Measuring the short term plant photosynthetic response to varying light quality using light emitting diodes (LEDs)

Light emitting diodes (LEDs) emit narrow bandwidth light and have the potential to increase the spectral efficiency of supplemental lighting in greenhouses by optimizing spectral output for plant growth and yields. At the moment of writing, data describing the plant response to varying light quality...

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Main Author: Schwalb, Michael
Other Authors: Mark Lefsrud (Internal/Supervisor)
Format: Others
Language:en
Published: McGill University 2014
Subjects:
Online Access:http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=121207
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-QMM.1212072014-05-23T03:53:43ZMeasuring the short term plant photosynthetic response to varying light quality using light emitting diodes (LEDs)Schwalb, MichaelAgriculture - GeneralLight emitting diodes (LEDs) emit narrow bandwidth light and have the potential to increase the spectral efficiency of supplemental lighting in greenhouses by optimizing spectral output for plant growth and yields. At the moment of writing, data describing the plant response to varying light quality and quantity was limited. The objective of this research was to examine photosynthetic response of plants to varying light quality and quantity and to gather photosynthetic response data that could be used to design an optimal spectrum for a prototype LED array for plant growth experiments. The action spectrum of tomato (Solanum lycopersicum), lettuce (Lactuca sativa) and petunia (Petunia × hybrida) seedlings was measured at three irradiances (30, 60 and 120 µmol m-2 sec-1) using LED arrays with peak wavelengths from 405nm – 700nm and a bandwidth of 25nm (full width at half maximum). The action spectrums for all plant species at all three irradiances were characterized by localized blue and red action peaks within the range of 430 to 449 nm and 624 to 660 nm respectively. A peak also occurred at 595 nm for 30 µmol m-2 sec-1. The photosynthetic response of tomato, lettuce and petunia to varying red (660nm) and blue (430nm) wavelengths with and without background broadband radiation was also measured. For all three species tested, with and without background radiation, the optimum photosynthesis range occurred within the red to blue ratio (r:b) range of 5:1- 15:1 except for petunia without background radiation for which the maximum occurred at 50:1. These results suggest that the optimal red to blue ratio for photosynthetic activity for tomato, lettuce and petunia occurred between a red to blue ratio of 5:1-15:1. Les diodes électroluminescentes (DEL) émettent une lumière relativement monochromatique et pourraient accroître l'efficacité des lampes pour les serres commerciales en émettant des longueurs d'ondes optimisées pour le rendement des plantes. L'objectif de ce projet a consisté à examiner l'effet des longueurs d'ondes sur l'activité photosynthétique des plantes. L'activité photosynthétique des tomates (Solanum lycopersicum), laitues (Lactuca sativa) et pétunias (Petunia × hybrida) a été mesurée à trois puissances d'irradiation (30, 60 and 120 µmol m-2 sec-1) en utilisant des DELs avec une émission maximale entre 405 nm et 700 nm et une bande passante de 25 nm. La réponse photosynthétique maximale à chaque niveau d'irradiation se situait dans la portion bleu et rouge du spectre visible, soit respectivement entre 430 - 449 nm et 624 to 660 nm. Un maximum a aussi été observé à 595 nm à 30 µmol m-2 sec-1. L'effet de la proportion des longueurs d'onde bleue et rouge (émises par les DELs) sur l'activité photosynthétique des tomates, laitues et pétunias a aussi été mesuré avec et sans le rayonnement de fond. Pour chaque espèce, avec et sans le rayonnement de fond, la proportion optimale (en terme de rouge et bleu) pour l'activité photosynthétique se situait entre of 5:1- 15:1, sauf dans le cas du pétunia, pour lequel le maximum se situait à 50:1 sans rayonnement de fond. La proportion optimale pour l'activité photosynthétique a diminué avec le rayonnement de fond pour chaque espèce à chaque niveau d'irradiation.McGill UniversityMark Lefsrud (Internal/Supervisor)2014Electronic Thesis or Dissertationapplication/pdfenElectronically-submitted thesesAll items in eScholarship@McGill are protected by copyright with all rights reserved unless otherwise indicated.Master of Science (Department of Bioresource Engineering) http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=121207
collection NDLTD
language en
