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1. Genetic And Phenotypig Trends In Some Performance Traits Of Kajlli Sheep

by Farman Ullah | Prof. Dr. Khalid Javed | Prof. Dr. Muhammad Abdullah.

Material type: book Book; Format: print Publisher: 2011Dissertation note: Kajli sheep is one of the native breeds and is found in the irrigated areas of central Punjab (Districts of Sargodha, Khushab, Gujrat, Mandi Baha-ud-Din, and Mianwali). Kajli sheep is mostly raised for mutton, wool and occasionally for milk production. Wide variation exists in various production and reproduction traits of Kajli sheep which indicates a great scope of improvement in these traits of economic importance. Any program of breed improvement is based on maximum exploitation of genetic variation. The potential of genetic improvement largely depends on genetic variation of the trait and its relationship with the other traits. Knowledge of heritability, repeatability and correlations among various traits is essential for formulating efficient breeding plan and selection strategies. Objective of this study is to evaluate the performance of a purebred flock of Kajli sheep maintained at Livestock Experimental Station Khushab and Livestock Experimental Station Khizrabad (Sargodha). Data on performance traits as Birth weight, Weaning weight, Yearling weight and Greasy fleece weight from 1994 to 2009 were collected, An effort was made to determine the effect of all environmental and non genetic factors on the performance of animals. For this purpose LSMLMW computer program was used. The genetic parameters i.e., heritability, and phenotypic and genetic correlations among various traits will be estimated. The breeding values for different traits were estimated for comparative ranking of animals. Phenotypic and genetic trend lines were drawn to assess the selection success in previous generations of Kajli sheep. These analyses were done using DFREML computer soft ware which is s pecially designed for the estimation of variance components. The information so generated will ultimately be helpful in developing future breeding plans for genetic improvement of Kajli sheep in Pakistan. The birth and weaning weight in this flock averaged 4.16±0.0Ikg and 18.70±0.08 kg whereas yearling weight was 37.52±0.06 kg. The pre weaning average daily gain was 142.34±0.83 gms. Birth weight varied significantly due to years, season, sex, type of birth and flock. Data showed non- significant interaction between sex and type of birth. Analysis of variance revealed significant effect of year of birth and season of birth on weaning weight. However, the difference due to sex is non-significant. Type of birth and age of the dam were significant. Effect of weaning age of the lambs on weaning weight was also significant, whereas, birth weight had a non significant effect (P<0.05) on weaning weight. The variation in body weight due to year, sex, and season of birth were significant (P<0.05).Whereas, effect of flock and type of birth were non- significant. Weaning age of the lambs and birth weight had a non significant (P<0.05) effect on yearling weight whereas weaning weights of the lambs had significant effects on the trait under consideration. The analysis of variance revealed that year and season of birth and birth type showed significant effect on pre weaning average daily gain while sex had non-significant effect on the trait. The regressions of weaning weight and birth weight on pre weaning average daily gain were significant (P<O.OI). The estimates of heritability for birth weight, weaning weight, yearling weight, pre-weaning average daily weight gain, and greasy fleece weight were 0.054±0.019, 0.069±0.016, 0.015±0.020, 0.056±0.016, and 0.170±0.060 respectively. The low heritability estimates indicated the presence of less additive genetic variance and large environmental variance. Hence, improvement in the traits through selection may be limited. The estimated breeding values for Khizerabad farm were, for birth weight from -0.205 to 0.164 kgs in males. The corresponding values were from -0.149 to 0.180 kgs in females. The estimated breeding value for weaning weight ranged from -1.029 to 1.822 kgs in males and corresponding values were from -1.205 to 1.555 kgs in females. The breeding value estimated for yearling weight was -0.152 to 0.285kg in males and -0.159 to 0.224kg in females. The estimated breeding value for pre weaning growth rate was -0.194 to 0.212 gms in males and -0.174 to 2.00 gms in females, and for greasy fleece weight it was -0.247 to 0.708 kgs and -0.429 to 0.575 kgs in males and females respectively. The estimated breeding values for Khushab farm were, for birth weight from -0.157 to 0.173 kgs in males. The corresponding values were from -0.148 to 0.145 kgs in females. The estimated breeding value for weaning weight ranged from -1.478 to 0.284 kgs in males and corresponding values were from -0.976 to 1.923 kgs in females. The breeding value estimated for yearling weight was -0.198 to 0.176 in males and -0.166 to 0.170 in females. The estimated breeding value for pre weaning growth rate was -0.281 to 0.195 gms in males and -0.205 to 0.148 gms in females, and for greasy fleece weight it was -0.380 to 0.706 kgs and -0.267 to 0.590 kgs in males and females respectively. The estimated breeding values for sire in Khizerabad farm were, for birth weight ranged from -0.169 to 0.164 kgs. The estimated breeding value for weaning weight ranged from -1.029 to 1.694 kgs. The breeding value estimated for yearling weight was -0.151 to 0.285 kgs. The estimated breeding value for pre weaning growth rate was -0.190 to 0.212 gms, and for greasy fleece weight it was -0.146 to 0.520 kgs. The estimated breeding values for sire in Khushab farm were, for birth weight ranged from -0.157 to 0.173 kgs. The estimated breeding value for weaning weight ranged from -1.478 to 2.846 kgs. The breeding value estimated for yearling weight was - 0.198 to 0.176 kgs. The estimated breeding value for pre weaning growth rate was -0.281 to 0.195 gms, and for greasy fleece weight it was -0.335 to 0.706 kgs. The genetic trends for birth weight in Kajli sheep showed decreasing trend and phenotypic trend was fluctuating, whereas, the genetic and phenotypic trend for weaning weight showed fluctuating trend. For yearling weight genetic and phenotypic trend was also observed which show fluctuation, pre weaning growth rate also not statistic. The phenotypic trend for greasy fleece yield showed little increasing trend. Availability: Items available for loan: UVAS Library [Call number: 1345,T] (1).

2. Effect Of Yeast On Growth, Milk Yield And Its Composition In Beetal Goats

by Muhammad Jawad Khan | Mr. Nisar Ahmad | Prof. Dr | Prof. Dr. Khalid Javed.

