A new sunlight simulator for ecological research on plants

doi:10.1016/1011-1344(93)80180-H

Journal of Photochemistry and Photobiology B: Biology

Volume 21, Issues 2–3, December 1993, Pages 175-181

https://doi.org/10.1016/1011-1344(93)80180-H Get rights and content

Abstract

A new sunlight simulator was designed and built which meets the spectral and energetic requirements of experimental ecological plant research. Its radiation is generated by a combination of four commercially available lamp types: metal halide, quartz-halogen, blue and UVB fluorescent lamps. IR radiation is filtered by a layer (20 mm) of circulating water. The plant-damaging, short-wave UV radiation is eliminated by 13 mm of borosilicate glass. The total input power of the system is 40 kW. The net illuminated space for plants is 1.2 m×1.2 m×0.25 m (length×width×height). The geometric arrangement of 184 lamps, located in specially designed aluminium reflectors, and the high reflection coefficient of the aluminium walls result in diffuse incident light.

Irradiances reach more than 1000 W m⁻², but less than 10⁻⁷ W m⁻² below 280 nm; the measured illuminance is 102 klx; the photosynthetically active radiation (PAR, 400–700 nm) is 2200 μmol m⁻² s⁻¹. The spatial homogeneity and the temporal variation of the irradiance are satisfactory. The spectral distribution is much more similar to natural global radiation than any other simulator known. By using highly efficient and commercially available lamp types, the running costs remain low. Hence, for the first time, a simulator in the square metre range has been developed, which provides the irradiance and the temporal, spatial and spectral distribution of global radiation at an economically reasonable scale.

References (24)

I.J. Warrington et al.
Lighting systems in major New Zealand controlled environment facilities
J. Agric. Eng. Res.
(1978)
H.D. Payer et al.
Umweltsimulation für ökotoxikologische Pflanzenexperimente
G. Seckmeyer et al.
Requirements for artificial irradiation of plants in closed chambers. Environmental research with plants in closed chambers
G. Seckmeyer
Spectral measurements of global UV-radiation
Meteorol. Rundsch.
(1989)
A.E. Green
The penetration of ultraviolet radiation to the ground
Physiol. Plant.
(1983)
M. Iqbal
G. Seckmeyer
Bedeutung und Messung der UV-Strahlung für Photobiologie und Photochemie
Projektgruppe Bayern zu Erforschung der Wirking von Umweltschadtsoffen (PBWU) Gesellschaft für Strahlen- und Umweltforschung München
(1988)
Schott
Optiche Glasfilter Katalog
(1989)
K.M. Hartmann et al.
Solar simulation for growth chambers

T.W. Tibbitts et al.

Growth of lettuce, spinach, mustard and wheat plants under four combinations of high-pressure sodium, metal halides, and tungsten halogen lamps at equal PPFD

J. Am. Soc. Hortic. Sci.

(1983)

G. Seckmeyer and I.J. Warrington, unpublished data,...

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¹: Author to whom reprint requests should be addressed at: Fraunhofer Institut für Atmosphärische Umweltforschung, Kreuzeckbahnstr. 19, 82467 Garmisch-Partenkirchen, Germany.

View full text

A new sunlight simulator for ecological research on plants

Abstract

J. Agric. Eng. Res.

Umweltsimulation für ökotoxikologische Pflanzenexperimente

Requirements for artificial irradiation of plants in closed chambers. Environmental research with plants in closed chambers

Spectral measurements of global UV-radiation

Meteorol. Rundsch.

The penetration of ultraviolet radiation to the ground

Physiol. Plant.

Bedeutung und Messung der UV-Strahlung für Photobiologie und Photochemie

Projektgruppe Bayern zu Erforschung der Wirking von Umweltschadtsoffen (PBWU) Gesellschaft für Strahlen- und Umweltforschung München

Optiche Glasfilter Katalog

Solar simulation for growth chambers

Growth of lettuce, spinach, mustard and wheat plants under four combinations of high-pressure sodium, metal halides, and tungsten halogen lamps at equal PPFD

J. Am. Soc. Hortic. Sci.