[1] Chinese Pharmacopoeia Commission (国家药典委员会). Chinese Pharmacopoeia. Volume 1. Beijing: Chemi-cal Industry Press, 2015 (in Chinese) [2] Fu X-Y (傅旭阳), Tian J-M (田均勉). Chemical constituents from Dianthus superbus. Chinese Traditional and Herbal Drugs (中草药), 2015, 46(5): 645-648 (in Chinese) [3] Zhang P (张 频), Lian F-Q (连芳青), Zhu M-Y (朱美英), et al. Choice of pollution-resistant garden plants. Acta Agriculturae Universitatis Jianxiensis (江西农业大学学报), 2004 , 26(6): 941-943 (in Chinese) [4] Zhou Y-Z (周妍姿), Wang J (王 钧), Zeng H (曾辉), et al. Spetial characteristics of soil heavy metal pollution in Inner Monglia. Ecology and Environmental Sciences (生态环境学报), 2015, 24(8): 1381-1387 (in Chinese) [5] Guo H-Q (郭海全), Yang Z-H (杨志宏), Li H-L (李宏亮), et al. Environmental quality and anthropogenic pollution assessment of heavy metals in topsoil of Hebei Plain. Geology in China (中国地质), 2011, 38(1): 218-225 (in Chinese) [6] Cheng X-W (程新伟). Research progress of lead pollution on soils. Dround Water (地下水), 2011, 33(1): 65-68 (in Chinese) [7] Wang X-F (王学锋), Luo X-D (罗晓东), Pi Y-Q (皮运清). Influence of EDTA on chlorophyll in Pb, Cd and Pb-Cd compound polluted Chrysanthemum coronarium. Environmental Science & Technology (环境科学与技术), 2011, 34(1): 52-55 (in Chinese) [8] Gao W-Q (高文谦), Chen Y-F (陈玉福). Research progress and development trend of remediation of lead-contaminated soil. Nonferrous Metals (有色金属). 2011, 63(1): 131-136 (in Chinese) [9] Fan T (樊 霆), Ye W-L (叶文玲), Chen H-Y (陈海燕), et al. Review on contamination and remediation technology of heavy metal in agricultural soil. Ecology and Environmental Sciences (生态环境学报), 2013, 22(10): 1727-1736 (in Chinese) [10] Luo Q-Y (罗巧玉), Wang X-J (王晓娟), Lin S-S (林双双), et al. Mechanism and application of bioremediation to heavy metal polluted soil using arbuscular mycorrhizal fungi. Acta Ecologica Sinica (生态学报), 2013, 33(13): 3898-3906 (in Chinese) [11] Hildebrandt U, Regvar M, Bothe H. Arbuscular mycorrhiza and heavy metal tolerance. Phytochemistry, 2007, 68: 139-146 [12] Feddermann N, Finlay R, Boller T, et al. Functional diversity in arbuscular mycorrhiza: The role of gene expression, phosphorous nutrition and symbiotic efficiency. Fungal Ecology, 2010, 3: 1-8 [13] Göhre V, Paszkowski U. Contribution of the arbuscular mycorrhizal symbiosis to heavy metal phytoremediation. Planta, 2006, 223: 1115-1122 [14] Ministry of Environmental Protection of the People’s Republic of China (中华人民共和国环境保护部). Environmental Quality Standard for Soils[EB/OL]. (1996-03-01) [2017-01-03]. http://kjs.mep.gov.cn /hjbhbz/bzwb/trhj/trhjzlbz/199603/t19960301_82028.html (in Chinese) [15] Wu QS, He XH, Zou YN, et al. Spatial distribution of glomalin-related soil protein and its relationships with root mycorrhization, soil aggregates, activity of protease and β-glucosidase in the rhizosphere of Citrus unshiu. Soil Biology & Biochemistry, 2012, 45: 181-183 [16] Gao J-F (高俊凤). Plant Physiology Experimental Technology. Xi’an: World Publishing Company, 2000 (in Chinese) [17] He Y-H (何跃华), Du H-Y (杜海燕), Ma Z-P (马志鹏), et al. Determination of the contents of heavy metals in Chinese crude drugs by UV spectrophotometry. Chinese Traditional and Herbal Drugs (中草药), 1998, 29(6): 386-387 (in Chinese) [18] Ministry of Foreign Trade and Economic Co-operation of the People’s Republic of China (中华人民共和国对外贸易经济合作部). Green Trade Standards of Importing & Exporting Medicinal Plants & Preparations [EB/OL]. (2001-07-01) [2017-01-03]. http://ggfg.policy.mofcom.gov.cn/claw/clawContent.shtml?id=9479 (in Chinese) [19] He X-L (贺学礼), Ma L (马 丽), Meng J-J (孟静静), et al. Effects of AM fungi on the groeth and nutrients of Salvia miltiorrhiza Bge. under different soil water and fertilizer conditions. Acta Ecologica Sinica (生态学报), 2012, 132(18): 5721-5728 (in Chinese) [20] He X-L (贺学礼), Liu T (刘 媞), Zhao L-L (赵丽莉). Effects of inoculating AM fungi on physiological characters and nutritional compomemts of Astragalus membranaceus under different N application