The human lumbar spine is uniquely adapted to the gravitational stress of upright posture. Using upright magnetic resonance imaging (uMRI), we characterized the adult lumbar spine's response to upright gravitational loading. We hypothesized that a gravitational load would compress the intervertebral discs (IVDs). Five volunteers underwent T2 weighted sagittal 0.6T uMRI scans of the lumbar spine while supine, upright, and upright with a 10% body weight (BW) backpack. While upright, the 10% BW load significantly compressed the L4‐L5 and L5‐S1 IVDs by about 10% relative to supine (p < 0.05). Upright posture and the 10% BW load significantly compressed the anterior L5‐S1 IVD relative to supine (p < 0.05). Gravitational loading of the lumbar spine plus an added 10% BW load compresses the caudal IVDs (L4‐L5 and L5‐S1), suggesting that these discs are either bearing more of the load or are more compliant than the other IVDs. This study is the first radiographic analysis to describe the adult lumbar spine in the upright position with added spinal load. This study was supported by the National Aeronautics and Space Administration Grant NNX10AM18G and the UCSD Clinical Translational Research Institute Fellowship Award.