of live weight increase within the capacity of his animals. It is however necessary to make the reservation that the data apply strictly only to pigs of the Large White breed kept under good conditions and liberally fed.It should also be noted that the method can only be applied to animals of known age and weight.The method is applied as follows:1. From the age of the animals read off from the basal metabolism chart, Fig. 1, the intensity of the basal metabolism per square metre per hour.2. From the live weight—surface chart, Fig. 2—read off the surface area in square metres corresponding to the animal's live weight.3. Multiply the basal metabolism per square metre per hour by the area of the animal's surface in square metres. The product multiplied by 24 gives the basal metabolism of the animal per day.4. To get the practical maintenance requirement add to the basal metabolism per day 1000 calories to allow for an average amount of muscular effort.5. Decide the growth rate in pounds of live weight increase per day at which it is desired to aim. The growth rate curve, Fig. 4, will help in assessing this figure.6. Read off from Fig. 3 the calorie value per lb. of live weight increase corresponding to the live weight of the animals under consideration, and multiply the figure there found by the desired live weight increase in lb. per day. This will give the productive ration in calories per day.7. The total ration is then found by adding together the maintenance requirement estimated in 4 above and the productive ration estimated in 6 above. This gives the total ration in calories of net energy.8. Transform calories of net energy into lb. of meal on the assumption that 1 lb. of meal supplies to the pig 1000 calories, or preferably that 1 lb. of starch equivalent supplies 1500 calories.

Association between leptin receptor gene polymorphism and quality of both meat and back fat in large white pigs of ukrainian breeding

2016 ◽  
Vol 3 (2) ◽  
pp. 42-48
Author(s):  
V. Balatsky ◽  
I. Bankovska ◽  
A. Saienko
Keyword(s):  
Gene Polymorphism ◽  
Leptin Receptor ◽  
Receptor Gene ◽  
Intramuscular Fat ◽  
Large White ◽  
Pig Breeds ◽  
Lepr Gene ◽  
Large White Breed ◽  
White Breed

Leptin receptor is one of the components of the system of regulating energy homeostasis of the organism. Leptin receptor gene (LEPR) polymorphism is associated with pig carcass index of the content of intramus- cular fat in its valuable parts, which is particularly important when assessing the quality of their carcasses for processing. Intramuscular fat is associated with meat fl avor characteristics and partly determines its tenderness, juiciness, and other parameters. Aim. To analyze LEPR gene (SNP NM001024587.1, p. 1987 C > T) polymor- phism in populations of various pig breeds and to establish its relationship with the quality of both meat and fat of pigs of Large White breed of Ukrainian breeding. Methods. Genetic-population analysis of nine pig breeds, associative analysis on the search connection of LEPR gene polymorphism with quality of both meat and fat of pigs of Large White breed of Ukrainian breeding. LEPR locus genotyping was performed by High Resolution Melting (HRM). Results. All the studied breeds are characterized by polymorphism of the leptin receptor gene (SNP NM001024587.1, p. 1987 C > T), signifi cant breed specifi city in the distribution of frequencies of alleles was established. Statistically confi rmed effect (p < 0.05) of genotypes LEPR on the content of intramuscular fat, total dry matter and moisture in the meat, as well as the moisture content in the back fat of pigs of Ukrainian Large White breed was revealed. Higher content of intramuscular fat was found in the animals with genotype TT, while a smaller amount of intramuscular fat and more moisture in fat was revealed in heterozygotes. Conclusions. Genetic marker LEPR SNP NM001024587.1, p. 1987 C > T can be used in the marker-assisted selection to predict and improve the performance quality of the meat of pigs of Large White breed of the Ukrainian breeding. These results suggest that porcine leptin receptor gene controls the quality of fat comp- lex – inside muscles and in the dorsal part of the carcass.

Indexes of reproductive ability and their repeatability in sows of different genotypes, taking into account the polymorphism g.1426g> a of the Mc4r gene

2020 ◽  
pp. 49-62 ◽  
Author(s):  
Viktor Khalak ◽  
Vasyl Voloshchuk ◽  
Konstiantyn Pochernyaev ◽  
Serhii Smyslov ◽  
Maria Ilchenko
Keyword(s):  
Receptor Gene ◽  
Live Weight ◽  
Multiple Births ◽  
Large White ◽  
Mc4r Gene ◽  
Litter Weight ◽  
Reproductive Ability ◽  
Large White Breed ◽  
White Breed ◽  
Consolidation Coefficient