Material type: book Book; Format: print ; Literary form: drama Publisher: 2012Dissertation note: During last few years, rate of the use of yeast in dairy animals feed had greatly been increased. The use of live yeast culture (Saccharomyces cerevisiae) in feed of ruminants and especially of goat is being used throughout the world. The effect of the live yeast culture (Saccharomyces cerevisiae) in vitro and in vivo conditions may vary widely. Yea-Sacc1026 is a live yeast culture which consists of Saccharomyces cerevisiae strain 1026, a yeast strain specially selected for its influence on animal performance. Yea-Sacc1026 is ideal for beef, dairy, calf and equine feeds. In the present study, eighteen lactating Beetal goats each having approximately same body weight and age, were selected from the flock. These goats were randomly divided into three groups A, B and C of six animals in each group. All the animals were offered similar concentrate ration @ 500gm/day to meet their daily requirements. Alltech's product "Yea Sacc" was added in the concentrate ration of lactating Beetal goats. In group Aeach goat was fed @500 gm concentrate ration (without treated with Yea Sacc) per day. In group B each goat was fed @ 500gm concentrate ration (treated with Yea Sacc @ 1.5 gm/goat) per day. In group C each goat was fed @ 500gm concentrate ration (treated with Yea Sacc @3gm/goat) per day. The effects of Yea Sacc on milk production, milk quality, weight gain and dry matter intake were evaluated.The mean milk production of goats treated with yeast in groups A, B and C were 0.6417 ± 0.067, 0.8600 ± 0.066and 1.0267± 0.146litters, respectively. The analysis of variance of experimental groups was significant between groups. The mean milk fat percentage of goats treated with yeast in groups A, B and C were 4.3133± 0.004, 4.4417± 0.010 and 4.5900± 0.042 % respectively. The analyses of variance of experimental groups were significant between groups. The mean milk protein percentage of goats treated with yeast in groups A, B and C were 3.1167± 0.014, 3.2783± 0.012 and 3.2867± 0.003%, respectively. The analysis of variance of experimental group are non significant between treated groups. The mean milk lactose percentage of goats treated with yeast in groups A, B and C were3.6083± 0.014, 3.6400± 0.006and 3.6583± 0.006%, respectively. The analyses of variance of experimental groups were significant between treated group and group A. The mean milk ash of goats treated with yeast in groups A, B and C were0.5100± 0.004, 0.5300± 0.004and 0.5483± 0.014 %, respectively. The analyses of variance of experimental groups were significant between the treated groups and group A. The mean milk total solid of goats treated with yeast in groups A, B and C were 11.5483± 0.018, 11.8983± 0.013and 12.0750± 0.005%, respectively. The analyses of variance of experimental groups were significant between group A and group C. The mean weight gain of goats treated with yeast in groups A, B and C were 0.218 ± 0.010, 0.285 ± 0.031 and 0.442 ± 0.019 kg, respectively. The analysis of variance of experimental group were significant between the treated groups and group A while non significant between group A and group B. The mean dry matter intake of goats treated with yeast in groups A, B and C were1.2133± 0.008, 1.2183± 0.012and 1.2383± 0.014%, respectively. In above experiment group C animals were fed 3 gm yeast had shown high milk production, fat %, protein %, lactose %, ash %, total solid %, weight (kg) and dry matter intake (kg) than other groups. Data on milk yield, composition, growth rate and dry matter intake of Beetal goats were evaluated. The data obtained was analysed through one way analysis of variances of (ANOVA) (Steel et al. 1997). The difference among treatment means were tested through least significance difference (L.S.D) (Steel et al, 1997). Availability: Items available for loan: UVAS Library [Call number: 1527,T] (1).

3. Genetic Evaluation Of Teddy Goats In Pakistan

by Zulfiqar Hussan Kuthu | Prof. Dr. Khalid Javed | Prof. Dr. Masroor Ellahi Baber.

Material type: book Book; Format: print ; Literary form: not fiction Publisher: 2012Dissertation note: Data available on 20455 kidding and performance records of 5545 Teddy goats and progeny of 406 sires maintained as separate flocks at three different locations i,e (I) Livestock Experiment Station Rakh Ghulaman, District Bakkhar (1983-2008) (II) Livestock Experiment Station, Rakh Khariewala District Layyah (1971-2008) and (III) Livestock Experiment Station Chak Katora, District Bahawalpur (1975-2008) Punjab, Pakistan were analyzed for documenting both genetic and environmental sources which influence growth and reproductive traits. Breeding values of sires and does were estimated and genetic and phenotypic trends for various performance traits were drawn. The data was analyzed using the GLM procedure (General Linear Models) of the Statistical Analysis Systems (SAS, 2004) to study the influence of environmental sources of variation on various growth and reproductive traits. The genetic parameter estimation was done using REML procedure fitting an Individual Animal Model. Estimates of breeding values for various performance traits were also calculated by using BLUP. For these purposes WOMBAT software was used. The Least squares means for Age at first service, Age at first kidding, Weight at first service, weight at first kidding, services per conception, service period, kidding interval, birth weight, weaning weight, weight at six months, weight at nine months, yearling weight, pre-weaning daily gain, post-weaning daily gain at six months, post-weaning daily gain at nine months and post-weaning daily gain at twelve months the least squares means were 245.65±0.73 days, 14.07±0.01 kg, 394.14±0.76 days, 18.06±0 kg, 1.24±0.004, 153.58±0.73 days, 327.53±1.12 days, 1.66±0.03 kg, 9.59±0.01 kg, 11.70±0.02 kg, 16.69±0.02 kg, 21.03±0.03 kg, 70.21±0.16 grams, 31.39±0.08 grams, 45.25±0.03 grams and 45.95±0.02 grams, respectively. The percentage of single births was 43 percent, while multiple births were 57 percent. The sex ratio was 51:49 males and females. Year, sex, flock, and type of birth were main sources of variation on all the growth traits. The influence of season of birth was significant on yearling weight; however its effect on weight at six and nine months was non-significant. A significant influence of (p<0.01) birth and weaning weight was noticed on weight at 6, 9, 12 months and on post-weaning daily gain at 6,9 and 12 months. A significant effect (p<0.01) of year, birth weight and weight at service were observed on age of does at first service, while the seasonal and flock effect on the trait was non-significant. The influential environmental sources of variation on weight of does at first service were year, season and age at first service(p<0.01). A significant effect (p<0.01) of year, season, type, age and weight at service on age and weight at first kidding was noticed. The influence of year of service, flock, age and weight at service on services per conception was significant (p<0.01); however, effect of season of service on the trait was non-significant. A highly significant effect (p<0.01) of year and season of service, services per conception and weight at service were observed on service period. A significant effect (p<0.01) of year and season on kidding interval was noticed. The effect of flock was non-significant on the trait, however, age and weight at kidding had a significant effect (p<0.05) on the service period and kidding interval. The heritability estimates for birth weight, weaning weight, weight at six, nine and twelve (yearling) months, pre-weaning daily gain, post-weaning daily gain at six, post-weaning daily gain at nine, post-weaning daily gain at nine, post-weaning daily gain at twelve months, age at first service, weight at first service, age at first kidding, weight at first kidding, services per conception, service period and kidding interval were 0.28±0.23, 0.23±0.32, 0.19±0.42, 0.09±0.01 