Litcius/Paper detail

Artificial intelligence in plant science: from image-based phenotyping to yield and trait prediction

Tong Wang, Ran Tong, Ting Xu, Yue Li, Yonghao Chen

2026Frontiers in Plant Science5 citationsDOIOpen Access PDF

Abstract

With the development of artificial intelligence (AI) in complicated imaging and remote sensing technologies, plant research is transitioning from manual measurements to automated data collecting. High-throughput image-based phenotyping enables the precise and automated acquisition of traits across various spatial and temporal scales, ranging from controlled laboratory settings to intricate field. Furthermore, AI facilitates the combination of satellite observations, unmanned aerial vehicle (UAV) imaging, soil and climate data, and spatiotemporal information to enhance the precision of trait monitoring and yield prediction. These advances enhance the ability to evaluate and predict crop performance under variable environmental conditions. This paper offers a cross-disciplinary paradigm for accurate and sustainable modern agriculture by merging AI methodologies with plant phenotyping and yield forecasting.

Topics & Concepts

Precision agricultureTraitRangingArtificial intelligenceMachine learningComputer scienceYield (engineering)Crop yieldSatelliteAgricultureRemote sensingTree (set theory)Adaptation (eye)Variable (mathematics)Data miningSustainable agricultureEnvironmental scienceCropRemote Sensing in AgricultureSmart Agriculture and AIPotato Plant Research