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Advances in Crop Science and Technology | ISSN: 2329-8863 | Volume: 6

Global Summit on

October 26-27, 2018 | Boston, USA

Agriculture, Food Science and Technology

Sustainable pasture-pork production system: A strategy for improving profitability, carcass and meat

quality traits in finishing pigs

T

oday’s swine industry has shifted from producing hog to producing pork, as producers are compensated for leaner pigs. A

dependable and economical source of feed is the backbone of a profitable swine operation. Low income and rural swine

producers are limited by today’s high feed cost and are looking for a more sustainable pork production system. This study was

to determine the effect of grazing systems on meat quality, carcass traits and on lipid metabolism gene expressions. Control

pigs were fed 100% commercial diet. Fifty/fifty (50/50) group was placed on 50% of the diet consumed by the control group

plus free access to ryegrass-clover pasture. The twenty-five/seventy-five/(25/75) group was fed 25% of the diet consumed by

the control plus access to free pasture. The overall meat quality (flavor, overall acceptability and carcass traits (marbling, color)

scored significantly higher (P<0.0.5) in the 25/75 group than in the control or 50/50 group. Back-fat was lower in 25/75 group

(P<0.05) than in the control or 50/50 group. No differences were observed between the control and 50/50 in meat and carcass

qualities. Real-time PCR revealed that peroxisome proliferator-activated receptor α (PPARα), peroxisome proliferator-activated

receptor γ (PPARγ), lipoprotein lipase (LPL) and sterol-regulatory-element-binding protein 2 (SREBP-2) responded differently

in muscle and adipose tissues. The results indicated that pasture-based pork production could upload lipid metabolism genes

in muscle and adipose tissue important in reducing all production inputs, improving carcass traits and meat quality measures.

Biography

Michael O Ezekwe (PhD) is a professor of Animal Science and director of Swine Development Center at Alcorn State University. He received his PhD from

Pennsylvania State University in animal nutrition. He has authored several papers in refereed journals and has two US Patent awards. He has conducted many

technology transfer workshops in Africa and the Caribbean islands. Current research interest includes utilization of crops for animal and human nutrition.

ezekwe@alcorn.edu

Michael O Ezekwe

Alcorn State University, USA

Michael O Ezekwe, Adv Crop Sci Tech 2018, Volume 6

DOI: 10.4172/2329-8863-C2-007