[1] YANG Huixia, TONG Yiping, WANG Daowen. Latest advances in understanding the molecular genetic mechanism of low phosphate responses in Arabidopsis thaliana［J］. Chinese Bulletin of Botany, 2007, 24(6): 726-734.

[2] HINSINGER P. Bioavailability of soil inorganic P in the rhizosphere as affected by root-induced chemical changes:a review［J］. Plant and Soil, 2001, 237(2): 173-195.

[3] RICHARDSON, ALAN E. Regulating the phosphorus nutrition of plants:molecular biology meeting agronomic needs［J］. Plant and Soil, 2009, 322(1/2): 17-24.

[4] VANCE C. Phosphorus acquisition and use:critical adaptations by plants securing a nonrenewable resource［J］. New Phytologist, 2003, 157(3): 423-477.

[5] HUSTED S, LAURSEN K H, HEBBERN C A, et al. Manganese deficiency leads to genotype-specific changes in fluorescence induction kinetics and state transitions［J］. Plant Physiology, 2009, 150(2): 825-833.

[6] MACDONALD G K, BENNETT E M, POTTER P A, et al. Agronomic phosphorus imbalances across the world’s croplands［J］. Proceedings of the National Academy of Sciences of the United States of America, 2011, 108(7): 3086-3091.

[7] RUAN W Y, GUO M N, XU L, et al. An SPX-RLI1 module regulates leaf inclination in response to phosphate availability in rice ［J］. The Plant Cell, 2018, 30(4): 853-870.

[8] XU L, ZHAO H Y, WAN R J, et al. Identification of vacuolar phosphate efflux transporters in land plants［J］. Nature Plants, 2019, 5(1): 84-94.

[9] LIU J L, YANG L, LUAN M D, et al. A vacuolar phosphate transporter essential for phosphate homeostasis in Arabidopsis［J］. Proceedings of the National Academy of Sciences of the United States of America, 2015, 112(47): 6571-6578.

[10] DIAO Xianmin. Chinese industry and technical system of foxtail millet［M］. Beijing:China Agricultural Sciences and Technology Press, 2011.

[11] YUAN Yichuan, CHEN Xiaoyu, LI Mingming, et al. Screening of germplasm tolerant to low phosphorus of seedling stage and response of root protective enzymes to low phosphorus in foxtail millet［J］. Acta Agronomica Sinica, 2019, 45(4): 601-612.

[12] CHEN Junyi, CAI Yilin, XU Delin, et al. Maize genotype differences in phosphorus efficiency and relative biological characteristics and regression modeling analysis［J］. Journal of Plant Nutrition and Fertilizers, 2007, 13(6): 1068-1073.

[13] MA Jianhua, WANG Yuguo, SUN Yi, et al. Effects of low phosphorous stress on the morphologies and physiological indices of different sorghum cultivars at seedling stage［J］. Journal of Plant Nutrition and Fertilizers, 2013, 19(5): 1083-1091.

[14] LIU Tao, CHEN Haiying, YU Haiying, et al. Characterization of phosphorus utilization in barley leaf under low phosphorus stress［J］. Chinese Bulletin of Botany, 2016, 51(4):504-514.

[15] YIN Yuanping, ZHANG Yaqiong, SHEN Yuhan, et al. Screening of soybean genotype with high phosphorus efficiency using root morphology and architecture［J］. Molecular Plant Breeding, 2015, 13(5): 999-1008.

[16] WANG Xueqing, RUAN Wenyuan, YI Keke. The advances of P status determination in plants［J］. Plant Physiology Journal, 2016, 52(9): 1327-1332.

[17] CHEN Wei. Improvement of determining total phosphorus by colormetry［J］. Shanxi Chemical Industry, 2003, 23(1): 18-19, 36.

[18] LI Huijuan. Comparative study on determination of phosphorus content in two kinds of plants［J］. Modern Agricultural Technology, 2012, 577(11): 16-17.

[19] LU Chao. Comparative study on two methods for determination of total phosphorus in wetland plants［J］. Acta Agriculturae Jiangxi, 2009, 21(8): 142-144.

[20] TANG Qiming, FENG Mingguang. Practical statistical analysis and data processing system［M］. Beijing:Science Press, 2002.

[21] CAI Baiyan, GE Jingping, ZU Wei. Effect of phosphorus levels on soybean phosphorus nutrition, yield and quality［J］. Journal of Plant Nutrition and Fertilizers, 2007, 13(3): 404-410.

[22] FENG Erjing, GUO Rongfa. Evaluation on the low phosphorus endurance of different sweet waxy maize genotypes［J］. Chinese Journal of Tropical Agriculture, 2014, 34(2): 12-17, 26.

[23] MIAO Xuexue, GONG Haoru, TAO Shuhua, et al. Microwave digestion combined with molybdenum antimony resistance spectrophotometric method for the determination of total phosphorus in vegetables［J］. China Measurement & Test, 2017, 43(12): 45-49.

[24] WANG Yuxin, YANG Shukun. Determination of phosphorus in food bymolybdenum-antimony anti-colorimetric method［J］. Chinese Journal of Public Health, 2005, 21(5): 611.