Applying the California net energy system to growing goats()

The aim of this review is to describe the main findings of studies carried out during the last decades applying the California net energy system (CNES) in goats. This review also highlights the strengths and pitfalls while using CNES in studies with goats, as well as provides future perspectives on energy requirements of goats. The nonlinear relationship between heat production and metabolizable energy intake was used to estimate net energy requirements for maintenance (NE(m)). Our studies showed that NE(m) of intact and castrated male Saanen goats were approximately 15% greater than female Saanen goats. Similarly, NE(m) of meat goats (i.e., >50% Boer) was 8.5% greater than NE(m) of dairy and indigenous goats. The first partial derivative of allometric equations using empty body weight (EBW) as independent variable and body energy as dependent variable was used to estimate net energy requirements for gain (NE(g)). In this matter, female Saanen goats had greater NE(g) than males; also, castrated males had greater NE(g) than intact males. This means that females have more body fat than males when evaluated at a given EBW or that degree of maturity affects NE(g). Our preliminary results showed that indigenous goats had NE(g) 14% and 27.5% greater than meat and dairy goats, respectively. Sex and genotype also affect the efficiency of energy use for growth. The present study suggests that losses in urine and methane in goats are lower than previously reported for bovine and sheep, resulting in greater metabolizable energy:digestible energy ratio (i.e., 0.87 to 0.90). It was demonstrated that the CNES successfully works for goats and that the use of comparative slaughter technique enhances the understanding of energy partition in this species, allowing the development of models applied specifically to goat. However, these models require their evaluation in real-world conditions, permitting continuous adjustments.