According to Wanapat and Kang (2013

According to Wanapat and Kang (2013b), recent attempts have been made to develop new products using CC as an energy source with urea (U) as a non-protein nitrogen (NPN) source. Two new cassava based products have been developed, cassarea, cassaya and cass-ban. Different form of cassarea have been formulated to contain the following ingredients: 57.1% CC + 9.9% U and 3% tallow (Cassarea I, 30% CP); 83.6% CC + 13.4% U and 3% tallow (Cassarea Ⅱ, 40% CP); 80.2% CC + 16.8% U and 3% tallow (Cassarea Ⅲ, 50% CP). Cassareas were tested for rumen degradability using a nylon bag technique and were found to have 46.2 to 56.7% effective DM degradability. Further investigations with cassarea Ⅱ (40% CP) showed that it could be used to replace soybean meal (SBM) in the rations of lactating cows, but supplementation with a rumen by-pass protein such as cottonseed meal would be recommended. Cassaya (30% CP) was a product formulated using chopped whole cassava crop hay (85%) + SBM (5%) + CC (5%) + U (2%) + tallow (2%) + sulfur (1%), mixed with water, pressed through a pelleting machine and sun-dried to at least 85% DM. The use of cassaya in lactating dairy cows as a protein source proved to be efficient in promoting rumen fermentation, improved milk yield and composition, and in providing an increased economic return. Cass-ban was formulated by using cassava chip (56.6%) + raw banana (37.7%) + urea (5.7%). Feed intake, end-products of ruminal fermentation, ruminal microorganisms, milk yield and quality and economical return were enhanced by supplementation of cass-ban (Lunsin et al., 2010).

Chanjula et al. (2007a) conducted a study to assess effect of levels of U and CC on feed intake, rumen ecology, blood metabolites and microbial populations in growing male goats. It was reported that higher levels of U (3%) could be used with high levels of CC as a concentrate without altering feed intake, rumen ecology, blood metabolites or animal performance when compared with control diets. Increasing levels of U in the diet was associated with higher ruminal NH3–N but did not affect physiology and was adequate for microbial growth. It is a potential approach to exploiting the use of local feed resources. Moreover, Chanjula et al. (2007b) also reported that cassava was a good source of ruminal degradable starch in replacing corn grain and had the potential to improve goat performance. The optimal inclusion of cassava in replacing corn is suggested to be between 25 and 75% of CC (12.5 to 37.50 kg) in concentrate. There was no evidence of any adverse effects on feed intake, digestibility, rumen fermentation patterns, blood metabolites, rumen microbes and nitrogen balance or animal health when fed fresh elephant grass. Based on this data, it would be desirable to conduct further research on the use of CC in practical rations for small ruminant feeding systems (Table 1).