Image Dataset for 'Digitally deconstructing leaves in 3D using X-ray microcomputed tomography and machine learning'
Authors/Creators
- 1. Institute of Botany, University of Natural Resources and Life Sciences, Vienna, Austria
- 2. Department of Viticulture and Enology, University of California, Davis, California, USA
Contributors
- 1. School of Forestry and Environmental Sciences, Yale University, New Haven, Connecticut, USA
- 2. Department of Viticulture and Enology, University of California, Davis, California, USA
Description
Dataset used in the manuscript 'Digitally Deconstructing Leaves in 3D Using X-ray microcomputed Tomography and Machine Learning'. Please cite the paper presenting this dataset:
Citation: Théroux-Rancourt, G., M. R. Jenkins, C. R. Brodersen, A. McElrone, E. J. Forrestel, and J. M. Earles. 2020. Digitally deconstructing leaves in 3D using X-ray microcomputed tomography and machine learning. Applications in Plant Sciences 8(7): .
Description of the dataset
A 'Cabernet Sauvignon' grapevine (Vitis vinifera L.) leaf from a plant of the BOKU experimental vineyard in Tulln, Austria, was scanned using microCT at the Swiss Light Source. The original reconstructions of the scans are using the gridrec (Gridrec_reconstruction_downsized.zip) and the paganin, or phase-contrast, algortithm (Phase_contrast_reconstruction_downsized.zip). To facilitate automated segmentation, the size of the image in the x and y dimensions have been halved, so that the size of the pixels is 0.325 µm in those dimensions, but 0.1625 µm in the z (slices) dimension.
A binary image segmenting the leaf cells and the airspace for each gridrec and phase-contrast stacks are created, and both are combined together (Binary_stack_for_local_thickness.zip), a map of the local thickness is created (Local_thickness_map.zip). This map gives information on the largest diameter of the pixels labeled as cells in the binary stack.
Hand-labeled slices or ground truths were drawn on the following slices: 80, 140, 200, 260, 340, 400, 440, 540, 620, 740, 800, 860, 940, 1060, 1140, 1240, 1300, 1400, 1480, 1540, 1600, 1690, 1740, 1840 (Hand_labelled_slices.tif).
Using the hand-labeled slices and the different images, a random-forest model was trained, which allowed to automatically segment the remaining slices of the stack (Fullstack_Prediction_Example-6_training_slices-6...).
The source code for the segmentation program is available here, and the source code for the testing used in the paper is available here.
Files
Binary_stack_for_local_thickness.zip
Files
(1.8 GB)
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Additional details
Related works
- Is compiled by
- Software: https://github.com/plant-microct-tools/leaf-traits-microct/tree/master (URL)
- Is documented by
- Preprint: https://www.biorxiv.org/content/10.1101/814954v2 (URL)
- Journal article: https://bsapubs.onlinelibrary.wiley.com/doi/full/10.1002/aps3.11380 (URL)
Funding
- FWF Austrian Science Fund
- Functional characterisation of plant leaf airspaces in 3D M 2245