P-227
Robust, Low-Cost Data Loggers for Stream Temperature, Flow Intermittency, and Relative Conductivity Monitoring

Andrew Todd , Crustal Geophysics and Geochemistry Science Center, US Geological Survey, Denver, CO
Thomas Chapin , Crustal Geophysics and Geochemistry Science Center, United States Geological Survey, Denver, CO
Matthew Zeigler , Department of Fish, Wildlife and Conservation Ecology, New Mexico State University, Las Cruces, NM
Kevin Terry , Colorado Water Project, Trout Unlimited, Del Norte, CO
Water temperature and streamflow intermittency are critical parameters influencing aquatic ecosystem health. Low-cost temperature loggers have made continuous water temperature monitoring relatively simple, but determining streamflow timing and intermittency using temperature data alone requires significant and subjective data interpretation. Electrical resistance (ER) sensors have recently been developed to overcome the major limitations of temperature-based methods for the assessment of streamflow intermittency. This poster will describe the development of the STIC (Stream Temperature, Intermittency, and Conductivity logger); a robust, low-cost, simple to build instrument that provides long-duration, high-resolution monitoring of both relative conductivity (RC) and temperature. Simultaneously collected temperature and RC data provide unambiguous water temperature and streamflow intermittency information that is crucial for monitoring aquatic ecosystem health and assessing regulatory compliance. With proper calibration, the STIC relative conductivity data can be used to monitor specific conductivity.  This poster will highlight the broad utility of STICs through the diverse range of field applications in which they have been utilized to date.