A Digital Photographic Technique for Assessing Forage Utilization

Changes in forage utilization have been difficult to measure non-destructively without some level of subjectivity. This subjec tivity, combined with a lack of reproducibility of visual estimates, has made forage utilization measurement techniques a topic of considerable discussion. The objective of this study was to devel op and test the accuracy and repeatability of an objective, com puter-based technique for measuring changes in plant biomass. Digital photographs of target plants acquired before and after partial defoliation were analyzed using readily available image analysis software. Resulting data were used to develop a simple linear random coefficient model (RC) for estimation of plant bio mass removed based on the area of the plant in the photo. Sample collection took approximately 20 minutes/plant for alfal fa (Medicago sativa L.). Analysis of images took another 60 to 90 minutes. Regression analysis gave an R 2 of 0.969 for predicted vs. observed plant weights. Testing this model using 10 alfalfa plants yielded weight estimates of defoliated plants accurate to within +/‐ 8.5%. The advantage of the RC model is its ability to use easily obtained coefficients from simple linear regression models developed from each plant in a way that accounts for the lack of independence between samples within an individual plant. The technique described here offers an objective and accurate method for measuring changes in plant biomass with possible applications in ecology, botany, and range science. In particular, application of this technique for estimating forage utilization may improve accuracy of estimates and, thereby, improve range management practices.