Light quality characterization under climate screens and shade nets for controlled-environment agriculture

Climate screens are typically used inside glass greenhouses to improve control of humidity and temperature, and thus reduce energy expenditure. Shade nets are more appropriate to use, either with or without polyethylene cladding, at locations less-reliant on climate control, but where protection aga...

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Veröffentlicht in:	PloS one 2018-06, Vol.13 (6), p.e0199628-e0199628
Hauptverfasser:	Kotilainen, Titta, Robson, T Matthew, Hernández, Ricardo
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural management Agriculture Agriculture - instrumentation Agriculture - methods Attenuation Biology and Life Sciences Botanical research Cladding Climate Climate control Consultants Energy expenditure Environment, Controlled Environmental aspects Environmental management Environmental science Evolutionary biology Greenhouse effect Greenhouse gardening Greenhouses Hail Horticulture Humidity Insect pests Insects Invertebrates Irradiance Light Light quality Materials selection Methods Molecular biology Morphology Nets Pest control Pests Photobiology Physical Sciences Plant morphology Plant physiology Plant sciences Polyethylene Polyethylenes Quality Screens Screens (Separation) Shade Shading Solar radiation Spectra Spectrum Analysis Ultraviolet radiation
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creator	Kotilainen, Titta Robson, T Matthew Hernández, Ricardo
description	Climate screens are typically used inside glass greenhouses to improve control of humidity and temperature, and thus reduce energy expenditure. Shade nets are more appropriate to use, either with or without polyethylene cladding, at locations less-reliant on climate control, but where protection against hail, wind and excessive solar radiation might be needed. In addition, insect screens and nets can be employed to hinder insect pests and other invertebrates entering either type of production environment, and to keep invertebrates used in pest management contained inside. Screens and nets both transmit sunlight in a wavelength-specific manner, giving them the potential to affect plant morphology and physiology. Screens and nets of various colours and nominal shading factors have been described and studied; however, detailed measurements of their spectral characteristics are scarce. We measured solar spectral photon-irradiance and its attenuation by climate screens, shade nets, insect nets, greenhouse glass, and polyethylene covers. Our aim was to elucidate the effects of different patterns, colours, and shading factors, on light quality in production environments. Our measurements reveal that there are large differences both in the fraction of global irradiance attenuated and spectral ratios received under materials that are otherwise superficially similar in terms of their appearance and texture. We suggest that the type of spectral characterization that we performed is required to fully interpret the results of research examining plant responses to different types of screen and net. These data on spectral irradiance would benefit material manufacturers, researchers, growers, and horticultural consultants, enabling material selection to better match the solutions sought by growers and their desired outcomes regarding plant performance.
doi_str_mv	10.1371/journal.pone.0199628
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Shade nets are more appropriate to use, either with or without polyethylene cladding, at locations less-reliant on climate control, but where protection against hail, wind and excessive solar radiation might be needed. In addition, insect screens and nets can be employed to hinder insect pests and other invertebrates entering either type of production environment, and to keep invertebrates used in pest management contained inside. Screens and nets both transmit sunlight in a wavelength-specific manner, giving them the potential to affect plant morphology and physiology. Screens and nets of various colours and nominal shading factors have been described and studied; however, detailed measurements of their spectral characteristics are scarce. We measured solar spectral photon-irradiance and its attenuation by climate screens, shade nets, insect nets, greenhouse glass, and polyethylene covers. Our aim was to elucidate the effects of different patterns, colours, and shading factors, on light quality in production environments. Our measurements reveal that there are large differences both in the fraction of global irradiance attenuated and spectral ratios received under materials that are otherwise superficially similar in terms of their appearance and texture. We suggest that the type of spectral characterization that we performed is required to fully interpret the results of research examining plant responses to different types of screen and net. These data on spectral irradiance would benefit material manufacturers, researchers, growers, and horticultural consultants, enabling material selection to better match the solutions sought by growers and their desired outcomes regarding plant performance.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>29940006</pmid><doi>10.1371/journal.pone.0199628</doi><tpages>e0199628</tpages><orcidid>https://orcid.org/0000-0002-2822-9734</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Agricultural management Agriculture Agriculture - instrumentation Agriculture - methods Attenuation Biology and Life Sciences Botanical research Cladding Climate Climate control Consultants Energy expenditure Environment, Controlled Environmental aspects Environmental management Environmental science Evolutionary biology Greenhouse effect Greenhouse gardening Greenhouses Hail Horticulture Humidity Insect pests Insects Invertebrates Irradiance Light Light quality Materials selection Methods Molecular biology Morphology Nets Pest control Pests Photobiology Physical Sciences Plant morphology Plant physiology Plant sciences Polyethylene Polyethylenes Quality Screens Screens (Separation) Shade Shading Solar radiation Spectra Spectrum Analysis Ultraviolet radiation
title	Light quality characterization under climate screens and shade nets for controlled-environment agriculture
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