The current world population is 7.2 billion people, and it is estimated to grow by 33%-71% by 2100 (Gerland et al., 2014). This population growth implies an increase in food demand; however, given the growth of urban spots, the areas dedicated to agronomical activities decrease. Therefore, the challenge is to increase yields in the lands dedicated to this activity (Wirsenius, Azar, & Berndes, 2010). In animal production systems, the base for cattle feeding is through using grasslands or paddocks, whether by cutting or grazing, since it is a relatively lowcost feed in extensive production systems. This system is prevalent in the arid and semi-arid regions of Mexico, where cattle farming is done extensively (González & Lagos, 2014), with a predominance of native shrubs, herbs and grasses (Santos, Posadas, & Rivas, 2014). In this ecosystem, most plants have a summer cycle, this means that their greater biological activity is during the rainy season while the rest of the year, they do not produce forage (Rzedowski, 2006). Therefore, large extensions ranging from 20 to 40 ha (depending on annual rainfall) are required in these areas in order to maintain one animal unit (AU; Villarruel-Sahagún et al., 2014). In order to increase productivity in cattle farming in grazing lands with drought problems, buffel grass (Pennisetum ciliare L. (Link.) syn. Cenchrus ciliaris L.) was introduced. This decreased the paddock coefficient from 12 to 4 ha/AU (Hanselka, 1985) while the nutritional value of the forage was increased with crude protein (CP) contents from 7% to 13% (Saini, Jain, & Joshi, 2007), and drought tolerance was improved. Under rainfed conditions, the annual dry matter (DM) yields reached up to 9 t/ha (Garay-Martínez et al., 2018, 2019), supporting an animal load of 1.8 AU ha/year.
