Fading of wound-induced volatile release during Populus tremula leaf expansion

Portillo‐Estrada, Miguel; Kazantsev, Taras; Niinemets, Ülo

doi:10.1007/s10265-016-0880-6

Cited by 18 publications

(21 citation statements)

References 55 publications

(83 reference statements)

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“…To identify the signals of volatile products of the LOX pathway in the blend of parent and fragment masses detected by PTR‐TOF‐MS, pure chemicals (Sigma‐Aldrich, St. Louis, MO, USA) were individually analysed and mass signals consistent with previous studies were found (e.g. Brilli et al ; Portillo‐Estrada et al ). The total LOX product emission presented in this study is the sum of the dominant compounds with m / z of 81.070, 83.085, 85.101, 99.080, 101.096 and 143.107, representing 2‐hexenal and 3‐hexenal (C 6 H 10 O)H + , 3‐hexenol (C 6 H 12 O)H + , 1‐hexanol (C 6 H 14 O)H + , 3‐hexenol (C 6 H 12 O)H + and hexenyl acetate (C 8 H 14 O 2 )H + , respectively (Beauchamp et al ; Giacomuzzi et al ; Portillo‐Estrada et al ; Portillo‐Estrada et al ).…”

Section: Methodsmentioning

confidence: 81%

“…Methanol and methyl salicylate (MeSA) were detected as the protonated parent ions at m / z of 33.034 and 153.088, respectively (Brilli et al ; Tasin, Cappellin, & Biasioli ; Maja et al ; Brilli et al ; Giacomuzzi et al ; Portillo‐Estrada et al ; Yener et al ; Portillo‐Estrada et al ). To identify the signals of volatile products of the LOX pathway in the blend of parent and fragment masses detected by PTR‐TOF‐MS, pure chemicals (Sigma‐Aldrich, St. Louis, MO, USA) were individually analysed and mass signals consistent with previous studies were found (e.g.…”

Section: Methodsmentioning

confidence: 99%

“…Brilli et al ; Portillo‐Estrada et al ). The total LOX product emission presented in this study is the sum of the dominant compounds with m / z of 81.070, 83.085, 85.101, 99.080, 101.096 and 143.107, representing 2‐hexenal and 3‐hexenal (C 6 H 10 O)H + , 3‐hexenol (C 6 H 12 O)H + , 1‐hexanol (C 6 H 14 O)H + , 3‐hexenol (C 6 H 12 O)H + and hexenyl acetate (C 8 H 14 O 2 )H + , respectively (Beauchamp et al ; Giacomuzzi et al ; Portillo‐Estrada et al ; Portillo‐Estrada et al ). The identity of O 3 ‐induced LOX compounds and MeSA from P. vulgaris leaves was also confirmed in pilot experiments by separate GC–MS analyses carried out according to the protocol of Copolovici, Kännaste, Pazouki, and Niinemets () and Kännaste, Copolovici, & Niinemets ().…”

Section: Methodsmentioning

confidence: 99%

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Ozone‐induced foliar damage and release of stress volatiles is highly dependent on stomatal openness and priming by low‐level ozone exposure in Phaseolus vulgaris

Harley

Niinemets

2017

Plant Cell & Environment

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Acute ozone exposure triggers major emissions of volatile organic compounds (VOC), but quantitatively, it is unclear how different ozone doses alter the start and the total amount of these emissions, and the induction rate of different stress volatiles. It is also unclear whether priming (i.e., pre-exposure to lower O 3 concentrations) can modify the magnitude and kinetics of volatile emissions. We investigated photosynthetic characteristics and VOC emissions in Phaseolus vulgaris following acute ozone exposure (600 nmol mol -1 for 30 min) under illumination and in darkness and after priming with 200 nmol mol -1 O 3 for 30 min. Methanol and lipoxygenase (LOX) pathway product emissions were induced rapidly, followed by moderate emissions of methyl salicylate (MeSA). Stomatal conductance prior to acute exposure was lower in darkness and after low O 3 priming than in light and without priming. After low O 3 priming, no MeSA and lower LOX emissions were detected under acute exposure. Overall, maximum emission rates and the total amount of emitted LOX products and methanol were quantitatively correlated with total stomatal ozone uptake. These results indicate that different stress volatiles scale differently with ozone dose and highlight the key role of stomatal conductance in controlling ozone uptake, leaf injury and volatile release.

