Lamina2Shape-An image processing tool for an explicit description of lamina shape tested on winter wheat (Triticum aestivum L.)

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Abstract

Measurement of dimensions, area and shape of individual laminae is required in many agronomic studies, especially in spite of the increasing use of 3D crop models. To assess variation in lamina shape quantitatively, usually a large number of samples are required and methods to analyze leaf shape are often laborious and time-consuming. We propose Lamina2Shape, an algorithm that allows an efficient processing of lamina images to analyze their shape and tested it on winter wheat (Triticum aestivum L. cv. Soissons). There, images of laminae were obtained using a flat-bed scanner. Using these images, laminae were discriminated from a unicolored background based on thresholds for the ratio of pixel values (0@?I@?255) in the red, green and blue channels (I"b"l"u"e/I"r"e"d@?1.23 and I"b"l"u"e/I"g"r"e"e"n/@?1.10). Following, a numerical lamina width function w(l) is computed for each lamina in the image as an explicit description of their dimensions (length, width, and area) and shape. The accuracy of the algorithm was assessed by tests performed for the two main steps of the procedure: background discrimination and computation of w(l). The accuracy of background discrimination was tested by comparing values for area measured by manual cropping of laminae to the corresponding values computed with Lamina2Shape. Both yielded almost the same results. The accuracy of computation of w(l) was tested using images of predefined shape simulated with a lamina shape model. The algorithm was able to re-compute the predefined shape with high accuracy. We applied Lamina2Shape to quantify dimensions and shape of cereal laminae. Examples presented were from an experiment with winter wheat grown at different plant population densities.