[1] Cui J (崔 瑾), Xu Z-G (徐志刚), Di X-R (邸秀茹). Applications and prospects of light emitting diode in plant protected culture. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2008, 24(8): 249-253 (in Chinese)
[2] Li Q, Kubota C. Effects of supplemental light quality on growth and phytochemicals of baby leaf lettuce. Environmental and Experimental Botany, 2009, 67: 59-64
[3] Bantisa F, Ouzounisb T, Radoglou K. Artificial LED lighting enhances growth characteristics and total pheno-lic content of Ocimum basilicum, but variably affects transplant success. Scientia Horticulturae, 2016, 198: 277-283
[4] Liu Q (刘 庆), Lian H-F (连海峰), Liu S-Q (刘世琦), et al. Effects of different LED light qualities on photosynthetic characteristics, fruit production and qua-lity of strawberry. Chinese Journal of Applied Ecology (应用生态学报), 2015, 26(6): 1743-1750 (in Chinese)
[5] Cao G (曹 刚), Zhang G-B (张国斌), Yu J-H (郁继华), et al. Effects of different LED light qualities on cucumber seedling growth and chlorophyll fluorescence parameters. Scientia Agricultura Sinica (中国农业科学), 2013, 46(6): 1297-1304 (in Chinese)
[6] Yan M-M (闫萌萌), Wang M-L (王铭伦), Wang H-B (王洪波), et al. Effects of light quality on photosynthetic pigment contents and photosynthetic characteristics of peanut seedling leaves. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(2): 483-487 (in Chinese)
[7] Guo Y-S (郭银生), Gu A-S (谷艾素), Cui J (崔瑾). Effects of light quality on rice seedlings growth and physiological characteristics. Chinese Journal of Applied Ecology (应用生态学报), 2011, 22(6): 1485-1492 (in Chinese)
[8] Zhang L-W (张立伟), Liu S-Q (刘世琦), Zhang Z-K (张自坤), et al. Effects of light qualities on the nutritive quality of radish sprouts. Acta Nutrimenta Sinica (营养学报), 2010, 32(4): 390-392 (in Chinese)
[9] Pu G-B (蒲高斌), Liu S-Q (刘世琦), Liu L (刘磊), et al. Effects of different light quality on growth and physiological characteristics of tomato seedlings. Acta Horticulturae Sinica (园艺学报), 2005, 32(3): 420-425 (in Chinese)
[10] Hernandez R, Kubota C. Physiological responses of cucumber seedlings under different blue and red photon flux ratios using LEDs. Environmental and Experimental Botany, 2016, 121: 66-74
[11] Lin KH, Huang MY, Huang WD, et al. The effects of red, blue, and white light-emitting diodes on the growth, development, and edible quality of hydroponically grown lettuce (Lactuca sativa L. var. capitata). Scientia Horticulturae, 2013, 150: 86-91
[12] Tang X-M (唐秀梅), Zhong R-C (钟瑞春), Jie H-K (揭红科), et al. Effect of interplanting peanut on metabolites and key enzyme activities of carbon-nitrogen metabolism of cassava. Chinese Agricultural Science Bulletin (中国农学通报), 2011, 27(3): 94-98 (in Chinese)
[13] Sun N (孙 娜), Wei M (魏 珉), Li Y (李 岩), et al. Effects of light quality on carbon and nitrogen metabolism and enzyme activities in tomato seedlings. Acta Horticulturae Sinica (园艺学报), 2016, 43(1): 80-88 (in Chinese)
[14] Ning Y (宁 宇), Deng H-H (邓惠惠), Li Q-M (李清明), et al. Effects of red and blue light quality on the metabolites and key enzyme activities of carbon-nitrogen metabolism in celery. Plant Physiology Journal (植物生理学报), 2015, 51(1): 112-118 (in Chinese)
[15] Gao J-F (高俊凤). Guide to Physiological Experiment of Plant. Beijing: Higher Education Press, 2006 (in Chinese)
[16] Xue Y-L (薛应龙). Experimental Manual of Plant Physiology. Shanghai: Shanghai Science and Technology Press, 1985 (in Chinese)
[17] Bao S-D (鲍士旦). Soil Agricultural Chemistry Analysis. Beijing: China Agriculture Press, 2000 (in Chinese)
[18] Wang X-K (王学奎). Principles and Techniques of Plant Physiological Biochemical Experiment. Beijing: Higher Education Press, 2006 (in Chinese)
[19] Wang X-C (王小纯), Xiong S-P (熊淑萍), Ma X-M (马新明), et al. Effects of different nitrogen forms on key enzyme activity involved in nitrogen metabolism and grain protein content in speciality wheat cultivars. Acta Ecologica Sinica (生态学报), 2005, 25(4): 802-807 (in Chinese)
[20] Liu S-Y (刘淑云), Dong S-T (董树亭), Zhao B-Q (赵秉强), et al. Effects of long-term fertilization on activities of key enzymes related to nitrogen metabolism (ENM) of maize leaf. Acta Agronomica Sinica (作物学报), 2007, 33(2): 278-283 (in Chinese)
[21] Li H-S (李合生). Plant Physiological and Biochemical Principles and Experimental Technique. Beijing: Higher Education Press, 2000 (in Chinese)
[22] Shi H-Z (史宏志), Han J-F (韩锦峰). Discussion of several carbon and nitrogen metabolism of flue-cured tobacco. Tobacco Science & Technology (烟草科技), 1998(2): 34-36 (in Chinese)
[23] Shi H-Z (史宏志), Han J-F (韩锦峰),Guan C-Y (官春云), et al. Effects of red and blue light proportion on leaf growth, carbon-nitrogen metabolism and quality in tobacco. Acta Agronomica Sinica (作物学报), 1999, 25(2): 215-220 (in Chinese)
[24] Li S-S (李韶山), Pan R-C (潘瑞炽). Blue light effects in plants. Plant Physiology Communications (植物生理学通讯), 1993, 29(4): 248-252 (in Chinese)
[25] Xiao C-S (肖春生), Chen Y (陈 颐), Zhong Y-F (钟越峰), et al. The effect on different proportion of red blue light to growth and carbon and nitrogen metabolism of the tobacco seedling. Chinese Agricultural Science Bulletin (中国农学通报), 2013, 29(22): 160-166 (in Chinese)
[26] Sb A, Krekling T, Appelgren M. Light quality affects photosynthesis and leaf anatomy of birch plantlets in vitro. Plant Cell, Tissue and Organ Culture, 1995, 41: 177-185
[27] Zhang H (张 欢), Xu Z-G (徐志刚), Cui J (崔瑾), et al. Effects of light quality on the growth and chloroplast ultrastructure of tomato and lettuce seedlings. Chinese Journal of Applied Ecology (应用生态学报), 2010, 21(4): 959-965 (in Chinese)
[28] Brown CS, Schuerger AC, Sager JC. Growth and photomorphogenesis of pepper plants under red light-emitting diodes with supplemental blue or far-red lighting. Journal of the American Society for Horticultural Science, 1995, 120: 808-813
[29] Deng J-M (邓江明), Cai Q-Y (蔡群英), Pan R-C (潘瑞炽). Effect of light quality on the contents of protein and free amino acids in rice seedlings. Chinese Bulletin of Botany (植物学通报), 2000, 17(5): 419-423 (in Chinese) |