Methods and systems for monitoring and control of hydroponic growing environment are disclosed. One or more sensing devices are provided to capture the conditions of a hydroponic growing environment via one or more reservoir or air sensors. The sensing devices can further communicate with and control a multiple-outlet power delivery device to make adjustment to the hydroponic growing environment. The power delivery device may include one or more power outlets, each of which can be activated or deactivated to turn on/off an environmental control equipment items. The sensing device may also communicate with a remote server, which may retrieve sensor data about the environmental conditions from the sensing device. The remote server may monitor the environmental conditions and automatically adjust the growing environment by controlling the power delivery device. A user may also access the remote server, monitor and control the hydroponic growing environment via the remote server.
