scholarly journals INTERDEPENDENCE OF COMPLEX GENOTYPES OF ALFA-LACTALBUMIN AND BETA-LACTOGLOBULIN WITH COMPOSITION AND TECHNOLOGICAL PROPERTIES OF MILK OF UKRAINIAN BLACK-AND-WHITE DAIRY CATTLE

2018 ◽  
Vol 51 ◽  
pp. 124-131
Author(s):  
О. P. Plivachuk ◽  
T. M. Dyman
Keyword(s):  
Dairy Cattle ◽  
Protein Content ◽  
Milk Yield ◽  
Heat Stability ◽  
Fat Content ◽  
Black And White ◽  
The Difference ◽  
Solids Content ◽  
Beta Lactoglobulin ◽  
Dairy Breed

The objective of this work was to study the effect of phenotypic combination of genetic variants α-LA and β-LG on the content of technologically and nutritionally important components of milk in cows of Ukrainian Black-and-White Dairy breed. Method PCR-RFLP was used to identify cow’s genotypes on the indicated genes. Milk yield was calculated based on the results of monthly control milking. It has been determined such indices of cow’s milk: fat content, protein content, total solids content, milk solids non-fat (MSNF) content, lactose content, casein content, casein number, milk density, milk rennet ability, heat stability (alcohol number) of milk. Statistical analysis was carried out using program Statistica 6.0. The study of genetic structure of the herd of Ukrainian Black-and-White Dairy cattle showed the high level of polymorphism on α-LA and β-LG genes. 6 genotypes were identified. Genetic structure of the herd on two genes simultaneously was determined. 9 complex genotypes were revealed. Phenotypic variants α-LA АВ/β-LG АВ, α-LAАА/β-LG АА and α-LAАВ/β-LG АА had the highest frequency – 26, 21,5and 14 % respectively. Frequencies of remaining genotypes were not higher than 10 %. The highest milk yield (5617 kg) was received from cows with genotype α-LA ВВ/β-LG АА. The percentage of these animals in the herd was only 7,5 %. The lowest milk yield (5367 kg) was fixed for the group of animals with complex genotypeα-LA АА/β-LG ВВ. The frequency of this genotype was 7 %. Three the most distributed complex genotypes (61,5 %) characterized by medium features of milk yield. Cows with genotypes α-LAАВ/β-LGВВ had the highest indices of fat content (3,93 %). The percentage of these animals in the herd was 5 %. The difference between cows’ groups with the highest and the lowest indices of fat content was 0,14% (td=2,5; p<0,05). Cows with genotypes α-LAАВ/β-LG АА had the highest protein content. Their percentage in the herd was 14 %. The difference between cows’ groups with highest and lowest indices of protein content was 0,06 % (td=1,1; p<0,05). The highest indices of casein content and casein number (2,42 % and 78,3 % respectively) were observed in animals with complex genotypes α-LAВВ/β-LG АВ andα-LAВВ/β-LGВВ, their frequency in the studied herd was 11 %. The difference between cows’ groups with highest and lowest above indicators was 0,05 % (td=1,8; p<0,05) and 3 % (td=2,38; p<0,001) respectively. Thus, milk from 11 % of cows of the studied herd of Ukrainian Black-and-White Dairy breed complied with the requirements for cheese manufacture better. Indicator of rennet ability confirmed this. The lowest time of milk coagulation (rennet ability) we observed in milk from cows with complex genotype α-LAВВ/β-LGВВ – 27,7 min. We can assume that expression of alleles B of α-LA and β-LG in this phenotypic combination determines such desirable properties for cheese making. At the same time, milk from cows with complex genotypes α-LAВВ/β-LG АВ and α-LAВВ/β-LGВВ had the worst indices of heat stability, its alcohol number was 2,17 ml. High heat stability of milk was determined by expression of A allele of genes α-LA and β-LG in phenotypic combination α-LA/β-LG. Milk from cows with genotype α-LA АВ/β-LG АВ had the highest lactose content (4,53 %). The difference between cows’ groups with highest and lowest indices of lactose content was 0,06% (td=1,1; p<0,05). Significant differences between the cows of different complex genotypes were not found for the total solids content. At the same time, some differences on MSNF content were observed. The highest indices (8,65 %) were revealed in groups of animals with genotypesα-LAАА/β-LG АА andα-LAВВ/β-LG АА, lowest (8,57 %) – with genotype α-LAАВ/β-LGВВ, but these differences were not statistically significant. The result presented here shows the relationship between the combination of alfa-lactalbumin and beta-lactoglobulin genetic variants in Ukrainian Black-and-White Dairy cattle and the productivity traits of animals, technological properties of their milk.

scholarly journals PRODUCTIVITY OF COWS OF UKRAINIAN BLACK-AND-WHITE AND RED-AND-WHITE DAIRY BREEDS

2018 ◽  
Vol 51 ◽  
pp. 112-118
Author(s):  
V. V. Machulnyi
Keyword(s):  
Dairy Cattle ◽  
Dairy Cows ◽  
Milk Production ◽  
Milk Yield ◽  
Fat Content ◽  
Reproductive Capacity ◽  
Black And White ◽  
Reproductive Ability ◽  
Service Period ◽  
Dairy Breed

