Korean flowering cherry (Prunus × yedoensis Matsum.) response to elevated ozone: physiological traits and biogenic volatile organic compounds emission

IF 2.4 3区 农林科学 Q1 Agricultural and Biological Sciences
Yea Ji Lim, Myeong Ja Kwak, Jongkyu Lee, Dawon Kang, Sun Mi Je, Su Young Woo
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引用次数: 0

Abstract

Ozone (O3) absorption through leaf stomata disrupts plant physiological processes, prompting various defense mechanisms to mitigate O3-induced harm. This study measured parameters including cell structure, gas exchange, carbon assimilation, lipid peroxidation, and biogenic volatile organic compounds (BVOCs) emissions to evaluate the physiological impact of Prunus × yedoensis under elevated ozone (E-O3) exposure. The seedlings exhibited a slight stimulatory effect during the early phases of E–O3 exposure; however, E–O3 beyond a specific threshold significantly and negatively affected photosynthetic parameters, pigment content, and potential antioxidant capacity, and E–O3 was significantly correlated with the BVOCs emission rate. After three weeks of E–O3 exposure, no significant differences were observed in leaf stomatal appearance in the field emission scanning electron microscopy results, but according to the results of leaf mesophyll cell ultrastructure, grana degradation, membrane decomposition, cell wall thickening, wart–like protrusion formation, and increased plastoglobulus density within the chloroplasts were observed. Chlorophyll content significantly decreased by 38.71%, and solute leakage increased by 20.57% in the E–O3 group. The net photosynthetic rate was almost two times lower with E–O3. In contrast, there were no significant differences in stomatal conductance. In conclusion, E–O3 can induce a hormetic stimulatory effect during the early exposure phase. However, when the critical threshold is exceeded, O3 adversely affects the physiology of P. × yedoensis seedlings. Therefore, E–O3 is a harmful air pollutant that hinders the growth of woody plants, and urban trees require the continuous management of O3 phytotoxicity.

Abstract Image

韩国樱花(Prunus × yedoensis Matsum.)
通过叶片气孔吸收臭氧(O3)会破坏植物的生理过程,促使各种防御机制减轻 O3 引起的危害。本研究测量了细胞结构、气体交换、碳同化、脂质过氧化和生物挥发性有机化合物(BVOCs)排放等参数,以评估在高浓度臭氧(E-O3)暴露下 Prunus × yedoensis 的生理影响。在暴露于 E-O3 的早期阶段,幼苗表现出轻微的刺激作用;然而,超过特定阈值的 E-O3 会对光合参数、色素含量和潜在抗氧化能力产生显著的负面影响,并且 E-O3 与 BVOCs 排放率显著相关。叶片暴露于 E-O3 三周后,场发射扫描电子显微镜结果显示叶片气孔外观无明显差异,但叶片中叶细胞超微结构结果显示,颗粒降解、膜分解、细胞壁增厚、疣状突起形成、叶绿体内质体密度增加。E-O3 组的叶绿素含量明显减少了 38.71%,溶质渗漏增加了 20.57%。E-O3 组的净光合速率几乎降低了两倍。相比之下,气孔导度没有明显差异。总之,在暴露初期,E-O3 可诱导激素刺激效应。然而,当超过临界阈值时,O3 会对 P. × yedoensis 幼苗的生理产生不利影响。因此,E-O3 是一种阻碍木本植物生长的有害空气污染物,城市树木需要对 O3 植物毒性进行持续管理。
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来源期刊
Horticulture Environment and Biotechnology
Horticulture Environment and Biotechnology Agricultural and Biological Sciences-Horticulture
CiteScore
4.30
自引率
4.20%
发文量
0
审稿时长
6 months
期刊介绍: Horticulture, Environment, and Biotechnology (HEB) is the official journal of the Korean Society for Horticultural Science, was launched in 1965 as the "Journal of Korean Society for Horticultural Science". HEB is an international journal, published in English, bimonthly on the last day of even number months, and indexed in Biosys Preview, SCIE, and CABI. The journal is devoted for the publication of original research papers and review articles related to vegetables, fruits, ornamental and herbal plants, and covers all aspects of physiology, molecular biology, biotechnology, protected cultivation, postharvest technology, and research in plants related to environment.
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