and 0.12±0.01, 0.21±0.32, 0.17±0.42, 0.12±0.02, 0.15±0.01, 0.19±0.22, 0.21±0.01, 0.19±0.04, 0.20±0.04, 0.07±0.01, 0.06±0.05 and 0.05±0.03, respectively. The repeatability estimates for birth weight, weaning weight, services per conception, service period and kidding interval were 0.53±0.02, 0.38±0.01, 0.02±0.05, 0.01±0.04 and 0.05±0.03, respectively. The estimates of genetic, Phenotypic and environmental correlations between birth weight and other growth traits were; weaning weight 0.61, 0.20 and 0.19, with weight at six months 0.39, 0.24 and 0.23, with weight at nine months 0.25, 0.38 and 0.36, with yearling weight 0.29, -0.01 and -0.02 and with pre-weaning daily gain 0.55, 0.31 and 0.29, respectively, while corresponding values for correlations between weaning weight and other growth traits were; with weight at six months 0.29, 0.19 and 0.17, with weight at nine months 0.23, 0.27 and 0.25, with yearling weight 0.45, 0.29 and 0.27 and with pre-weaning daily gain 0.97, 0.68 and 0.65, respectively, while the corresponding values for these correlations between weight at six months and other growth traits were; with weight at nine months 0.71, 0.27 and 0.25 with yearling weight 0.64, 0.21 and 0.19 and with pre-weaning daily gain were 0.31, 0.33, 0.31, respectively. The values for these correlations between weight at nine months and other traits were; with yearling weight 0.79, 0.23 and 0.21, with pre-weaning daily gain 0.25, 0.39 and 0.37, with post-weaning daily gain at six months 0.72, 0.81 and 0.79, respectively, while the estimates of these three correlations between yearling weight and other traits were; with pre-weaning daily gain 0.47, 0.41 and 0.42 and with post-weaning daily gain at six months 0.65, 0.10 and 0.08, while the corresponding values between pre-weaning daily gain and other traits were; with post-weaning gain at six months were 0.34, 0.15 and 0.13, with post-weaning gain at nine months 0.22, 0.13 and 0.12 and with post-weaning daily gain at twelve months were 0.54, 0.17 and 0.14, respectively. The estimates of genetic, Phenotypic and environmental correlations between age at first serviceand other traits were; with weight at first service 0.22, 0.79 and 0.76, with age at first kidding 0.76, 0.97 and 0.91 and with weight at first kidding 0.34, 0.14 and 0.11, respectively, while the corresponding values for these correlations between weight at first service and other traits were; with age at first kidding 0.39, 0.81 and 0.80, with weight at first kidding 0.35, 0.22 and 0.21 and with weight at first kidding 0.82, 0.18 and 0.16, respectively. Analysis of pedigree records for coefficient of inbreeding revealed that number of animals being 4465 (42.61 percent) with an average inbreeding of 2.43 percent and the highest level being 46.48 percent. The number of non-inbred animals was 6014 (57.39%). Out of the total of 406 sires used 23 were found inbred having an average inbreeding coefficient of 3.125 percent. Most frequent value for this category of animals was zero. The highest number of animals 1531 (14.61 percent) had an inbreeding percentage between 0.1 to 3.125, while only 104 animals (0.99 percent) were found with inbreeding of more than 25 percent. Most of the growth traits were statistically better in non-inbreds as compared to inbreds except yearling weight and post-weaning weight gain at twelve months, in which the means of both the traits were similar in both the groups. Among reproductive traits, age at first serviceand kidding, services per conception, service period and kidding interval were also statistically better in non-inbreds as compared to inbreds, while weight at first service and kidding interval were similar in both the groups. The ranges for estimated breeding values for different traits were, birth weight (-0.18 to 0.08 kg), weaning weight (-0.61 to 0.40 kg), weight at six months (-0.27 to 0.11 kg), weight at nine months, (-0.07 to 0.09 kg), yearling weight (-0.12 to 0.18 kg), pre-weaning daily gain (-0.30 to 1.20 grams), post-weaning daily gain at 6 months (-0.74 to 1.27 grams), post-weaning daily gain at 9 months (-0.32 to 0.57 grams), post-weaning daily gain at 12 months (-1.08 to 1.57 grams), age at first service(-43.23 to 58.06 days), weight at first service (-0.55 to 1.07 kg), age at first kidding (-53.31 to 48.34 days), weight at first kidding (-1.19 to 3.50 kg), services per conception (-0.18 to 0.16), service period (-7.07 to 9.80 days) and kidding interval (-13.23 to 20.89 days), respectively. The genetic trend in both birth weight and weaning weight showed an increasing trend during the period of study, while the genetic trend in weight at six, nine and twelve (yearling) months had no significant trend and fluctuated in the vicinity of zero. It is envisaged from the present study that over the 34 years period selection remained ineffective to bring the desired changes and it will remain so if random use of breeding animals is practiced. The possible use of ineffective selection could be unavailability of efficient techniques for the evaluation of animals and incorrect performance recording etc. It is therefore, necessary to correct all these discrepancies by taking corrective measures as discussed above. The following corrective measures may be a first step towards a goal oriented breeding policy. 1. The animals kept mainly for producing meat, the single most important factor is reproductive rate, which contributes to the efficiency of production (Shelton 1978). The most striking feature of sheep and goat enterprise is the ability to breed, off-season. Teddy goat is a non-seasonal breeder as kidding was observed throughout year with 36%, 19%, 25% and 20% kiddings recorded during spring, summer, autumn and winter, respectively, therefore a controlled breeding programme being practiced at times (as was observed during the present study at all the three stations) should not be advocated in any form at all and the desirable trait of non-seasonality should be the main pillar of a meat goat enterprise. 2. Although a higher percentage of abortions (70%) was observed in summer months but the percentage of dead births and mortality was almost equally distributed throughout the year, which indicates that better management of the flock during extremes of weather will results in less abortions and reduced mortality. 3. The high percentage of multiple births (57%) as against single births (43%) in teddy goats found in present study has backing of several studies, which showed that although there was slow growth rate in multiple births, yet they performed better by producing more total weight of kid weaned. Therefore prolificacy becomes a very important reproductive criteria and therefore emphasis should be selection of those animals with higher percentage of multiple births. 4. Environmental effects on productive and reproductive traits were significant; therefore through better management there are ample chances of improvement in these traits. 5. Low to medium heritability was recorded in all the growth traits, which offers scope for genetic selection. 6. Selection of animals to be the parents of future flock must be based on EBVs of growth traits. 7. Reproductive performance in present study was more than satisfactory. Early maturity which has been the main characteristic of Teddy breed was better as compared to many other breeds of the tropics (Beetal, Kamori, Jamunapari and Sirohi). Teddy goats were efficient than other breeds of the region when the means of the other reproductive traits like services per conception, service period and kidding interval were taken into consideration, however, room for improvement is still there. 8. Inbreeding in present study showed some increasing trend during the last five years and the percentage of animals kept on increasing during the last decade, therefore to control inbreeding a breeding plan with introduction of new blood from time to time is of utmost importance. Availability: Items available for loan: UVAS Library [Call number: 1582,T] (1).