Milk yield of cows in breeding herds, Cherkassy region, for last completed lactation averaged 6442 kg of milk with 3.62 % fat content. Currently the question of interconnection of cows’ milk production and reproductive capacity is especially important, because the significant increase in milk yields makes minimize calves. The successful conduct of breeding had set the goal to detect the best options for combining milk production and reproductive ability of animals.To characterize the level of milk production including reproductive ability of cows we used indicator of daily average milk yield per one day of periods between calving (PBC). The best service period can be considered period of 51-90 days, that allows you to get one calf per cow per year (average PBC is 351 days) and maintain high milk production (6431 ± 39.6 kg during 305 days of lactation). With this service period all indicators of milk production and reproductive ability are at high level. Reduced service period below recommended levels will reduce the duration of lactation and milk production, and increasing service period will increase the duration of lactation with a simultaneous reduction in milk production for 305 days. Herewith deterioration of reproductive ability is marked and manifested in the increase of the insemination index, decline in the reproductive capacity, increase of periods between calving and as a result, reduce of calves and culling barren cows.Analysis of genealogical structure of the studied herds points to low diversity (Ukrainian Black-and-White dairy cows belong to 6 lines and Ukrainian Red-and-White dairy cows – to 8 ones) with high affinity (by Chief 1427381.62 to R. Sovereign 198998 bloodline, by Starbuck 352790.79 to Elevation 1491007 and Ideal1013415 bloodlines).Genealogical structure of the herds is saturated a lot of bulls genealogical groups of Holstein cattle: Chief 1427381 – 11 bulls in the array of Ukrainian Black-and-White dairy breed and 5 ones in Ukrainian Red-and-White dairy breed, Starbuck 352790.79 – 10 sires in the array of Ukrainian Black-and-White dairy cattle and 3 ones in Ukrainian Red-and-White dairy breed, Elevation 1491007.65 – 4 sires in the array of Ukrainian Black-and-White dairy cattle and 3ones in Ukrainian Red-and-White dairy breed.Currently the sires of Chief 1427381.62 (7712-3,76-289,9-3,14-242,1), Starbuck 352790 (7857-3,87-295,4-3,07-241,2), Jocko Besne 694028588.94(6687-3,88-259,5-3,03-202,6), and Bell 1667366 bloodlines (61341-3,95-242,3-3,02-185,2) among sires of Ukrainian Black-and-White dairy cattle and the sires of Cavalier 1620273.72 (7285-3,98-289,9-3,08-224,4), Chief 1427381.62 (7522-3,76-282,8-3,00-225,7),Starbuck 392405 (7667-3,87-296,7-3,00-230,0), and Elevation 1491007.65 bloodlines (7544-3,80-286,7-3,5-230,0) among sires of Ukrainian Red-and-White dairy breed are classified to a highly productive and promising for breeding and wider use by productive qualities.After the first insemination the lowest proportion of fertilized cows is among offspring belonging to Chief 1427381 bloodline which is only 38 % among both breeds. However, the milk yield of breeding stock belonging to this bloodline is 7712 kg with 3.76 % fat content for Ukrainian Black-and-White dairy cows and 7522 kg of milk with 3.76 % fat content for Ukrainian Red-and-White dairy cows. Daughters belonging to Elevation1491007, Valiant 1650414, and Hanover 1629391 bloodlines with yields of 4566-5478 kg of milk per lactation had a part of fertilized cows, after the first insemination, at the level of 41-49 %. Fertilization after the first insemination above 50% was in daughters belonging to Cavalier 1620273.72 (52%), Starbuck 392405(50-55 %), Bell 1667366(56%) and Jocko Besne 694028588.94 bloodlines (64 %). The level of performance of these animals for milk yield ranged from 6134 kg to 7857 kg.Heritability coefficients of milk yield and duration of service period were low (0.118-0.289). A positive correlation can be explained by the fact that extension of service period (to a certain level) leads to growing number of milking days (duration of lactation) and defers a decrease in productivity of cows by physiological reasons, namely as a result of pregnancy. Low rates of heritability indicate little genetic diversity of traits and the significant influence of physiological and environmental factors in their formation.As Ukrainian Black-and-White and Ukrainian Red-and-White dairy breeds have a high proportion of heredity of Holstein breed which has genetically large fetus, there is need to study the characteristics of nature passing calving in cows of these breeds. Itis found the number of first-calf heifers which needed help was 52.4%. Animals calve alone in 47.6 % of all cases. Calving was without complications if the live weight of calves not exceeding 6-7% of mother’s weight. The cows calved without help of staff exceeded by 11.7% of the width of the pelvis in the buttocks, 7.5 % of the width of the ilium, and 7.1 % of its oblique length compared with animals of same age.

scholarly journals PRODUCTIVE QUALITIES OF COWS OF DIFFERENT BREEDING GROUPS OF THE BUKOVINSKY FACTORY OF THE UKRAINIAN RED-AND-WHITE DAIRY BREED

2020 ◽  
Vol 59 ◽  
pp. 60-66
Author(s):  
O. I. Liubynskyi ◽  
R. V. Kasprov
Keyword(s):  
Protein Content ◽  
Milk Yield ◽  
Milk Fat ◽  
Correlation Coefficients ◽  
Live Weight ◽  
Fat Content ◽  
Positive Correlation ◽  
Breeding Group ◽  
The Difference ◽  
Dairy Breed

