期刊
TRENDS IN PLANT SCIENCE
卷 26, 期 1, 页码 53-69出版社
CELL PRESS
DOI: 10.1016/j.tplants.2020.07.010
关键词
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资金
- US Department of Agriculture (USDA) National Institute of Food and Agriculture (NIFA) Food and Agriculture Cyberinformatics Tools (FACT) award [2019-67021-29938]
- Iowa Soybean Research Center
- National Science Foundation (NSF)/USDA NIFA award [2017-6700726151]
- USDA Current Research Information System (CRIS) [IOW04314]
- Plant Science Institute Fellowship
Plant stress phenotyping is crucial for selecting stress-resistant varieties and improving stress-management strategies. Standardization of visual assessments and deployment of imaging techniques have enhanced accuracy and reliability of stress assessment, while machine learning methods are increasingly utilized to extract insights from high-dimensional datasets. A comprehensive strategy is proposed for utilizing machine learning techniques in applying plant stress phenotyping across various crops, stresses, and environments.
Plant stress phenotyping is essential to select stress-resistant varieties and develop better stress-management strategies. Standardization of visual assessments and deployment of imaging techniques have improved the accuracy and reliability of stress assessment in comparison with unaided visual measurement. The growing capabilities of machine learning (ML) methods in conjunction with image-based phenotyping can extract new insights from curated, annotated, and high-dimensional datasets across varied crops and stresses. We propose an overarching strategy for utilizing ML techniques that methodically enables the application of plant stress phenotyping at multiple scales across different types of stresses, program goals, and environments.
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