Your search keyword '"Hugo Toledo-Alvarado"' showing total 21 results

1. Combining genetic markers, on-farm information and infrared data for the in-line prediction of blood biomarkers of metabolic disorders in Holstein cattle

Author

Lucio F. M. Mota, Diana Giannuzzi, Sara Pegolo, Hugo Toledo-Alvarado, Stefano Schiavon, Luigi Gallo, Erminio Trevisi, Alon Arazi, Gil Katz, Guilherme J. M. Rosa, and Alessio Cecchinato

Subjects

Blood metabolites, Dairy cattle, Data integration, Feature selection, Metabolic disorders, NIR, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Background Various blood metabolites are known to be useful indicators of health status in dairy cattle, but their routine assessment is time-consuming, expensive, and stressful for the cows at the herd level. Thus, we evaluated the effectiveness of combining in-line near infrared (NIR) milk spectra with on-farm (days in milk [DIM] and parity) and genetic markers for predicting blood metabolites in Holstein cattle. Data were obtained from 388 Holstein cows from a farm with an AfiLab system. NIR spectra, on-farm information, and single nucleotide polymorphisms (SNP) markers were blended to develop calibration equations for blood metabolites using the elastic net (ENet) approach, considering 3 models: (1) Model 1 (M1) including only NIR information, (2) Model 2 (M2) with both NIR and on-farm information, and (3) Model 3 (M3) combining NIR, on-farm and genomic information. Dimension reduction was considered for M3 by preselecting SNP markers from genome-wide association study (GWAS) results. Results Results indicate that M2 improved the predictive ability by an average of 19% for energy-related metabolites (glucose, cholesterol, NEFA, BHB, urea, and creatinine), 20% for liver function/hepatic damage, 7% for inflammation/innate immunity, 24% for oxidative stress metabolites, and 23% for minerals compared to M1. Meanwhile, M3 further enhanced the predictive ability by 34% for energy-related metabolites, 32% for liver function/hepatic damage, 22% for inflammation/innate immunity, 42.1% for oxidative stress metabolites, and 41% for minerals, compared to M1. We found improved predictive ability of M3 using selected SNP markers from GWAS results using a threshold of > 2.0 by 5% for energy-related metabolites, 9% for liver function/hepatic damage, 8% for inflammation/innate immunity, 22% for oxidative stress metabolites, and 9% for minerals. Slight reductions were observed for phosphorus (2%), ferric-reducing antioxidant power (1%), and glucose (3%). Furthermore, it was found that prediction accuracies are influenced by using more restrictive thresholds (−log10(P-value) > 2.5 and 3.0), with a lower increase in the predictive ability. Conclusion Our results highlighted the potential of combining several sources of information, such as genetic markers, on-farm information, and in-line NIR infrared data improves the predictive ability of blood metabolites in dairy cattle, representing an effective strategy for large-scale in-line health monitoring in commercial herds.

Published

2024

2. Lactation modeling and the effects of rotational crossbreeding on milk production traits and milk-spectra-predicted enteric methane emissions

Author

Gustavo Martínez-Marín, Hugo Toledo-Alvarado, Nicolò Amalfitano, Luigi Gallo, and Giovanni Bittante

Subjects

infrared spectrometry, FTIR, methane production, Montbéliarde, Viking Red, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250

Abstract

ABSTRACT: Rotational crossbreeding has not been widely studied in relation to the enteric methane emissions of dairy cows, nor has the variation in emissions during lactation been modeled. Milk infrared spectra could be used to predict proxies of methane emissions in dairy cows. Therefore, the objective of this work was to study the effects of crossbreeding on the predicted infrared proxies of methane emissions and the variation in the latter during lactation. Milk samples were taken once from 1,059 cows reared in 2 herds, and infrared spectra of the milk were used to predict milk fat (mean ± SD; 3.79 ± 0.81%) and protein (3.68 ± 0.36%) concentrations, yield (21.4 ± 1.5 g/kg dry matter intake), methane intensity (14.2 ± 2.0 g/kg corrected milk), and daily methane production (358 ± 108 g/d). Of these cows, 620 were obtained from a 3-breed (Holstein, Montbéliarde, and Viking Red) rotational mating system, and the rest were purebred Holsteins. Milk production data and methane traits were analyzed using a nonlinear model that included the fixed effects of herd, genetic group, and parity, and the 4 parameters (a, b, c, and k) of a lactation curve modeled using the Wilmink function. Milk infrared spectra were found to be useful for direct prediction of qualitative proxies, such as methane yield and intensity, but not quantitative traits, such as daily methane production, which appears to be better estimated (450 ± 125 g/d) by multiplying a measured daily milk yield by infrared-predicted methane intensity. Lactation modeling of methane traits showed daily methane production to have a zenith curve, similar to that of milk yield but with a delayed peak (53 vs. 37 d in milk), whereas methane intensity is characterized by an upward curve that increases rapidly during the first third of lactation and then slowly till the end of lactation (10.5 g/kg at 1 d in milk to 15.2 g/kg at 300 d in milk). However, lactation modeling was not useful in explaining methane yield, which is almost constant during lactation. Lastly, the methane yield and intensity of cows from 3-breed rotational crossbreeding are not greater, and their methane production is lower than that of purebred Holsteins (452 vs. 477 g/d). Given the greater longevity of crossbred cows, and their lower replacement rate, rotational crossbreeding could be a way of mitigating the environmental impact of milk production.

Published

2024

3. Veal and beef meat quality of crossbred calves from dairy herds using sexed semen and semen from double-muscled sires

Author

Giovanni Bittante, Matteo Bergamaschi, Ni Qianlin, Nageshvar Patel, Hugo Toledo-Alvarado, and Alessio Cecchinato

Subjects

beef farming systems, cooking losses, meat colour, meat composition, tenderness, Animal culture, SF1-1100