4. Phenotypic And Genetic Aspects Of Some Performance Traits Of Buchi Sheep In Pakistan

by Maqsood Akhtar | Prof. Dr. Khalid Javed | Prof. Dr. Muhammad Abdullah.

Material type: book Book; Format: print ; Literary form: drama Publisher: 2013Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 1598,T] (1).

5. Characterization Of Linear Type Traits In Nili Rivei Buffaloes Of Pakistan

by Riaz Hussain Mirza | Prof. Dr. Khalid Javed | Prof. Dr. Muhammad Abdullah.

Material type: book Book; Format: print ; Literary form: drama Publisher: 2013Dissertation note: The present study on conformation recording of Nili Ravi buffaloes was planned because there was lack of studies on this aspect of Nili Ravi buffaloes. The main objective of the study was to document and characterize linear type traits in Nili Ravi buffaloes so that the buffaloes with proper body characteristics could be identified for selection and breeding programs. Nili Ravi buffalo herds maintained at Livestock Experiment Station Bhunikey, Pattoki, distt. Kasur, Livestock Experiment Station, Chack Katora distt. Bahawalpur, Livestock Experiment Station Haroonabad distt. Bahawalnagar, Livestock Experiment Station Khushab, distt. Khushab, Livestock Experiment Station Rakh Ghulaman distt. Bhakhar and some private breeders were utilized in this study. The guidelines for conformational recording of dairy cattle provided by the International Committee for Animal Recording (ICAR) were followed in this study. A total of 437 milking buffaloes were scored for linear type traits on a scale of 1-9. First scoring was performed within 15 to 90 days of calving and then each after about 90 days interval. Genetic parameters viz. heritabilities, phenotypic and genetic correlations were estimated using Best Linear Unbiased Prediction (BLUP) evaluation techniques. Influencing factors such as age of the buffalo at scoring, stage of lactation, parity, herd and season of scoring were included in the model. Individual Animal Model was fitted under Restricted Maximum Likelihood (REML) Procedure. Data were analysed using the mixed model procedure of the Statistical Analysis Systems. Genetic parameters were estimated fitting an Individual Animal Model using the ASREML set of computer programs. A total of 1180 records on different linear type traits and body measurements were generated over a scoring period of 2 years. Most of the average values for linear type traits were seen to fall under the intermediate category of 4-6. The means±SD for different linear type traits were found as 5.07±1.35, 5.23±2.35, 5.41±1.45, 5.76±0.98, 6.73±1.53, 4.91±1.85, 4.99±0.88, 4.99±0.90, 5.39±2.13, 4.78±1.1, 5.36±1.56, 4.91±1.84, 5.76±1.67, 3.58±0.88, 5.66±2.24, 6.42±0.88, 4.88±0.69, 4.92±1.08, 4.87±0.84, 5.34±1.79, 4.76±1.78, 5.97±0.94, 5.04±2.488, 5.15±1.65 and 6.44±1.03 for stature, chest width, body depth, angularity, rump angle, rump width, rear legs set, rear legs rear view, foot angle , fore udder attachment, rear udder height, central ligament, udder depth, front teat placement, teat length, rear teat placement, locomotion, body condition score, top line, bone structure, rear udder width, udder balance, teat thickness, thurl width, and temperament, respectively. A highly significant effect of herd was observed on all of the linear type traits (P< 0.0001). Effect of stage of lactation was found to be highly significant for udder conformation related traits. Parity was observed as a highly significant source of variation for some of the body traits including stature, body depth, body condition score and bone structure. However most of the udder related traits were affected by this factor. A non significant effect of parity was observed on chest width, angularity, rump angle, rump width, central ligament, locomotion, top line, udder balance, thurl width and temperament. A highly significant effect of season of scoring was observed on chest width, angularity, rump angle, rear legs set, rear legs rear view, locomotion and thurl width among body traits. However, stature, body depth, body condition score, top line, bone structure and temperament were not affected by season of scoring. Udder conformation traits including fore udder attachment, rear udder height, central ligament, rear udder width, and udder balance were affected by the season of scoring, however rest of the udder traits including udder depth, front teat placement, teat length, rear teat placement and teat thickness were not significantly different in different seasons. Significant linear effect of age of the buffalo at scoring was seen on most of the linear type traits. including stature, body depth, rear legs set, rear legs rear view, foot angle, fore udder attachment, rear udder height, central ligament, udder depth, teat length, body condition score, bone structure, rear udder width, teat thickness and thurl width. However, chest width, angularity, rump angle, rump width, front teat placement, rear teat placement, locomotion, top line, udder balance and temperament were not affected by linear effect of age. Quadratic effect of age was found as significant on most of the linear type traits except chest width, angularity, rump width, front teat placement, rear teat placement, locomotion, udder balance and temperament. Univariate heritability estimates of linear type traits were observed as for stature, 0.36±0.092; chest width, 0.10±0.081; body depth, 0.32±0.081; angularity, 0.06±0.071; rump angle, 0.15±0.071; rump width, 0.38±0.092; rear legs set, 0.02±0.07; rear legs rear view, 0.08±0.07; foot angle, 0.09±0.07; fore udder attachment, 0.21±0.07; rear udder height, 0.09±0.07; central ligament, 0.09±0.09; udder depth, 0.10±0.091; front teat placement, 0.11±0.091; teat length, 0.08±0.091; rear teat placement, 0.11±0.081; locomotion, 0.06±0.06; body condition score, 0.14±0.091; top line, 0.03±0.05; bone structure, 0.09±0.09; rear udder width, 0.15±0.09; udder balance, 0.16±0.07; teat thickness, 0.22±0.091; thurl width, 0.31±0.09 and temperament, 0.14±0.07, respectively. Some important positive phenotypic correlations of linear type traits with 305 days milk yield were observed as 0.18±0.04 for body depth, 0.15±0.04 for rump angle, 0.13±0.04 for rump width, 0.30±0.04 for rear udder height, 0.43±0.03 for central ligament, 0.16±0.03 for rear teat placement and 0.19±0.04 for rear udder width. Rest of the phenotypic correlations were very low. Considerable negative phenotypic correlations included -0.16±035 for body condition score, -0.15±0.04 for top line, -0.16±0.03 for front teat placement, -0.14±0.04 for udder depth and -0.26±0.04 for fore udder attachment. Most of the linear type traits showed positive but low genetic correlation with 305 days milk yield including 0.140±0.0001 with stature, 0.210±0.0001 with body depth, 0.11±0.0001 with rump angle, 0.19±0.0002 with rump width, 0.14±0.0001 with rear udder height, 0.20±0.000001 with central ligament, 0.14±0.0000001 with rear teat placement, 0.13±0.0001 with rear udder width, 0.14±0.0000001 with udder balance, 0.09±0.0001 with thurl width and 0.12±0.0000001 with temperament. Phenotypic and genetic correlations of most the linear type traits with score day milk yield were generally higher than with 305 days milk yield. Phenotypic correlations with score day milk yield were observed as 0.09±0.03 for stature, -0.21±0.03 for chest width, -0.05±0.04 for body depth, -0.17±0.03 for angularity, -0.12±0.03 for rump angle, -0.16±0.05 for rump width, -0.32±0.03 for rear legs set, -0.16±0.04 for rear legs rear view, -0.22±0.03 for foot angle, -0.34±0.03 for fore udder attachment, -0.16±0.04 for rear udder height, -0.16±0.04 for central ligament, -0.25±0.03 for udder depth, 0.06±0.04 for front teat placement, 0.008±0.03 for teat length, -0.19±0.04 for rear teat placement, -0.15±0.04 for locomotion, -0.22±0.03 for body condition score, -0.35±0.03 for top line, -0.08±0.04 for bone structure, -0.17±0.05 for rear udder width, -0.18±0.04 for udder balance, -0.20±0.03 for teat thickness, -0.11±0.04 for thurl width and -0.11±0.05 for temperament, respectively. Genetic correlations with score day milk yield were observed as 0.57±0.05 for stature, 0.09±0.02 for chest width, 0.31±0.04 for body depth, 0.06±0.02 for angularity, 0.15±0.03 for rump angle, 0.30±0.05 for rump width, 0.04±0.02 for rear legs set, 0.06±0.01 for rear legs rear view, 0.06±0.02 for foot angle, 0.10±0.02 for fore udder attachment, 0.18±0.03 for rear udder height, 0.12±0.02 for central ligament, 0.18±0.02 for udder depth, 0.60±0.06 for front teat placement, 0.23±0.03 for teat length, 0.07±0.01 for rear teat placement, 0.021±0.02 for locomotion, 0.12±0.02 for body condition score, 0.08±0.02 for top line, 0.08±0.03 for bone structure, 0.19±0.04 for rear udder width, 0.19±0.03 for udder balance, 0.095±0.02 for teat thickness, 0.12±0.02 for thurl width and 0.27±0.05 for temperament, respectively. Among body measurements, head related measurements included head length, horn diameter at base, length and width of ear and poll