The studies were conducted on the materials of the breeding record of the breeding plant of JSC "Mirne" of Chernivtsi region - the basic farm of the Bukovyna factory type of the Ukrainian red-speckled dairy breed. 360 cows were selected for analysis, based on live weight, yields, fat and protein content of milk, total milk fat and protein content. The intensification of dairy cattle breeding necessitates the systematic evaluation of animals in herds and populations on the basis of economically useful traits. Analysis of the productive qualities of the cows of the different breeding groups showed that, by live weight, milk yield, milk fat and protein content, the two-breed (II breeding group) animals were better than the three-breed (I breeding group). The difference for the first lactation was 11.2; 32.9; 1.5; 1.0 kg respectively. In cows with the second lactation, the pattern remained, the difference was 22.2; 395.8; 15.8; 13.1 kg respectively, and for the third lactation – 31.4; 124.3; 4.8; 4.2 kg. The fat and protein content of milk varied between 3.88–3.89% and 3.33–3.34%, respectively. It should be noted that in cows of both groups there was a decrease in milk milk yield with increasing number of lactations.An evaluation of the productive qualities of the first-born cows of the different lines showed that Marshall's first-borns were better in live weight, milk yield, milk fat and protein, although they were inferior to other lines in terms of fat and protein content. In the firstborn of the Hanover Red line, the estimated values were lower than in animals of other lines, in particular – by live weight by 11.4 kg, milk yield by 1115.2 kg, milk fat by 44.1 kg, milk protein by 37.2 kg (Chif line), by 5.4; 1336.5; 52.7; 45.2 kg (Starbuck line) and 14.7; 1465; 55.1; 48.3 kg (Marshall Line).The effectiveness of breeding for increasing dairy productivity of cows depends on the efficiency of selection and selection of animals, taking into account the phenotypic and genetic correlation between economically beneficial traits. It was found that the highest positive values of correlation coefficients were observed in the cows of the studied groups between milk yield and protein content in the context of all lactations – 1st breeding group (r = 0,12–0,25), 2 nd breeding group (r = 0.19–0.3). In the cows of the first breeding group for the first and second lactations revealed not high but positive correlation of milk yield with live weight (r = 0.33–0.49). In the cows of the second breeding group for the first and second lactation positive correlation with milk fat content was found.The first positive cows of different lines showed the highest positive values of the correlation coefficients between milking and protein content (r = 0.19–0.43). There was also a low positive correlation of milk yield with live weight in the firstborn of all evaluated lines (r = 0.03–0.09), as well as milk fat content in cows of Starbuck and Marshall lines.Conclusions. 1. By live weight, milk yield, milk fat and protein content, two-bovine cows of the Bukovyna factory type of Ukrainian red-speckled dairy breed were better than three-born. The fat and protein content of milk varied between 3.88–3.89% and 3.33–3.34%, respectively. In cows of both groups there was a decrease in milk yield with increasing number of lactations.2. By live weight, milk yield, milk fat and protein content, Marshall Line firsts were better, although they were inferior to other lines in terms of fat and protein content. In the firstborn of the Hanover Red line, the estimates were lower than in other line animals.3. The highest positive values of correlation coefficients were observed between milk yield and protein content in the context of all lactations in the cows of Bukovyna factory type of Ukrainian red-rippled dairy breed. In two breeds of cows for the first and second lactation revealed not high but positive correlation of milk yield with live weight, and in three breeds for the first and second lactation positive correlation of milk yield with fat content.

scholarly journals PHENOTYPE FEATURES APPEARANCE OF DAIRY PRODUCTIVITY OF DIFFERENT UKRAINIAN DAIRY BLACK-AND-WHITE BREED COWS GENOTYPES

2019 ◽  
Vol 58 ◽  
pp. 33-40 ◽  
Author(s):  
A. R. Pendyuk ◽  
V. V. Fedorovych ◽  
N. P. Mazur
Keyword(s):  
Dairy Cattle ◽  
Milk Yield ◽  
Milk Fat ◽  
Correlation Coefficients ◽  
Fat Content ◽  
Milk Productivity ◽  
Black And White ◽  
Holstein Breed ◽  
Dairy Breed ◽  
A Share

