Reynolds, Daniel, Ball, Joshua, Bauer, Alan, Davey, Robert, Griffiths, Simon and Zhou, Ji (2019) CropSight: A scalable and open-source information management system for distributed plant phenotyping and IoT-based crop management. GigaScience, 18 (3). ISSN 2047-217X
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Abstract
Background: High-quality plant phenotyping and climate data lay the foundation of phenotypic analysis and genotype-environment interaction, providing important evidence not only for plant scientists to understand the dynamics between crop performance, genotypes, and environmental factors, but also for agronomists and farmers to closely monitor crops in fluctuating agricultural conditions. With the rise of Internet of Things technologies (IoT) in recent years, many IoT-based remote sensing devices have been applied to plant phenotyping and crop monitoring, which are generating terabytes of biological datasets every day. However, it is still technically challenging to calibrate, annotate, and aggregate the big data effectively, especially when they were produced in multiple locations, at different scales. Findings: CropSight is a PHP and SQL based server platform, which provides automated data collation, storage, and information management through distributed IoT sensors and phenotyping workstations. It provides a two-component solution to monitor biological experiments through networked sensing devices, with interfaces specifically designed for distributed plant phenotyping and centralised data management. Data transfer and annotation are accomplished automatically though an HTTP accessible RESTful API installed on both device-side and server-side of the CropSight system, which synchronise daily representative crop growth images for visual-based crop assessment and hourly microclimate readings for GxE studies. CropSight also supports the comparison of historical and ongoing crop performance whilst different experiments are being conducted. Conclusions: As a scalable and open-source information management system, CropSight can be used to maintain and collate important crop performance and microclimate datasets captured by IoT sensors and distributed phenotyping installations. It provides near real-time environmental and crop growth monitoring in addition to historical and current experiment comparison through an integrated cloud-ready server system. Accessible both locally in the field through smart devices and remotely in an office using a personal computer, CropSight has been applied to field experiments of bread wheat prebreeding since 2016 and speed breeding since 2017. We believe that the CropSight system could have a significant impact on scalable plant phenotyping and IoT-style crop management to enable smart agricultural practices in the near future.
Item Type: | Article |
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Uncontrolled Keywords: | sdg 2 - zero hunger ,/dk/atira/pure/sustainabledevelopmentgoals/zero_hunger |
Faculty \ School: | Faculty of Science > School of Computing Sciences |
Depositing User: | LivePure Connector |
Date Deposited: | 09 Feb 2019 01:09 |
Last Modified: | 17 Oct 2024 00:18 |
URI: | https://ueaeprints.uea.ac.uk/id/eprint/69897 |
DOI: | 10.1093/gigascience/giz009 |
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