<h3>Background</h3> Due to the devastating impact of the anterior cruciate ligament (ACL) injury has on the female athlete´s career, anthropometrics and biomechanics-related risk factor screenings have been widely designed. However, the relation of aberrant movement patterns and other anthropometrical variables still remains controversial. <h3>Objective</h3> The aim of this study was to analyse if lower limb anthropometrics and knee kinematics could explain landing kinetics during a drop jump maneuver, as primary ACL injury risk factors in a female football environment. <h3>Design</h3> Prospective cross-sectional descriptive study. Testing methodology was settled inside an anatomical, biomechanical and functional conditioning risk factor screening. Data collection was made during the pre-season period. <h3>Setting</h3> 4 different teams from the region of the Basque Country (Spain). 2 youth second teams and 2 senior teams competing in the Spanish second division. <h3>Patients (or Participants)</h3> 64 youth female football players (age 20,32±4,9). Every available (non-injured) athlete was included. No lost participants during the data collection. <h3>Interventions (or Assessment of Risk Factors)</h3> Pelvic width and femur length were measured as anthropometrical gold variables. Knee valgus kinematics and landing kinetics during the bilateral and unilateral drop jump were registered. <h3>Main Outcome Measurements</h3> Knee valgus kinematic data (femur-tibia angle &lt;180°) was captured by a video analysis tracker software. Landing kinetics were registered using inertial sensor unit technology. <h3>Results</h3> There was a little correlation (<i>r</i>=0,303) between landing peak VGRF and knee valgus kinematics, at p = 0,01 significance level, and also with the femur length (<i>r</i>=-0,338). In addition, the linear regression analysis showed that the pelvic width, femur length and knee valgus kinematics explained in 89,1% (<i>R²</i>) the landing kinetics results (<i>p</i>=&lt;0,05). <h3>Conclusions</h3> A moderate significance level between lower limb anthropometrics, knee valgus kinematics and landing kinetics was the main finding at the present study. More exhaustive surveillance screening re-tests are needed in order to detect the main contributors for ACL injury mechanics in a female football context.