The main task of breeding in dairy cattle breeding is to raise dairy productivity of cows. Improvement of productive qualities of domestic dairy cattle with the use of Holstein breeders of high breeding value led to serious disadvantages, including impairment of animal health, reproductive capacity and quality of milk. Therefore, the purpose of our research was to examine the milk productivity of cows of different genotypes of the Ukrainian Black-and-White dairy breed and ascertain the relationship between quantitative and qualitative indicators of milk. Research conducted at agricultural limited liability company "Lishche" Lutsk district of Volyn region on cows of different genotypes of the Ukrainian Black-and-White dairy breed. 5 groups of animals were formed: I − cows with a proportion of Holstein breed 75% or less, II − with a share Holstein heredity 75.1–81.25%, III − Holstein heredity share 81.26–87.50%, ІV − with a share of the heredity of the Holstein 87.51–93.75% and V − with a share of the heredity of the Holstein more than 93.75%. Evaluation of milk productivity was carried out by milk yield, fat content in milk and the amount of milk fat for the first, second, third and highest lactations according to the data of zootechnical accounting. It was found that the largest number of animals under control (33.7%) was with the relative share of Holstein heredity of 81.26–87.50%, and the lowest (9.3%) was with relative share of the Holstein breed's heredity more than 93.75%. Analysis of the level of milk yield of cows of different genotypes showed that the increase of Holstein heredity increases milk yields, however, significantly reduces the fat content of milk. If the animals have a share of Holstein heredity up to 75% the milk yields was 5154, and the amount of milk fat − 199.7 kg, and cows with hereditary of 75.10–81.25% showed figures increased by 16.4 and 15.5%, with Holstein heredity 81.26–87.50% by 23.3 and 20.8%, Holstein heredity 87.51–93.75% for 26.1 and 23.2% and with Holstein heredity more than 93.75% for 34.8 and 31.4%, and fat content in milk, on the contrary, decreased, depending on the genotype of animals, by 1.6–2.3%. In all in the above cases, these changes were highly significant (P < 0.001). The effectiveness of breeding on increasing the milk productivity of cows depends on the efficiency of selection and selection of animals, taking into account the phenotypic and genetic correlation between economically useful features. It was found that the studied cows of all genotypes had highest highly reliable (P < 0.001) positive values of correlation coefficients between milk yield and milk fat (Table 2). These features are the most predicted because strong relationship between them (r = 0.912–0.987). There was also observed direct positive ligament (r = 0.039–0.533, P < 0.05–0.001) between fat content in milk and milk fat content, and mostly weak, and only in some cases correlation coefficients had average values. The cows of the studied genotypes had the lowest and for the most part unreliable values of relative variability by the milk yields and fat content milk. The heifers with conditional share of Holstein heredity, more than 75% had negative and weak relationship features, and the older cows were diversified from weak to average values. One of the reliable criteria for determining the level of heredity of features is the coefficient of frequency, which indicates their heredity stability in age. Coefficients of age-related frequency of milk yield, fat content of milk and the highest milk fat content of cows with a conditional share of Holstein heredity of up to 75% had indicating a higher degree of heredity of these features compared to high half-bred cows. With the increasing of heredity of the Holstein breed the genotype of controlled animals values were decreasing for the most part. The most significant and reliable (P < 0.001) genotype of animals affected milk yields (13.3–18.1% of the total variability of this feature), less – the fat content of milk (9.3–13.2% (P < 0.001) and the amount of milk fat (6.6–14.1% (P < 0.001), with the highest genotype influence on the studied features indicated in the first lactation.

scholarly journals SELECTION OF THE SITUATION IN SEEF «OLEKSANDRIVSKE» FOR BREEDING UKRAINIAN RED-AND-WHITE DAIRY CATTLE AND UKRAINIAN BLACK-AND-WHITE DAIRY CATTLE AND ITS IMPROVING

2018 ◽  
Vol 51 ◽  
pp. 69-73 ◽  
Author(s):  
G. S. Kovalenko ◽  
S. V. Priyma ◽  
G. A. Holysa ◽  
A. V. Tuchyk ◽  
L. V. Marchuk ◽  
...  
Keyword(s):  
Dairy Cattle ◽  
Dairy Cows ◽  
Milk Production ◽  
Milk Yield ◽  
Fat Content ◽  
Breeding Value ◽  
Body Structure ◽  
Point Scale ◽  
Black And White ◽  
Dairy Breed

Created Ukrainian Red-and-White Dairy and Ukrainian Black-and-White Dairy cattle have a desirable level of reproductive and productive qualities.  These breeds are competing successfully with animals of the European selection, so comparative study of pedigree and productive qualities of animals at one of the farms has practical value. The studies were conducted in the herd of “Oleksandrivske” SE RF at the animals of Ukrainian Red-and-White Dairy and Ukrainian Black-and-White Dairy breeds of Vinnytsia region. The animals of both breeds were kept under the same technological conditions in housing for livestock. It was taken into account milk production (milk yield, fat content in milk and milk fat) for 305 days of lactation. Expert evaluation of the exterior of first-calf heifers has been conducted for 2015-2016. Assessment of type of body structure of cows was conducted on 100-point scale. Fatness of cows was determined on 5-point scale. The analysis of genealogies of 37 bulls which had progeny in the herd was conducted by breeding index, discharge of breeding values and milk production of ancestors. Milk production of the animals of the herd was more than 6000 kg of milk for 305 days of lactation. Comparing milk yields, it was found that the animals of Ukrainian Black-and-White Dairy breed dominated Ukrainian Red-and-White Dairy cows of the same age. It is noteworthy that biological feature of cows to increasing milk yield with each subsequent lactation is positive. Thus, the Ukrainian Black-and-White Dairy cows after the second calving in comparison with the first calving increased milk yield by 380 kg and the animals after the third calving and older comparatively with the second one – by 425 kg more. Also the Ukrainian Red-and-White Dairy cows increased milk yield, respectively, by 348 and 358 kg. The average body measurements of the first-calf heifers were inferior by targeted parameters of Ukrainian Red-and-White Dairy and Ukrainian Black-and-White Dairy cattle from -0.3 cm (girth of metacarpus) to -7.8cm (height in the sacrum) in most cases.  The total number of points for type of body structure was 87.9 at the animals of Ukrainian Black-and-White Dairy cattle and, respectively, 87.0 at the Ukrainian Red-and-White Dairy cows; it corresponds to the assessment "very good". This indicates the high estimation of individual parts of the exterior. The cows of the herd had the required fatness. The average of this trait at animals of Ukrainian Black-and-White Dairy breed was 3.0 points and at the cows of Ukrainian Red-and-White Dairy cattle was respectively 3.4 points. The genealogical structure of the current herd of “Oleksandrivske” SERF consists of two female contingents. The animals of Ukrainian Black-and-White Dairy cattle were derived from 18 bulls belonging to 8 bloodlines. Most of animals belong to R.O.R.Elevation 1491007 bloodline – 45.4%, H.H.Starbuck 352790 and P.F.A.Chief 1427381 bloodlines – 14.4%. Qualitative characteristic of bulls used for the female livestock of the herd, shows that in the vast majority they are valuable breeding bulls. However, it should be noted that there are progeny derived from bulls with low breeding value in the herd. Thus, bull Matrix Red 136549448 had SI-7 and H- and Trubadur 343643346 had SI-50 and H-. The use of bulls for female livestock of the herd with low breeding value is unacceptable for further breeding work. Expectation of improving the breeding traits in progeny from such fathers is unlikely. It is planned to accelerate the reproduction of valuable genotypes and increase the rate of genetic progress at the herd using embryos transplantation this year. Donors of embryos will be their own breeding resources. Using this method will make it possible to exclude from the selection process animals with exterior defects and low-yielding cows. The considered aspects of selective breeding work indicate prospects of using Ukrainian Red-and-White Dairy and Ukrainian Black-and-White Dairy cattle. This applies particularly to increase of milk yield to 8000 kg and more per lactation. Bulls which will be used for breeding stock should have high rates of breeding values (SI +1000 and P4 and more). Especially it applies such features as fat content in milk and some exterior defects.