Abstract

The use of sexed semen to produce replacement heifers in dairy farms allows many cows to be inseminated with bulls of beef breeds with the aim of improving meat production. The major dairy and beef breeds are undergoing rapid genetic improvement as a result of more efficient selection methods, necessitating evaluation of the quality of meat produced by beef × dairy crosses obtained using current genetics. As part of a larger project, we carried out quantitative and qualitative evaluations of the veal and beef produced from crossbred calves produced by dairy farms that use sexed semen to obtain purebred replacement heifers. A total of 231 bull-calves were reared in the dairy farms or in specialised fattening farms, slaughtered, and sampled for meat quality analysis. These comprised: 104 crossbred calves, mainly from Belgian Blue sires and Holstein dams, which were intensively fattened for veal production; 84 beef × dairy crossbred calves, destined for beef production on the dairy farm of origin (12 calves) or in a specialised intensive fattening centre (72 calves); 26 purebred Charolais and 17 beef crosses from suckler cows, included for comparison, which were fattened in the same fattening centre and fed the same diet as the beef × dairy crosses. Veal and beef meat differed in all quality traits; the beef produced by dairy farmers was better than the beef produced by specialised fatteners in terms of cooking losses and tenderness, even though these animals were much older and weighed less at slaughter. There were minor differences in the quality traits of veal between the various beef × dairy breed combinations. In the case of intensive beef production, minor differences were observed between Belgian Blue-sired crosses from Brown Swiss cows (lipid content and shear force of meat) and Belgian Blue-sired crosses from crossbred cows (haem iron, lightness, yellowness, and hue) in comparison with crosses from Holstein cows. The beef of young bulls from suckler cows (Charolais and crosses) had a lower pH, dry matter and lipid contents, slightly higher cholesterol and haem iron contents, and higher cooking losses than meat from beef × dairy crosses. Taking into account the results from the entire project, we conclude that the combined use of sexed semen for pure-breeding and conventional beef semen for terminal crossbreeding improves meat production from dairy herds, both quantitatively and qualitatively.HIGHLIGHTS The meat from beef × dairy crossbred calves was found to have valuable qualitative characteristics. With regard to veal production, the meat quality characteristics of crossbred calves did not differ appreciably between breed combinations. With regard to intensive beef production, the meat from beef × dairy young bulls had greater quality than that from suckler cows. Crosses fattened by dairy farmers grew slower than those by specialised fatteners, but their beef was better in terms of cooking losses and tenderness.

Published

2023

4. Interactions among breed, farm intensiveness and cow productivity on predicted enteric methane emissions at the population level

Author

Gustavo Martínez-Marín, Stefano Schiavon, Franco Tagliapietra, Alessio Cecchinato, Hugo Toledo-Alvarado, and Giovanni Bittante

Subjects

carbon footprint, enteric methane emission, global warming, cow milk, infra-red spectra, Animal culture, SF1-1100

Abstract

The milk Fourier-transform infra-red spectrometry (FTIRS) can be used to predict the enteric methane emissions (EME) at population level. In this study, the variability in FTIRS predicted EME traits due to the breed of cow, farm, the production level of individual cows within herds, and their interactions were evaluated. A dataset obtained from milk recordings, which covered four breeds (Holstein, Brown Swiss, Simmental and Alpine Grey), 6,430 herds, 115,819 cows, and 1,759,706 test-day milk/spectra records was used. The herds were stratified into 5 production levels considering their average daily milk energy production; individual cows within herd were similarly stratified considering their individual production levels. The EME traits were predicted directly from milk FTIR spectra or indirectly from six informative milk FA predicted from milk spectra. The statistical model included, separately for each trait and method, breed, herd intensiveness level, cow production level, and their interactions, year, month, parity, and lactation stage. The direct and indirect methods yielded similar results in predicting CH4 yield per kg of DMI and CH4 intensity per kg of fat-protein corrected milk. The indirect method was reliable in predicting daily EME production per cow, the indirect one did not. EME was affected by the breed x herd production intensiveness interaction, and to a lesser degree, by the breed x cow production level interaction. A better understanding of the complex interactions influencing EME in dairy herds was achieved. This would be useful for the genetic improvement, the environmental certification of farms, and for setting prices in milk payment schemes.HIGHLIGHTS Causes of variation of the FTIR predicted EME were studied at population level using data from 6,430 herds and 1,759,706 milk spectra records Reliable daily EME estimates were achieved from 6 six informative fatty acids predicted from milk spectra EME was influenced by the interaction breed × level of herd intensiveness and, to a lesser extent, by the individual production level

Published

2023

5. Integration of Wet-Lab Measures, Milk Infrared Spectra, and Genomics to Improve Difficult-to-Measure Traits in Dairy Cattle Populations

Author

Alessio Cecchinato, Hugo Toledo-Alvarado, Sara Pegolo, Attilio Rossoni, Enrico Santus, Christian Maltecca, Giovanni Bittante, and Francesco Tiezzi

Subjects

high-throughput phenotyping, Fourier-transformed infrared spectroscopy, genetic parameters, genomic predictions, dairy cattle, single-step GBLUP, Genetics, QH426-470

Abstract

The objective of this study was to evaluate the contribution of Fourier-transformed infrared spectroscopy (FTIR) data for dairy cattle breeding through two different approaches: (i) estimating the genetic parameters for 30 measured milk traits and their FTIR predictions and investigating the additive genetic correlation between them and (ii) evaluating the effectiveness of FTIR-derived phenotyping to replicate a candidate bull’s progeny testing or breeding value prediction at birth. Records were available from 1,123 cows phenotyped using gold standard laboratory methodologies (LAB data). This included phenotypes related to fine milk composition and milk technological characteristics, milk acidity, and milk protein fractions. The dataset used to generate FTIR predictions comprised 729,202 test-day records from 51,059 Brown Swiss cows (FIELD data). A first approach consisted of estimating genetic parameters for phenotypes available from LAB and FIELD datasets. To do so, a set of bivariate animal models were run, and genetic correlations between LAB and FIELD phenotypes were estimated using FIELD information obtained at the population level. Heritability estimates were generally higher for FIELD predictions than for the corresponding LAB measures. The additive genetic correlations (ra) between LAB and FIELD phenotypes had different magnitudes across traits but were generally strong. Overall, these results demonstrated the potential of using FIELD information as indicator traits for the indirect genetic improvement of LAB measures. In the second approach, we included genotype information for 1,011 cows from the LAB dataset, 1,493 cows from the FIELD dataset, 181 sires with daughters in both LAB and FIELD datasets, and 540 sires with daughters in the FIELD dataset only. Predictions were obtained using the single-step GBLUP method. A four fold cross-validation was used to assess the predictive ability of the different models, assessed as the ability to predict masked LAB records from daughters of progeny testing bulls. The correlation between observed and predicted LAB measures in validation was averaged over the four training-validation sets. Different sets of phenotypic information were used sequentially in cross-validation schemes: (i) LAB cows from the training set; (ii) FIELD cows from the training set; and (iii) FIELD cows from the validation set. Models that included FIELD records showed an improvement for the majority of traits. This study suggests that breeding programs for difficult-to-measure traits could be implemented using FTIR information. While these programs should use progeny testing, acceptable values of accuracy can be achieved also for bulls without phenotyped progeny. Robust calibration equations are, deemed as essential.

Published

2020

6. Predicting the Content of 20 Minerals in Beef by Different Portable Near-Infrared (NIR) Spectrometers

Author

Nageshvar Patel, Hugo Toledo-Alvarado, Alessio Cecchinato, and Giovanni Bittante

Subjects

micro-nutrients, trace and environmental elements, portable NIR instruments, near infrared absorbance, chemometrics, Chemical technology, TP1-1185

Abstract

The aim of this study was to test the predictability of a detailed mineral profile of beef using different portable near-infrared spectrometers (NIRS). These devices are rapid, chemical waste-free, cheap, nondestructive tools that can be used directly on the meat surface in the work environment without the need to take samples. We compared a transportable Visible-NIRS (weight 5.6 kg; wavelength 350–1830 nm), a portable NIRS (2.0 kg; 950–1650 nm), and a hand-held Micro-NIRS (0.06 kg; 905–1649 nm) to predict the contents of 20 minerals (measured by ICP-OES) in 178 beef samples (Longissimus thoracis muscle) using different mathematical pretreatments of the spectra and partial least square regressions. The externally validated results show that Fe, P, Mg, S, Na, and Pb have some potential for prediction with all instruments (R2VAL: 0.40–0.83). Overall, the prediction performances of the three instruments were similar, although the smallest (Micro-NIRS) exhibited certain advantages.

