[1] XI Gang, LIU Kai, ZHANG Xiao-hui, et al. Dynamic analysis of ultra-weak photon radiation of soybean callus induced by UV-B radiation［J］. Acta Photonica Sinica, 2010, 39(8): 1449-1454.

[2] MANSFIELD J W. Biophoton distress flares signal the on set of the hypersensitive reaction［J］. Trends Plant Sci, 2005, 10(7): 307-309.

[3] YOON Y Z, KIM J, LEE B C, et al. Changes in ultraweak photon emission and heart rate variability of epinephrine-injected rats［J］. Gen Physiol Biophys, 2005, 24(2): 147-159.

[4] YOSHINAGA N, KATO K, KAGEYAMA C, et al. Ultraweak photon emission from herbivory-injured maize plants［J］. Natur Wissenschaften, 2006, 93(1): 38-41.ZHANG Ling-rui, XING Da, WANG Jun-sheng, et al. Light-induced fluorescence as an indicator for the effects of salt stress on plant physiology［J］. Acta Photonica Sinica,2007, 36(12): 2284-2289.

[5] YU Y, POPP F A, SIBYLLE S. Further analysis of delayed luminescence of plants［J］. Photochemistry and Photobiology B:Biology, 2005, 78(3): 235-244.

[6] HIDEHIRO I, TOSHIYUKI I, WANG G X, et al. Spontaneous ultraweak photon emission from rice (Oryza sativa L) and paddy weeds treated with a sulfonylurea herbicide［J］. Pesticide Biochemistry and Physiology, 2007, 89(2):158-162.

[7] XI Gang, LU Hong, YAN Yi, et al. Changes of isoflavones and ultra weak photoemission of soybean callus induced by UV-B radiation［J］. Acta Photonica Sinica,2009, 38(10): 2640-2644.

[8] LI Shao-shan, WANG Yan, GUO Zhou-yi, et al. Ultraweak photon emission from germination peanut seeds［J］. Acta Photonica Sinica, 2000, 29(11)：966-969.

[9] ZHANG Ju-ping, ZHANG Xing-zhi, GONG Zhen-hui. Appilcation of ultraweak bioluminescence in vegetable research［J］.Chinese Agricultural Science Bulletin, 2006, 22(1)：220-222.

[10] CHEN Wen-li, XING Da, HE Yong-hong. Determination the vigor of rice seed with different degrees of aging with ultraweak chemiluminescence during early imbibition［J］. Acta Botanica Sinica, 2002, 44(11):1376-1379.

[11] WU Pu-te, FENG Hao, NIU Wen-quan, et al. Technical trend and R&D focus of modern water-saving agriculture［J］. Engineering Sciences, 2007, 9(2)：12-18.

[12] LEVITT J. Response of plants to environmental stresses. Water, radiation, salt and other stresses［M］. New York: Academic Press, 1980: 325-358.

[13] WANG W, VINOCUR B, ALTMAN A. Plant responses to drought, salinity and extreme temperatures: towards genetic engineering for stress tolerance［J］. Planta, 2003, 218(1): 1-14.

[14] FAN T L, BALTA M, RUDD J, et al. Canopy temperature depression as a potential seletion criterion for drought resistance in wheat［J］. Agricultural Sciences in China, 2005, 4(10): 793-800.

[15] SUBRAHMANYAM D, SUBASH N, HARIS A, et al. Influence of water stress on leaf photosynthetic characteristics in wheat cultivars differing in their susceptibility to drought［J］. Photosynthetica, 2006, 44(1): 125-129.

[16] CHEN Zhao-bo. Resear advance and developwent trends of water use effciency in plant biology［J］. Scientia Agricultura Sinica, 2007, 40(7): 1456-1462.

[17] NIU Ben-han, YUAN Xiao-cong, QU Jun-le, et al. The life phenomenon of cell analysis and study of means and optical methods［J］. Science China G, 2007, 37(s1): 21-29.

[18] ZHANG Xin-hua, LI Fu-jun, SHEN Lin, et al. Application of ultraweak luminescence technique in research of plant physiology［J］. Plant Physiology Communications, 2009, 45(9)：931-935.

[20] CALDWELL M M, FLINT S D, SEARLES P S. Spectral balance and UV-B sensitivity of soybean: a field experiment ［J］. Plant Cell & Environment, 1994, 17(3): 267-276.

[21] POPP F A, ZHANG J Z. Mechanism of interaction between electromagnetic fields and living organisms［J］. Science in China(Series C), 2000, 43(5): 507-518.

[22] XI Gang, LU Hong, LI Shao-hua. Changes of biophoton emission of plant leaf induced by H2O2 and its significance［J］. Acta Photonica Sinica, 2009, 38(10): 3250-3254.

[23] TANG Pei-song, XIAO Jing-ping. Certain modes of control of life process operation by respiratory metabolism in plant cells［J］. Journal of Integrative Plant Biology, 1991, 33(10): 729-737.