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

[2] CHEN Zhao-bo. Research advance and development trends of water use efficiency in plant biology［J］. Scientia Agricultura Sinica, 2007, 40(7): 1456-1462.

[3] SUN Cai-xia, WU Zhi-jie, ZHANG Zhen-ping, et al. System analysis of drought resistance identification parameters in maize［J］. System Sciences and Comprehensive Studies in Agriculture, 2004, 20(1): 43-47.

[4] ZHOU Wei, HOU Jian-hua, GAO Zhi-jun. Selection of the drought resistance indexes in maize seedling emergence stage［J］. Journal of Maize Sciences, 2008, 16(5): 66 -69.

[5] SUN Jun-wei, JI Tian-hui, YANG Zi-guang, et al. Study on identification of the drought resistant in maize seedling emergence stage［J］. Chinese Agricultural Science Bulletin, 2009, 25(3): 104-107.

[6] ZHAO Mei-ling. Studies on identification indices for drought resistance in different growing periods of corn［J］. Chinese Agricultural Science Bulletin, 2009, 25(12): 66-68.

[7] LENG Yi-feng, ZHANG Biao, ZHAO Jiu-ran, et al. Identification of drought resistance of transgenic maize during seed germination stage［J］. Agricultural Research in the Arid Areas, 2013, 31(1): 177-182.

[8] ZHANG Can-jun, JI Tian-hui, YANG Zi-guang, et al. Study on resistance drought identify method and evaluation index of wheat I, identify method and evaluation index［J］. Chinese Agricultural Science Bulletin, 2007, 23(9): 226-230.

[9] 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.

[10] SHAN Lun. Development trend of dry land farming technologies［J］. Scientia Agricultura Sinica, 2002, 35(7): 848- 855.

[11] XI Gang, ZHANG Zhen-ying. Using physics to study plant resistance to adversity［J］. Physics, 1997, 26(3): 162-166.

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

[13] BURKE J J. Evaluation of source leaf responses to water-deficit stresses in cotton using a novel stress bioassay［J］. Plant Physiology, 2007, 143(1): 108-121.

[14] BURKE J J, FRANKS C D, BUROW G, et al. Selection system for the stay-green drought tolerance trait in sorghum germplasm［J］. Agronomy Journal, 2010, 102(4): 1118-1122.

[15] MAO Da-zhang, SHEN Xun, ZHANG Yue-jing, et al. Effects of metabolic inhibitors on the ultraweak photon emission from germinating mung bean seeds［J］. Acta Biophysica Sinica, 1988, 4(2): 116-120.

[16] MANSFIELD J W. Biophoton distress flares signal the onset of the hypersensitive reaction ［J］. Trends in Plant Science, 2005, 10(7): 307-309.

[17] YOON Y Z, KIM J, LEE B C. Changes in ultraweak photon emission and heart rate variability of epinephrine-injected rats［J］. General Physiology Biophysics, 2005, 24(2): 147-159.

[18] YOSHINAGA N, KATO K, KAGEYAMA C. Ultraweak photon emission from herbivory-injured maize plants［J］. Naturwissenschaften, 2006, 93(1): 38-41.

[19] 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.

[20] WANG Pei-hong, LV Jin-yin. Preliminary study of drought resistance identification for wheat varieties using ultraweak bioluminescence［J］. Progress in Biochemistry and Biophysics, 1990, 17(5): 399-400.

[21] YANG Qi-jian. A study of relations between superweak luminescence of several plants under germination and its ability of resistance to the unfavorable conditions［J］. Progress in Biochemistry and Biophysics, 1993, 20(4): 315-317.

[22] LI Shao-hua, XI Gang, FAN Lin-lin, et al. Changes of ultra-weak photon emission of wheat seed during germination and its significance under osmotic stress［J］. Acta Photonica Sinica, 2011, 40(2): 282-288.

[23] MICHEL B E, KAUFMANN M R. The osmotic potential of polyethylene glycol 6000［J］. Plant Physiology, 1973, 51(5): 914-916.

[24] BOUSLAMA M, SCHAPAUGH W T. Stress tolerance in soybeans. Ⅱ Evaluation of three screening techniques for heat and drought tolerance ［J］. Crop Science, 1984, 24(5): 933- 937.