3D Modeling AI Lidar Research Technology

Crop Breeding Improved with Lidar

image of Crop breeding
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A demonstration of how new technologies can be used in 21st century crop breeding comes from just published research that combines Laser Scanning and 3D printing to create a detailed 3D model of a sugar beet plant. Taking the next step beyond having genetic information to guide intelligent breeding, the 3D plant models here capture the essential characteristics of the above-ground parts of the sugar beet plant and can be used for AI-assisted crop improvement pipelines. The sugar beet plant models are reproducible and fit for field use. All the research information, data, methodology, as well as the 3D printing files are freely available. Crop management is gaining much needed tools, and, of course, everyone can now print their own 3D sugar beet plant! (Minimum maintenance required.) The sugar beet plant 3D model and its validation are presented in a new publication in the open science journal GigaScience.

Modern plant breeding is a data-centric enterprise, involving machine learning algorithms and sophisticated imaging technology to select desirable traits. “Plant phenotyping” – the science of gathering precise information and measurements on plants – has seen massive improvements over the last couple of years.

In the past, phenotyping relied on measurements taken tediously by humans. Today, phenotyping pipelines are becoming more and more automated, using state-of-the-art sensor technology, often assisted by artificial intelligence. Measurements taken can include size, fruit quality, leaf shape and size, and other growth parameters. In addition to the efficiency gains of handing over the measurement work to automated pipelines, computer-assisted sensors can often capture complex information about a plant that would be very hard for humans to gather on a large scale.

One crucial aspect in this new, sensor-driven world of crop breeding is the availability of precise reference material.

The sensors need to be presented with data on a “standard plant” that encompass all relevant characteristics, including also more complex, 3-dimensional traits such as the angle at which the leaves are oriented. Having an actual “artificial plant” as a real-size reference is therefore preferable to just having data in the computer, or a flat, 2D representation. An actual model can, for example, also be included as a reference and internal control within a green house or test field among the real plants.

The new 3D-printed model of a sugar beet plant was generated with these applications in mind and has the additional advantage that the printing files are available for free download and reuse. This allows other scientists (and any sugar beet enthusiast, really) to recreate an exact copy of the reference sugar beet, making research done by different labs in different parts of the world more comparable. The affordability of 3D printing also means the approach can be adapted in resource poor settings, for example in developing countries.

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