Spectral Composition of Light Affects Sensitivity to UV-B and Photoinhibition in Cucumber

Autor: Carl-Otto Ottosen, Åke Strid, Luis Orlando Morales, Victor Costa Castro-Alves, Carolina Falcato Fialho Palma, Eva Rosenqvist
Rok vydání: 2021
Předmět:
0106 biological sciences
0301 basic medicine
qL
Trädgårdsvetenskap/hortikultur
Photoinhibition
Photosystem II
total leaf area
transpiration rate
specific leaf mass
Ci
Plant Science
Photosynthetic efficiency
net photosynthetic rate
01 natural sciences
SLM
Gs
chemistry.chemical_compound
quantum yield or operation ifficiency of PSII
morphology
Pigment accumulation
DM
Chlorophyll fluorescence
Original Research
reactive oxygen species
intracellular CO2 concentration
INL internode lenght
Ø
chlorophyll fluorescence
electron transport rate
fraction of open PSII centres
Biochemistry and Molecular Biology
food and beverages
Dry mass percentage
ROS
LCP
curvature
DM%
CO2
non-photochemical quenching
NPQ
a [morphology 3 Abbreviations]
Fv/Fm
TLA
LEDs
Dry mass
light conpensation point
fresh mass
gas exchange
lcsh:Plant culture
Horticulture
Photosynthesis
Fq'/Fm'
03 medical and health sciences
An
individual leaf area
FM
lcsh:SB1-1110
photosynthetically active radiation
stem diameter 4
maximum photochemical efficiency of PSII
leaf mass ratio
UV-B
maximum net assimilation rate
Botany
carbon dioxide
photosystem II
Botanik
LMR
Ultraviolet-B
ILA
Light intensity
apparent quantum yield of photosynthesis
030104 developmental biology
chemistry
stomatal conductance
Chlorophyll
Biophysics
light quality
PAR
chlorophyll flourescence
Amax
dark respiration
cucumber
ETR
Biokemi och molekylärbiologi
Rdark
010606 plant biology & botany
Zdroj: Frontiers in Plant Science, Vol 11 (2021)
Palma, C F F, Castro-Alves, V, Morales, L O, Rosenqvist, E, Ottosen, C-O & Strid, Å 2021, ' Spectral Composition of Light Affects Sensitivity to UV-B and Photoinhibition in Cucumber ', Frontiers in Plant Science, vol. 11, 610011 . https://doi.org/10.3389/fpls.2020.610011
Frontiers in Plant Science
Falcato Fialho Palma, C, C. Alves, V, Rosenqvist, E, O. Morales, L, Ottosen, C-O & Strid, Å 2021, ' Spectral composition of light affects plant sensitivity to UV-B and photoinhibition in cucumber ', Frontiers in Plant Science, vol. 11, 610011 . https://doi.org/10.3389/fpls.2020.610011
ISSN: 1664-462X
Popis: Ultraviolet B (UV-B, 280 – 315 nm) and ultraviolet A (UV-A, 315-400 nm) radiation comprise small portions of the solar radiation but regulate many aspects of plant development, physiology and metabolism. Until now, how plants respond to UV-B in the presence of different light qualities is poorly understood. This study aimed to assess the effects of a low UV-B dose (0.912± 0.074 kJ m-2 day-1, at a 6 h daily UV exposure) in combination with four light treatments (blue, green, red and broadband white at 210 μmol m-2 s-1 Photosynthetic active radiation [PAR]) on morphological and physiological responses of cucumber (Cucumis sativus cv. ‘Lausanna RZ F1’). We explored the effects of light quality backgrounds on plant morphology, leaf gas exchange, chlorophyll fluorescence, epidermal pigment accumulation, and on acclimation ability to saturating light intensity. Our results showed that supplementary UV-B significantly decreased biomass accumulation in the presence of broad band white, blue and green light, but not under red light. UV‐B also reduced the photosynthetic efficiency of CO2 fixation (α) when combined with blue light. These plants, despite showing high accumulation of anthocyanins, were unable to cope with saturating light conditions. No significant effects of UV-B in combination with green light were observed for gas exchange and chlorophyll fluorescence parameters, but supplementary UV-B significantly increased chlorophyll and flavonol contents in the leaf epidermis. Plants grown under red light and UV-B significantly increased maximum photosynthetic rate and dark respiration compared to pure red light. Additionally, red and UV-B treated plants during with saturating light intensity showed an higher quantum yield of photosystem II (PSII), fraction of open PSII centres and electron transport rate and showed no effect on the apparent maximum quantum efficiency of PSII photochemistry (Fv/Fm) or non-photochemical quenching in contrast to solely red-light conditions. These findings provide new insights into how plants respond to UV-B radiation in the presence of different light spectra.
Funding Agencies:GUDP (Danish Ministry of Food, Agriculture and Fisheries) Research center iFood Faculty for Business, Science and Technology at Örebro University Örebro University Vice Chancellor's strategic research programme on 'Food and Health'
Databáze: OpenAIRE
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