Water consumption, water and biometric relations in two irrigated systems of Urochloa brizantha (Syn. Brachiaria brizantha) cv. Marandu With the increasing use of irrigation in animal production systems, the demand for studies in the area of water consumption of forage plants increases to obtain more precise measures for the purpose of improving water management in pastures. When this management is carried out from climatic elements, one of the strategies is the use of models to estimate crop evapotranspiration (ETc), and for this it is necessary to know the values of the crop coefficient (Kc) throughout the phenological cycle. However, there are still few Kc determination studies for tropical forages, in order to fill the gap of the lack of information to the users and technicians that guide the irrigation in forage. The purpose this study, the was to determine the water consumption and culture coefficient of Urochloa brizantha (Syn. Brachiaria brizantha) cv. Marandu in a system of exclusive cultivation and intercropped with winter forages (Oat-black and Azevém). As secondary objectives, we sought to: (i) determine the water consumption of forages with capacitive probe; (Ii) to measure biometric and productive parameters of forages along the cycles; (Iii) to correlate the evolution of Kc throughout the growth period with the leaf area index (LAI), forage canopy height (ADF) and degree-days (GD). The experiment was carried out at the "Luiz de Queiroz" College of Agriculture (ESALQ/USP), in two plots with an individual area of 144 m², in which lysimeters were installed in the center, with automatic weighing and drainage systems. These lysimeters were used to measure the ETc and estimate the Kc from the comparison between measured values and estimates of reference evapotranspiration (ETo) with data from the Meteorological Station located at ESALQ, 100 m away from the experimental area. The period from February 10 to October 11, 2016 was analyzed with crop cycles of varied duration due to crop phenology. The results showed that both cultivation systems (single and intercropped Marandu grass) require considerable volumes of water for maximum production. However during the seasonal period, the Marandu grass is not efficient in the conversion to dry matter produced. The use of the capacitive probe as an estimate of evapotranspiration presents different results from lysimeters, but with significant correlations. The use of growth model to estimate Kc explains a practical use. Further detailed results are found in the development of each chapter.