Published

2020

7. Purebreeding with sexed semen and crossbreeding with semen from double-muscled sires to improve beef production from dairy herds: Live and slaughter performances of crossbred calves

Author

Matteo Bergamaschi, Nageshvar Patel, Giovanni Bittante, Hugo Toledo-Alvarado, Riccardo Negrini, Qianlin Ni, and Alessio Cecchinato

Subjects

dairy breed, Male, Farms, Meat, Semen, Biology, beef breed, carcass muscularity, carcass trait, X-sorted semen, Animals, Cattle, Female, Hybridization, Genetic, Red Meat, Crossbreed, 03 medical and health sciences, Animal science, Genetic, Genetics, Hybridization, Dairy cattle, 030304 developmental biology, 0303 health sciences, Settore AGR/17 - ZOOTECNICA GENERALE E MIGLIORAMENTO GENETICO, Dairy herds, Sire, 0402 animal and dairy science, 04 agricultural and veterinary sciences, 040201 dairy & animal science, Breed, Belgian Blue, Animal Science and Zoology, Purebred, Food Science

Abstract

The use of sexed semen to produce purebred replacement heifers allows a large proportion of dairy cows to be mated to beef sires, and quantitative and qualitative improvements to be made to beef production from dairy herds. The major dairy and beef breeds are undergoing rapid genetic improvement as a result of more efficient selection methods, prompting a need to evaluate the meat production of crossbred beef × dairy cattle produced using current genetics. As part of a large project involving 125 commercial dairy farms, we evaluated the combined use of purebreeding with sexed semen and crossbreeding with semen from beef sires, particularly double-muscled breeds. A survey of 1,530 crossbred calves revealed that, whereas purebred dairy calves are destined almost exclusively for veal production, beef × dairy crossbred calves are also destined for beef production after fattening on either the dairy farm of birth or by specialized fatteners. In veal production, compared with Belgian Blue-sired calves (taken as the reference), double-muscled INRA 95-sired calves had a lighter slaughter weight (303 vs. 346 kg), but a greater dressing percent (62.3 vs. 58.4%). Limousin (also known as Limousine)-sired calves had a smaller average daily gain (1.26 vs. 1.34 kg/d), and lighter slaughter (314 vs. 346 kg) and carcass weights (182 vs. 201 kg). Last, Simmental-sired calves had a similar growth rate, but lighter carcass weight (177 vs. 201 kg), smaller dressing percentage (55.3 vs. 58.4%), and smaller muscularity scores (3.25 vs. 3.72). In the case of young bulls and heifers fattened on the dairy farm of birth, Belgian Blue-, Piemontese (also known as Piedmontese)-, and Limousin-sired calves performed similarly; the only exception was that Piemontese-sired calves had a greater dressing percentage. Belgian Blue- and Limousin-sired calves performed similarly when fattened by specialized beef producers. In both veal and beef production, the effects of dam breed were less important than sire breed. Considering the entire project, we can conclude that the combined use of sexed semen for purebreeding and conventional beef semen for terminal crossbreeding improves meat production from dairy herds, especially when the sires are double-muscled beef breeds.

Published

2021

8. Genetic parameters for fertility traits assessed in herds divergent in milk energy output in Holstein-Friesian, Brown Swiss, and Simmental cattle

Author

Maria Martinez-Castillero, G. de los Campos, Luis Varona, Giovanni Bittante, Sara Pegolo, Alessio Cecchinato, Ana I. Vazquez, Hugo Toledo-Alvarado, and R. Finocchiaro

Subjects

calving interval, conception rate, days open, genotype by environment (G×E), milk yield and fertility, Genotype, animal diseases, media_common.quotation_subject, Ice calving, Fertility, Biology, Animal science, food, Species Specificity, Calving interval, Simmental cattle, Genetics, Animals, Lactation, media_common, food and beverages, food.cheese_milk_source, Bayes Theorem, Heritability, Breed, Milk, Phenotype, Italy, Fertilization, Herd, Cattle, Female, Animal Science and Zoology, Brown Swiss, Energy Metabolism, Food Science

Abstract

In this study, we aimed to investigate differences in the genetics of fertility traits (heritability of traits and correlations between traits in divergent environments) in dairy cows of different production levels defined on the basis of the herd-average daily milk energy output (herd-dMEO). Data were obtained from Holstein-Friesian (n = 37,359 for fertility traits, 381,334 for dMEO), Brown Swiss (n = 79,638 for fertility traits, 665,697 for dMEO), and Simmental cows (n = 63,048 for fertility traits, 448,445 for dMEO) reared in northeastern Italy. Fertility traits under study were interval from calving to first service, interval from first service to conception, days open, calving interval, calving rate, and nonreturn rate at d 56. We classified herds into low and high productivity based on the herd-average dMEO (inferred using mixed effects models). We estimated genetic parameters using Bayesian bivariate animal models, where expressions of a phenotype in the low and high dMEO herds were taken as being different-albeit correlated-traits. Fertility traits were more favorable in Simmental than in Holstein-Friesian cows, whereas for all traits, Holstein-Friesian had the highest estimates of intraherd heritability [ranging from 0.021 (0.006-0.038) to 0.126 (0.10-0.15)] and Simmental the lowest [ranging from 0.008 (0.001-0.017) to 0.101 (0.08-0.12)]. The genetic correlations between fertility traits and dMEO were moderate and unfavorable, ranging, in absolute values, from 0.527 (0.37-0.68) to 0.619 (0.50-0.73) in Holstein-Friesian; from 0.339 (0.20-0.47) to 0.556 (0.45-0.66) in Brown Swiss; and from 0.340 (0.10-0.60) to 0.475 (0.33-0.61) in Simmental cattle. The only exception was the nonreturn rate at d 56, which had weak genetic correlations with dMEO in all 3 breeds. The herd correlations between fertility and dMEO tended to be modest and favorable and the residual correlations modest and variable. The heritability of fertility traits tended to be greater in the low dMEO than in the high dMEO herds in the case of the Holstein-Friesians, but not in the case of the Brown Swiss or Simmentals. The additive genetic correlations between fertility traits in the low and high dMEO herds were always lower than 1 [0.329 (-0.17 to 0.85) to 0.934 (0.86 to 0.99)] for all traits considered in all breeds. The correlation was particularly low for the threshold characters and the interval from first service to conception in Holstein-Friesian, suggesting that the relative performances of genotypes vary significantly between herds of different dMEO levels. Although there was large variability in the estimates, results might support making separate genetic evaluations of fertility in the different herd production groups. Our results also indicate that Simmental, a dual-purpose breed, has higher fertility and lower environmental sensitivity than Holstein-Friesian, with Brown Swiss being intermediate.

