Ali A, Baggett J R(1990). Inheritance of resistance to head smut disease in corn[J]. Journal of the American Society for Horticultural Science, 115(4): 668- 672.
Bai Y F(2009). Application analysis on the genetic regulation of maize head smut resistance [J]. Journal of Maize Sciences, 17(06): 124-126.
Boer Martin P, Wright Deanne, Feng Lizhi, Podlich Dean W, Luo Lang, Cooper Mark, van Eeuwijk Fred A(2007). A mixed-model quantitative trait loci (QTL) analysis for multiple-environment trial data using environmental covariables for QTL-by-environment interactions, with an example in maize[J]. Genetics,177(3): 1801–1813.
Balint-Kurti P J, Zwonitzer J C (2007). Precise mapping of quantitative trait loci for resistance to southern leaf blight, caused by cochliobolus heterostrophus race O, and flowering time using advanced intercross maize lines [J]. Genetics, 176:645-657.
Belcher A, Zwonitzer J, Cruz J, Krakowsky M, Chung C, Nelson R, Arellano C, Balint-Kurti P. (2012) Analysis of quantitative disease resistance to southern leaf blight and of multiple disease resistance in maize, using near-isogenic lines[J]. Theoretical and Applied Genetics, 124:433-445.
Bernardo R, Bourrier M, Olivier JL (1992). Generation means analysis of resistance to head smut in maize[J]. Agronomie, 12:303-306.
Chen Y S, Chao Q, Tan G Q, Zhao J, Zhang M J, Qing Ji & Mingliang Xu (2008). Identification and fine-mapping of a major QTL conferring resistance against head smut in maize[J]. Theoretical and Applied Genetics, 117: 1241-1252.
Chen D, Ronald P (1999) A rapid DNA mini-preparation method suitable for AFLP and other PCR applications. Plant Molecular Biology Reporter 17:53-57. https://doi.org/10.1023/A:1007585532036.
Edwards M, Stuber C, Wendel J (1987). Molecular-marker-facilitated investigations of quantitative trait loci in maize I. numbers, genomic distribution and types of gene action[J]. Genetics, 116:113-125.
Gao J,Qi X,Yu R H,Wang Y L. (2006). Resistance identification of corn germplasm to Sporisorium reilianum[J]. Journal of Jilin Agricultural University, 28 (2): 142-147.
Guo M K,Liu Y G,Wang X M. (2007). Identification and evaluate of maize inbred lines and populations sporisorium holci-sorghi resistance[J]. Journal of Maize Sciences,15 (5): 30-33.
Gao S R (2005). Inheritance and quantitative trait loci mapping of resistance to head smut caused by sphacelotheca reiliana(kühn) in maize [D]. Jilin University.
Jian K W (2009) Inclusive composite interval mapping of quantitative trait genes[J]. Acta Agronomica Sinica, 35: 239-245.
Jacobs JME, Van Eck HJ, Arens P, B. Verkerk-Bakker. B. te Lintel Hekkert, H. J. M. Bastiaanssen. A. EI-Kharbotly. A. Pereira, E. Jacobsen. W. J. Stiekema(1995). A genetic map of potato (Solanum tuberosum) integrating molecular markers, including transposons, and classical markers[J]. Theoretical and Applied Genetics, 91: 289-300. https://doi.org/10.1007/BF00220891.
Jin Q M, Wang X O, Wang Z Y, Sha H L, Li H, Song S Y (2003). The epidemio logical factors and control tactics of head smut in spring corn area of northeast of China[J]. Journal of Maize Sciences, 11(1): 86 - 87.
Knapp S, Stroup W, Ross W (1985) Exact confidence intervals for heritability on a progeny mean basis1. Crop Science,192-194. https://doi.org/10.2135/cropsci1985.0011183X002500010046x.
Lübberstedt, Xia X C, Tan G, X. Liu A.E. Melchinger (1999). QTL mapping of resistance to Sporisorium reiliana in maize[J]. Theoretical and Applied Genetics, 99(3-4):593-598.
