The effect of light quality on growth, photosynthesis, leaf anatomy and volatile isoprenoids of a monoterpene-emitting herbaceous species (Solanum lycopersicum L.) and an isoprene-emitting tree (Platanus orientalis L.)

•Growth under red, blue and green light (RB, RGB) affects differently tomato and plane traits.•Plant biomass is reduced and photosynthesis stimulated in tomato under RB and RGB.•Photosynthesis of oriental plane was insensitive to different light qualities.•RB and RGB reduce isoprene emission by plan...

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Published inEnvironmental and experimental botany Vol. 130; pp. 122 - 132
Main Authors Arena, C., Tsonev, T., Doneva, D., De Micco, V., Michelozzi, M., Brunetti, C., Centritto, M., Fineschi, S., Velikova, V., Loreto, F.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2016
Subjects
alpha-pinene
Anatomical leaf traits
beta-phellandrene
biochemical compounds
biomass production
biosynthesis
Carbon assimilation
carbon dioxide
carene
emissions
isoprene
Isoprenoid emissions
lamps
leaf area
Leaf conductance
leaves
light quality
mesophyll
Oriental plane
photosynthesis
Plant growth
Platanus orientalis
quality control
RGB and RB LEDs
Solanum lycopersicum
stomata
Tomato
tomatoes
trees
white light
Isoprenoid emissions
Leaf conductance
Oriental plane
Plant growth
Carbon assimilation
Tomato
Anatomical leaf traits
RGB and RB LEDs
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Abstract •Growth under red, blue and green light (RB, RGB) affects differently tomato and plane traits.•Plant biomass is reduced and photosynthesis stimulated in tomato under RB and RGB.•Photosynthesis of oriental plane was insensitive to different light qualities.•RB and RGB reduce isoprene emission by plane and change monoterpene blend in tomato. The effect of different light qualities on growth, photosynthesis, leaf anatomy and isoprenoid emission was studied in two different fast-growing plant systems: a herbaceous crop, tomato (Solanum lycopersicum L.), and a tree, oriental plane (Platanus orientalis L.). Both plant species were subjected to three different light quality regimes: RGB (Red 33%, Green 33%, Blue 33%) and RB (Red 66%, Blue 33%), provided by light emitting diodes (LED); and white light (WL), considered as a control and provided by white fluorescent lamps. Compared to WL, RGB and RB reduced plant height, plant biomass and leaf area. The CO2 assimilation rate (A) was lower in tomato grown under WL than RGB and RB, while A was similar in oriental plane leaves exposed to the three light regimes. In tomato, stomatal (gs) and mesophyll (gm) conductance were higher under RGB and RB compared to WL. In plane, gs was also higher under RGB and RB, while gm was not significantly influenced by different light qualities. In both species, leaf lamina thickness (LT) and stomata size were the anatomical traits most affected by the different light regimes. In tomato, leaf lamina thickness was significantly reduced in RGB and RB leaves, whereas in oriental plane leaf lamina thickness was significantly higher in RGB and RB than in WL leaves. In both species, RB leaves showed bigger stomata size than WL and RGB leaves. Light quality also affected photosynthesis-dependent volatile isoprenoids. In tomato, β-phellandrene was lower under RB and RGB compared to WL. However, RGB and RB stimulated α-pinene, carene and α-terpinene emissions. Oriental plane released about 14nmolm−2s−1 isoprene when growing at WL, while the emission was reduced under RGB and even more under RB. In summary, photosynthetic performance, leaf anatomy, biomass production, and volatile isoprenoids are affected by light quality differently in tomato and plane plants. Light quality control may have important applications to modulate plant productivity and increase biosynthesis of useful biochemical compounds.
AbstractList The effect of different light qualities on growth, photosynthesis, leaf anatomy and isoprenoid emission was studied in two different fast-growing plant systems: a herbaceous crop, tomato (Solanum lycopersicum L.), and a tree, oriental plane (Platanus orientalis L.). Both plant species were subjected to three different light quality regimes: RGB (Red 33%, Green 33%, Blue 33%) and RB (Red 66%, Blue 33%), provided by light emitting diodes (LED); and white light (WL), considered as a control and provided by white fluorescent lamps. Compared to WL, RGB and RB reduced plant height, plant biomass and leaf area. The CO2 assimilation rate (A) was lower in tomato grown under WL than RGB and RB, while A was similar in oriental plane leaves exposed to the three light regimes. In tomato, stomatal (gs) and mesophyll (gm) conductance were higher under RGB and RB compared to WL. In plane, gs was also higher under RGB and RB, while gm was not significantly influenced by different light qualities. In both species, leaf lamina thickness (LT) and stomata size were the anatomical traits most affected by the different light regimes. In tomato, leaf lamina thickness was significantly reduced in RGB and RB leaves, whereas in oriental plane leaf lamina thickness was significantly higher in RGB and RB than in WL leaves. In both species, RB leaves showed bigger stomata size than WL and RGB leaves. Light quality also affected photosynthesis-dependent volatile isoprenoids. In tomato, β-phellandrene was lower under RB and RGB compared to WL. However, RGB and RB stimulated α-pinene, carene and α-terpinene emissions. Oriental plane released about 14nmolm−2s−1 isoprene when growing at WL, while the emission was reduced under RGB and even more under RB. In summary, photosynthetic performance, leaf anatomy, biomass production, and volatile isoprenoids are affected by light quality differently in tomato and plane plants. Light quality control may have important applications to modulate plant productivity and increase biosynthesis of useful biochemical compounds.