Published

2020

9. Short communication: Pure-breeding with sexed semen and crossbreeding with semen from double-muscled sires to improve beef production from dairy herds: Weight and value of calves

Author

Riccardo Negrini, Matteo Bergamaschi, Giovanni Bittante, Hugo Toledo-Alvarado, and Alessio Cecchinato

Subjects

dairy breed, Male, Semen, Biology, Crossbreed, calf price, 03 medical and health sciences, Animal science, Genetic, Double muscled, X-sorted semen, Genetics, Animals, Sex Preselection, Animal Husbandry, Hybridization, 030304 developmental biology, calf value, beef breed, 0303 health sciences, Settore AGR/17 - ZOOTECNICA GENERALE E MIGLIORAMENTO GENETICO, Dairy herds, Body Weight, Sire, 0402 animal and dairy science, 04 agricultural and veterinary sciences, 040201 dairy & animal science, Breed, Dairying, Belgian Blue, Hybridization, Genetic, Cattle, Female, Animal Science and Zoology, Purebred, Food Science

Abstract

The use of sexed semen to produce purebred replacement heifers allows a large proportion of dairy cows to be mated to double-muscled sires and for quantitative and qualitative improvements to be made to beef production from dairy herds. A survey of 1,285 crossbred calves showed that they are destined not only for veal production (like purebred dairy calves) but also for beef production. Crossbred calves obtained from Belgian Blue sires (sold on average at 34 d of age and 64 kg of weight) had a higher market value (€363/calf) than those obtained from double-muscled INRA 95 sires (€297/calf, used for veal production) and from Limousin sires (€216/calf for veal and €271/calf for beef production). As a sire breed, Simmental did not differ significantly from Belgian Blue, but as a dam breed, the crossbred calves fetched a higher price (€5.11/kg) than when Holstein was the dam breed (€4.50/kg). Compared with heifer calves, crossbred bull calves at sale were younger (34.1 vs. 37.2 d) and heavier (64.0 vs. 62.6 kg of live weight), fetched a higher price (€5.13 vs. €4.99/kg), and had a greater value (€328 vs. €312/calf). As the value of purebred dairy calves was about €80 to €100/calf, we are able to confirm that the combined use of sexed semen for pure-breeding and conventional beef semen for terminal crossbreeding can increase the income from dairy farms, especially when the sires are double-muscled beef bulls.

Published

2020

10. Effects of breed, farm intensiveness, and cow productivity level on cheese-making ability predicted using infrared spectral data at the population level

Author

Franco Tagliapietra, Alessio Cecchinato, Stefano Schiavon, Hugo Toledo-Alvarado, and Giovanni Bittante

Subjects

Farms, breed × environment interaction, cheese yield, FTIR, infrared predictions, milk composition, Ice calving, Biology, Animal science, Nutrient, Cheese, Pregnancy, Yield (wine), Lactation, Genetics, medicine, Animals, Retrospective Studies, food and beverages, Breed, medicine.anatomical_structure, Milk, Herd, Animal Science and Zoology, Composition (visual arts), Cattle, Female, Brown Swiss, Food Science

Abstract

Fourier-transform infrared (FTIR) spectra collected during milk recording schemes at population level can be used for predicting novel traits of interest for farm management, cows' genetic improvement, and milk payment systems. The aims of this study were as follows. (1) To predict cheese yield traits using FTIR spectra from routine milk recordings exploiting previously developed calibration equations. (2) To compare the predicted cheese-making abilities of different dairy and dual-purpose breeds. (3) To analyze the effects of herds' level of intensiveness (HL) and of the cow's level of productivity (CL). (4) To compare the patterns of predicted cheese yields with the patterns of milk composition in different breeds to discern the drivers of cheese-making efficiency. The major sources of variation of FTIR predictions of cheese yield ability (fresh cheese or cheese solids produced per unit milk) of individual milk samples were studied on 115,819 cows of 4 breeds (2 specialized dairy breeds, Holstein and Brown Swiss, and 2 dual-purpose breeds, Simmental and Alpine Grey) from 6,430 herds and exploiting 1,759,706 FTIR test-day spectra collected over 7 yr of milk sampling. Calibration equations used were previously developed on 1,264 individual laboratory model cheese procedures (cross-validation R2 0.85 and 0.95 for fresh and solids cheese yields, respectively). The linear model used for statistical analysis included the effects of parity, lactation stage, year of calving, month of sampling, HL, CL, breed of cow, and the interactions breed × HL and breed × CL. The HL and CL stratifications (5 classes each) were based on average daily secretion of milk net energy per cow. All effects were highly significant. The major conclusions were as follows. (1) The FTIR-based prediction of cheese yield of milk goes beyond the knowledge of fat and protein content, partially explaining differences in cheese-making ability in different cows, breeds and herds. (2) Differences in cheese yields of different breeds are only partially explained by milk fat and protein composition, and less productive breeds are characterized by a higher milk nutrient content as well as a higher recovery of nutrients in the cheese. (3) High-intensive herds not only produce much more milk, but the milk has a higher nutrient content and a higher cheese yield, whereas within herds, compared with less productive cows, the more productive cows have a much greater milk yield, milk with a greater content of fat but not of protein, and a moderate improvement in cheese yield, differing little from expectations based on milk composition. Finally, (4) the effects of HL and CL on milk quality and cheese-making ability are similar but not identical in different breeds, the less productive ones having some advantage in terms of cheese-making ability. We can obtain FTIR-based prediction of cheese yield from individual milk samples retrospectively at population level, which seems to go beyond the simple knowledge of milk composition, incorporating information on nutrient retention ability in cheese, with possible advantages for management of farms, genetic improvement of dairy cows, and milk payment systems.

Published

2021

11. Predicting the Content of 20 Minerals in Beef by Different Portable Near-Infrared (NIR) Spectrometers

Author

Alessio Cecchinato, Nageshvar Patel, Hugo Toledo-Alvarado, and Giovanni Bittante

Subjects

Longissimus thoracis muscle, Health (social science), Materials science, trace and environmental elements, Analytical chemistry, Plant Science, lcsh:Chemical technology, 01 natural sciences, Health Professions (miscellaneous), Microbiology, Article, Chemometrics, Micro-nutrients, Near infrared absorbance, Portable NIR instruments, Trace and environmental elements, lcsh:TP1-1185, Spectrometer, near infrared absorbance, 010401 analytical chemistry, Near-infrared spectroscopy, 0402 animal and dairy science, 04 agricultural and veterinary sciences, micro-nutrients, portable NIR instruments, chemometrics, 040201 dairy & animal science, Work environment, 0104 chemical sciences, Content (measure theory), Food Science

Abstract

The aim of this study was to test the predictability of a detailed mineral profile of beef using different portable near-infrared spectrometers (NIRS). These devices are rapid, chemical waste-free, cheap, nondestructive tools that can be used directly on the meat surface in the work environment without the need to take samples. We compared a transportable Visible-NIRS (weight 5.6 kg, wavelength 350&ndash, 1830 nm), a portable NIRS (2.0 kg, 950&ndash, 1650 nm), and a hand-held Micro-NIRS (0.06 kg, 905&ndash, 1649 nm) to predict the contents of 20 minerals (measured by ICP-OES) in 178 beef samples (Longissimus thoracis muscle) using different mathematical pretreatments of the spectra and partial least square regressions. The externally validated results show that Fe, P, Mg, S, Na, and Pb have some potential for prediction with all instruments (R2VAL: 0.40&ndash, 0.83). Overall, the prediction performances of the three instruments were similar, although the smallest (Micro-NIRS) exhibited certain advantages.