width and their average values were found as 54.13±3.48, 18.65±2.06, 29.5±2.12 and 18.66±1.22, and 30.95±2.35 cm, respectively. Average values for neck length and neck circumference were observed as 53.32±4.56 and 95.77±8.58 cm, respectively. The height and length of body was measured at different body points and average values were found as 139.56±6.29 cm for horizontal body length, 154.01±7.61 cm for diagonal body length, 135.77±4.4 cm for height at sacrum, 132.04±4.57 cm for height at withers, 130.77±4.61 cm for height at 6th rib position, 126.34±4.51 cm for height at last rib position, 128.89±4.83 cm for height at hook bone and 118.81±4.45 cm for height at pin bone. The average values for heart girth, paunch girth, sprung at 6th rib position and sprung at last rib position were resulted as 194.46±10.31, 238.52±13.96, 45.15±4.48 and 68.72±5.2 cm, respectively. Mean estimates for top wedge area, front wedge area and side wedge area were obtained as 3152.79±309.53, 1030.17±136.34 and 3105.07±345.26 cm2, respectively. The length of tail and its diameter at base was measured and its value averaged 103.51±12.55 and 22.41±2.005 cm, respectively. Average values of skin thickness at neck, ribs, belly and tail region were found as 4.16±1.16, 5.85±1.36, 7.34±1.49 and 1.71±0.55 mm, respectively. Mean values for some other traits included 43.52±2.582 cm for rump length, 3.12±0.56 cm for heel depth and 523.13±81.63 kg for body weight. It was observed that herd was a significant source of variation for all body measurement traits. Age of the buffalo at classification was a significant source of variation for all of the body measurements except horn diameter at base, poll width, tail length, skin thickness at tail and height at hook bone. Most of the body measurements have been found to be lowly to moderately heritable in the current study. Heritability estimates for various body measurements were observed as 0.16±0.09 for horn diameter at base, 0.38±0.04 for ear length, 0.06±0.09 for ear width, 0.25±0.091 for head length, 0.14±0.09 for poll width, 0.03±0.06 for neck circumference, 0.05±0.07 for neck length, 0.05±0.09 for body length, 0.05±0.09 for diagonal body length, 0.41±0.09 for tail length, 0.28±0.091 for tail diameter at base, 0.04±0.09 for skin thickness at neck, 0.02±0.09 for skin thickness at ribs, 0.10±0.09 for skin thickness at belly, 0.07±0.08 for skin thickness at tail, 0.11±0.09 for height at sacrum, 0.28±0.09 for height at withers, 0.22±0.092 for height at 6th rib position, 0.25±0.092 for height at last rib position, 0.18±0.091 for height at hook bone, 0.07±0.08 for height at pin bone, 0.04±0.06 for sprung at 6th rib position, 0.07±0.06 for sprung at last rib position, 0.13±0.09 for heart girth, 0.05±0.09 for paunch girth, 0.11±0.09 for top wedge area, 0.05±0.06 for front wedge area, 0.16±0.07 for side wedge area, 0.13±0.08 for rump length, 0.02±0.06 for heel depth and 0.33±0.07 for body weight. Phenotypic correlations of 305 days milk yield with various body measurements were in low range. Positive phenotypic correlations ranged from 0.02±0.04 for sprung at 6th rib position to 0.17±0.05 for ear length. Some of the important body measurements have positive phenotypic correlation with 305 days milk yield as 0.15±0.04 for head length, 0.04±0.04 for diagonal body length, 0.04±0.02 for height at withers, 0.11±0.03 for height at sacrum, 0.11±0.04 for sprung at last rib position, 0.04±0.04 for heart girth, 0.08±0.03 for rump length and 0.07±0.03 for body weight. Negative phenotypic correlations with 305 days milk yield ranged from -0.03±0.03 for side wedge area to -0.25±0.03 for horn diameter at base. Some important negative phenotypic correlations included -0.25±0.03 for horn diameter at base, -0.04±0.04 for neck circumference, -0.12±0.03 for skin thickness at neck and -0.08±0.03 for front wedge area. Positive phenotypic correlation with score day milk yield included 0.09±0.05 for body weight, 0.07±0.002 for rump length, 0.09±0.003 for sprung at last rib position, 0.09±0.005 for height at hook bone, 0.08±0.02 for height at sacrum. Rest of all the traits were low in correlation with milk yield. Negative phenotypic correlation with score day milk yield included horn diameter at base as -0.15±0.02 and heel depth as -0.13±0.04. Rest of all negative phenotypic correlations were very low. Positive genetic correlations of 305 days milk yield varied from 0.02±0.002 for ear width to 0.23±0.02 for side wedge area. Some important body measurements have positive genetic correlation values as 0.121±0.000001 for head length, 0.162±0.000001 for diagonal body length, 0.080±0.000001 for height at withers, 0.15±0.000001 for height at sacrum, 0.15±0.000001 for sprung at last rib position, 0.14±0.0005 for heart girth and 0.16±0.007 for body weight. Negative genetic correlation for this trait was observed only for skin thickness at neck region as -0.16±0001. About 40 traits regarding udder and teat measurements before and after milking were analysed. Average values for udder length, width, height, depth and circumference before milking were found as 52.65±6.87, 53.52±6.19, 54.34±4.99, 18.76±3.87, and 77.05±11.69 cm, respectively while the corresponding values for the same traits after milking were found as 47.08±6.57, 48.15±5.79, 55.39±5.15, 18.11±4.11 and 67.04±8.11 cm, respectively. Teat impression distances between front teats, rear teats, fore and rear teats from right side and fore and rear teats from left side were found as 12.46±3.01, 7.01±1.91, 8.08±1.8 and 7.71±1.75 cm, respectively. Pre stimulation and after milking teat characteristics were found as 12.93±3.12 and 11.71±2.83 cm for distance between front teats; 7.48±1.93 and 6.61±1.58 cm for distance between hind teats; 8.34±1.91 and 7.54±1.60 cm for distance between fore and hind teats of right side; 8.004±1.95 and 7.17±1.60 cm for distance between fore and hind teats of left side; 10.19±2.17 and 9.057±1.50 for diameter of fore right teat; 10.92±2.45 and 9.611±1.66 cm for diameter of rear right teat; 10.33±2.11 and 9.33±1.45 cm for diameter of fore left teat; 11.25±2.54 and 9.937±1.76 cm for diameter of rear left teat; 10.71±2.63 and 11.2±2.39 cm, for teat length of fore right teat; 13.05±3.27 and 13.13±3.03 for teat length of rear right teat; 11.09±2.71 and 11.88±2.61 cm for teat length fore left teat and 13.75±3.04 and 14.47±2.99 for teat length of rear left teat, respectively. All of the udder conformation traits before and after milking were highly significantly different in different herds (P<0.0001). Stage of lactation was found to be highly significant source of variation (P<0.0001) for before milking udder length, before milking udder height, average before milking udder circumference, after milking udder length, after milking average udder circumference, teat impression distance between fore, between rear and between fore and rear teats on both sides. However, before milking average udder width, before milking udder depth, after milking average udder width, after milking udder height and after milking udder depth were not affected by this factor. All of the above mentioned traits were significantly affected by parity except after milking udder depth and teat impression distance between fore teats and between rear teats. Season of scoring significantly affected before milking udder length (P<0.01), before milking average udder width (P<0.05), before milking average udder circumference (P<0.01), after milking average udder width (P<0.01), after milking average udder circumference (P<0.0001), teat impression distance between fore and hind teats of left side (P<0.05). Rest of all the traits were not significantly different in different seasons. Most of the udder traits were significantly affected by linear and quadratic effect of age of the buffalo at classification. Herd was a significant source of variation for all teat related traits recorded at pre stimulation before milking time. Stage of lactation significantly affected pre stimulation distance between front teats, pre stimulation distance between hind teats, pre stimulation distance between fore and hind teats on right and left side, pre stimulation diameter of fore right teat, pre stimulation teat length of fore right teat, pre stimulation teat length of rear right teat, pre stimulation teat length of fore left and rear left teat. However, pre stimulation diameter of rear right teat, pre stimulation diameter of fore left teat and pre stimulation diameter of rear left teat were not affected by this factor. All of these parameters were affected by parity except pre stimulation distance between hind teats and pre stimulation teat length of fore left teat. Similarly all of these traits were affected by season of scoring except pre stimulation distance between fore, between hind, between right and between left teats. All of teat characteristics after milking were significantly affected by herd. Stage of lactation significantly affected after milking distance between fore and hind teats of right