期刊
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
卷 195, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.envexpbot.2022.104789
关键词
Pinus sylvestris; Picea abies; Temperate forest; Water deficit; Phytohormones; Gene expression; Phenolic compounds
资金
- Russian Science Foundation (Russian Federation) [21-14-00168]
- Ministry of Science and Higher Education of the Russian Federation [121040800153-1]
- Russian Science Foundation [21-14-00168] Funding Source: Russian Science Foundation
Water stress has different effects on spruce and pine trees, with long-term water deficit impacting spruce more and short-term deficit impacting pine more. Both species showed increased levels of ABA under long-term water deficit. The content of jasmonates and salicylic acid decreased during the short-term water deficit period and was correlated with a decrease in phenolic compounds in pine trees.
Water stress has a continuing major negative impact on global forest performance, which necessitates to understand how plants coordinate multiple physiological responses to adverse conditions. Therefore, we studied the effects of short-term and long-term water deficit on the biosynthesis and signalling of phytohormones, especially abscisic acid (ABA), in current-year needles of Scots pine and Norway spruce trees growing in a natural forest in the Bryansk region of Russia. In spruce, clear physiological effects of long-term water shortage were evident, whereas pine trees were affected more by short-term water deficit. However, both species presented similar pronounced increases in ABA content under long-term water deficit. Long-term ABA accumulation was not associated with changes in stomatal density or osmotic adjustment in either species. The dynamics of jasmonates and salicylic acid were similar; the contents of both decreased throughout the entire short-term water deficit period, and the contents were correlated with the decrease in phenolic compounds in the pine trees. The same decrease was observed for auxin, whereas cytokinins decreased only in more tolerant pine. Possible physiological reasons for the dynamics of plant hormone pools in trees under water deficit are discussed.
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