Abstract
Ultraviolet (UV) is a component of solar radiation that can be divided into three types defined by waveband: UV-A (315–400 nm), UV-B (280–315 nm), and UV-C (<280 nm). UV light can influence the physiological responses of plants. Wavelength, intensity, and exposure have a great impact on plant growth and quality. Interaction between plants and UV light is regulated by photoreceptors such as UV Resistance Locus 8 (UVR8) that enables acclimation to UV-B stress. Although UV in high doses is known to damage quality and production parameters, some studies show that UV in low doses may stimulate biomass accumulation and the synthesis of healthy compounds that mainly absorb UV. UV exposure is known to induce variations in plant architecture, important in ornamental crops, increasing their economic value. Abiotic stress induced by UV exposure increases resistance to insects and pathogens, and reduce postharvest quality depletion. This review highlights the role that UV may play in plant growth, quality, photomorphogenesis, and abiotic/biotic stress resistance.
Highlights
Climate change, global water scarcity, and salinization have negatively affected arable land [1]
Interaction between plants and UV light is regulated by photoreceptors, such as UV Resistance Locus 8 (UVR8), that allows acclimation to UV-B
Enzymic browning of fruit and vegetables takes place in the presence of oxygen when polyphenol substrates are exposed to polyphenol oxidase (PPO) and/or phenol peroxidase, as a consequence of brushing, peeling, cutting, and crushing during postharvest handling, which lead to a breakdown of cell structure [121]
Summary
Global water scarcity, and salinization have negatively affected arable land [1]. The latest technology in light emitting diode (LED) lighting is being adopted by farmers and allows broad control of spectra in the case of urban farming with fully artificial lighting Spectrum modulation makes it possible to control growth and quality, including plant architecture, nutrient content, and phytochemical levels [4,5,6,7]. UV light has a great impact on plant growth and quality, in relation to wavelength, intensity and exposure. Interaction between plants and UV light is regulated by photoreceptors, such as UV Resistance Locus 8 (UVR8), that allows acclimation to UV-B stress [8,16,17]. Exposure to UV has a great impact on human health: the effects of UV radiation can manifest in the short and long term. Sunscreen and eye protection (in relation to light type and intensity) are advisable [24]
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