levels. Chinese Journal of Applied Ecology (应用生态学报), 2009, 20(9): 2118-2122 (in Chinese) [21] Jankong P, Visoottiviseth P. Effects of arbuscular mycorrhizal inoculation on plants growing on arsenic contaminated soil. Chemosphere, 2008, 72: 1092-1097 [22] Guo L-P (郭兰萍), Wang H-G (汪洪刚), Huang L-Q (黄璐琦), et al. Effects of arbuscular mycorrhiza on growth and essential oil of Atractylodes lancea. China Journal of Chinese Material Medica (中国中药杂志), 2006, 31(18): 1491-1496(in Chinese) [23] Duan D-C (段德超), Yu M-G (于明革), Shi J-Y (施积炎). Research advances in uptake, translocation, accumulationand detoxification of Pb in plants. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(1): 287-296 (in Chinese) [24] Bowler C, Montagu MV, Inze D. Superoxide dismutase and stress tolerance. Annual Review of Plant Physiology and Plant Molecular Biology, 1992, 43: 83-116 [25] Sun J (孙 健), Tie B-Q (铁柏清), Qin P-F (秦普丰), et al. The potential of Juncus effuses and Eulaliopsis binate for phytoremediation of lead/zinc mine tailings contaminated soil under the adjustment of EDTA. Research of Environmental Sciences (环境科学研究), 2006, 19(4): 105-110 (in Chinese) [26] Wu Q-L (吴秋玲), Wang W-C (王文初), He S-Y (何闪英). Enhancement of GA3 and EDTA on Lolium perenne to remediate Pb contaminated soil and its detoxification mechanism. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(10): 2999-3005 (in Chinese) [27] Liu J (刘 金), Yin X-Q (殷宪强), Sun H-M (孙慧敏), et al. EDTA and EDDS enhanced remediation of Cd and Pb contaminated soil by Ramie (Boehmeria Nivea). Journal of Agro-Environment Science (农业环境科学学报), 2015, 34(7): 1293-1300 (in Chinese) [28] Gershenzon J, Murtagh GJ, Croteau R. Absence of rapid terpence turnover in several diverse species of terpene-accumulating plants. Oecologia, 1993, 96: 583-592 [29] Barto EK, Cipollini D. Testing the optinal defense theory and the growth-differentiation balance hypothesis in Arabidopsis thaliana. Oecologia, 2005, 146: 169-178 [30] Jia G-L (贾光林), Huang L-F (黄林芳), Suo F-M (索风梅), et al. Correlation between ginsenoside content in Panax ginseng roots and ecological factors, and ecological division of ginseng plantation in China. Chinese Journal of Plant Ecology (植物生态学报), 2012, 36(4): 302-312 (in Chinese) [31] Wang B-L (王碧玲), Xie Z-M (谢正苗), Sun Y-F (孙叶芳), et al. Effects of phosphorus fertilizers on remediation of lead toxicity in a soil contaminated by lead and zinc mining. Acta Scientiae Circumstantiae (环境科学学报), 2005, 25(9): 1189-1194 (in Chinese) [32] Wei S-Q (魏书琴), Song Y-P (宋宇鹏), Zhang H-Z (张焕柱), et al. Effect of different amount of phosphate fertilizer on Aster tataricus yield and content of effective component. Northern Horticulture (北方园艺), 2015(23): 153-155 (in Chinese) [33] Cao X, Wahbi A, Ma L, et al. Immobilization of Zn, Cu, and Pb in contaminated soils using phosphate rock and phosphoric acid. Journal of Hazardous Materials, 2009, 164: 555-564 [34] Mcgowen SL, Basta N, Brown GO. Use of diammonium phosphate to reduce heavy metal solubility and transport in smelter-contaminated soil. Journal of Environmental Quality, 2001, 30: 493-500 [35] Basta NT, Gradwohl R, Snethen KL, et al. Chemical immobilization of lead, zinc, and cadmium in smelter-contaminated soils using biosolids and rock phosphate. Journal of Environmental Quality, 2001, 30: 1222-1230 [36] Brown S, Chaney R, Hallfrisch J, et al. In situ soil treatments to reduce the phyto- and bioavailability of lead, zinc, and cadmium. Journal of Environmental Quality, 2004, 33: 522-531 [37] Braunberger PG, Miller MH, Peterson RL. Effect of phosphorus nutrition on morphological characteristics of vesicular-arbuscular mycorrhizal colonization of maize. New Phytologist, 1991, 119: 107-113 [38] Li J-H (李建恒), Qi J-X (齐俊香), Yang X-Y (杨晓宇), et al. Effect of AM fungi on the growth and medicinal ingredients of Salvia miltiorrhiza Bge under different moisture and phosphorus levels. Acta Agriculturae Boreali-Occidentalis Sinica (西北农业学报), 2016, 25(1): 116-122 (in Chinese) |