Over the past decade,plant phenomics has emerged as a powerful discipline for high-throughput measurement of plant traits across genotypic and environmental contexts.By leveraging advanced imaging and sensor technolog...Over the past decade,plant phenomics has emerged as a powerful discipline for high-throughput measurement of plant traits across genotypic and environmental contexts.By leveraging advanced imaging and sensor technologies,it enables nondestructive,continuous monitoring of plant growth,development,and stress responses at scale(Zhang et al.,2023).However,the exponential growth of phenotypic data,coupled with the increasing need to holistically model plant–environment systems,calls for a transition to post-phenomics(Figure 1A).This emerging paradigm focuses on dynamic,multiscale systems modeling and actionable decision-making,ultimately enabling the development of crops better adapted to climate change.展开更多
基金supported by the National Key Research and Development Program of China(China-Israel 2022YFE0198000 and 3013005724)the Basic Public Welfare Research Program of Zhejiang Province(LTGN24C130003)+1 种基金the Zhejiang Science and Technology Major Program on Agricultural New Variety(2021C02067-7 and 2021C02066-5)the National Natural Science Foundation of China(U24A20419).
文摘Over the past decade,plant phenomics has emerged as a powerful discipline for high-throughput measurement of plant traits across genotypic and environmental contexts.By leveraging advanced imaging and sensor technologies,it enables nondestructive,continuous monitoring of plant growth,development,and stress responses at scale(Zhang et al.,2023).However,the exponential growth of phenotypic data,coupled with the increasing need to holistically model plant–environment systems,calls for a transition to post-phenomics(Figure 1A).This emerging paradigm focuses on dynamic,multiscale systems modeling and actionable decision-making,ultimately enabling the development of crops better adapted to climate change.
