Sharon L. Edney scite author profile

Lactuca sativa cv. Outredgeous was grown under either fluorescent lamps or light-emitting diodes (LEDs) to test the hypothesis that antioxidant potential could be regulated by light quality. Red leaf lettuce was grown at 300 μmol·m−2·s−1 of photosynthetically active radiation, 1200 μmol·mol−1 CO2, 23 °C, and an 18 h-light /6-h dark photoperiod in controlled-environment chambers. The LED treatments were selected to provide different amounts of red (640 nm), blue (440 nm), green (530 nm), and far-red (730 nm) light in the spectra. Total anthocyanin content and the oxygen radical absorbance capacity of the tissue were measured at harvest. The source of light had a dramatic effect on both plant growth and production of radioprotective compounds. LEDs resulted in 50% greater bioprotectant content per plant at the same light level over triphosphor fluorescent lamps. Blue LEDs (440 nm) appeared to regulate the metabolic pathways leading to increased concentration of bioprotective compounds in leaf tissue. LED lighting induced a number of effects on morphology that increased both accumulation of bioprotective compounds and total yield.

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Effects of Lighting Intensity and Supplemental CO₂ on Yield of Potential Salad Crops for ISS

Richards

Edney

Yorio

et al. 2004

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Yields Of Salad Crops Grown Under Potential Lunar Or Mars Habitat Environments: Effect Of Temperature And Lighting Intensities

Richards

Edney

Yorio

et al. 2006

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Sustained Salad Crop Production Requirements for Lunar Surface

Stutte¹,

Monje²,

Yorio³

et al. 2009

SAE Int. J. Aerosp.

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Assessment of Silver Based Disinfection Technology for CEV and Future US Spacecraft: Microbial Efficacy

Roberts

Hummerick

Edney

et al. 2007

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Sharon L. Edney

Photoregulation of Bioprotectant Content of Red Leaf Lettuce with Light-emitting Diodes

Effects of Lighting Intensity and Supplemental CO₂ on Yield of Potential Salad Crops for ISS

Yields Of Salad Crops Grown Under Potential Lunar Or Mars Habitat Environments: Effect Of Temperature And Lighting Intensities

Sustained Salad Crop Production Requirements for Lunar Surface

Assessment of Silver Based Disinfection Technology for CEV and Future US Spacecraft: Microbial Efficacy

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About

Sharon L. Edney

Photoregulation of Bioprotectant Content of Red Leaf Lettuce with Light-emitting Diodes

Effects of Lighting Intensity and Supplemental CO2 on Yield of Potential Salad Crops for ISS

Yields Of Salad Crops Grown Under Potential Lunar Or Mars Habitat Environments: Effect Of Temperature And Lighting Intensities

Sustained Salad Crop Production Requirements for Lunar Surface

Assessment of Silver Based Disinfection Technology for CEV and Future US Spacecraft: Microbial Efficacy

Contact Info

Product

Resources

About

Effects of Lighting Intensity and Supplemental CO₂ on Yield of Potential Salad Crops for ISS