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Pig Industry (pig + industry)

Distribution by Scientific Domains
Medical Sciences40%
Life Sciences40%

Selected Abstracts

Evaluating animal welfare with choice experiments: an application to Swedish pig production

AGRIBUSINESS : AN INTERNATIONAL JOURNAL, Issue 1 2008
Carolina Liljenstolpe
In this study, the demand for animal welfare attributes when buying pork fillet is investigated among Swedish respondents. The issue is of importance in order to ensure an economically viable pig industry while applying an increasing number of animal friendly practices. In order to obtain information about consumer demand, an indirect utility function and willingness to pay (WTP) for animal welfare attributes are estimated. The attributes are solely associated with animal friendly practices. An investigation of numerous housing and managerial practices of pig production has not yet been performed. The indirect utility function is estimated using a random parameter logit model. A realistic approach when modeling consumer choice is to allow for heterogeneity in preferences. The relevance of assuming randomness of some of the parameters is evaluated by using a specification test developed by McFadden and Train (2000). The WTP is also estimated at the individual level. The results indicate that WTP for animal welfare attributes may be negative or positive. The preferences are also heterogeneous among respondents, which may be explained by a segmentation of preferences. Finally, the WTP estimates for animal welfare practices are compared with cost estimates for such production systems. [Econlit subject codes: C010, C500, Q100] © 2008 Wiley Periodicals, Inc. [source]

Mechanisms of Regulation of Litter Size in Pigs on the Genome Level

REPRODUCTION IN DOMESTIC ANIMALS, Issue 2007
O Distl
Contents Improvement in litter size has become of great interest in pig industry as good fecundity is directly related to a sow's productive life. Genetic regulation of litter size is complex and the main component traits so far defined are ovulation rate, embryonic survival, uterus capacity, foetal survival and pre-weaning losses. Improvements using concepts of the quantitative genetics let expect only slow genetic progress due to its low heritability of approximately 0.09 for number of piglets born alive. Marker assisted selection allows to dissect litter size in its component traits and using molecular genetic markers for the components of litter size traits promises more progress and advantages in optimum balancing of the different physiological mechanisms influencing litter size. In this review, efforts being made to unravel the genetic determinants of litter size are accounted and discussed. For litter size traits, more than 50 quantitative trait loci (QTL) were mapped and in more than 12 candidate genes associations confirmed. The number of useful candidate genes is much larger as shown by expression profiles and in addition, much more QTL can be assumed. These functional genomic approaches, both QTL mapping and candidate gene analysis, have to be merged for a better understanding of a wider application across different pig breeds and lines. Newly developed tools based on microarray techniques comprising DNA variants or expressed tags of many genes or even the whole genome appear useful for in depth understanding of the genetics of litter size in pigs. [source]

Refined candidate region specified by haplotype sharing for Escherichia coli F4ab/F4ac susceptibility alleles in pigs

ANIMAL GENETICS, Issue 1 2010
M. Jacobsen
Summary Infection of the small intestine by enterotoxigenic Escherichia coli F4ab/ac is a major welfare problem and financial burden for the pig industry. Natural resistance to this infection is inherited as a Mendelian recessive trait, and a polymorphism in the MUC4 gene segregating for susceptibility/resistance is presently used in a selection programme by the Danish pig breeding industry. To elucidate the genetic background involved in E. coli F4ab/ac susceptibility in pigs, a detailed haplotype map of the porcine candidate region was established. This region covers approximately 3.7 Mb. The material used for the study is a three generation family, where the founders are two Wild boars and eight Large White sows. All pigs have been phenotyped for susceptibility to F4ab/ac using an adhesion assay. Their haplotypes are known from segregation analysis using flanking markers. By a targeted approach, the candidate region was subjected to screening for polymorphisms, mainly focusing on intronic sequences. A total of 18 genes were partially sequenced, and polymorphisms were identified in GP5, CENTB2, APOD, PCYT1A, OSTalpha, ZDHHC19, TFRC, ACK1, MUC4, MUC20, KIAA0226, LRCH3 and MUC13. Overall, 227 polymorphisms were discovered in the founder generation. The analysis revealed a large haplotype block, spanning at least 1.5 Mb around MUC4, to be associated with F4ab/ac susceptibility. [source]

Quantitative trait loci for leg weakness traits in a Landrace purebred population

ANIMAL SCIENCE JOURNAL, Issue 1 2010
Yoshinobu UEMOTO
ABSTRACT Leg weakness in pigs is a serious problem in the pig industry. We performed a whole genome quantitative trait locus (QTL) analysis to find QTLs affecting leg weakness traits in the Landrace population. Half-sib progeny (n = 522) with five sires were measured for leg weakness traits. Whole genome QTL mapping was performed using a half-sib regression-based method using 190 microsatellite markers. No experiment-wide significant QTLs affecting leg weakness traits were detected. However, at the 5% chromosome-wide level, QTLs affecting leg weakness traits were detected on chromosomes 1, 3, 10 and 11 with QTL effects ranging from 0.07 to 0.11 of the phenotypic variance. At the 1% chromosome-wide level, QTLs affecting rear feet score and total leg score were detected on chromosomes 2 and 3 with QTL effects of 0.11 and 0.13 of the phenotypic variance, respectively. On chromosome 3 and 10, some QTLs found in this study were located at nearby positions. The present study is one of the first reports of QTLs affecting fitness related traits such as leg weakness traits, that segregate within the Landrace population. The study also provides useful information for studying QTLs in purebred populations. [source]

Evaluation of the implementation of new traceability and food safety requirements in the pig industry in eastern Australia

AUSTRALIAN VETERINARY JOURNAL, Issue 10 2009
M Hernández-Jover
Objectives To evaluate the implementation and barriers to adoption, among pig producers, of a newly introduced traceability and food safety system in Australia. Procedure Implementation of the PigPass national vendor declaration (NVD) linked to an on-farm quality assurance (QA) program was evaluated in May and December 2007 at saleyards and abattoirs in New South Wales, Victoria and Queensland. Four focus group discussions with saleyard producers were held between April and July 2007. Results Implementation of the PigPass system in terms of accurate completion of the form and QA accreditation was higher at the export abattoir than at the regional saleyard at the first audit (P < 0.01). Implementation increased at the second audit at the abattoirs, but little change with time was observed at saleyards. Approximately half of the producers at saleyards used photocopied PigPass forms, made at least one error (>64%), and many vendors did not appear to be QA-accredited. During focus groups, producers expressed the view that PigPass implementation improved animal and product traceability. They identified the associated costs and a perceived lack of support by information providers as obstacles for adoption. Conclusion Improvement in the implementation of PigPass among producers marketing pigs at export abattoirs was observed during the 8-month period of the study. There is a need for a more uniform message to producers from government agencies on the importance of the PigPass NVD and QA and extension and education targeted toward producers supplying pigs to saleyards and domestic abattoirs to ensure compliance with the traceability requirements. [source]