The results of studies of the reproductive ability of sows of different genotypes are given taking into account the polymorphism g.1426G> A of the MC4R gene, the factor of repeatability of characters is determined, and the economic efficiency of the research results is calculated. The experimental part of the research was carried out in the conditions of the «Druzhba-Kaznacheevka» LTD in Dnipropetrovsk region. The objects of research were sows of the Large White breed. It was determined that sows of the main herd, according to signs of reproductive ability, belong to class I and class elite. The experiment showed that sows of genotype AG exceeded their peers of others (GG and AA) in terms of “born piglets total, heads” by 1.6 and 0.7 heads, “Live piglets born (multiple births), heads - by 1 6 and 0.9 heads, “the mass of the litter at the time of birth, kg” - by 2.7 - 1.3 kg., “the mass of the litter at the time of weaning at the age of 28-35 days, kg” - by 5, 1 - 3.9 kg. The difference between animals of the indicated genotypes is: for large-foetus - 0.06-0.01 kg, the index "evenness of the sow’s litter in live weight of piglets at birth, points" - 1.05-1.84 points, index of N. D. Berezovsky - 3.75 -2.36 points. The index of the safety of piglets before weaning ranged from 84.4 to 93.0 %. It was proved that the minimum value of the index “evenness of the sow’s littar in live weight of piglets at the time of birth, points (7.76 ± 1,082 points) are characterized by sows of genotype AA, in which the rate of multiple pregnancy ranged from 8 to 14 pigs, and the value of the sign“ large-foetus, kg "equaled 1.37 kg. The repeatability coefficient for sows of the main herd and sows of the Large White breed of different genotypes for the melanocortin 4 (MC4R) receptor gene ranges from -0.916 ± 0.1418 (І-IV farrow, genotype - GG, sign - “piglet safety before weaning, %) to 0.978 ± 0.0738 (I-V farrow, genotype - GG, sign - “large foetus”, kg ”). The maximum value of the phenotypic consolidation coefficient was found in sows of genotype AA according to the following quantitative characteristics: “live piglets (multiple births), heads.”, “litter weight at the time of birth, kg”, “litter weight at weaning age of 28-35 days, kg "," the safety of piglets before weaning ,% ". The sows of the genotype GG belong to the unconsolidated group according to the signs of reproductive qualities. The use of sows of the genotype for the melanocortin 4 (MC4R) AG receptor gene provides additional products at the level of 5.15 %, and its cost is 165.41 UAH /head. Keywords: sow, breed, reproductive ability, MC4R gene, genotypic consolidation coefficient, variability, correlation, repeatability.

The estimation of the nutritive value of feeds as energy sources for ruminants and the derivation of feeding systems

1978 ◽  
Vol 90 (1) ◽  
pp. 47-68 ◽  
Author(s):  
K. L. Blaxter ◽  
A. W. Boyne
Keyword(s):  
Organic Matter ◽  
Nutritive Value ◽  
Metabolizable Energy ◽  
Crude Fibre ◽  
Mitscherlich Equation ◽  
Energy Retention ◽  
Gross Energy ◽  
Biological Concepts ◽  
Two Parameters ◽  
Feeding Systems

SUMMARYThe results of 80 calorimetric experiments with sheep and cattle, mostly conducted in Scotland, were analysed using a generalization of the Mitscherlich equation R = B(l–exp(–pG))–l, where R is daily energy retention and G daily gross energy intake, both scaled by dividing by the fasting metabolism. The relations between gross energy and metabolizable energy were also examined. Methods of fitting the Mitscherlich equation and the errors associated with it are presented.It is shown that the gross energy of the organic matter of feed can be estimated from proximate principles with an error of ±2·3% (coefficient of variation) and that provided different classes of feed are distinguished, the metabolizable energy of organic matter can be estimated from gross energy and crude fibre content with an error of ±6·9%. Parameters of the primary equation made with cattle agreed with those made with sheep and there was no evidence of non-proportionality of responses on substitution of feeds in mixtures.The efficiency of utilization of gross energy for maintenance and for body gain of energy was related to the metabolizability of gross energy and, in addition, to fibre or to protein content. Prediction equations are presented which describe these relationships.It is shown that the primary equation can be manipulated to express a number of biological concepts and that its two parameters B and p can be simply derived from estimates of the two efficiency terms for maintenance and production.The results are discussed in relation to the design of feeding systems for ruminant animals and to the derivation of optima in their feeding.

scholarly journals The energy cost of fat and protein deposition in the rat

1977 ◽  
Vol 37 (3) ◽  
pp. 355-363 ◽  
Author(s):  
J. D. Pullar ◽  
A. J. F. Webster
Keyword(s):  
Regression Analysis ◽  
Energy Cost ◽  
Metabolizable Energy ◽  
Zucker Rats ◽  
Energy Costs ◽  
Semisynthetic Diet ◽  
Direct Calorimetry ◽  
Protein Deposition ◽  
Body Weights ◽  
Gross Energy

1. Measurements were made of energy balance by direct calorimetry, and of nitrogen balance in groups of lean and congenitally obese (‘fatty’) Zucker rats at body-weights of 200 and 350 g given a highly digestible semisynthetic diet at 14.0 or 18.4 g/rat per 24 h.2. Losses of food energy and N in faeces were very small. The fatty rats lost much more N in urine than did lean rats. Despite this the proportion of gross energy that was metabolized was 0.92 for both fatty and lean rats.3. In all trials, fatty rats lost a smaller proportion of metabolizable energy (ME) as heat and deposited less as protein than thin rats but deposited much more as fat.4. The amounts of ME required to deposit 1 kJ of protein and 1 kJ of fat respectively were shown by regression analysis to be 2.25 (±0.16) and 1.36 (±0.06) kJ respectively. These values agree extremely closely with recent, more tentative, estimates based on assumptions as to maintenance requirement which the present experiments were able to circumvent. It may be concluded with confidence that the energy costs of depositing 1 g of protein or fat are almost identical at 53 kJ ME/g.