Published

2020

12. Genetic correlations between fertility traits and milk composition and fatty acids in Holstein-Friesian, Brown Swiss, and Simmental cattle using recursive models

Author

Sara Pegolo, Maria Martinez-Castillero, Hugo Toledo-Alvarado, Cristina Sartori, Lorenzo Degano, Luis Varona, Giovanni Bittante, Raffaella Finocchiaro, D. Vicario, and Alessio Cecchinato

Subjects

Ice calving, Biology, milk quality, recursive models, 03 medical and health sciences, Animal science, food, Genetic, Models, Lactation, Casein, Simmental cattle, Genetics, medicine, Animals, genetic correlations, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Models, Genetic, Fatty Acids, 0402 animal and dairy science, food and beverages, food.cheese_milk_source, Fatty acid, Bayes Theorem, 04 agricultural and veterinary sciences, 040201 dairy & animal science, Breed, medicine.anatomical_structure, Fertility, Milk, chemistry, Trait, Animal Science and Zoology, Cattle, Female, Brown Swiss, fertility, metabolism, Food Science

Abstract

This study aimed to investigate the genetic and putative causal relationships between fertility traits [i.e., days open (DO) and calving rate (CR)] and milk quality, composition, and fatty acid contents (milk composition traits) in Holstein-Friesian, Brown Swiss, and Simmental cattle, using recursive models within a Bayesian framework. Trivariate animal models were run, each including one fertility trait, one milk composition trait, and, in all models, milk yield. The DO and CR data were merged with the test days closest to the insemination date for milk composition traits. After editing, 16,468 to 23,424 records for Holstein-Friesian, 23,424 to 46,660 for Brown Swiss, and 26,105 to 35,574 for Simmental were available for the analyses. Recursive animal models were applied to investigate the possible causal influences of milk composition traits on fertility and the genetic relationships among these traits. The results suggested a potential cause-and-effect relationship between milk composition traits and fertility traits, with the first trait influencing the latter. We also found greater recursive effects of milk composition traits on DO than on CR, the latter with some putative differences among breeds in terms of sensitivity. For instance, the putative causal effects of somatic cell score on CR (on the observed scale, %) varied from -0.96 to -1.39%, depending on the breed. Concerning fatty acids, we found relevant putative effects of C18:0 on CR, with estimates varying from -7.8 to -9.9%. Protein and casein percentages, and short-chain fatty acid showed larger recursive effects on CR, whereas fat, protein, and casein percentages, C16:0, C18:0, and long-chain fatty acid had larger effects on DO. The results obtained suggested that these milk traits could be considered as effective indicators of the effects of animal metabolic and physiological status on fertility.

Published

2020

13. Performance of different portable and hand-held near-infrared spectrometers for predicting beef composition and quality characteristics in the abattoir without meat sampling

Author

Giovanni Bittante, Hugo Toledo-Alvarado, and Nageshvar Patel

Subjects

Longissimus thoracis muscle, Color, Muscle Proteins, Micro-NIRS, Chemometrics, 0404 agricultural biotechnology, Vis-NIRS, Calibration, Food Quality, Animals, Hand-held NIRS, Meat quality, Quality characteristics, Muscle, Skeletal, neoplasms, Remote sensing, Spectroscopy, Near-Infrared, Spectrometer, Hand held, Near-infrared spectroscopy, technology, industry, and agriculture, 0402 animal and dairy science, food and beverages, Sampling (statistics), 04 agricultural and veterinary sciences, equipment and supplies, 040401 food science, 040201 dairy & animal science, Lipids, Red Meat, surgical procedures, operative, Environmental science, Cattle, Abattoirs, Food Science

Abstract

The availability of portable and handheld NIR instruments on the market opens up new possibilities in meat analysis. However, there is lack of research comparing different NIR instruments for evaluating beef characteristics from spectra obtained directly on the meat surface. Our aim, therefore, was to build and test calibration and prediction models for predicting beef characteristics, and to compare the performances of three NIR instruments differing in size and characteristics: a transportable visible-NIR spectrometer (Vis-NIRS), a portable (NIRS), and a hand-held Micro-NIRS. Spectra were collected from 178 beef samples (Longissimus thoracis muscle) from the meat surface in the abattoir. The spectra were subjected to different mathematical pretreatments then partial least square regressions. The results showed that all instruments predicted dry matter, protein and lipids with R2VAL 0.23 to 0.70; pH and cooking loss R2VAL 0.19 to 0.25; and color R2VAL 0.35 to 0.77. Overall, the prediction performances of the three instruments were similar, although Micro-NIRS performed better in some respects.

Published

2020

14. Diversidad genética y estructura poblacional del cerdo negro lampiño de Yucatán usando chip SNP50

Author

Clemente Lemus-Flores, Dany Dzib-Cauich, Rogelio A. Alonso-Morales, Hugo Toledo-Alvarado, Raúl Sansor-Nah, and William Burgos-Paz

Subjects

Genetics, Minor allele frequency, education.field_of_study, Genetic diversity, Population, Outcrossing, Single-nucleotide polymorphism, General Medicine, Biology, education, Genetic association, Fixation index, Epithelial cell differentiation

Abstract

In the present study, the Population structure and genetic diversity of 104 Yucatan black hairless pigs (YBH) and 8 Duroc breeds were BY using an SNP50K chip characterized. The population structure was obtained, as well as the calculation of Principal Component Analysis (PCA), Minor Allele Frequency (MAF), heterozygosity observed (oH), Relationship (F), Fixation index of individuals within subpopulations (Fis), the t (outcrossing rate or allogamia index) was made, also the association analysis to identify SNP with population differences. The genetic component of Duroc in YBH subpopulations is low, from 0.00363 to 0.03532, thus, it was observed (appreciating) a subpopulation with greater genetic diversity and lower values of F and Fis, as well as higher oH and t. SNPs were identified (p

Published

2020

15. Diagnosing pregnancy status using infrared spectra and milk composition in dairy cows

Author

Giovanni Bittante, Ana I. Vazquez, Gustavo de los Campos, Robert J. Tempelman, Alessio Cecchinato, and Hugo Toledo-Alvarado