side (P<0.05), after milking teat length of fore right and rear right teat (P<0.01), after milking teat length of fore left teat (P<0.05) and rear left teat (P<0.0001). Rest of all traits after milking were not affected by stage of lactation. Most of the teat parameters after milking were significantly affected by parity except after milking distance between front and between rear teats, after milking teat length of rear right teat and after milking teat length of fore left teat. Distances among teats after milking and after milking diameter of rear left teat were not significantly affected by season. Rest of all traits were significantly affected by this factor. Heritability estimates for before milking udder length, average udder width, udder height, udder depth and average udder circumference were found as 0.08±0.07, 0.22±0.08, 0.22±0.09, 0.05±0.06 and 0.21±0.07, respectively. The corresponding values after milking for these traits were observed as 0.14±0.07, 0.20±0.08, 0.09±0.08, 0.02±0.08 and 0.09±0.07, respectively. Heritability estimates for before milking and after milking teat characteristics were found as 0.11±0.09 and 0.15±0.09 for distance between front teats; 0.03±0.06 and 0.03±0.07 for distance between hind teats; 0.32±0.09 and 0.06±0.07 for distance between fore and hind teats of right side; 0.16±0.08 and 00.09±0.07 for distance between fore and hind teats of left side; 0.21±0.08 and 0.11±0.08 for diameter of fore right teat; 0.05±0.05 and 0.02±0.05 for diameter of rear right teat; 0.19±0.08 and 0.25±0.09 for diameter of fore left teat; 0.07±0.06 and 0.03±0.07 for diameter of rear left teat; 0.12±0.06 and 0.08±0.06 for teat length of fore right teat; 0.02±0.05 and 0.11±0.07 for teat length of rear right teat; 0.29±0.09 and 0.29±0.092 for teat length of fore left teat and 0.14±0.08 and 0.08±0.07 for teat length of rear left teat, respectively. Phenotypic correlations of before and after milking udder length, average udder width, udder height, udder depth and average udder circumference with 305 days milk yield were found as 0.29±0.04 and 0.18±0.04; 0.30±0.04 and 0.33±0.04; -0.26±0.03 and -0.20±0.03; 0.07±0.04 and 0.06±0.05 and 0.18±0.04 and 0.14±0.04, respectively. Corresponding values in the same order for genetic correlations were observed as 0.17±0.0002 and 0.21±0.0003; 0.33±0.0002 and 0.19±0.0003; -0.29±0003 and -0.34±0003; 0.10±0.0001 and 0.07±0.0001 and 0.28±0.0004 and 0.23±0.0003, respectively. Phenotypic correlations of before and after milking udder length, average udder width, udder height, udder depth and average udder circumference with score day milk yield were found as 0.29±0.03 and -0.18±0.02; -0.32±0.02 and 0.17±0.01, -0.38±0.001 and -0.20±0.002, 0.28±0.01 and -0.04±0.04 and 0.21±0.04 and -0.15±0.04, respectively. Phenotypic correlations for pre stimulation and after milking teat characteristics with 305 days milk yield were found as 0.19±0.03 and 0.07±0.03 for distance between front teats; 0.20±0.04 and 0.20±0.04 for distance between hind teats; 0.21±0.03 and 0.21±0.03 for distance between fore and hind teats of right side; 0.18±0.03 and 0.18±0.03 for distance between fore and hind teats of left side; 0.07±0.03 and 0.27±0.04 for diameter of fore right teat; -0.04±0.03 and 0.14±0.04 for diameter of rear right teat; -0.03±0.04 and 0.20±0.04 for diameter of fore left teat; -0.02±0.04 and 0.20±0.03 for diameter of rear left teat; 0.24±0.03 and 0.28±0.03, for teat length of fore right teat; -0.13±0.03 and -0.009±0.04 for teat length of rear right teat; 0.01±0.02 and 0.12±0.03 for teat length fore left teat and 0.06±0.03 and 0.22±0.03 for teat length of rear left teat, respectively. Genetic correlations for pre stimulation and after milking teat characteristics with 305 days milk yield were found as 0.22±0.0002 and 0.12±0.0003 for distance between front teats; 0.26±0.0001 and 0.13±0.0001 for distance between hind teats; 0.11±0.0001 and 0.09±0.0001 for distance between fore and hind teats of right side; 0.10±0.0001 and 0.07±0.0001 for distance between fore and hind teats of left side; 0.11±0.0001 and 0.11±0.0001 for diameter of fore right teat; 0.09±0.0002 and 0.16±0.0001 for diameter of rear right teat; 0.001±0.000001 and 0.001±0.0001 for diameter of fore left teat; 0.001±0.000001 and 0.001±0.0001 for diameter of rear left teat; 0.080±0.00001 and 0.11±0.0001 for teat length of fore right teat; 0.07±0.000001 and 0.001±0.0002 for teat length of rear right teat; 0.003±0.000001 and 0.003±0.0003 for teat length fore left teat and 0.003±0.000001 and 0.002±0.0002 for teat length of rear left teat, respectively. Phenotypic correlations for pre stimulation and after milking teat characteristics with score day milk yield were found as -0.37±0.02 and -0.48±0.03 for distance between front teats; 0.04±0.04 and 0.06±0.04 for distance between hind teats; 0.04±0.04 and 0.03±0.04 for distance between fore and hind teats of right side; 0.03±0.039 and 0.08±0.04 for distance between fore and hind teats of left side; -0.33±0.03 and -0.16±0.04 for diameter of fore right teat; -0.46±0.03 and -0.26±0.04 for diameter of rear right teat; -0.41±0.03 and -0.24±0.04 for diameter of fore left teat; -0.30±0.03 and -0.28±0.04 for diameter of rear left teat; -0.43±0.03 and -0.49±0.03 for teat length of fore right teat; -0.36±0.02 and -0.47±0.02 for teat length of rear right teat; -0.41±0.034 and -0.43±0.03 for teat length fore left teat and -0.28±0.021 and -0.53±0.02 for teat length of rear left teat, respectively. Genetic correlations for before and after milking teat characteristics with score day milk yield were found as 0.13±0.016 and 0.15±0.02 for distance between front teats; 0.30±0.04 and 0.40±0.05 for distance between hind teats; 0.19±0.05 and 0.38±0.05 for distance between fore and hind teats of right side; 0.32±0.06 and 0.44±0.06 for distance between fore and hind teats of left side; 0.22±0.03 and 0.27±0.04 for diameter of fore right teat; 0.16±0.02 and 0.23±0.03 for diameter of rear right teat; 0.15±0.02 and 0.22±0.03 for diameter of fore left teat; 0.11±0.02 and 0.24±0.03 for diameter of rear left teat; 0.19±0.02 and 0.17±0.02 for teat length of fore right teat; 0.075±0.01 and 0.07±0.01 for teat length of rear right teat; 0.27±0.029 and 0.27±0.03 for teat length of fore left teat and 0.10±0.01 and 0.08±0.01 for teat length of rear left teat, respectively. Least squares means for various performance traits were found as 7.02±2.46 for score day milk yield, 1801.61±624.59 for lactation milk yield, 2074.1±360.85 for 305 days milk yield, 2149.09±680.59 for best milk yield, 272±69 for lactation length, 408.553±203.63 for preceeding dry period, 1762.05±305.97 for age at first calving, 477.68±64.53 for weight at first calving, 110±33 for age at scoring in months, 523.133±81.63 for weight at scoring in Kg. Most of the phenotypic studies on Nili Ravi breed are limited to recording only few body measurements. In order to explore the physical features of this breed, linear scoring system needs to be adopted which is based on measurement of certain specific parts of body as per international standards according to the ICAR guidelines. However, some of the linear scores developed for dairy cattle breeds do not fit for this breed and harmonization of certain trait definitions is needed even for the linear score system for this breed. The following points are important regarding linear scoring system for Nili Ravi buffaloes: " In case of rump angle, the score ranging as 1-3 which refers to higher pin bone than hook bone is not present in Nili Ravi buffaloes. The score for central ligament ranging as 1-3 which refers to convex floor of udder has not been observed in this breed. The position of front teat placement as inside of quarter scoring as 7-9 has not been observed in Nili Ravi buffaloes. The position of rear teat placement as outside of quarter scoring as 1-3 has not been observed in Nili Ravi buffaloes. The score for top line ranging as 8-9 which represents a back bent upwards has not been observed in this breed. The score of 1 and 2 which represents a rear udder deeper than the fore udder has also not been observed in the present study. A higher temperament score indicates that buffaloes tend to be excited especially at the time of milking and handling. This behaviour of buffaloes needs to be improved through selection and breeding. " A highly significant effect of herd was observed on all of the linear type traits. Effect of stage of lactation was found to be highly significant for udder conformation related traits including fore udder attachment, rear udder height, central ligament, udder depth, teat length and rear udder width. Most of the udder related traits were affected by parity such as fore udder attachment, rear udder height, udder depth, teat length, rear udder width and teat thickness. significant effect of parity was observed on chest width, angularity, rump angle, rump width, top line, thurl width, and temperament. " Initiation of conformation recording in public and private sector