Institute for Fisheries Research Report No.1744, 1968

Michigan Department of Conservation
Research and Development Report No. 131
Institute for Fisheries Research Report No. 1744, 1968
Measurement of Incident Stream Illumination with an Inexpensive Light Integrating Unit

Thomas A. Wojtalik, Robert C. Ball and Frank F. Hooper

Calculation of the efficiency of autotrophic production depends upon assessment of the quantity of solar energy received at the stream surface. Orientation of the sun’s arc with respect to direction of flow together with its relationship to shading by adjacent vegetation, stream banks and surrounding terrain, make precise measurement of incident light received by a stream a difficult task. To make possible comparison of the photosynthetic efficiencies of several sections of stream, which have different vegetational cover and different orientation to the sun, we have constructed a simple but efficient light integrating unit which measures the total light received at any desired point under the water surface for any desired length of time. In this paper we wish to describe this unit and compare the quantity of radiation it receives on stream sections with different cover and sun-orientation.
In a section of stream shaded by trees, intensity of light changes from point to point depending upon the orientation of the sun in relation to openings. Since openings are more or less random the only feasible approach to measurement of the quantity of incident radiation over a given surface area is a random sampling procedure, using light recording units that can be easily moved from point to point. Increasing the number of available units increases the efficiency of sampling during a given period and under a single set of meteorological conditions. To permit construction of a large number of such units with a modest budget we have designed a unit that is relatively simple and inexpensive.