Abstract
World meat production must increase substantially to support current projections in population growth over the next 30 years. However, maximizing product quality remains a focus for many in the meat industry, as incremental increases in product quality often signal potential increases in segment profitability. Moreover, increases in meat quality also address concerns raised by an ever-growing affluent society demanding greater eating satisfaction. Production strategies and valued endpoints differ worldwide, though this makes the global marketing of meat challenging. Moreover, this variation in production schemes makes it difficult for the scientific community to understand precisely those mechanisms controlling beef quality. For example, some cattle are produced in low input, extensive, forage-based systems. In contrast, some producers raise cattle in more intensive operations where feeding programs are strategically designed to maximal growth rates and achieve significant fat deposition. Yet, others produce cattle that perform between these two extremes. Fresh meat quality, somewhat like the variation observed in production strategies, is perceived differently across the globe. Even so, meat quality is largely predicated on those characteristics visible at the retail counter, namely color and perceived texture and firmness. Once purchased, however, the eating experience is a function of flavor and tenderness. In this review, we attempt to identify a few areas where animal growth may impact postmortem energy metabolism and thereby alter meat quality. Understanding how animals grow and how this affects meat quality development is incumbent to all vested in the meat industry.
Highlights
World population is projected to reach 9 billion inhabitants by the year 2050
In pasture-based systems, energy intake above that needed for maintenance is used for tissue deposition but is generally limited, leading to slower growth rates and fat deposition when compared with feedlot finished animals
These data are in agreement with many studies [86,87], yet others have shown no difference in meat quality between grain and forage-finished beef, including tenderness [88,89]
Summary
World population is projected to reach 9 billion inhabitants by the year 2050 This dramatic growth in population will require an increase in all agricultural food commodities. Beef production will need to increase by nearly 60% [1] in order to feed the burgeoning global population. This increase in production will likely occur in the Southern hemisphere where production systems have the greatest capacities to increase production, either through increased capacities to add ancillary resources needed to expand the beef industry or by adding greater land masses [2]. Cattle growth and meat quality should be explored to better understand the potential opportunities and challenges in expanding beef production worldwide. Otherwise advocate that one system should be adopted as the norm for meat production worldwide would be imprudent and cavalier
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