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线虫囊肿的高通量表型分析

High-throughput phenotyping of nematode cysts.

作者信息

Chen Long, Daub Matthias, Luigs Hans-Georg, Jansen Marcus, Strauch Martin, Merhof Dorit

机构信息

Institute of Imaging and Computer Vision (LfB), RWTH Aachen University, Aachen, Germany.

Federal Research Center for Cultivated Plants, Julius Kühn Institute (JKI), Elsdorf, Germany.

出版信息

Front Plant Sci. 2022 Sep 14;13:965254. doi: 10.3389/fpls.2022.965254. eCollection 2022.

Abstract

The beet cyst nematode is a plant pest responsible for crop loss on a global scale. Here, we introduce a high-throughput system based on computer vision that allows quantifying beet cyst nematode infestation and measuring phenotypic traits of cysts. After recording microscopic images of soil sample extracts in a standardized setting, an instance segmentation algorithm serves to detect nematode cysts in these images. In an evaluation using both ground truth samples with known cyst numbers and manually annotated images, the computer vision approach produced accurate nematode cyst counts, as well as accurate cyst segmentations. Based on such segmentations, cyst features could be computed that served to reveal phenotypical differences between nematode populations in different soils and in populations observed before and after the sugar beet planting period. The computer vision approach enables not only fast and precise cyst counting, but also phenotyping of cyst features under different conditions, providing the basis for high-throughput applications in agriculture and plant breeding research. Source code and annotated image data sets are freely available for scientific use.

摘要

甜菜孢囊线虫是一种导致全球农作物减产的植物害虫。在此,我们介绍一种基于计算机视觉的高通量系统,该系统能够对甜菜孢囊线虫的侵染情况进行量化,并测量孢囊的表型特征。在标准化条件下记录土壤样本提取物的显微图像后,一种实例分割算法用于检测这些图像中的线虫孢囊。在一项使用已知孢囊数量的真实样本和人工标注图像的评估中,计算机视觉方法得出了准确的线虫孢囊数量以及准确的孢囊分割结果。基于这些分割结果,可以计算出孢囊特征,以揭示不同土壤中线虫群体之间以及甜菜种植期前后观察到的群体之间的表型差异。计算机视觉方法不仅能够快速、精确地计数孢囊,还能在不同条件下对孢囊特征进行表型分析,为农业和植物育种研究中的高通量应用提供了基础。源代码和带注释的图像数据集可免费用于科学研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9c6c/9515587/e23d82dcd169/fpls-13-965254-g0001.jpg

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