scholarly journals Hybridization as a method of improving quality of pork

2020 ◽  
pp. 31-35
Author(s):  
B. P. Kovalenko ◽  
◽  
O. B. Shevchenko ◽  
Keyword(s):  
Chemical Composition ◽  
Physical Properties ◽  
Ph Value ◽  
Longissimus Dorsi ◽  
Large White ◽  
Group Iii ◽  
Large White Breed ◽  
White Breed ◽  
A Share

Studies were carried out on the main indicators of the chemical composition and physical properties of muskulus longissimus dorsi of pigs of different genotypes during hybridization. The indicators of the chemical composition and physical properties of muskulus longissimus dorsi were determined by conventional methods. The materials of experimental studies were processed using methods of variation statistics. According to the amount of moisture, no significant difference between the control and experimental groups was established. According to the amount of protein in meat, a tendency to a slight decrease, compared with the control group by 1.4 (group III) … 1.9 % (group II) was established. The use of boars of Poltava meat breed led to a decrease in intramuscular fat in descendants by 0.25 % compared with peers of a large white breed (P <0.95), and precocious meat - to a real increase of this indicator by 0.43 % at P> 0 , 95. A tendency towards an increase in the amount of tryptophan (by 0.04 ... 0.05) and oxyproline (by 0.004 ... 0.005) in the muscles of hybrid animals was revealed in comparison with peers of pure breed of large white breed. In terms of the biological usefulness of meat proteins, animals of group III were the best - in terms of the quality of the protein of the longest muscle of the back, their advantage over peers of group II was 0.07, and compared with purebred peers. Group I - 0.12 (p <0.95). It was found that with the same area of the meat spot both in purebred large white breeds of animals and hydrides of different genotypes, there is a tendency to increase the latter compared to the control in a humid place: with a «share» of «blood» ½ pm by 2.2 %, and with a «share» of blood ½ cm - 1.4 %. A tendency has been established to increase the pH value of the longest back muscle in animals with a «share» of blood of specialized meat breeds compared with a large white breed. In hybrid animals with a «share» of blood of Poltava meat and precocious meat breeds, there is a tendency to increase the pH value in comparison with the large white breed by 0.15 (2.8 %) and by 0.17 (3.1 %), i.e. the meat of hybrid pigs, the pH of which has a shift towards alkalinity due to less accumulation of lactic acid, has a worse preservation.

scholarly journals ЗВ'ЯЗОК G.143C>T ПОЛІМОРФІЗМУ ГЕНА CTSL ІЗ ВІДГОДІВЕЛЬНИМИ І М’ЯСНИМИ ЯКОСТЯМИ СВИНЕЙ ВЕЛИКОЇ БІЛОЇ ПОРОДИ УКРАЇНИ

2014 ◽  
pp. 88-90
Author(s):  
К. Ф. Почерняєв ◽  
В. М. Балацький ◽  
І. К. Лядський
Keyword(s):  
Impact Force ◽  
Large White ◽  
Meat Yield ◽  
Large White Breed ◽  
White Breed ◽  
Different Populations ◽  
The Impact

Викладені результати досліджень зв’язку гена ctslіз відгодівельними і м’ясними якостями свиней вели-кої білої породи України. Проаналізовано особливостіалелофонду гена ctsl у різних популяціях свиней ВБпороди; проведено аналіз частот і розповсюдженнярізних генотипів; вивчено зв'язок g.143C>T полімор-фізму цього гена з товщиною відкладення сала посередині спини та в ділянці 6–7-го ребер, а також ізсередньодобовими приростами,товщиною найдовшо-го м’яза спини й виходом м’яса. Визначено силу впли-ву g.143C>T поліморфізму гена ctsl на ці ознаки.Встановлено достовірні відмінності (P<0,05) за де-якими з вищезгаданих ознак у свиней із різними гено-типами гена ctsl. На підставі проведених дослідженьзроблені висновки та подані пропозиції виробництву. The results of researches of the association of gene ctsl   with the formation of fattening and meat qualities in pigs of the Large White breed of Ukraine are given. It has been analysed the features of gene ctsl alelofund in different populations of pigs of LW breed, it was carried out the analysis of frequencies and distribution of different genotypes. The association g.143C>T polymorphism of this gene with thick deposits of fat in the middle of the back and in area of 6-7 ribs, as well as average daily gains , thickness of the longest muscles and meat yield was studied. It has been determined the impact force g.143C>T polymorphism of gene ctsl on these traits. It was found out significant differences (P <0.05) for some of the above traits in pigs with different genotypes of gene ctsl. On the basis of the researches it was made conclusions and advanced proposals to producers.

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