COMPARATIVE DESCRIPTION OF MILK PRODUCTIVITY OF COWS UKRAINIAN RED-AND-WHITE DAIRY CATTLE AND UKRAINIAN BLACK-AND-WHITE DAIRY CATTLE AND HOLSTEIN BREEDS IN SERF «OLEKSANDRIVSKE»

2016 ◽  
Vol 52 ◽  
pp. 6-12 ◽  
Author(s):  
M. V. Gladiy ◽  
G. S. Kovalenko ◽  
S. V. Priyma ◽  
G. A. Holyosa ◽  
A. V. Tuchyk ◽  
...  
Keyword(s):  
Dairy Cattle ◽  
Dairy Cows ◽  
Milk Yield ◽  
Fat Content ◽  
Holstein Cows ◽  
Milk Productivity ◽  
Black And White ◽  
The Third ◽  
Fat Yield ◽  
Selection Of

The main goal of dairy breeds selection should be improving breeding and productive qualities of animals under modern conditions. The majority of farms, using native breeds to produce milk, has created optimal conditions for keeping and feeding, selection and matching, growing of replacements etc. Further improvement of created native dairy breeds for economically useful traits occurs at total use of purebred Holstein bulls (semen) of foreign selection. In order to realistically assess milk productivity (milk yield, fat content in milk and fat yield) of Ukrainian Black-and-White and Red-and-White Dairy cows should be conducted a comparative analysis of Holstein cows under the same conditions of feeding and keeping. It was established that Ukrainian Red-and-White Dairy cows were characterized by the highest milk yields for 305 days of all lactations, taken into account, the among three investigated breeds. Their milk yield during the first lactation was 5933 kg of milk, during the second – 6393 kg, the third – 6391 kg and during higher lactation – 6650 kg. Ukrainian Black-and-White Dairy cows were second by milk yield (except for the second lactation), during the first lactation – 5932 kg of milk, the third – 6462 kg and higher – 6541 kg, and Holstein cows were third, during the first lactation – 5794 kg of milk, the second – 6381 kg, the third – 6335 kg and higher – 6469 kg. The fat content was almost the same and varied within 3.49-3.58% in milk of Ukrainian Red-and-White Dairy cattle, 3.50-3.60% in milk of Ukrainian Black-and-White Dairy cattle and 3.50-3.56% in Holsteins’ milk. The difference between the breeds was within 0.01-0.04%. All the investigated breeds had predominance in fat yield for three lactations over standards of these breeds: Ukrainian Red-and-White Dairy cows from 75.1 to 93.4 kg, Ukrainian Black-and-White Dairy cows – 75.1-89.0 kg respectively and Holstein cows – 41.9-60.2 kg. It was found different level of positive correlation between milk yield and fat yield in all the cases and high correlation (r = 0.604-0.921, P < 0.001) in five cases (41.7%) Negative correlation coefficients indicate that selection of animals to higher milk yield in the herd will decrease the second trait – fat content in milk. Positive and highly significant correlation between milk yield and fat yield indicates that selection of cows in the herd to higher milk yields will increase fat yield. It was revealed that bulls were among the factors impacted the milk productivity (milk yield, fat content, fat yield) of three investigated breeds. So, the force (η²x) of father’s impact on milk yield was15.4-47.9%, fat content – 22.0-43.4% and fat yield – 14.9-47.7% taking into account a lactation and a breed. The force of lines impact (η²x) was second; it was on milk yield 6.1-24.5%, fat content – 4.1-17.1 and fat yield – 5.8-23.5%. The force of breeds impact (η²x) was last; it was on milk yield 0.3-2.9%, fat content – 0.2-0.3% and fat yield – 0.6-2.7%. So, the comparative studies of milk productivity of Ukrainian Red-and-White and Black-and-White Dairy cattle with Holsteins indicate that under similar conditions of feeding and keeping, these native breeds can compete with Holstein cattle. The milk yield for 305 days of higher lactation was 6650 kg of milk in Ukrainian Red-and-White Dairy cows, 6541 kg in Ukrainian Black-and-White Dairy cows and 6469 kg in Holsteins. It was found the inverse correlation r = -0.025-0.316 between milk yield and fat content in milk in most cases. Selection and matching of animals in the herd should be carried out simultaneously on these traits. It was found positive repeatability of milk yields between the first and second, the third and higher lactations (rs = 0.036-0.741), indicating the reliability of forecasting increase in milk productivity during the next lactations in all herd. Bulls have the greatest impact (η²x) on milk productivity among the factors taken into account: milk yield – 15.4-47.9%, fat content in milk – 22.0-43.4% and fat yield – 14.9-47.7%.

