An Automated System for monitoring the Quality and Quantity of Subsurface Drain Flow

Abstract An automated flow data collection system was installed in a subsurface drainage system to determine discharge volumes and drainage flow rates. An experimental site was established by installing a subsurface drainage system on 36 plots, each of 0·4 ha, to measure subsurface drain flows and collect drain water samples for water quality analysis. Subsurface drains from individual plots were intercepted at the end of plots and routed to individual sumps to collect drain water. Flowmeters connected to individual sump pumps measured the volume of water pumped from these sumps. Electronic outputs of the flowmeters were recorded with data loggers, and readings of the analog registers were recorded manually. The data loggers recorded the time when each sump pump started and stopped pumping water. Data collected by data loggers were used to calculate drain discharge volumes and drain flow rates. This monitoring system was evaluated by comparing the drain volume rates between flowmeter readings and the data collected by data loggers for some rain events. Subsurface drain flow measured by the data logger system was not significantly different from the manual readings taken by the flowmeters. The data logger system was an effective method for measuring changes in subsurface drain flow rates over short time periods and drain flow response to individual rainfall events. This automated system was also used to monitor the movement of nitrate–nitrogen (NO3–N) to subsurface drain water.