提高氮利用效率以实现更可持续的猪肉生产的挑战和机遇

IF 2.1 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Frontiers in animal science Pub Date : 2023-07-19 DOI:10.3389/fanim.2023.1204863
G. Shurson, B. Kerr
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引用次数: 1

摘要

猪肉是世界上消耗量最大的动物源性蛋白质来源之一,但只有不到45%的膳食氮转化为可食用的瘦肉。这种低效率导致了80%的人为氮排放,导致氮超过了地球边界。减少这种低效率需要使用多方面的方法。近几十年来,猪的遗传选择计划提高了瘦肉率,但由于全球猪群缺乏遗传变异,进一步提高瘦肉率可能很困难。增加产仔数的育种计划导致宫内生长受限,低出生体重仔猪的比例增加,这些仔猪不能像正常出生体重猪那样有效地利用膳食蛋白质。与阉割和镀金相比,完整的雄性具有更高的瘦肉生长率和氮效率,一些国家已经使用免疫检测技术来获取这一优势,同时最大限度地减少猪肉中的野猪污染。使用其他代谢调节剂,包括猪生长激素和莱克多巴胺,单独使用或与免疫注射联合使用,可以进一步提高瘦肉生长和膳食氮效率,但消费者普遍缺乏接受度和潜在的食品安全问题导致许多国家的监管限制。由于饲料生产约占生猪生产系统氮排放量的70%,因此使用精密饲料配方和饲养方法、选择膳食饲料添加剂、饲料加工和最大限度地减少饲料浪费似乎为减少氮浪费和环境足迹以提高猪肉生产的可持续性提供了最大的机会。
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Challenges and opportunities for improving nitrogen utilization efficiency for more sustainable pork production
Pork is one of the most consumed animal-derived protein sources around the world, but less than 45% of dietary nitrogen (N) is converted into edible lean meat. This inefficiency contributes to the 80% of human-induced N emissions that have resulted in exceeding the planetary boundaries for N. Reducing this inefficiency requires using a multifaceted approach. Swine genetic selection programs have improved the rate of lean growth in recent decades, but further improvements may be difficult because of lack of genetic variation within the global pig population. Breeding programs to increase litter size have led to intrauterine growth restriction and an increased proportion of low-birth-weight piglets which do not utilize dietary protein as efficiently as normal birth weight pigs. Intact males have greater lean growth rate and N efficiency than castrates and gilts, and the use of immunocastration technology has been implemented in some countries to capture this benefit while minimizing boar taint in pig meat. Use of other metabolic modifiers including porcine somatotropin and ractopamine, alone or in combination with immunocastration, can further enhance lean growth and dietary N efficiency, but a general lack of consumer acceptance and potential food safety concerns have led to regulatory restrictions in many countries. Because feed production contributes about 70% of N emissions in pig production systems, use of precision feed formulation and feeding practices, selected dietary feed additives, feed processing, and minimizing feed wastage appear to offer the greatest opportunity to reduce N waste and environmental footprint to improve the sustainability of pork production.
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