scholarly journals The chemical composition and technological properties of milk obtained from the morning and evening milking

2008 ◽  
Vol 56 (5) ◽  
pp. 187-198 ◽  
Author(s):  
Martin Skýpala ◽  
Gustav Chládek
Keyword(s):  
Protein Content ◽  
Milk Yield ◽  
Milk Fat ◽  
Protein Production ◽  
Milk Protein ◽  
Fat Content ◽  
Total Solids ◽  
Milk Protein Content ◽  
Solids Content ◽  
Morning Milk

Milk yield varies during lactation, following what is termed a lactation curve. ŽIŽLAVSKÝ and MIKŠÍK (1988) recorded changes in milk yield within a day, too. TEPLÝ et al. (1979) a KOUŘIMSKÁ et al. (2007) published variation within a day ± 1.10 kg in milk yield, ± 0.75 % in milk fat content and ± 0.20 % in milk protein content. Milk yield of cows can be expressed in many different ways, for instance, in kilograms per lactation or in kilograms per day. A practical parameter describing milk production is milk yield (kg) per milking.The object of experiment were 12 cows of Holstein cattle on the first lactation from the 100-day of lactation to 200-day of lactation. The samples of milk were collected from January to May 2007, once a month from the morning and evening milking (milking interval 12 h ± 15 min.). The following parameters were monitored: milk production – milk yield (kg), milk protein production (kg), milk fat production (kg); milk composition – milk protein content (%), milk fat content (%), lactose content (%), milk solids-not-fat content (%), milk total solids content (%); technological properties of milk – ti­tra­tab­le acidity (SH), active acidity (pH), rennet coagulation time (s), quality of curd (class) and somatic cell count as a parameter of udder health.Highly significant differences were found (P < 0.01) between morning milk yield (15.7 kg) and evening milk yield (13.8 kg), between morning milk protein production (0.51 kg) and evening milk protein production (0.45 kg) and between evening milk fat content (4.41 %) and morning milk fat content (3.95 %). A significant difference (P < 0.05) was found between morning milk total solids content (12.62 %) and evening milk total solids content (12.07 %). No significant differences were found between morning (M) and evening (E) values of the remaining parameters: milk fat production (M 0.62 kg; E 0.60 kg), milk protein content (M 3.24 %; E 3.27 %), milk lactose content (M 4.78 %; E 4.86 %), milk solids-not-fat content (M 7.69 %; E 7.71 %), somatic cell count (M 80 000/1 mL; E 101 000/1 mL), titratable aci­di­ty (M 7.75 SH; E 7.64 SH), active acidity (M pH 6.58; E pH 6.61), rennet coagulation time (M 189 s.; E 191 s.), quality of curd (M 1.60 class; E 1.57 class).

scholarly journals ESTIMATION OF HOLSTEIN BREED BULLS BY DAIRY PRODUCTIVITY OF THEIR DAUGHTERS

2020 ◽  
Vol 59 ◽  
pp. 26-34
Author(s):  
S. L. Voitenko ◽  
O. V. Sydorenko
Keyword(s):  
Milk Yield ◽  
Phenotypic Variability ◽  
Milk Productivity ◽  
Paternal Origin ◽  
Black And White ◽  
Holstein Breed ◽  
The Third ◽  
Holstein Bulls ◽  
The Difference ◽  
Dairy Breed

The scientific community has shown that the genetic improvement of dairy cattle depends on many genotypic factors, including paternal ancestry and lineage. With this in mind, the purpose of our research was to evaluate the Holstein bulls of black-and-white and red-and-white suits of different lines for the milk productivity of their daughters. The research was carried out on the basis of primary breeding records of 10 breeding herds of Ukrainian Black-and-White Dairy breed, 3 – Ukrainian Red-and-White Dairy breed and one – Ukrainian Red Dairy breed, which are subordinated to NAAS. Cows of the studied breeds has divided into groups according to lineage and paternal origin. Studies have revealed a significant differentiation of milk yield of cows of the first and highest lactation not only of one breed, but also of linear affiliation and paternal origin. It was found that the yield of the first lactation in cows of the Ukrainian Black-and-White Dairy breed varied from 3211 kg (Damir 7100354042) to 7884 kg (Dzhokus 113080315) of milk. Noteworthy are the daughters of Dzhokus 113080315, from which 9143 kg of milk were obtained for higher lactation, Polyarsten 342347941 and Manteno 344222859 – 8248 kg and 8290 kg of milk, respectively. The significant influence of paternal origin on the yield of Ukrainian Black-and-White Dairy breed cows of the first and higher lactation (31.0%; P > 0.999) and 37.3% has been proved; P > 0.999). The influence of genealogical formation on the milk productivity of cows was significant and amounted to 10.8% for the first lactation, higher – 10.2%. Some of the first-born Ukrainian Black-and-White Dairy breed has characterized by high milk productivity, which steadily increased until the third and higher lactation. The yield of cows of the Ukrainian Red-and-White Dairy breed of the first lactation varied from 5414 kg (Dialog 2009) to 6689 kg (Larets 6177), testifying to better homogeneity of herds in terms of milk productivity compared to the Ukrainian Black-and-White dairy breed. The highest yield of the third and highest lactation – 7626 kg, had cows-daughters of the bull Roman 660886883 Starbuck line 352790. The variability of milking cows of Ukrainian Red-and-White Dairy breed of the first and highest lactation by 25.0% and 15.2%, respectively, was due to the influence of the father offspring and to a lesser extent – belonging to the line. A very high (6517–8013 kg) realization potential of milking cows of the Ukrainian Red Dairy breed was established, but it also depended on the paternal origin and linear affiliation. The highest yield of the first lactation were shown by the daughters of the bull Belisar 365235897, Dzhorin 114414759 and Tumpi 112367468, who produced 8013 kg, 7323 kg and 7170 kg of milk, respectively. In cows of this breed it was found that yield increased with increasing serial number of lactation, with the third and higher lactation cows produced more than 8000 kg of milk per lactation, and the daughters of bull Dzhorin 114414759 – more than 9000 kg. The influence of the bull on the milk productivity of the first-born cows of the Ukrainian Red Dairy breed (16.7%; P > 0.999) is almost three times higher than this linear affiliation. Significant phenotypic variability of milk productivity of cows of different breeds of half-sisters by the father is established. The advantage of the daughters of the bull Belisar 365235897 of the Ukrainian Red Dairy breed on milking of the first lactation over the representatives of the Ukrainian Red-and-White Dairy breed was 1932 kg (p < 0.001). The difference in milk yield of the first lactation of the half-sisters by the father, the bull Konbeo 579810507 was 1007 kg (p < 0.01), and Roman 660886883 – 717 kg. Thus, a significant phenotypic variability of milk productivity of cows of different breeds of half-sisters by father was established. At the same time, regardless of the breeder, the cows of the Ukrainian Red Dairy breed were characterized by higher milk yield of the first lactation in comparison with the Ukrainian Red-and-White Dairy breed.

