4.7 Article

High-Throughput physiology-based stress response phenotyping: Advantages, applications and prospective in horticultural plants

期刊

HORTICULTURAL PLANT JOURNAL
卷 7, 期 3, 页码 181-187

出版社

ELSEVIER
DOI: 10.1016/j.hpj.2020.09.004

关键词

Phenomics; Physiolomics; Isohydric; anisohydric; Abiotic stress

资金

  1. National Natural Science Foundation (NSFC) of China [31772299]
  2. NSFC-Israeli Science Foundation (ISF) [31861143044]
  3. National Program for Support of Top-Notch Young Professionals

向作者/读者索取更多资源

Phenomics is a new branch of science that quantifies plant and animal traits at the systems level, with challenges remaining in precise phenotyping of physiological traits. High-throughput physiology-based phenotyping, or physiolomics, for drought stress responses is highlighted in this review, emphasizing the need for routine physiological assays for phenotyping stress response traits in horticultural plants.
Phenomics is a new branch of science that provides high-throughput quantification of plant and animal traits at systems level. The last decade has witnessed great successes in high-throughput phenotyping of numerous morphological traits, yet major challenges still exist in precise phenotyping of physiological traits such as transpiration and photosynthesis. Due to the highly dynamic nature of physiological traits in responses to the environment, appropriate selection criteria and efficient screening systems at the physiological level for abiotic stress tolerance have been largely absent in plants. In this review, the current status of phenomics techniques was briefly summarized in horticultural plants. Specifically, the emerging field of high-throughput physiology-based phenotyping, which is referred to as physiolomics, for drought stress responses was highlighted. In addition to analyzing the advantages of physiology-based phenotyping over morphology-based approaches, recent examples that applied high-throughput physiological phenotyping to model and non-model horticultural plants were revisited and discussed. Based on the collective findings, we propose that high-throughput, non-destructive, and automatic physiological assays can and should be used as routine methods for phenotyping stress response traits in horticultural plants.

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