Effect of Landscape Lighting on Photosynthetic Indices of Photinia Serrulata

doi:10.11908/j.issn.0253-374x.2018.07.013

Home > Archive>Volume 46, Issue 07, 2018 >0951-0955. DOI:10.11908/j.issn.0253-374x.2018.07.013

Effect of Landscape Lighting on Photosynthetic Indices of Photinia Serrulata
DOI:
                        10.11908/j.issn.0253-374x.2018.07.013
                    
CSTR:
                        [cstr]
                    
Author:
                        DUAN RanDUAN Ran
Faculty of Arts, Chongqing Technology and Business University, Chongqing 400067, China; School of architecture and urban planning, Chongqing University, Chongqing 4000030, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site
YANG ChunyuYANG Chunyu
School of architecture and urban planning, Chongqing University, Chongqing 4000030, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site
SU JiafuSU Jiafu
Chonqing Key Lab of Electronic Commerce & Supply Chain System,Chongqing Technology and Business University, Chonqing 400067, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site

                    
Affiliation:
Clc Number:TU113.1
Fund Project:

Article

Figures

Metrics

Reference [20]

Related [20]

Cited by

Materials

Comments

Abstract:

To clarify the impacts of artificial light spectrum and illumination intensity on the photosynthetic indices of landscaping plants, spectral irradiation experiments were conducted on Photinia serrulata at three light intensities with five different light emitting diode(LED) light emitting cliode. Analysis of the relationship of artificial light spectrum，light intensity，the net photosynthetic rate and photosynthetic active radiation. Results showed that: At the same light intensity, photosynthetically active radiation of plant was the highest under sunlight, which was far higher than that under the LED light sources. Under LED lights, net photosynthetic rate of Photinia serrulata rose with enhancing light intensity. Under green LED light (530 nm), photosynthetically active radiation of plant increased with enhancing light intensity. However, net photosynthetic rate remained negative all along.

Key words:lighting; light emitting diode (LED）; spectral energy distribution; light intensity

Reference

[1]Kendrick RE, Kronenborg GHM, editors.Photomorphogenesis in Plants,[M]2nd Edition.Dordrecht, Netherlands: Kluwer Academic Publishers, 1986.

[2] Fukuda, N., Fujitan, M., Ohta, Y., Sase, S., Nishimura, S., Ezura, H..Directional blue light irradiation triggers epidermal cell elongation of abaxial side resulting in inhibition of leaf epinasty in geranium under red light condition[J]. HORTSCIENCE,2008,115,176–182.

[3] Franklin, K.A., Quail, P.H.. Phytochrome functions in Arabidopsis development[J]. Journal Of Experimental Botany, 2010,61, 11–24.

[4] Haliapas, S., Yupsanis, T.A., Syros, T.D., Kofidis, G., Economou, A.S.. Petunia×hybrida during transition to flowering as affected by light intensity and quality treatments[J]. Acta Physiol plant , 2008,30, 807–815.

[5] Strasser, B., Sánchez-Lamas, M., Yanovsky, M.J., Casal, J.J., Cerdán, P.D.. Arabidopsis thaliana life without phytochromes[J]. Proceedings of the National Academy of Sciences,2010,107, 4776–4781.

[6] Cashmore AR, Jarillo JA, Wu YJ, Liu D. Cryptochromes: blue light receptors for plants and animals[J].Science,1999; 284: 760–765.

[7] Plant Factory Laboratory. Light source for plant cultivation. Retrieved 20 March 2012,from http://www.sasrc.jp/kougen.htm [in Japanese].

[8] Matsuda R, Ohashi-Kaneko K, Fujiwara K.,et al. Photosynthetic characteristics of rice leaves grown under red light with or without supplemental blue light[J]. Plant Cell Physiology,2004,45: 1870–1874.

[9] Miyashita Y, Kitaya Y, Kozai T. Effects of red and far-red light on the growth and morphology plantlets in vitro: using light emitting diode as a light source for micropropagation[J].Acta Horticulturae,1995, 393: 189–194.

[10] Kowallik W. Blue light effccts on carbohydrate and protein metabolism[J]. Phenomena and Occurrence in Plants and Microorganisms, 1987, 1: 7—16

[11] Zarco-Tejada PJ, Pushnik JC, Dobrowski S,et al. Steady-state chlorophyll a fluorescencedetection from canopy derivativereflectance and double-peak red-edge effects[J].Remote Sensing of Environment,2003, 8:283–294.

[12]Reimund Goss,Gyozo Garab.Non_photochemical chlorophyll fluorescence quenching and structural rearrangements induced by low pH in intact cells of Chlorella fusca (Chlorophyceae) and Mantoniellasquamata(Prasinophyceae)[J].Photosynthesis research, 2001,67(3):185-197.

[13] Lavoie D,Denman K, Michel C. Modeling ice algal growth and decline in a seasonally ice-covered region of the Arctic(Resolute Passage,Canadian Archipelago)[J].Journal of Geophysical Research,2005,110(110):497-510.

[14] Sun-Ja Kim, Eun-Joo Hahn, Jeong-Wook Heo, Kee-Yoeup Paek. Effects of LEDs on net photosynthetic rate, growth and leaf stomata of chrysanthemum plantlets in vitro[J]. Scientia Horticulturae,2004,(101) 143–151.

[15] P Pinho, K Jokinen, and L Halonen. The influence of the LED light spectrum on the growth and nutrient uptake of hydroponically grown lettuce[J].Lighting Research and technology,2016,0:1-16.

[16] Olle M, Vir?ile A. The effects of light-emitting diode lighting on greenhouse plant growth and quality[J]. Agricultural and Food Science,2013,22: 223–234.

[17] Tennessen,D.J.,E.L.singrass,and T.D.Sharkey.1994a. Light emitting diodes as a light sourse for photosynthesis Research.Photosynthesis Research(In Press).

[18] Katherinem A,.Lkatherine K.Growth and photosynthetic responses of the federally endangered shrub, Lindera melissifolia (Lauraceae), to varied light environments. American Journal of Botany,2005,92(4): 682–9..

[19] Urbonavicˇiute A., Pinho, P.,Samuoliene?, G.. Effect of short-wavelengthlight on lettuce growth and nutritional quality[J].Sodininkyste? Ir Darz?ininkyste?,2007, 26(1):157-165

[20] Okamoto K, Yanagi T, Takita S. Developmentof plant growth apparatus using blue and red LED as artificial light source[J]. ActaHorticulturae,1996, 440: 111–116.

Get Citation

DUAN Ran, YANG Chunyu, SU Jiafu. Effect of Landscape Lighting on Photosynthetic Indices of Photinia Serrulata[J].同济大学学报(自然科学版),2018,46(07):0951~0955

Copy

Article Metrics

Abstract:953
PDF: 778
HTML: 815
Cited by: 0

History

Received:November 30,2016
Revised:May 21,2018
Adopted:May 14,2018
Online: August 08,2018
Published:

Get Citation

Related Videos

Share

Article Metrics

History

Article QR Code