Doni Thingujam, Sandeep Gouli, Sachin Promodh Cooray, Katie Busch Chandran, Sam Givens, Renganathan Vellaichamy Gandhimeyyan, Zhengzhi Tan, Yiqing Wang, Keerthi Patam, Sydney A. Greer, Ranju Acharya, David Moseley, Nesma Osman, Xin Zhang, M. P. Brooker, Mary Love M. Tagert, Melissa June Schafer, Changyoon Jeong, Kevin Hoffseth, Raju Bheemanahalli, J. Michael Wyss, Nuwan K. Wijewardane, Jong Hyun Ham, M. Shahid Mukhtar

doi:10.3390/plants14172699

Summary

Drought and excess ambient temperature intensify abiotic and biotic stresses on agriculture, threatening food security and economic stability. The development of climate-resilient crops is crucial for sustainable, efficient farming. This review highlights the role of multi-omics encompassing genomics, transcriptomics, proteomics, metabolomics, and epigenomics in identifying genetic pathways for stress resilience. Advanced phenomics, using drones and hyperspectral imaging, can accelerate breeding programs by enabling high-throughput trait monitoring. Artificial intelligence (AI) and machine learning (ML) enhance these efforts by analyzing large-scale omics and phenotypic data, predicting stress tolerance traits, and optimizing breeding strategies. Additionally, plant-associated microbiomes

Source type: Peer-reviewed study
DOI: 10.3390/plants14172699
Catalogue ID: SNmobqw1qf-5jof3f

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Climate-Resilient Crops: Integrating AI, Multi-Omics, and Advanced Phenotyping to Address Global Agricultural and Societal Challenges

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