Effect of Light-Emitting Diodes (LEDs) on the Quality of Fruits and Vegetables During Postharvest Period: a Review

Abewoy D(2018)Review on Impacts of climate change on vegetable production and its management practices Advances in Crop Science and Technology 06 1-7

Adams-Phillips L(2004)Signal transduction systems regulating fruit ripening Trends in Plant Science 9 331-338

Barry C(2018)Ensuring sufficient intracellular ATP supplying and friendly extracellular ATP signaling attenuates stresses, delays senescence and maintains quality in horticultural crops during postharvest life Trends in Food Science and Technology 76 67-81

Giovannoni J(2015)Comparison of accumulation of stilbene compounds and stilbene related gene expression in two grape berries irradiated with different light sources Horticulture, Environment and Biotechnology 56 36-43

Aghdam MS(2012)Postharvest Biology and Technology Blue light alters infection by Penicillium digitatum in tangerines Postharvest Biology and Technology 63 11-15

Jannatizadeh A(2014)Effect of 1-methylcyclopropene (1-MCP) on storage life of durian fruit Postharvest Biology and Technology 97 111-114

Luo Z(2019)Review on effect of light on disease development and management of horticultural crops under protected cultivations International Journal of Forestry and Horticulture 5 5-18

Paliyath G(2017)LED blue light-induced changes in phenolics and ethylene in citrus fruit: Implication in elicited resistance against Penicillium digitatum infection Food Chemistry 218 575-583

Ahn SY(2016)Artificial LED lighting enhances growth characteristics and total phenolic content of Ocimum basilicum, but variably affects transplant success Scientia Horticulturae 198 277-283

Kim SA(2018)Current status and recent achievements in the field of horticulture with the use of light-emitting diodes (LEDs) Scientia Horticulturae 235 437-451

Abewoy D(2018)Review on Impacts of climate change on vegetable production and its management practices Advances in Crop Science and Technology 06 1-7

Adams-Phillips L(2004)Signal transduction systems regulating fruit ripening Trends in Plant Science 9 331-338

Barry C(2018)Ensuring sufficient intracellular ATP supplying and friendly extracellular ATP signaling attenuates stresses, delays senescence and maintains quality in horticultural crops during postharvest life Trends in Food Science and Technology 76 67-81

Giovannoni J(2015)Comparison of accumulation of stilbene compounds and stilbene related gene expression in two grape berries irradiated with different light sources Horticulture, Environment and Biotechnology 56 36-43

Aghdam MS(2012)Postharvest Biology and Technology Blue light alters infection by Penicillium digitatum in tangerines Postharvest Biology and Technology 63 11-15

Jannatizadeh A(2014)Effect of 1-methylcyclopropene (1-MCP) on storage life of durian fruit Postharvest Biology and Technology 97 111-114

Luo Z(2019)Review on effect of light on disease development and management of horticultural crops under protected cultivations International Journal of Forestry and Horticulture 5 5-18

Paliyath G(2017)LED blue light-induced changes in phenolics and ethylene in citrus fruit: Implication in elicited resistance against Penicillium digitatum infection Food Chemistry 218 575-583

Ahn SY(2016)Artificial LED lighting enhances growth characteristics and total phenolic content of Ocimum basilicum, but variably affects transplant success Scientia Horticulturae 198 277-283

Kim SA(2018)Current status and recent achievements in the field of horticulture with the use of light-emitting diodes (LEDs) Scientia Horticulturae 235 437-451