Subjects

0301 basic medicine, milk component, Infrared spectroscopy, Ice calving, Lactose, 03 medical and health sciences, chemistry.chemical_compound, Animal science, Casein, Spectroscopy, Fourier Transform Infrared, Genetics, Animals, Glycoproteins, Mathematics, milk, Receiver operating characteristic, Fourier transform infrared spectroscopy, pregnancy, Food Science, Animal Science and Zoology, 0402 animal and dairy science, Caseins, Lipid Droplets, 04 agricultural and veterinary sciences, Spectral bands, Milk Proteins, 040201 dairy & animal science, 030104 developmental biology, Italy, chemistry, Pregnancy, Animal, Cattle, Female, Composition (visual arts), Glycolipids, Brown Swiss

Abstract

Data on Holstein (16,890), Brown Swiss (31,441), Simmental (25,845), and Alpine Grey (12,535) cows reared in northeastern Italy were used to assess the ability of milk components (fat, protein, casein, and lactose) and Fourier transform infrared (FTIR) spectral data to diagnose pregnancy. Pregnancy status was defined as whether a pregnancy was confirmed by a subsequent calving and no other subsequent inseminations within 90 d of the breeding of specific interest. Milk samples were analyzed for components and FTIR full-spectrum data using a MilkoScan FT+ 6000 (Foss Electric, Hillerod, Denmark). The spectrum covered 1,060 wavenumbers (wn) from 5,010 to 925 cm −1 . Pregnancy status was predicted using generalized linear models with fat, protein, lactose, casein, and individual FTIR spectral bands or wavelengths as predictors. We also fitted a generalized linear model as a simultaneous function of all wavelengths (1,060 wn) with a Bayesian variable selection model using the BGLR R-package (https://r-forge.r-project.org/projects/bglr/). Prediction accuracy was determined using the area under a receiver operating characteristic curve based on a 10-fold cross-validation (CV-AUC) assessment based on sensitivities and specificities of phenotypic predictions. Overall, the best prediction accuracies were obtained for the model that included the complete FTIR spectral data. We observed similar patterns across breeds with small differences in prediction accuracy. The highest CV-AUC value was obtained for Alpine Grey cows (CV-AUC = 0.645), whereas Brown Swiss and Simmental cows had similar performance (CV-AUC = 0.630 and 0.628, respectively), followed by Holsteins (CV-AUC = 0.607). For single-wavelength analyses, important peaks were detected at wn 2,973 to 2,872 cm −1 where Fat-B (C-H stretch) is usually filtered, wn 1,773 cm −1 where Fat-A (C=O stretch) is filtered, wn 1,546 cm −1 where protein is filtered, wn 1,468 cm −1 associated with urea and fat, wn 1,399 and 1,245 cm −1 associated with acetone, and wn 1,025 to 1,013 cm −1 where lactose is filtered. In conclusion, this research provides new insight into alternative strategies for pregnancy screening of dairy cows.

Published

2018

16. Pure-breeding with sexed semen and crossbreeding with semen of double-muscled sires to improve beef production from dairy herds: Factors affecting heifer and cow fertility and the sex ratio

Author

Riccardo Negrini, Alessio Cecchinato, Giovanni Bittante, Matteo Bergamaschi, and Hugo Toledo-Alvarado

Subjects

dairy breed, Male, animal structures, animal diseases, media_common.quotation_subject, Fertility, Semen, Biology, Insemination, Crossbreed, 03 medical and health sciences, fluids and secretions, Animal science, heat stress on fertility, Genetic, X-sorted semen, Genetics, Animals, beef cross, replacement heifer, Animal Husbandry, Cattle, Dairying, Female, Sex Preselection, Hybridization, Genetic, Sex Ratio, Hybridization, 030304 developmental biology, media_common, 0303 health sciences, Settore AGR/17 - ZOOTECNICA GENERALE E MIGLIORAMENTO GENETICO, 0402 animal and dairy science, food and beverages, 04 agricultural and veterinary sciences, 040201 dairy & animal science, Breed, Herd, Animal Science and Zoology, Brown Swiss, Purebred, Food Science

Abstract

Using sexed semen to produce purebred replacement heifers makes it possible to mate a large proportion of dairy cows to double-muscled sires and to quantitatively and qualitatively improve beef production and increase the income from dairy herds. Net profit first depends on changes in the farm's overall fertility rate. The objective of this study was to analyze the conception rate in herds using a combination of conventional dairy semen (for pure- and crossbreeding), X-sorted dairy semen (to produce purebred replacement heifers), and conventional beef semen (for terminal crossbreeding). Data were obtained from 50,785 inseminations of 15,580 dairy cows (78% Holstein-Friesian, 15% Brown Swiss, 2% Simmental, and 5% crossbreds) from 106 dairy farms (average milk yield 35.1 ± 9.4 kg/d, with 3.76 ± 0.83% fat and 3.32 ± 0.39% protein contents). To account for the main potential confounders, we used separate generalized linear mixed-effects models for cows and virgin heifers. The results showed that the odds ratio of conception improved (1.00 to 1.34) with an increase in the average milk yield of the herd but worsened (1.12 to 0.70) with an increase in the milk yield of individual cows within herd. The summer months showed a strong reduction in the odds ratio of conception in cows (0.56 in July and August) but not in virgin heifers. Multiparous cows had a lower odds ratio of conception (0.85) than primiparous cows (1.00). The order of insemination did not affect the fertility of the cows or heifers, whereas the odds ratio of conception improved with advancing lactation (1.00 to 2.12). The Simmental cows were more fertile than Holstein-Friesians (1.37 vs. 1.00), whereas the fertility of the heifers was not affected by breed. Taking all these possible confounders into account simultaneously, in pure-breeding the odds ratio of conception using sexed semen did not differ from that using conventional dairy semen in cows (0.90 vs. 1.00) or in virgin heifers (0.95 vs. 1.00). However, crossbreeding using conventional beef and dairy semen improved the odds ratio of conception (1.10 and 1.17, respectively) in cows (1.37 using beef semen) and heifers (1.25 using dairy semen). The proportion of newborn heifer calves was ≥90% using sexed dairy semen. The combined use of sexed semen, especially on heifers, to produce purebred replacement females and beef semen to produce terminal crossbred calves was shown to have the potential to increase overall herd fertility, which could be further improved using sexed dairy semen to produce dairy crossbreds instead of purebred replacement heifers.

