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职业迁徙
个人简介
Research
My research program is fascinating because it allows us to obtain an advanced understanding of drought stress responses of woody perennial crops at micro- and macroscopy level using a combination of cutting-edge and traditional research tools. The goal of my research is to determine the spatiotemporal coupling of organ and cell specific processes that govern whole-plant performance under water stress by drought and following soil rehydration. This information will provide the foundation for (i) developing advanced strategies for the selection of crop genotypes with improved drought resistance (‘physiological phenotyping’) and (ii) for creating management practices that allow for sustainable crop production through water savings.
My research program is fascinating because it allows us to obtain an advanced understanding of drought stress responses of woody perennial crops at micro- and macroscopy level using a combination of cutting-edge and traditional research tools. The goal of my research is to determine the spatiotemporal coupling of organ and cell specific processes that govern whole-plant performance under water stress by drought and following soil rehydration. This information will provide the foundation for (i) developing advanced strategies for the selection of crop genotypes with improved drought resistance (‘physiological phenotyping’) and (ii) for creating management practices that allow for sustainable crop production through water savings.
研究兴趣
论文共 47 篇作者统计合作学者相似作者
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GLOBAL CHANGE BIOLOGYno. 3 (2024): e17222-e17222
FUNCTIONAL PLANT BIOLOGYno. 12 (2023): 1037-1046
PHYSIOLOGIA PLANTARUMno. 5 (2023): e14040-e14040
FRONTIERS IN PLANT SCIENCE (2022): 979804-979804
PLANT AND SOILno. 1-2 (2022): 495-500
PLANT CELL AND ENVIRONMENTno. 2 (2021): 458-475
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