[1] 孙本喆, 郭新平, 曾苏明, 等. 我国玉米生产现状及发展对策[J]. 玉米学, 2003, S2:32-33. [2] 石德权, 郭庆法, 汪黎明等. 我国玉米品质现状、问题及发展优质食用玉米对策[J]. 玉米科学, 2001, 9(2):3-7. [3] 荣良燕, 姚拓, 黄高宝, 等. 植物根际优良促生菌(PGPR)筛选及其接种剂部分替代化肥对玉米生长影响研究[J]. 干旱地区农业研究, 2013, 31(2):59-65. [4] Prasad R, Kumar M, Varma A. Role of PGPR in Soil Fertility and Plant Health[M]// Plant-Growth-Promoting Rhizobacteria(PGPR)and Medicinal Plants. Springer International Publishing, 2015:247-260. [5] Zhou T, Yang Y, Jin Y. Study on preparation of chelated micro-fertilizer by oxidation of enzymatic hydrolysis residues of corn stalk[J]. Journal of Cellulose Science and Technology, 2012, 20 (1): 16-25. [6] 张瑞福, 颜春荣, 张楠, 等. 微生物肥料研究及其在耕地质量提升中的应用前景[J]. 中国农业科技导报, 2013, 5:8-16. [7] Adesemoye AO, Torbert HA, Kloepper JW. Plant growth-promoting rhizobacteria allow reduced application rates of chemical fertilizers. [J]. Microbial Ecology, 2009, 58(4):921-929. [8] Adesemoye AO, Torbert HA, Kloepper JW. Increased plant uptake of nitrogen from 15 N-depleted fertilizer using plant growth-promoting rhizobacteria[J]. Applied Soil Ecology, 2010, 46(1):54-58. [9] Kloepper JW, Schroth MN. Plant growth-promoting rhizobacteria on radishes[C]. Proceedings of the 4th international conference on plant pathogenic bacteria, 1978, 2:879-882. [10] 王素英, 陶光灿, 谢光辉, 等. 我国微生物肥料的应用研究进展[J]. 中国农业大学学报, 2003, 8(1):14-18. [11] 鲍士旦. 土壤农化分析[M]. 第3版. 北京:中国农业出版社, 2000. [12] 廖婷婷, 翟磊, 高成华, 等. 一株产甘露聚糖酶菌株的分离鉴定及酶的纯化与性质[J]. 微生物学报, 2011, 51(11):1520-1526. [13] Libbert E, Risch H. Interactions between plants and epiphytic bacteria regarding their auxin metabolism. V. Isolation and identification of the IAA-producing and destroying bacteria from pea plants[J]. Physiol Plantarum, 1969, 22:51-58. [14] Glickmann E, Dessaux Y. A critical examination of the specificity of the salkowski reagent for indolic compounds produced by phytopathogenic bacteria[J]. Applied & Environmental Microbiology, 1995, 61(2):793-796. [15] 王补全. 玉米根际促生菌的开发研究[D]. 太原:山西大学, 2010. [16] 东秀珠, 蔡妙英. 常见细菌系统鉴定手册[M]. 北京:科学出版社, 2001. [17] R·E·布坎南, N·E·吉本斯. 伯杰细菌鉴定手册[M]. 北京:科学出版社, 1984. [18] 夏北成. 分子生物学方法在微生物生态学中的应用[J]. 中山大学学报:自然科学版, 1998, 2:98-102. [19] Abed ZA, Abed RT. Determining genetic distance by RAPD-PCR of maize inbred lines produced by reciprocal recurrent selection[J]. Journal of Agricultural Technology, 2013, 9(7):1799-1807. [20] 陈中义, 张杰, 黄大昉, 等. 植物病害生防芽孢杆菌抗菌机制与遗传改良研究[J]. 植物病理学报, 2003, 33(2):97-103. [21] Adesemoye A, Torbert H, Kloepper J. Enhanced plant nutrient use efficiency with PGPR and AMF in an integrated nutrient management system[J]. Canadian Journal of Microbiology, 2008, 54(10):876-886. [22] Nosheen A, Bano A. Potential of plant growth promoting rhizobacteria and chemical fertilizers on soil enzymes and plant growth[J]. Pakistan Journal of Botany, 2014, 46(46):1521-1530. [23] Habibi S, Djedidi S, Prongjunthuek K, et al. Physiological and genetic characterization of rice nitrogen fixer PGPR isolated from rhizosphere soils of different crops[J]. Plant & Soil, 2014, 379:1-16. [24] Shrestha A, Kim BS, Park DH. Biological control of bacterial spot disease and plant growth-promoting effects of lactic acid bacteria on pepper[J]. Biocontrol Science & Technology, 2014, 24(7):763-779. [25] Yadav J, Verma JP. Effect of seed inoculation with indigenous Rhizobium and plant growth promoting rhizobacteria on nutrients uptake and yields of chickpea(Cicer arietinum L. )[J]. European Journal of Soil Biology, 2014, 63(4):70-77. [26] 赵青云, 赵秋芳, 王辉, 等. 根际促生菌Bacillus subtilisY-IVI在香草兰上的应用效果研究[J]. 植物营养与肥料学报, 2015, 21(2):535-540. [27] Yin X, McClure MA, Jaja N, et al. In-season prediction of corn yield using plant height under major production systems[J]. Agronomy Journal, 2011, 103(3):923-929. [28] Eleanor E, Campbell, Jane MF, et al. Assessing the soil carbon, biomass production, and nitrous oxide emission impact of corn stover management for bioenergy feedstock production using DAYCENT[J]. Bioenergy Research, 2014, 7(2):491-502. [29] Umesh MR, Manjunatha N, Shankar MA, et al. Influence of nutrient supply levels on yield, nutrient uptake, grain quality and economics of corn(Zea mays L. )in Alfisols of Karnataka[J]. Indian Journal of Dryland Agricultural Research and Development, 2014, 29(1):73-78. [30] Radhakrishnan R, Shim KB, Lee BW, et al. IAA-producing Penicillium sp. NICS01 triggers plant growth and suppresses Fusarium sp. -induced oxidative stress in sesame(Sesamum indicum L. )[J]. J Microbiol Biotechnol, 2013, 23:856-863. [31] Li G, Yang FT, Jiang XL, et al. Effects of plow pan on SPAD value and chloroplast ultrastructure in leaves of spring maize[J]. Phyton(Buenos Aires), 2013, 82:243-247. [32] 童淑媛, 宋凤斌, 徐洪文. 玉米不同叶位叶片SPAD值的变化及其与生物量的相关性[J]. 核农学报, 2008, 6:869-874. |