scholarly journals USING A MARKER-BASED SELECTION IN BREEDING OF DAIRY CATTLE OF DIFFERENT BREEDS

2019 ◽  
Vol 51 (3) ◽  
pp. 42-47
Author(s):  
E.E. Egorashina ◽  
◽  
R.V. Tamarova ◽  
Keyword(s):  
Dairy Cattle ◽  
Milk Yield ◽  
Cattle Breeding ◽  
Manufactured Products ◽  
Ayrshire Breed ◽  
Dairy Cattle Breeding ◽  
The Difference ◽  
Protein Milk ◽  
Beta Lactoglobulin

Dependence on imports of main food products remains unchanged in the Russian Federation. Government programms set goals to increase quantity as well as quality of manufactured products. It is possible due to the introduction of a DNA technology into dairy cattle breeding. Reliable genetic markers of a cow protein milk ability are kappa casein and beta-lactoglobulin. We have studied milk proteinpolymorphism, genotype combinations in interconnection with milk ability and breed for the Ayrshire, Holstein and Holstein-Yaroslavl cross breed cows. It was found that in the same conditions and with the balanced feeding differences in milk yield and quantity of fat in milk among breeds are statistically unreliable while in milk protein quantity the difference is highly reliable D ≥ 0,999. There is high occurrence frequency of A kappa casein allele (0,74– 0,93) and low of kappa casein allele B (0,07–0,12), especially in case of the Ayrshire breed. B-allele of beta-lactoglobulin in the genotype of all cows is seen with the frequency of 0,58–0,70, A-allele is average (0,30–0,42). In order to increase the protein milk ability of the cows farms are to use more Ballele kappa-casein servicing bulls. Target breeding according to this characteristic as well as milk yield is also recommended.

scholarly journals EVALUATION OF THE FAMILIES OF DAIRY HERD BY THE PRODUCTIVITY AND BREEDING VALUE

2019 ◽  
Vol 58 ◽  
pp. 58-66
Author(s):  
E. I. Fedorovych ◽  
S. I. Fyl ◽  
P. V. Bodnar
Keyword(s):  
Protein Content ◽  
Milk Yield ◽  
Heritability Estimate ◽  
Dairy Herd ◽  
Fat Content ◽  
Breeding Value ◽  
Joint Stock Company ◽  
Stock Company ◽  
Accounting Data ◽  
Black And White

