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Author: Kari L. White Publisher: ISBN: Category : Languages : en Pages :
Book Description
The objective of this research is to add needed information on economically relevant traits (ERT) to the existing American Gelbvieh Association National Cattle Evaluation. Substantive pieces were added to that vision by identifying selection tools that have not previously been established for that evaluation, or by re-assessing current selection tools to include the most efficient analysis. The topics of research included are traits that are often difficult or expensive to measure, which will benefit the greatest from further research into developing efficient and effective selection tools. The objectives of the feed energy utilization study were to estimate genetic parameters for dry matter intake (DMI), percent daily dry matter required (PDMR), residual feed intake (RFI), adjusted weaning weight (AWWT), and post weaning gain (PWG) in a multi-breed population of growing beef cattle, in addition to implementing an economic selection index identify genetically favorable animals in the complex of traits associated with feed energy utilization. Feed intake and performance data for this analysis included records on animals collected by twelve individual breeders using Growsafe® systems and were later submitted to the AGA. Feed efficiency parameters were estimated to be moderately heritable in this data set of Gelbvieh influenced cattle, indicating producers can make genetic improvement through selection for the traits. In addition, correlations among certain feed efficiency traits indicate selection for one trait should result in a correlated response in others. Index selection is preferable for genetic improvement in feed efficiency traits because of a large unfavorable genetic correlation between feed intake and growth. Continued collection of feed efficiency phenotypes is essential to identifying animals that are profitable in feed energy utilization. The objectives of the sustained productivity study were to calculate an estimated breeding value (EBV) for each sire for relative risk of failing to calve consecutively within 425 days from 1 to 9 parities. The EBV for relative risk could then be used as genetic selection tool for sires whose daughters are more likely to reproduce in the herd within 425 days from 1 to 9 parities. Data for this analysis were birth dates and disposal codes reported by breeders to the AGA. Every animal in the AGA database has an associated code. For the purposes of this analysis, a female was considered to have a complete record (uncensored, code "0") if she failed to calve within 425 days of the previous calving, with no reported disposal code. A female was also considered uncensored, or considered to have a complete record, if she was greater than 11 years and 60 days old at the time of data extraction without a calving interval greater than 425 days in her lifetime. A female was considered to have an incomplete record (censored, code 1) if she had a defined non-reproductive disposal code, indicating she was culled from the herd for a reason other than reproduction. Females still active and producing in the herd at the time of data extract were also considered censored, since the upper bound of their productive life was still unknown. Analysis indicated that animals in our data set that failed to calve within 425 days of previous calving, or those who were still producing in the herd at 11 years 60 days of age (uncensored) exited the herd at an average of 2.19 years old. Animals with a defined non-reproductive disposal code, or those still active in the herd at less than 11 years 60 days of age (censored) exited the herd at an average of 2.39 years old. Younger parities had a greater culling rate that decreased at later parities. This indicates failure occurs at a higher rate at younger ages. It should be noted that while it appears younger parities have a greater risk of failure, animals most likely to be culled for reproductive failure have already left the herd by later parities. As a result, culling rate is lower in advanced parities. Sustained reproductive success and length of productive life as indicators of cow fertility are of great economic importance to the beef industry. The current study is a prototype genetic evaluation that will allow the AGA to select for sires that have daughters with improved length of productive life. The objectives of the tenderness study were to quantify the genetic and phenotypic relationships between various methods of tenderness evaluation for fresh and frozen samples, quantitatively estimate breed effects of tenderness, and to assess the interaction of breed with calpastatin (CAST) and [mu]-calpain (CAPN1) markers. Data used in this analysis included SSF predicted by visible spectroscopy (LED), visible/near-infrared hyperspectral imaging (VISNIR) predicted SSF, fresh and frozen SSF aged to approximately 14 days (SSF14), frozen SSF aged to approximately 3 and 4 days combined (SSF3), and frozen WBSF aged to approximately 14 days and 3 and 4 days combined (WBS14 and WBS3). Predicted measures of meat tenderness (LED and VISNIR) were estimated to be highly heritable at 0.78 and 0.59, respectively. High heritability in predicted measures of tenderness indicate they may be useful as correlated traits for selection. Slice shear force 3 and WBS3 had the greatest genetic correlation of 0.93 (0.03). Genetic correlations between estimated tenderness values (LED and VIS) and measured tenderness values (SSF and WBSF) ranged from low (0.02) to moderate (0.36) for LED and from low (-0.01) to moderate (0.48) for VIS. Warner-Bratzler shear force values at different days of post-mortem aging were found to be highly genetically correlated at 0.81 (0.05). Genetic correlations between SSF and WBSF values ranged from moderate (0.39) to high (0.93) depending on age. Breed was found to be a significant effect at p
Author: Kari L. White Publisher: ISBN: Category : Languages : en Pages :
Book Description