format Others
sources NDLTD
topic Agriculture - General
spellingShingle Agriculture - General
Schwalb, Michael
Measuring the short term plant photosynthetic response to varying light quality using light emitting diodes (LEDs)
description Light emitting diodes (LEDs) emit narrow bandwidth light and have the potential to increase the spectral efficiency of supplemental lighting in greenhouses by optimizing spectral output for plant growth and yields. At the moment of writing, data describing the plant response to varying light quality and quantity was limited. The objective of this research was to examine photosynthetic response of plants to varying light quality and quantity and to gather photosynthetic response data that could be used to design an optimal spectrum for a prototype LED array for plant growth experiments. The action spectrum of tomato (Solanum lycopersicum), lettuce (Lactuca sativa) and petunia (Petunia × hybrida) seedlings was measured at three irradiances (30, 60 and 120 µmol m-2 sec-1) using LED arrays with peak wavelengths from 405nm – 700nm and a bandwidth of 25nm (full width at half maximum). The action spectrums for all plant species at all three irradiances were characterized by localized blue and red action peaks within the range of 430 to 449 nm and 624 to 660 nm respectively. A peak also occurred at 595 nm for 30 µmol m-2 sec-1. The photosynthetic response of tomato, lettuce and petunia to varying red (660nm) and blue (430nm) wavelengths with and without background broadband radiation was also measured. For all three species tested, with and without background radiation, the optimum photosynthesis range occurred within the red to blue ratio (r:b) range of 5:1- 15:1 except for petunia without background radiation for which the maximum occurred at 50:1. These results suggest that the optimal red to blue ratio for photosynthetic activity for tomato, lettuce and petunia occurred between a red to blue ratio of 5:1-15:1. === Les diodes électroluminescentes (DEL) émettent une lumière relativement monochromatique et pourraient accroître l'efficacité des lampes pour les serres commerciales en émettant des longueurs d'ondes optimisées pour le rendement des plantes. L'objectif de ce projet a consisté à examiner l'effet des longueurs d'ondes sur l'activité photosynthétique des plantes. L'activité photosynthétique des tomates (Solanum lycopersicum), laitues (Lactuca sativa) et pétunias (Petunia × hybrida) a été mesurée à trois puissances d'irradiation (30, 60 and 120 µmol m-2 sec-1) en utilisant des DELs avec une émission maximale entre 405 nm et 700 nm et une bande passante de 25 nm. La réponse photosynthétique maximale à chaque niveau d'irradiation se situait dans la portion bleu et rouge du spectre visible, soit respectivement entre 430 - 449 nm et 624 to 660 nm. Un maximum a aussi été observé à 595 nm à 30 µmol m-2 sec-1. L'effet de la proportion des longueurs d'onde bleue et rouge (émises par les DELs) sur l'activité photosynthétique des tomates, laitues et pétunias a aussi été mesuré avec et sans le rayonnement de fond. Pour chaque espèce, avec et sans le rayonnement de fond, la proportion optimale (en terme de rouge et bleu) pour l'activité photosynthétique se situait entre of 5:1- 15:1, sauf dans le cas du pétunia, pour lequel le maximum se situait à 50:1 sans rayonnement de fond. La proportion optimale pour l'activité photosynthétique a diminué avec le rayonnement de fond pour chaque espèce à chaque niveau d'irradiation.
author2 Mark Lefsrud (Internal/Supervisor)
author_facet Mark Lefsrud (Internal/Supervisor)
Schwalb, Michael
author Schwalb, Michael
author_sort Schwalb, Michael
title Measuring the short term plant photosynthetic response to varying light quality using light emitting diodes (LEDs)
title_short Measuring the short term plant photosynthetic response to varying light quality using light emitting diodes (LEDs)
title_full Measuring the short term plant photosynthetic response to varying light quality using light emitting diodes (LEDs)
title_fullStr Measuring the short term plant photosynthetic response to varying light quality using light emitting diodes (LEDs)
title_full_unstemmed Measuring the short term plant photosynthetic response to varying light quality using light emitting diodes (LEDs)
title_sort measuring the short term plant photosynthetic response to varying light quality using light emitting diodes (leds)
publisher McGill University
publishDate 2014
url http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=121207
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