Feeds and foods are not equal in th

Feeds and foods are not equal in their capacity to support the animal functions of maintenance, growth,
reproduction and lactation (Van Soest, 1994). They supply energy and essential nutrients in the form of protein,
vitamins and minerals. Energy and protein are often the most limiting factors for ruminants and have received
the most attention in evaluation systems (Mapato et al., 2010). In the formulation of diets for ruminants, it is
important to optimize the balance between the energy and protein contents of the feed, so that balanced rumen
fermentation occurs and maximum voluntary intake and feed utilization can achieve.
Dietary protein plays an important role in the nutrition of ruminants, since besides providing amino acids;
it is also a source of nitrogen for the synthesis of microbial protein (Nocek and Russell, 1988). Therefore, it
is considered the most important nutrient and also the most expensive, which must be efficiently used.
Strategies to reduce the feed cost without interfering negatively in production have been constantly researched.
The substitution of traditional feeds in the diets of ruminants is common as economic condition changes
(Ærskov, 1999; Devendra, 2007). Soybean meal (SBM) has long been used as a prominent source of crude
protein for ruminants, however, with its increasing price, the use results in ultimately higher cost of production
(Chalupa, 2007). Therefore, the use of urea as a protein (non-protein N, NPN) replacement is attractive in
ruminant diets because of its low cost compared with other protein feeds such as SBM with high rumen
degradability (Wanapat, 2009; Xin et al., 2010).
Urea is converted via ruminal ammonia (NH3) into microbial protein, thereby supplying additional protein
to the host animals (Nocek and Russell, 1988; Calsamiglia et al., 2008). However, the amount of urea can be
used in diets is rather limited due to their rapid hydrolysis to NH3 in the rumen by microbial enzymes