The objective of this research is to add needed information on economically relevant traits (ERT) to the existing American Gelbvieh Association National Cattle Evaluation. Substantive pieces were added to that vision by identifying selection tools that have not previously been established for that evaluation, or by re-assessing current selection tools to include the most efficient analysis. The topics of research included are traits that are often difficult or expensive to measure, which will benefit the greatest from further research into developing efficient and effective selection tools. The objectives of the feed energy utilization study were to estimate genetic parameters for dry matter intake (DMI), percent daily dry matter required (PDMR), residual feed intake (RFI), adjusted weaning weight (AWWT), and post weaning gain (PWG) in a multi-breed population of growing beef cattle, in addition to implementing an economic selection index identify genetically favorable animals in the complex of traits associated with feed energy utilization. Feed intake and performance data for this analysis included records on animals collected by twelve individual breeders using Growsafe® systems and were later submitted to the AGA. Feed efficiency parameters were estimated to be moderately heritable in this data set of Gelbvieh influenced cattle, indicating producers can make genetic improvement through selection for the traits. In addition, correlations among certain feed efficiency traits indicate selection for one trait should result in a correlated response in others. Index selection is preferable for genetic improvement in feed efficiency traits because of a large unfavorable genetic correlation between feed intake and growth. Continued collection of feed efficiency phenotypes is essential to identifying animals that are profitable in feed energy utilization. The objectives of the sustained productivity study were to calculate an estimated breeding value (EBV) for each sire for relative risk of failing to calve consecutively within 425 days from 1 to 9 parities. The EBV for relative risk could then be used as genetic selection tool for sires whose daughters are more likely to reproduce in the herd within 425 days from 1 to 9 parities. Data for this analysis were birth dates and disposal codes reported by breeders to the AGA. Every animal in the AGA database has an associated code. For the purposes of this analysis, a female was considered to have a complete record (uncensored, code "0") if she failed to calve within 425 days of the previous calving, with no reported disposal code. A female was also considered uncensored, or considered to have a complete record, if she was greater than 11 years and 60 days old at the time of data extraction without a calving interval greater than 425 days in her lifetime. A female was considered to have an incomplete record (censored, code 1) if she had a defined non-reproductive disposal code, indicating she was culled from the herd for a reason other than reproduction. Females still active and producing in the herd at the time of data extract were also considered censored, since the upper bound of their productive life was still unknown. Analysis indicated that animals in our data set that failed to calve within 425 days of previous calving, or those who were still producing in the herd at 11 years 60 days of age (uncensored) exited the herd at an average of 2.19 years old. Animals with a defined non-reproductive disposal code, or those still active in the herd at less than 11 years 60 days of age (censored) exited the herd at an average of 2.39 years old. Younger parities had a greater culling rate that decreased at later parities. This indicates failure occurs at a higher rate at younger ages. It should be noted that while it appears younger parities have a greater risk of failure, animals most likely to be culled for reproductive failure have already left the herd by later parities. As a result, culling rate is lower in advanced parities. Sustained reproductive success and length of productive life as indicators of cow fertility are of great economic importance to the beef industry. The current study is a prototype genetic evaluation that will allow the AGA to select for sires that have daughters with improved length of productive life. The objectives of the tenderness study were to quantify the genetic and phenotypic relationships between various methods of tenderness evaluation for fresh and frozen samples, quantitatively estimate breed effects of tenderness, and to assess the interaction of breed with calpastatin (CAST) and [mu]-calpain (CAPN1) markers. Data used in this analysis included SSF predicted by visible spectroscopy (LED), visible/near-infrared hyperspectral imaging (VISNIR) predicted SSF, fresh and frozen SSF aged to approximately 14 days (SSF14), frozen SSF aged to approximately 3 and 4 days combined (SSF3), and frozen WBSF aged to approximately 14 days and 3 and 4 days combined (WBS14 and WBS3). Predicted measures of meat tenderness (LED and VISNIR) were estimated to be highly heritable at 0.78 and 0.59, respectively. High heritability in predicted measures of tenderness indicate they may be useful as correlated traits for selection. Slice shear force 3 and WBS3 had the greatest genetic correlation of 0.93 (0.03). Genetic correlations between estimated tenderness values (LED and VIS) and measured tenderness values (SSF and WBSF) ranged from low (0.02) to moderate (0.36) for LED and from low (-0.01) to moderate (0.48) for VIS. Warner-Bratzler shear force values at different days of post-mortem aging were found to be highly genetically correlated at 0.81 (0.05). Genetic correlations between SSF and WBSF values ranged from moderate (0.39) to high (0.93) depending on age. Breed was found to be a significant effect at p
Author: Andy Clark Publisher: DIANE Publishing ISBN: 1437903797 Category : Technology & Engineering Languages : en Pages : 248
Book Description
Cover crops slow erosion, improve soil, smother weeds, enhance nutrient and moisture availability, help control many pests and bring a host of other benefits to your farm. At the same time, they can reduce costs, increase profits and even create new sources of income. You¿ll reap dividends on your cover crop investments for years, since their benefits accumulate over the long term. This book will help you find which ones are right for you. Captures farmer and other research results from the past ten years. The authors verified the info. from the 2nd ed., added new results and updated farmer profiles and research data, and added 2 chap. Includes maps and charts, detailed narratives about individual cover crop species, and chap. about aspects of cover cropping.