and use of selective and planned breeding will be helpful for the improvement in milk yield and to bring uniformity in body features of Nili Ravi buffaloes. " Scoring in first parity should be adopted as in later parities adjustment for age and parity will be needed. " Differences among herds for most of the traits suggest that performance can be improved by exploiting genetic potential through selection and breeding. Heritability estimates for most of the linear type traits were found as higher than the reported values available in literature. The reasons might be due to species differences and relatively small data set as well as incomplete pedigree records. Even then the results might be considered for inclusion of some of the linear type traits in selection programs. Keeping in view that this is a preliminary study on genetic aspects of linear type traits in Nili Ravi buffaloes, further studies and research with larger data set is needed to explore linear type traits and to validate the findings of the current study. " A positive genetic correlation of stature with milk yield suggest that taller and heavier buffaloes produced more milk and selection for taller buffaloes may result in improved milk yield but the efficiency of milk yield must be studied before making indirect selection for milk yield through stature. Negative phenotypic correlation of chest width with score day milk yield suggested that buffaloes with wider chest are relatively less efficient in milk production. Further studies are needed with larger data set to verify the results. A considerable positive genetic correlation between body depth and milk yield suggest that body depth may be considered for indirect selection of higher milk yield in Nili Ravi buffaloes. Considerable genetic correlation with milk yield suggest that rump width is important in this breed of buffaloes and can be used for indirect selection for improved milk yield. A considerable negative phenotypic correlation of fore udder attachment with milk yield is important however negligible genetic correlation suggest that fore udder attachment is independent of milk producing genes and separate selection for each trait should be considered keeping in view heritability of the trait in Nili Ravi buffaloes. A positive genetic correlation of rear udder height with milk yield suggested that selection for this trait might be helpful for improved milk yield in Nili Ravi buffaloes. Genetic correlation of teat length with score day milk yield is considerable in the current study but very low with 305 days milk yield. The findings of current study suggested that rear teat placemen has a considerable genetic correlation with milk yield and can be used for indirect selection for better milk yield. The results of current study are not in agreement with most of the reports in the literature regarding correlation of BCS with milk yield. Further research is needed to verify positive genetic correlation of BCS with milk yield before using BCS as selection criterion for milk yield in Nili Ravi buffaloes. Due to negative phenotypic correlation of body condition score with milk yield, an optimal score of below average ranging from 4 to 5 may be recommended. A positive genetic correlation of rear udder width with milk yield suggested that some of the same genes are controlling milk yield and rear udder width and indirect selection for improved milk yield is possible through selection for rear udder width in Nili Ravi buffaloes. This genetic correlation with milk yield is considerable but further studies are needed before the udder balance could be included for selection program in Nili Ravi buffaloes. " Current study indicated that teat thickness is not genetically important with negligible correlation with milk yield in Nili Ravi buffaloes but negative phenotypic correlation is considerable and buffaloes with thinner teats are suitable for more milk production. A low but positive genetic correlation of thurl width with milk yield provides a scope for further studies to explore this trait in Nili Ravi buffaloes. Further studies are needed with relatively larger data set to explore temperament and verify its relationship with milk yield in this breed of buffaloes. Generally, the least squares means for most of the body measurements were found in the normal range and were in agreement with most of the reports in literature. " Comparatively higher body weight was observed than the reports available for Nili Ravi buffaloes. One of the reason for this might be relatively better supply of feed and fodder during the course of study and also the records pertaining to 3rd and latter parities were more in number than the records on younger buffaloes. The top and side wedge area are almost similar with less variation showing that Nili Ravi buffaloes are relatively more wedge shaped. " Most of the body measurements were affected by the herd and age factors but the effect of parity, stage of lactation and season of scoring was variable for different traits and showed not very clear trend. Body weight was affected by all the factors studied in the current investigation. Most of the body measurements have been found to be moderately to highly heritable in the current study. Overall range of heritability estimates for body measurements was found as 0.08±0.09 to 0.92±0.00. " Skin thickness has been found under the genetic control and can be improved through selection and breeding keeping in view its importance and demand in the leather industry and also its correlation with milk yield. " Diagonal body length in the current study has shown a low but positive genetic correlation with milk yield and this trait might be considered in the selection program for Nili Ravi buffaloes. The negative genetic correlation of skin thickness in the neck region with 305 days milk yield is important and advocates the thinking of farmers about the negative correlation of skin thickness with milk yield. Genetic correlation of heart girth with milk yield although not very high but seems to be important and can be considered for indirect selection for milk yield through heart girth measurement. A reasonable genetic correlation of body weight with milk yield suggested that this trait should be considered in the selection program for improved milk yield in Nili Ravi buffaloes. " Udder colour has not been found important. Buffaloes with pendulous udders have produced more milk. The possible reason for this more milk is that such buffaloes were recorded in latter parities and age of those buffaloes was high and the size of their udder was large. The frequency of buffaloes with such type of udder is only 8%. Buffaloes with such type of pendulous udders are more prone to udder and teat injuries and mastitis and their life time production is less. Thick and lengthy teats have been observed in this breed and the reason might be due to hand milking and direct suckling of cows by the calves. " Most of the udder traits were significantly affected by herd, parity, stage of lactation and age of the buffaloes at classification. Most of the udder measurements have been found highly heritable and this provides a good scope for improvement of these traits through selection and breeding. A general decrease in the distance between fore, rear and fore and rear teats on both sides was observed after milking. This indicated that the distance measured after milking was a good indicator of actual distance between teats of this breed irrespective of stage of lactation. Udder length, width, udder circumference and height either recorded before milking or after milking have been found genetically correlated with milk yield and they should be considered for selection decisions in Nili Ravi buffaloes. A reasonable positive genetic correlation of distance between fore and between rear teats suggested that this distance is important for milk yield and should be considered for selection in Nili Ravi buffaloes. The results of present study suggest that teat diameter is not genetically much important for milk yield and the reason of thick teats is due to hand milking and direct suckling by the calves. " Teat distance between front teat, between rear teat, diameter of fore right and rear right teat and teat length of fore right teat have shown low but not negligible genetic correlations with milk yield and should be given some importance in making selection decisions in Nili Ravi buffaloes. " Brown colour buffaloes have not been observed in this study because such animals at Govt. livestock farms are culled at an early age, however farmers think that such type of buffaloes are better milk yielder and they like and demand such animals, development and conservation of these animals is advocated at experimental level to study their potential. " Further research is needed to evaluate visual image analysis system as a tool for quick and more accurate conformation recording. Availability: Items available for loan: UVAS Library [Call number: 1708,T] (1).

