Multiple Consequences Induced by Epidermally-Located Anthocyanins in Young, Mature and Senescent Leaves of Prunus

Piccolo, Ermes Lo; Landi, Marco; Pellegrini, Elisa; Agati, Giovanni; Giordano, Cristiana; Giordani, Tommaso; Lorenzini, Giacomo; Malorgio, Fernando; Massai, Rossano; Nali, Cristina; Rallo, Giovanni; Remorini, Damiano; Vernieri, Paolo; Guidi, Lucia

doi:10.3389/fpls.2018.00917

Cited by 55 publications

(59 citation statements)

References 92 publications

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“…Therefore, changes in sugar content and partitioning (Roessner et al 2006;Papadakis et al 2018), as well as in carbon skeleton devoted to aminoacids, which are strictly interlinked (Guo et al 2014) can be observed as a response to B excess (Sang et al 2015;Ayvaz et al 2016). An imbalance of C/N ratio also promote phenomena of early senescence (Lo Piccolo et al 2018;Sotiras et al 2019) and this explains the enhancement of senescence-related hormones i.e. jasmonic acid and ethylene promoted by B excess in barley and wheat (Öz et al 2009;Kayıhan et al 2017).…”

Section: Physiological and Biochemical Responses To B Excessmentioning

confidence: 99%

Boron toxicity in higher plants: an update

Landi

Margaritopoulou

Papadakis

et al. 2019

Planta

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169

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Section: Physiological and Biochemical Responses To B Excessmentioning

confidence: 99%

Boron toxicity in higher plants: an update

Landi

Margaritopoulou

Papadakis

et al. 2019

Planta

Self Cite

169

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“…Lo Piccolo et al (2018) found that the Chl content increased in mature leaves and significantly decreased toward the end of the experiment. These typical Chl content changes during lifespan of leaves were confirmed by many other authors (Lu et al 2001(Lu et al , 2002Weng et al 2005, Table 1.…”

Section: Discussionmentioning

confidence: 95%

“…4). Lo Piccolo et al (2018) found that anthocyanin content showed an inversed course of changes compared to Chl, but did not reach the values of juvenile leaves. However, we found that anthocyanins content both at the beginning and at the end of leaf lifespan were comparable and statistically insignificant (Fig.…”

Section: Day Fvmentioning

confidence: 95%

“…The changes of photosynthetic apparatus are naturally associated with the dynamics of Chl content in leaves. Both, Jiang et al (2006a,b) andLo Piccolo et al (2018) demonstrated the increase of minimal fluorescence (F0) and maximum quantum yield of primary photochemistry (φP0) with the young leaves development. Moreover, Jiang et al (2006a) showed that with leaf development, the efficiency that a trapped exciton can move an electron into the electron transport chain further than QA (Ψ0) and the quantum yield of electron transport beyond QA (φE0), increased gradually and rapidly.…”

Section: Day Fvmentioning

confidence: 97%

“…Different flavonoid subclasses have been found to possess protective roles in plant tissues and the biosynthesis of flavonoids often increases in response to biotic and abiotic stress factors (Jaakola et al 2004). Anthocyanins play mostly a photoprotective role in leaves, trapping the excessive light radiation, but may also offer an alternative way of reducing the accumulation of hexoses, thus delaying the sugar-induced early senescence of leaves (Landi et al 2015, Lo Piccolo et al 2018. Flavonols have been found to play a protective role as a UV filter, but may also participate in a peroxidase-flavonol quenching system for reactive oxygen species (Jaakola et al 2004, Skórzyńska-Polit et al 2004.…”

Section: Introductionmentioning

confidence: 99%

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Special issue in honour of Prof. Reto J. Strasser - Development and aging of photosynthetic apparatus of Vitis vinifera L. during growing season

Sitko¹,

Rusinowski²,

Pogrzeba³

et al. 2020

Photosynt.

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The aim of this study was to examine the development and aging of chosen grapevine leaves in situ during the growing season (130 d) using chlorophyll (Chl) a fluorescence measurements and determining the changes in pigment contents. During the course of photosystems development, the increase of Chl and decrease of anthocyanin contents in leaves was observed simultaneously. On 28 th day, the maximum content of Chl and minimum content of anthocyanins was measured. However, the maximal photosynthetic performance was found one week later, when the content of Chl started to diminish. Our study proved that the achievement of maximal photosynthetic performance of each leaf took about quarter of organ life and this state lasted very shortly. In this work, we described and discussed for the first time the dynamics of Chl, anthocyanins, and flavonols combined with photosynthetic efficiency changes during the leaf life in situ. Abbreviations: ABS/CS -absorption flux per CS; CS -excited cross section of leaf; DI/CS -dissipation energy flux per CS; ET/CSelectron transport per CS; F0 -minimal fluorescence, when all PSII RCs are open (at t = 0); Fm -maximal fluorescence, when all PSII RCs are closed; Ft -fluorescence at time t; Fv -maximal variable fluorescence; PIABS -performance index (potential) for energy conservation from photons absorbed by PSII to the reduction of intersystem electron acceptors; RC/CS -percentage of active reaction centers per CS; TR/CS -trapped energy flux per CS; Vt -relative variable fluorescence at time t; δR0 -probability with which an electron from the intersystem electron carriers will move to reduce the end acceptors at the PSI acceptor side; φD0 -quantum yield (at t = 0) of energy dissipation; φE0 -quantum yield of electron transport (at t = 0); φP0 -maximum quantum yield of primary photochemistry (at t = 0); φR0 -quantum yield for reduction of end electron acceptors at the PSI acceptor side; ψE0 -probability (at t = 0) that a trapped exciton moves an electron into the electron transport chain beyond QA. Authors dedicate the present paper to Professor Dr. Reto Jörg Strasser for his magnificent input to the wide application of chlorophyll a fluorescence in physiological research and inestimable inspiration.

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