Author: Valerie Porter Publisher: CABI ISBN: 1845934660 Category : Science Languages : en Pages : 1109
Book Description
Mason's World Encyclopedia of Livestock Breeds and Breeding describes breeds of livestock worldwide as well as a range of breed-related subjects such as husbandry, health and behaviour. This definitive and prestigious reference work presents easily accessible information on domestication (including wild ancestors and related species), genetics and breeding, livestock produce and markets, as well as breed conservation and the cultural and social aspects of livestock farming. Written by renowned livestock authorities, these volumes draw on the authors' lifelong interest and involvement in livestock breeds of the world, presenting a unique, comprehensive and fully cross-referenced guide to cattle, buffalo, horses, pigs, sheep, asses, goats, camelids, yak and other domesticants.
Author: James R. Gillespie Publisher: Delmar ISBN: Category : Business & Economics Languages : en Pages : 680
Book Description
"Designed for career and technical high school students who require competency in all phases and types of livestock production, the Ninth Edition of MODERN LIVESTOCK AND POULTRY PRODUCTION has been revised to include the most up-to-date, comprehensive information in the field. With coverage of basic animal science and livestock industry information as well as current issues in animal agriculture, this engaging text covers everything students need to know about livestock and poultry animals for classroom study and beyond. Through updated visual aids, real-world applications, and comprehensive study tools, the Ninth Edition provides students with a solid understand of the anatomy, physiology, nutrition, feeding, and reproduction of multiple livestock and poultry breeds." --Google Books.
Author: Bruce Walsh Publisher: Oxford University Press ISBN: 0192566644 Category : Science Languages : en Pages : 1504
Book Description
Quantitative traits-be they morphological or physiological characters, aspects of behavior, or genome-level features such as the amount of RNA or protein expression for a specific gene-usually show considerable variation within and among populations. Quantitative genetics, also referred to as the genetics of complex traits, is the study of such characters and is based on mathematical models of evolution in which many genes influence the trait and in which non-genetic factors may also be important. Evolution and Selection of Quantitative Traits presents a holistic treatment of the subject, showing the interplay between theory and data with extensive discussions on statistical issues relating to the estimation of the biologically relevant parameters for these models. Quantitative genetics is viewed as the bridge between complex mathematical models of trait evolution and real-world data, and the authors have clearly framed their treatment as such. This is the second volume in a planned trilogy that summarizes the modern field of quantitative genetics, informed by empirical observations from wide-ranging fields (agriculture, evolution, ecology, and human biology) as well as population genetics, statistical theory, mathematical modeling, genetics, and genomics. Whilst volume 1 (1998) dealt with the genetics of such traits, the main focus of volume 2 is on their evolution, with a special emphasis on detecting selection (ranging from the use of genomic and historical data through to ecological field data) and examining its consequences.
Author: Steven M. Lonergan Publisher: Academic Press ISBN: 0128152788 Category : Medical Languages : en Pages : 302
Book Description
The Science of Animal Growth and Meat Technology, Second Edition, combines fundamental science- based and applied, practical concepts relating to the prenatal and postnatal growth of cattle, sheep and pigs. It provides the necessary components to understand the production and growth of livestock for safe and quality meat products and presents an understanding of the principles of meat science and technology that is needed to understand the meat industry. Information on the slaughter process of animals, muscle structure and meat tenderness, meat quality, meat safety, and microbiology makes this a valuable self-study reference for students and professionals entering the field. - Describes principles in muscle metabolism, meat quality and meat safety using case studies - Discusses the microbial safety of meat products, primary pathogens of concern, and pathogen detection - Offers solutions on how to control bacterial growth to improve the safety and quality of meat - Presents a new chapter on packaging for meat and meat products that focuses on flexible film technology, packaging materials and equipment technology - Includes new information on inspection systems prior to slaughter, during slaughter, and the inspection of meat processing systems
Author: Kari L. White
Author: Kari L. White
Author: Dixon D. Hubbard
Author: Andy Clark
Author: 
Author: Valerie Porter
Author: James R. Gillespie
Author: 
Author: 
Author: Bruce Walsh
Author: Steven M. Lonergan