6. Comparative Productive And Reproductive Performance Of Beetal Goats In Accelerated And Annual Kidding Systems

by Nisar Ahmad | Prof. Dr. Khalid Javed | Prof. Dr. Muhammad Abdullah.

Material type: book Book; Format: print ; Literary form: not fiction Publisher: 2013Dissertation note: Three kiddings in two years or five kiddings in three years refers as accelerated kidding which is helpful to have more kids, helps to fetch higher market prices during off-season. This can also increase life time production in the form of meat, milk and fiber. High reproduction rate is the basiccondition to increase efficiency of production. Most of the goats do not follow seasonal breeding pattern and breed round the year resulting in management problems and high mortality during severe weather conditions. Accelerated kidding strategy is a viable option that affects the health and fertility of the flock. In the present investigation, three experiments were conducted at Small Ruminant Training and Research Centre (SRT&RC) Ravi Campus Pattoki, UVAS, Lahore. The experiment-I was about the initiation of estrus activity in anestrus Beetal goats during low breeding season. Twenty Beetal goats were selected from the existing flock, maintained at SRT&RC. These goats were divided randomly into 4 groups i.e. A, B, C and D having 5 animals in each group. Group A was treated as negative control by offering only green fodder, group B was provided flushing ration along with green fodder (control), group C was kept on green fodder along with hormone therapy of gonadotropin releasing hormone (GnRH) and prostagladin (PGF2?) while group D was provided with green fodder, flushing ration (600 gms/animal) and hormone therapy by providing GnRH and PGF2?. Hundred percent estrus induction was achieved in group B, C and D as compared to group A. The results revealed that fertility rate and kidding rate was high i.e. 80 and 60 percent among animals of B group while animals of control group had less fertility, kidding and gestation rate. The shortest gestation length was found in group B and C while triplet births were observed in goats of group D. The experiment-II was regarding the initiation of estrus through buck effect in Beetal goats. This experiment was conducted in two phases. Phase 1 comprised two groups A and B for which estrus induction was done during pre-breeding (August) and normal breeding (September/October) season. Similarly, Phase 2 comprised two groups C and D in which estrus induction was done during post-breeding (December) and normal breeding (September/October) season. Different reproductive parameters like estrus, fertility percentage, were noted. The data regarding average birth weight (kg) and gestation length (days) were recorded. Estrus signs were maximum in group B while low in group C. However fertility rate was high in group A, instead of group B. Overall kidding percentage was higher in A group but the lowest in group D. The highest gestation length was observed in group D whereas the lowest value was found in group B. Average litter size was higher in group D as compared to A and B group, respectively. The experiment-III was conducted to compare productive and reproductive performance of Beetal goats in accelerated and annual kidding systems. Total of 50 adult Beetal goats were divided into two groups viz. accelerated kidding and annual kidding having 25 animals each. The does were selected on the basis of their age, body size, weight and parity. Different breeding bucks were used for each group having similar size, weight and age. All the animals included in this study were fed according to national research council (NRC) nutrient requirements for goats (NRC, 1981). Flushing rations and estrus inducing hormones both were provided to the does of respective groups for preparation of breeding activity during out of season breeding. The annual kidding group was considered as the control group, while the does were bred every eight months for accelerated kidding. The offsprings produced by the pregnant does of 1st batch of both the groups were reared under similar managemental conditions up to maturity. Three crops were produced in accelerated kidding system as compared to two crops in annual kidding system. It was observed that more number of animals i.e. 17 out of 25 showed estrus signs as compared to annual kidding system where 15 animals showed estrus signs. There were non significant differences for number of services per conceptionin two crops under annual kidding groups. Higher percentage of estrus was observed in accelerated to annual kidding. Total number of kids produced in accelerated kidding system was 42 with an average 14 kids in three crops while 23 kids were produced in annual kidding system in two years. Average cost of concentrate was observed high in accelerated kidding system as compared to annual kidding system. Birth weight of kids produced in 3 different seasons i.e. March-April, October- November and June-July were found as 2.84, 2.91 and 2.98 kg. The overall results in term of reproductive efficiency, oestrus behavior and kidding percentage were better in accelerated group than annual kidding. Availability: Items available for loan: UVAS Library [Call number: 1812,T] (1).

7. Documenting Goat Production System In Two Agro-Ecological Regions Of Punjab

by Maqsood shah muhammad | Prof. Dr. Muhammad Abdullah | Prof. Dr | Prof. Dr. Khalid javed.

Material type: book Book; Format: print ; Literary form: not fiction Publisher: 2013Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 1920,T] (1).

8. Effect Of Feeding Milk Replacer And Diet With Varying Levels Of Concention On Growth Puberty And First Lactation

by Zeeshan Iqbal | Prof Dr. Muhammad Abdullah | Prof. Dr | Prof. Dr. Khalid Javed.

Material type: book Book; Format: print ; Literary form: not fiction Publisher: 2013Dissertation note: Abstract Availability: Items available for loan: UVAS Library [Call number: 2160,T] (1).

9. Identification Of Variations In The Coding Region Of Myostatin Gene In Thalli And Pakkarakul Sheep Breeds Of The Punjab

by Armughan Ahmed Wadood (2006-VA-38) | Dr. Afzal Ali | Prof. Dr. Khalid Javed | Mr. Muhammad Saadullah.

Material type: book Book; Literary form: not fiction Publisher: 2015Dissertation note: In a developing country like Pakistan, livestock sector has a significant importance. Meat is an important food component in human diet and its source varies from different organisms like cattle, buffalo, camel, deer, sheep, goat, rabbit and chicken etc. Small ruminants especially sheep, has a unique role in meat production, due to its feeding and adaptive behavior. The myostatin (MSTN) gene is known as a candidate gene for development and growth of livestock because it plays its major role in muscle growth. Selection is an important tool to improve the meat production and thus enhance the economic conditions of livestock farmers. For this purpose genetically characterization of meat type animals, especially the indigenous sheep breeds is not common. The variations in the myostatin gene have been extensively studied and reviewed in small and large ruminants in the world but it has been scanty studied in sheep breeds of Pakistan. Thalli and Pak-Karakul are well known sheep breeds present in Punjab, Pakistan. This study aims to characterize the genetic variation in the myostatin gene in Thalli and Pak-Karakul sheep breeds. In this research study, twenty adult animals of two different sheep breeds (Thalli and Pak-Karakul) were selected from Small Ruminants Research and development Centre, Rakh Khairewala, District Layyah, Pakistan. Five mL blood sample was collected from each animal in a 15mL falcon tube containing anticoagulant. Primers were designed by using Primerfox online software. Primers were optimized using specific protocol and PCR was performed. DNA was extracted using modified inorganic method of Sambrook et al. (1989). PCR was carried out using all primers and later sent for sequencing to 1stBase Laboratories, Singapore. Molecular analysis was done using CodonCode Aligner and MEGA6 softwares. Ten samples of each breed were sequenced to detect polymorphism in both Thalli and Pak-Karakul sheep populations. Sequencing revealed G↓T transition at 3995 position in Summary 44 genome (accession number, DQ530260.1) in Thalli and similar transition in Pak-Karakul at the same position. In Thalli sheep 50 % of experimental animals were heterozygous, higher level of heterozygosity makes it a potential candidate for higher growth rates. On the other hand the Pak-Karakul sheep is medium weight breed and frequency of mutant allele was 0.2 or 20%. The observed heterozygous individuals were also with higher live body weights. The gene frequency shows that this breed has medium potential for its body growth. The information‟s so generated and further association studies in both breeds will be helpful in devising breeding plans for increasing mutton production at national level. Availability: Items available for loan: UVAS Library [Call number: 2288-T] (1).

10. Study Of Factors Affecting Quality Of Silage As A Component Of Total Mixed Ration On Growth And Production Performance In Nili-Ravi Buffaloes

by Rafi-Uddin (2004-VA-152) | Prof. Dr. Muhammad Abdullah | Prof. Dr. Khalid Javed | Prof. Dr. Makhdoom Abdul Jabbar.

Material type: book Book; Literary form: not fiction Publisher: 2016Dissertation note: Silage production is at initial stages to be a part of animal agriculture in Pakistan. The lack of research on silage making and its benefits for livestock production under local conditions is an important factor for slow propagation of silage in our country. Under such scenario a multi-step study was conducted. At first, the effect of proper maturity stage for harvesting different fodders was investigated, and then the effects of silo type and silage additives were assessed on silage quality. In last part of the study the feeding trials were conducted on growing calves and lactating buffalo to evaluate the effect of silage feeding on growth and milk production respectively. In all the three fodders i.e. oats, maize and sorghum, the full bloom stage for harvesting produced the best results regarding silage quality and fermentation characteristics. Although the trench silo produced best results regarding fermentation characteristics and silage quality, the expected operational cost and dry matter losses during face management for trench silo would make it harder for farmers to adopt. Under such circumstances, for long term use the bunkers would be a good choice for silage making with comparable silage quality as that of trench silo. Silage inoculants certainly improved the silage quality and it is highly recommended to use such additives for silage making and these additives are not that costly. Buffalo calves raised on fresh corn fodder and three different silages showed similar daily weight gain. Further growth trials on buffalo calves with varying levels of concentrate feeding along with silage are suggested to investigate silage feeding in calves. Corn silage fed lactating buffaloes had lower dry matter intake and total milk yield, but higher total solids as compared to fresh fodder feeding. The future studies of silage feeding compared to different inclusion levels of fresh and dry roughage sources would add further to explore the economic implications of silage feeding. Availability: Items available for loan: UVAS Library [Call number: 2590-T] (1).



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