Both external and internal factors induce heterogeneity in senescing leaves of deciduous trees

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Heta Mattila, Sergey Khorobrykh, Esa Tyystjärvi
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Abstract

Autumn senescence is characterised by spatial and temporal heterogeneity. We show that senescing birch (Betula spp.) leaves had lower PSII activity (probed by the FV/FM chlorophyll a fluorescence parameter) in late autumn than in early autumn. We confirmed that PSII repair slows down with decreasing temperature, while rates of photodamage and recovery, measured under laboratory conditions at 20°C, were similar in these leaves. We propose that low temperatures during late autumn hinder repair and lead to accumulation of non-functional PSII units in senescing leaves. Fluorescence imaging of birch revealed that chlorophyll preferentially disappeared from inter-veinal leaf areas. These areas showed no recovery capacity and low non-photochemical quenching while green veinal areas of senescing leaves resembled green leaves. However, green and yellow leaf areas showed similar values of photochemical quenching. Analyses of thylakoids isolated from maple (Acer platanoides) leaves showed that red, senescing leaves contained high amounts of carotenoids and α-tocopherol, and our calculations suggest that α-tocopherol was synthesised during autumn. Thylakoids isolated from red maple leaves produced little singlet oxygen, probably due to the high antioxidant content. However, the rate of PSII photodamage did not decrease. The data show that the heterogeneity of senescing leaves must be taken into account to fully understand autumn senescence.

内外因素诱发落叶树衰老叶片的异质性
秋季衰老具有时空异质性。我们的研究表明,衰老的桦树(Betula spp.)叶片在晚秋的 PSII 活性(通过 FV/FM 叶绿素 a 荧光参数探测)低于初秋。我们证实,随着温度的降低,PSII 的修复速度减慢,而在 20°C 的实验室条件下测量的这些叶片的光损伤和恢复速度相似。我们认为,深秋的低温阻碍了修复,导致衰老叶片中无功能的 PSII 单元积累。桦树的荧光成像显示,叶绿素主要从叶脉间区域消失。这些区域没有恢复能力,非光化学淬灭程度低,而衰老叶片的绿色叶脉区域与绿叶相似。不过,绿叶和黄叶区域的光化学淬灭值相似。对从枫树(Acer platanoides)叶片中分离出来的类木素进行的分析表明,红色衰老叶片含有大量类胡萝卜素和α-生育酚,我们的计算表明,α-生育酚是在秋季合成的。从红枫叶中分离出来的硫磷脂产生的单线态氧很少,这可能是由于抗氧化剂含量高的缘故。然而,PSII 的光损伤率并没有降低。这些数据表明,要全面了解秋季衰老,必须考虑衰老叶片的异质性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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