Published

2019

17. A landscape of the heritability of Fourier-transform infrared spectral wavelengths of milk samples by parity and lactation stage in Holstein cows

Author

Filippo Miglior, Giovanni Bittante, Hugo Toledo-Alvarado, Ana I. Vazquez, G. Rovere, A. Fleming, G. de los Campos, Robert J. Tempelman, Flavio S Schenkel, and Alessio Cecchinato

Subjects

Canada, Fourier-transform infrared (FTIR), Infrared, Biology, Bayesian, spectrometry, 03 medical and health sciences, symbols.namesake, Quantitative Trait, Animal science, Quantitative Trait, Heritable, BGLR software, Pregnancy, Lactation, Spectroscopy, Fourier Transform Infrared, medicine, Genetics, Animals, Heritable, Spectroscopy, 030304 developmental biology, 0303 health sciences, high-throughput phenotyping, Cattle, Female, Milk, Phenotype, Parity, Food Science, Animal Science and Zoology, 0402 animal and dairy science, Small sample, 04 agricultural and veterinary sciences, Heritability, Explained variation, 040201 dairy & animal science, Wavelength, medicine.anatomical_structure, Fourier transform, Fourier Transform Infrared, symbols, Parity (mathematics)

Abstract

Fourier-transform near- and mid-infrared (FTIR) milk spectral data are routinely collected in many countries worldwide. Establishing an optimal strategy to use spectral data in genetic evaluations requires knowledge of the heritabilities of individual FTIR wavelength absorbances. Previous FTIR heritability estimates have been based on relatively small sample sizes and have not considered the possibility that heritability may vary across parities and stages of the lactation. We used data from ∼370,000 test-day records of Canadian Holstein cows to produce a landscape of the heritability of FTIR spectra, 1,060 wavelengths in the near- and mid-infrared spectrum (5,011-925 cm-1), by parity and month of the lactation (mo 1 to 3 and mo 1 to 6, respectively). The 2 regions of the spectrum associated with absorption of electromagnetic energy by water molecules were estimated to have very high phenotypic variances, very low heritabilities, and very low proportion of variance explained by herd-year-season (HYS) subclasses. The near- or short-wavelength infrared (SWIR: 5,066-3,672 cm-1) region was also characterized by low heritability estimates, whereas the estimated proportion of the variance explained by HYS was high. The mid-wavelength infrared region (MWIR: 3,000-2,500 cm-1) and the transition between mid and long-wavelength infrared region (MWIR-LWIR: 1,500-925 cm-1) harbor several waves characterized by moderately high (≥0.4) heritabilities. Most of the high-heritability regions contained wavelengths that are reported to be associated with important milk metabolites and components. Interestingly, these 2 same regions tended to show more variability in heritabilities between parity and lactation stage. Second parity showed heritability patterns that were distinctly different from those of the first and third parities, whereas the first 2 mo of the lactation had clearly distinct heritability patterns compared with mo 3 to 6.

Published

2019

18. Changes in milk characteristics and fatty acid profile during the estrous cycle in dairy cows

Author

Gustavo de los Campos, Ana I. Vazquez, Gianfranco Gabai, Hugo Toledo-Alvarado, Giovanni Bittante, Robert J. Tempelman, and Alessio Cecchinato

Subjects

0301 basic medicine, endocrine system, Estrous cycle phase, mammary gland activity, Estrous Cycle, Biology, milk quality, 03 medical and health sciences, Animal science, Pregnancy, Lactation, Genetics, medicine, Animals, reproductive and urinary physiology, chemistry.chemical_classification, Estrous cycle, urogenital system, saturated fatty acid, Fatty Acids, 0402 animal and dairy science, Fatty acid, 04 agricultural and veterinary sciences, de novo fat synthesis, heat detection, Food Science, Animal Science and Zoology, 040201 dairy & animal science, Freezing point, 030104 developmental biology, medicine.anatomical_structure, Milk, chemistry, Italy, Saturated fatty acid, Cattle, Female, Brown Swiss, hormones, hormone substitutes, and hormone antagonists, Polyunsaturated fatty acid

Abstract

The relationship of the estrous cycle to milk composition and milk physical properties was assessed on Holstein (n = 10,696), Brown Swiss (n = 20,501), Simmental (n = 17,837), and Alpine Grey (n = 8,595) cows reared in northeastern Italy. The first insemination after calving for each cow was chosen to be the day of estrus and insemination. Test days surrounding the insemination date (from 10 d before to 10 d after the day of the estrus) were selected and categorized in phases relative to estrus as diestrus high-progesterone, proestrus, estrus, metestrus, and diestrus increasing-progesterone phases. Milk components and physical properties were predicted on the basis of Fourier-transform infrared spectra of milk samples and were analyzed using a linear mixed model, which included the random effects of herd, the fixed classification effects of year-month, parity number, breed, estrous cycle phase, day nested within the estrous cycle phase, conception, partial regressions on linear and quadratic effects of days in milk nested within parity number, as well as the interactions between conception outcome with estrous cycle phase and breed with estrous cycle phase. Milk composition, particularly fat, protein, and lactose, showed clear differences among the estrous cycle phases. Fat increased by 0.14% from diestrus high-progesterone to estrous phase, whereas protein concomitantly decreased by 0.03%. Lactose appeared to remain relatively constant over diestrus high-progesterone, rising 1 d before the day of estrus followed by a gradual reduction over the subsequent phases. Specific fatty acids were also affected across the estrous cycle phases: C14:0 and C16:0 decreased (-0.34 and -0.48%) from proestrus to estrus with a concomitant increase in C18:0 and C18:1 cis-9 (0.40 and 0.73%). More general categories of fatty acids showed a similar behavior; that is, unsaturated fatty acids, monounsaturated fatty acids, polyunsaturated fatty acids, trans fatty acids, and long-chain fatty acids increased, whereas the saturated fatty acids, medium-chain fatty acids, and short-chain fatty acids decreased during the estrous phase. Finally, urea, somatic cell score, freezing point, pH, and homogenization index were also affected indicating variation associated with the hormonal and behavioral changes of cows in standing estrus. Hence, the variation in milk profiles of cows showing estrus should potentially be taken into account for precision dairy farming management.

Published

2018

19. Učinci dodatka kvasca (Saccharomyces cerevisiae tipa boulardii CNCM I-1079) na rast i metabolita krvi jaradi crne bengalske pasmine

Author

Somir Singha, Hugo Toledo-Alvarado, Mohammad Mehedi Hasan Khan, Syed Sayeem Uddin Ahmed, and Sudeb Saha

Subjects

Saccharomyces cerevisiae tip boulardii, pokazatelji rasta, pokazatelji u krvi, jarad, General Veterinary, Saccharomyces cerevisiae, Food science, Biology, biology.organism_classification, Yeast, Saccharomyces cerevisiae type boulardii, growth parameters, blood parameters, goat kids