•Growth under red, blue and green light (RB, RGB) affects differently tomato and plane traits.•Plant biomass is reduced and photosynthesis stimulated in tomato under RB and RGB.•Photosynthesis of oriental plane was insensitive to different light qualities.•RB and RGB reduce isoprene emission by plane and change monoterpene blend in tomato. The effect of different light qualities on growth, photosynthesis, leaf anatomy and isoprenoid emission was studied in two different fast-growing plant systems: a herbaceous crop, tomato (Solanum lycopersicum L.), and a tree, oriental plane (Platanus orientalis L.). Both plant species were subjected to three different light quality regimes: RGB (Red 33%, Green 33%, Blue 33%) and RB (Red 66%, Blue 33%), provided by light emitting diodes (LED); and white light (WL), considered as a control and provided by white fluorescent lamps. Compared to WL, RGB and RB reduced plant height, plant biomass and leaf area. The CO2 assimilation rate (A) was lower in tomato grown under WL than RGB and RB, while A was similar in oriental plane leaves exposed to the three light regimes. In tomato, stomatal (gs) and mesophyll (gm) conductance were higher under RGB and RB compared to WL. In plane, gs was also higher under RGB and RB, while gm was not significantly influenced by different light qualities. In both species, leaf lamina thickness (LT) and stomata size were the anatomical traits most affected by the different light regimes. In tomato, leaf lamina thickness was significantly reduced in RGB and RB leaves, whereas in oriental plane leaf lamina thickness was significantly higher in RGB and RB than in WL leaves. In both species, RB leaves showed bigger stomata size than WL and RGB leaves. Light quality also affected photosynthesis-dependent volatile isoprenoids. In tomato, β-phellandrene was lower under RB and RGB compared to WL. However, RGB and RB stimulated α-pinene, carene and α-terpinene emissions. Oriental plane released about 14nmolm−2s−1 isoprene when growing at WL, while the emission was reduced under RGB and even more under RB. In summary, photosynthetic performance, leaf anatomy, biomass production, and volatile isoprenoids are affected by light quality differently in tomato and plane plants. Light quality control may have important applications to modulate plant productivity and increase biosynthesis of useful biochemical compounds.
Author De Micco, V.
Centritto, M.
Doneva, D.
Brunetti, C.
Fineschi, S.
Velikova, V.
Arena, C.
Michelozzi, M.
Loreto, F.
Tsonev, T.
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  organization: Institute of Plant Physiology and Genetics—Bulgarian Academy of Sciences, Acad. G. Bonchev Str., Bl. 21, 1113, Sofia, Bulgaria
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  surname: Doneva
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  organization: Institute of Plant Physiology and Genetics—Bulgarian Academy of Sciences, Acad. G. Bonchev Str., Bl. 21, 1113, Sofia, Bulgaria
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  givenname: V.
  surname: De Micco
  fullname: De Micco, V.
  organization: Department of Agricultural Sciences, University of Naples Federico II, Via Università 100, Portici 80055, Naples, Italy
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  surname: Michelozzi
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  givenname: C.
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  fullname: Brunetti, C.
  organization: Department of Agri-Food Production and Environmental Sciences, Viale delle Idee 30, 50019 Sesto Fiorentino, Florence, Italy
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  surname: Centritto
  fullname: Centritto, M.
  organization: Trees and Timber Institute, The National Research Council of Italy, via Madonna del Piano 10, 50019 Sesto Fiorentino (FI), Italy
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  givenname: S.
  surname: Fineschi
  fullname: Fineschi, S.
  organization: Institute for Sustainable Plant Protection, The National Research Council of Italy, via Madonna del Piano 10, 50019 Sesto Fiorentino (FI), Italy
– sequence: 9
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  surname: Velikova
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  surname: Loreto
  fullname: Loreto, F.
  organization: Department of Biology, Agriculture, and Food Sciences, The National Research Council of Italy, Piazzale Aldo Moro 7, 00185 Roma, Italy
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Keywords Isoprenoid emissions
Leaf conductance
Oriental plane
Plant growth
Carbon assimilation
Tomato
Anatomical leaf traits
RGB and RB LEDs
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Snippet •Growth under red, blue and green light (RB, RGB) affects differently tomato and plane traits.•Plant biomass is reduced and photosynthesis stimulated in tomato...
The effect of different light qualities on growth, photosynthesis, leaf anatomy and isoprenoid emission was studied in two different fast-growing plant...
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SubjectTerms alpha-pinene
Anatomical leaf traits
beta-phellandrene
biochemical compounds
biomass production
biosynthesis
Carbon assimilation
carbon dioxide
carene
emissions
isoprene
Isoprenoid emissions
lamps
leaf area
Leaf conductance
leaves
light quality
mesophyll
Oriental plane
photosynthesis
Plant growth
Platanus orientalis
quality control
RGB and RB LEDs
Solanum lycopersicum
stomata
Tomato
tomatoes
trees
white light
Title The effect of light quality on growth, photosynthesis, leaf anatomy and volatile isoprenoids of a monoterpene-emitting herbaceous species (Solanum lycopersicum L.) and an isoprene-emitting tree (Platanus orientalis L.)
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