期刊
APPLIED SCIENCES-BASEL
卷 13, 期 5, 页码 -出版社
MDPI
DOI: 10.3390/app13053078
关键词
drought tolerance; chlorophyll a fluorescence; structure-function index; drought resistance index
Plant drought tolerance is determined by how the photosynthetic apparatus adapts to water deficit. This study analyzed the OJIP kinetics of seedlings from three Brassica crops under drought conditions to find parameters for distinguishing drought-tolerant and drought-sensitive varieties. The increase in PItotal, SFI, positive L and K bands, Delta DF, and DRI indicate drought tolerance, while negative L and K bands, PItotal, SFI, and RC/CS0 density can distinguish susceptible varieties. Kale was the most tolerant, Chinese cabbage was moderately susceptible, and white cabbage was highly sensitive to drought stress. The genetic variation among these crops could be utilized in breeding programs and crop management.
Plant drought tolerance depends on adaptations of the photosynthetic apparatus to changing environments triggered by water deficit. The seedlings of three Brassica crops differing in drought sensitivity, Brassica oleracea L. var. capitata-white cabbage, Brassica oleracea L. var. acephala-kale, and Brassica rapa L. var. pekinensis-Chinese cabbage, were exposed to drought by withholding water. Detailed insight into the photosynthetic machinery was carried out when the seedling reached a relative water content of about 45% and after re-watering by analyzing the OJIP kinetics. The key objective of this study was to find reliable parameters for distinguishing drought-tolerant and drought-sensitive varieties before permanent structural and functional changes in the photosynthetic apparatus occur. According to our findings, an increase in the total performance index (PItotal) and structure-function index (SFI), positive L and K bands, total driving forces (Delta DF), and drought resistance index (DRI) suggest drought tolerance. At the same time, susceptible varieties can be distinguished based on negative L and K bands, PItotal, SFI, and the density of reaction centers (RC/CS0). Kale proved to be the most tolerant, Chinese cabbage was moderately susceptible, and white cabbage showed high sensitivity to the investigated drought stress. The genetic variation revealed among the selected Brassica crops could be used in breeding programs and high-precision crop management.
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