Abstract

The objective of this study was to investigate the effects of yeast (Saccharomyces cerevisiae type boulardii CNCM I-1079) supplementation on growth performance and blood metabolites in Black Bengal goat kids. The experiment was performed on eight growing Black Bengal goat kids divided into a control diet (CD) group without yeast and yeast supplement (YS) group with 1.5% of yeast supplement. The feeding experiment was conducted for 40 days with growth performance measured every ten days, and blood samples were collected on days 0 and 40 of the experiment. The data were analyzed using a mixed model. The results showed that YS had no effect on growth parameters. Moreover, addition of yeast to the diet did not affect the blood parameters (phosphorus (P), cholesterol, triacylglycerol, urea, total protein, glutamate pyruvate transaminase (GPT), and glutamate oxaloacetate transaminase (GOT)) except calcium (Ca) and magnesium (Mg). In the YS group animals, a slight increase in blood level concentration of Ca and Mg was observed compared to the CD group., Cilj rada bio je istražiti učinke kvasca (Saccharomyces cerevisiae tipa boulardii CNCM I-1079) na rast i metabolite krvi kod jaradi crne bengalske pasmine. Eksperiment je proveden na osam jarića podijeljenih u kontrolnu skupinu (KS), koja nije dobivala kvasac, i eksperimentalnu skupinu (ES), kojoj je u obrok dodavano 1,5 % kvasca. Pokus je trajao 40 dana tijekom kojih su učinci rasta mjereni svakih deset dana, a uzorci krvi prikupljeni su nulti i 40. dan eksperimenta. Podaci su analizirani pomoću miješanog modela. Rezultati su pokazali da kvasac nema učinka na pokazatelje rasta. Štoviše, dodavanje kvasca u prehranu nije utjecalo na pokazatelje u krvi (fosfor - P, kolesterol, triacilglicerol, ureju, ukupni protein, glutamat-piruvatnu transaminazu - GPT i glutamat-oksaloacetatnu transaminazu - GOT), uz izuzetak kalcija (Ca) i magnezija (Mg). U eksperimentalnoj skupini životinja opaženo je neznatno povećanje koncentracije Ca i Mg u krvi u odnosu na životinje u kontrolnoj skupini.

Published

2018

20. Effects of yeast (Saccharomyces cerevisiae type boulardii CNCM I-1079) supplementation on growth performance and blood metabolites in Black Bengal goat kids

Author

Sudeb Saha, Somir Singha, Syed S. U. Ahmed, Hugo Toledo-Alvarado Toledo-Alvarado, Mohammad M. H. Khan, Sudeb Saha, Somir Singha, Syed S. U. Ahmed, Hugo Toledo-Alvarado Toledo-Alvarado, and Mohammad M. H. Khan

Abstract

The objective of this study was to investigate the effects of yeast (Saccharomyces cerevisiae type boulardii CNCM I-1079) supplementation on growth performance and blood metabolites in Black Bengal goat kids. The experiment was performed on eight growing Black Bengal goat kids divided into a control diet (CD) group without yeast and yeast supplement (YS) group with 1.5% of yeast supplement. The feeding experiment was conducted for 40 days with growth performance measured every ten days, and blood samples were collected on days 0 and 40 of the experiment. The data were analyzed using a mixed model. The results showed that YS had no effect on growth parameters. Moreover, addition of yeast to the diet did not affect the blood parameters (phosphorus (P), cholesterol, triacylglycerol, urea, total protein, glutamate pyruvate transaminase (GPT), and glutamate oxaloacetate transaminase (GOT)) except calcium (Ca) and magnesium (Mg). In the YS group animals, a slight increase in blood level concentration of Ca and Mg was observed compared to the CD group., Cilj rada bio je istražiti učinke kvasca (Saccharomyces cerevisiae tipa boulardii CNCM I-1079) na rast i metabolite krvi kod jaradi crne bengalske pasmine. Eksperiment je proveden na osam jarića podijeljenih u kontrolnu skupinu (KS), koja nije dobivala kvasac, i eksperimentalnu skupinu (ES), kojoj je u obrok dodavano 1,5 % kvasca. Pokus je trajao 40 dana tijekom kojih su učinci rasta mjereni svakih deset dana, a uzorci krvi prikupljeni su nulti i 40. dan eksperimenta. Podaci su analizirani pomoću miješanog modela. Rezultati su pokazali da kvasac nema učinka na pokazatelje rasta. Štoviše, dodavanje kvasca u prehranu nije utjecalo na pokazatelje u krvi (fosfor - P, kolesterol, triacilglicerol, ureju, ukupni protein, glutamat-piruvatnu transaminazu - GPT i glutamat-oksaloacetatnu transaminazu - GOT), uz izuzetak kalcija (Ca) i magnezija (Mg). U eksperimentalnoj skupini životinja opaženo je neznatno povećanje koncentracije Ca i Mg u krvi u odnosu na životinje u kontrolnoj skupini.

Published

2018

21. Fertility traits of Holstein, Brown Swiss, Simmental, and Alpine Grey cows are differently affected by herd productivity and milk yield of individual cows

Author

Hugo Toledo-Alvarado, Alessio Cecchinato, and Giovanni Bittante

Subjects

0301 basic medicine, Time Factors, animal diseases, media_common.quotation_subject, genotype, Ice calving, Fertility, Biology, Crossbreed, Insemination, survival analysis, 03 medical and health sciences, Animal science, Species Specificity, Pregnancy, Genetics, Animals, Lactation, milk production, Dairy farming, Dairy cattle, media_common, fertility, genotype, environment, 0402 animal and dairy science, food and beverages, 04 agricultural and veterinary sciences, 040201 dairy & animal science, Breed, Milk, 030104 developmental biology, Italy, Herd, Cattle, Female, Animal Science and Zoology, Brown Swiss, environment, Selective Breeding, Food Science

Abstract

Milk yield has a strong effect on fertility, but it may vary across different herds and individual cows. Therefore, the aim of this study was to assess the effects of breed and its interaction with level of milk production at the herd level (Herd-L) and at a cow-within-herd level (Cow-L) on fertility traits in dairy cattle. Data were gathered from Holstein (n = 17,688), Brown Swiss (n = 32,697), Simmental (n = 27,791), and Alpine Grey (n = 13,689) cows in northeastern Italy. The analysis was based on records from the first 3 lactations in the years 2011 to 2014. A mixed model was fitted to establish milk production levels of the various herds (Herd-L) and individual cows (Cow-L) using milk as a response variable. The interval fertility traits were interval from calving to first service, interval from first service to conception, and number of days open. The success traits were nonreturn rate at 56 d after first service, pregnancy rate at first service, and the number of inseminations. The interval from calving to first service, interval from first service to conception, and number of days open were analyzed using a Cox's proportional hazards model. The nonreturn rate at 56 d after first service, pregnancy rate at first service, and the number of inseminations were analyzed using logistic regression. There was a strong interaction between breed and productivity class at both Herd-L and Cow-L on all traits. The effects of herd and cow productivity differed from each other and differed among breeds. The dual-purpose Simmental and Alpine Grey breeds had better fertility than the specialized Holstein and Brown Swiss dairy cows; this difference is only partly attributable to different milk yields. Greater herd productivity can result in higher fertility in cows, whereas higher milk yield of individual cows within a herd results in lower fertility. These effects at both Herd-L and Cow-L are curvilinear and are stronger in dual-purpose breeds, which was more evident from low to intermediate milk yield levels than from central to high productivity classes. Disentangling the effects of milk productivity on fertility at Herd-L and Cow-L and taking the nonlinearity of response into account could lead to better modeling of populations within breed. It could also help with management—for example, in precision dairy farming of dairy and dual-purpose cattle. Moreover, assessing the fertility of various breeds and their different responses to herd and individual productivity levels could be useful in devising more profitable crossbreeding programs in different dairy systems.

Published

2017