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Section: Methodsmentioning

confidence: 81%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Ozone‐induced foliar damage and release of stress volatiles is highly dependent on stomatal openness and priming by low‐level ozone exposure in Phaseolus vulgaris

Harley

Niinemets

2017

Plant Cell & Environment

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“…The presence of methanol in the BVOC emission blend of poplar leaves is known (Hüve et al ., ). Methanol emission is related to cell elongation and division, and occurs more intensively in younger and expanding leaves (Brilli et al ., ; Portillo‐Estrada et al ., ), remarkably in early spring, even before isoprene is emitted (Ghirardo et al ., ). Therefore, a plantation of poplars, a fast‐growing species that quickly unfolds its leaves in spring, generates a burst of methanol emission due to the many young and expanding leaves during this period.…”

Section: Discussionmentioning

confidence: 99%

“…Studies have shown a temporal lag between isoprene emission and the onset of photosynthesis (Kuzma & Fall, ; Sharkey & Loreto, ; Monson et al ., ). Leaf phenology plays an important role in determining the level of isoprene emissions (Brilli et al ., ; Portillo‐Estrada et al ., ). Isoprene emission rates differ among different species of the same genus, or among genotypes of the same species, as already documented in Populus (Calfapietra et al ., ).…”

Section: Introductionmentioning

confidence: 97%

Contribution of volatile organic compound fluxes to the ecosystem carbon budget of a poplar short‐rotation plantation

et al. 2018

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Biogenic volatile organic compounds (BVOCs) are major precursors of both ozone and secondary organic aerosols (SOA) in the troposphere and represent a non‐negligible portion of the carbon fixed by primary producers, but long‐term ecosystem‐scale measurements of their exchanges with the atmosphere are lacking. In this study, the fluxes of 46 ions corresponding to 36 BVOCs were continuously monitored along with the exchanges of mass (carbon dioxide and water vapor) and energy (sensible and latent heat) for an entire year in a poplar (Populus) short‐rotation crop (SRC), using the eddy covariance methodology. BVOC emissions mainly consisted of isoprene, acetic acid, and methanol. Total net BVOC emissions were 19.20 kg C ha−1 yr−1, which represented 0.63% of the net ecosystem exchange (NEE), resulting from −23.59 Mg C ha−1 yr−1 fixed as CO 2 and 20.55 Mg C ha−1 yr−1 respired as CO 2 from the ecosystem. Isoprene emissions represented 0.293% of NEE, being emitted at a ratio of 1 : 1709 mol isoprene per mol of CO 2 fixed. Based on annual ecosystem‐scale measurements, this study quantified for the first time that BVOC carbon emissions were lower than previously estimated in other studies (0.5–2% of NEE) on poplar trees. Furthermore, the seasonal and diurnal emission patterns of isoprene, methanol, and other BVOCs provided a better interpretation of the relationships with ecosystem CO 2 and water vapor fluxes, with air temperature, vapor pressure deficit, and photosynthetic photon flux density.

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Massive release of volatile organic compounds due to leaf midrib wounding in Populus tremula

Portillo‐Estrada

Niinemets

2018

Plant Ecol

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We investigated the rapid initial response to wounding damage generated by straight cuts to the leaf lamina and midrib transversal cuts in mature aspen (Populus tremula) leaves that can occur upon herbivore feeding. Wound-induced volatile emission time-courses of 24 compounds were continuously monitored by a proton-transfer-reaction time-of-flight mass spectrometer (PTR-TOF-MS). After the mechanical wounding, an emission cascade was rapidly elicited, resulting in emissions of key stress volatiles methanol, acetaldehyde and volatiles of the lipoxygenase pathway, collectively constituting ca. 99% of the total emission. For the same wounding magnitude, midrib cuts lead to six-fold greater emissions of volatiles per mm2 of surface cut than lamina cuts during the first emission burst (shorter than seven minutes), and exhibited a particularly high methanol emission compared to the emissions of other volatiles. This evidence suggests that feeding by herbivores capable of consuming the leaf midrib can result in disproportionally greater volatile release than feeding by smaller herbivores incapable of biting through the major veins.

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Fading of wound-induced volatile release during Populus tremula leaf expansion

Cited by 18 publications

References 55 publications

Ozone‐induced foliar damage and release of stress volatiles is highly dependent on stomatal openness and priming by low‐level ozone exposure in Phaseolus vulgaris

Ozone‐induced foliar damage and release of stress volatiles is highly dependent on stomatal openness and priming by low‐level ozone exposure in Phaseolus vulgaris

Contribution of volatile organic compound fluxes to the ecosystem carbon budget of a poplar short‐rotation plantation

Massive release of volatile organic compounds due to leaf midrib wounding in Populus tremula

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