Effective interbreed selection, which involves family breeding, is an important task today, because the presence of valuable families characterizes the degree of herd selectivity and the level of breeding in it. Therefore, the purpose of our research was to conduct a retrospective analysis of the zootechnical accounting data of dairy productivity and breeding value of cow families at highly productive herd of Public joint-stock company “Stud farm “Stepnoy”, in Kamyansko-Dniprovskyy district of Zaporizhzhya region created by crossbreeding of the females of the Ukrainian Black-and-White dairy breed with Holstein breeders. The analysis included 45 families, with a head count of 8 to 19 heads, including foundation cows. Malta family UA2300205993 had the maximum number of descendants (6 daughters, 6 granddaughters and 6 great-grandchildren), and Malta family UA2300241359 (3 daughters and 3 granddaughters) – minimal. Found to be that the families under control were characterized by a significant level of differentiation in milk yield and fat and protein content in milk. The Mazi family UA230023375 was the best by milk yield, the Lemonka family UA2300233684 – by the fat in milk, by the protein in milk – Nasypa UA2300222571. At the same time, foundation cow Kviten UA2300077306, Nasypa UA2300222571, Yana UA2300248883, Lamysta UA2300198909 and Sokyra UA2300241365 had the most highly productive daughters; their milk yields for higher lactation was in the range 11143.5–12780.0 kg. At the same time high-productive foundation cows did not always receive high-productive daughters. In particular, 3 daughters of the foundation cow Krovlya UA2300229133, whose milk yields for higher lactation was 12671 kg, had lower milk yields by an average of 2704.7 kg. However, foundation cows with low milk yields level had daughters who had this rate significantly higher, including the foundation cow Kviten UA2300077306, Toskana UA2300077167, Liga UA2300034958, Maket UA2300241388 and Manilka UA2300233701, whose highest milk yields level for the highest lactation was in the range 5625–7701 kg, and ho had daughters whose milk yield was higher than their mothers by an average of 4858.5; 3975.3; 3704; 3299.5 and 3186.7 kg respectively. The granddaughter of the experimental foundation cows ranged from 8413.0 to12942.6 kg, fat content in milk – from 3.50 to 4.13% and protein content in milk – from 3.05 to 3.29%, and the figures of great-grandchildren were respectively 7114.0–11991.3 kg, 3.49–3.92% and 3.00–3.29%. It should be noted that 15 foundation cows gave granddaughters with an average milk yield of over 10000 kg, 13 with a milk yield more than 11000 and 3 – with a yield of more than 12000 and only 2 foundation cows had second generation descendants with an average yield of less than 9000 kg. The grandchildren of 14 foundation cows had over 10000 kg of milk yields, and 7 over 11000 kg. The breeding value of the foundation cows by the milk yields was within -497 (Liga UA2300034958) – +1614.4 kg (Tsykl UA2300233484), by the fat content in milk – within -0.098 (Hanh UA2300233710) – +0.280% (Stezhka UA2300205863) and by the protein content of milk within -0.073 (Maket UA2300241388) – +0.053% (Stezhka UA2300205863), breeding value by the above indicators of their daughters were accordingly within -554.9 – +819.3 kg, -0.065 – +0.095% and -0.038 – +0.045%, granddaughters – within -326.3 – +786.2 kg, -0.048 – +0.145% and -0.033 – +0.025% and to a great-granddaughters – within -670.5 – +590.3 kg, -0.067 – +0.043 and -0.043 – +0.030%. The most valuable in the herd relation by milk yield appeared to be Mazi family UA2300233755, Lemonka family UA2300233684 – by the fat content in milk and by the protein content in milk – the Nasypa family UA230022257. Among evaluated families by the nature of changes in breeding values in generations 31 (68.9%) were progressive, 4 (8.9%) were stable and 10 (22.2%) regressive. The prediction of the efficiency of dairy cattle breeding and prediction of certain changes by the productivity indices of subsequent generations can be made by correlation and regression coefficients of the main features: milk yield, fat content, and protein content in milk. The highest and most likely coefficients of correlation (r = 0.39) and regressions (R = 0.42) were observed between the milk yield of foundation cows families and their daughters. Each succeeding generation had declined and the indices of descendants of the third generation were unreliable. Influence of foundation cows in future generations, depending on the generation and nature of the features of milk productivity, was also different. Milk yield (h2 = 0.26–0.79) was characterized by the highest and most reliable heritability estimate, much lower and unreliable in the second and third generations – the fat (h2 = 0.10–0.22) and protein content in milk (h2 = 0.12–0.24). It indicates that in the controlled herd more attention is paid to milk yield focus breeding. Therefore, to improve family fat and protein content in milk it should be used breeders whose mothers have high fat and protein content in milk.

VARIABILITY OF POPULATION-GENETIC PARAMETERS OF EXTERIOROF COWS IN SUMY INTERBREED TYPE OF UKRAINIAN BLACK-AND-WHITE DAIRY CATTLE

2016 ◽  
Vol 52 ◽  
pp. 144-149 ◽  
Author(s):  
S. L. Khmelnyhcyy
Keyword(s):  
Dairy Cattle ◽  
Milk Yield ◽  
Correlation Coefficients ◽  
The Body ◽  
Mass Selection ◽  
Black And White ◽  
Body Conformation ◽  
Chest Girth ◽  
Efficient Selection ◽  
Dairy Breed

The study of variability of population-genetics parameters of cows’ exterior was conducted on the livestock number of Sumy interbreed type of Ukrainian Black-and-White Dairy breed in the pedigree farm Pidlisnivskа branch of PJSC «Rise-Maksymko», Sumy district. The level of positive correlation coefficients and their reliability showed that milk yield of first-calf heifers in the experimental herd to the greatest extent depended on the height at withers (r = 0.458) and rump (r = 0.324), depth of chest (r = 0.375) latitudinal measurements of backside (r = 0.263-0.375), body length (r = 0.303) and chest girth (r = 0.388). With age, the relation between the measurements of body conformation and the amount of milk yield of first-calf heifers in this direction remains, but with a slight decrease of correlation coefficients that can be the result of natural growth of age variability of exterior traits under the influence of ontogenetic regularities of development and paratypical factors. Analysis of inheritance coefficients of the body conformation measurements of the estimated cows of Sumy innerbreed type of Ukrainian Black-and-White Dairy breed showed their genotypic variability, which varied within the recorded lactations. In the pedigree farm a sufficient, reliable according to Fisher criterion, level of inheritance coefficients was found, which would provide appropriate effectiveness of mass selection on the measurements of height at withers and rump, depth of chest, latitudinal measurements of backside which were different in the first and second lactations. Somewhat lower and less reliable levels of the inheritance coefficients of body measurements traits were obtained from cows according to the third lactation, which is explained, in a certain way, increasing age variability of the estimated traits. The level of correlation of the measurements with milk yield allows to perform indirect selection by type, and the figures of inheritance of the measurements confirm the possibility of efficient selection of dairy cattle at the age of the first lactation with the aim of improvement of exterior for the herd and breed.

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