Lu X W,Brewbaker J L (1999). Molecular mapping of QTLs conferring resistance to sphacelotheca reiliana(kühn) clint[J].Maize Genetics Cooperation News letter(MNL) ,73:36.
Li H, Ribaut J-M, Li Z, Wang J (2008). Inclusive composite interval mapping (ICIM) for digenic epistasis of quantitative traits in biparental populations[J]. Theoretical and Applied Genetics, 116: 243-260.
Li H, Ye G, Wang J (2007). A modified algorithm for the improvement of composite interval mapping[J]. Genetics, 175: 361-374.
Liu X H, Tan Z B, Rong T Z (2009). Molecular mapping of a major QTL conferring resistance to SCMV based on immortal RIL population in maize[J]. Euphytica, 167:229-235.
Little CR, Perumal R, Tesso TT, Prom LK, Odvody GN, Magill CW (2012).Sorghum pathology and biotechnology-A fungal disease perspective: part I. Grain mold, head smut, and ergot[J]. European Journal of Plant Science and Biotechnology, 6:10-30.
Meng J, Pei E Q, Song Y C, Shi Y S, Li Y X(2015). Resistant identification of stalk rot and head smut for introduced U. S. GEM germplasm in maize [J]. Journal of plant genetic resources,16(05):1098-1102.
McMullen MD, Jones MW, Simcox KD, Louie R(1994). Three genetic loci control resistance to wheat streak mosaic virus in the maize inbred Pa405[J]. Molecular plant-microbe interactions, 7:708-712.
Ming R, Brewbaker JL, Pratt RC(1997). Molecular mapping of a major gene conferring resistance to maize mosaic virus[J]. Theoretical and Applied Genetics, 95: 271-275.
Melchinger A E, Kuntze L, Gumber RK(1998). Genetic basis of resistance to sugarcane mosaic virus in European maize germplasm. Theoretical and Applied Genetics, 96:1151-1161.
Portwood JL, Woodhouse MR, Cannon EK, Jack M Gardiner, Lisa C Harper, Mary L Schaeffer, Jesse R Walsh, Taner Z Sen, Kyoung Tak Cho, David A Schott Bremen L Braun, Miranda Dietze, Brittney Dunfee, Christine G Elsik, Nancy Manchanda, Ed Coe, Marty Sachs, Philip Stinard, Josh Tolbert, Shane Zimmerman, Carson M Andorf (2019). Maize GDB 2018: the maize multi-genome genetics and genomics database[J]. Nucleic Acids Research, 47(D1): D146-D1154. https://doi.org/10.1093/nar/gky1046.
Peng B, Li Y, Wang Y, Liu C, Liu Z, Tan W, Zhang Y, Wang D, Shi Y, Sun B (2011) QTL analysis for yield components and kernel-related traits in maize across multi-environments. Theoretical and Applied Genetics 122: 1305-1320.
Palloix VA, Moury B(2009). Durability of plant major resistance genes to pathogens depends on the genetic background, experimental evidence and consequences for breeding strategies[J]. New Phytologist, 183:190-199.
Potter (1914). Head smut of sorghum and maize[J]. Agric Res, 2:339-380.
Qian H T, Dong H, Cong B (2007). Molecular mark used in the corn breeding[J]. Journal of Maize Sciences, 15(2): 53-57.
Ren Z Q, Bu H H, Yang H Z, Xiao J H (2014). research advance and control on smut disease in maize [J]. An hui agricultural science, 42 (30): 10564-10566.
Sánchez Pale, J.R(2011). Modelization of the spatial distribution of corn head smut (Sporisorium reilianum Langdon and Fullerton) in Mexico[J]. Spanish Journal of Agricultural Research, 9(3): 882-893.
Song S Y,Sun X H,Guo W G,Liu J R. (2000). Identification for maize germplasms resources resistant to the head smut caused by Sporisorium reilianum[J]. Journal of Jilin Agricultural Sciences,25 (3): 32-33.
Stuber CW, Edwards M, Wendel J (1987). Molecular marker-facilitated investigations of quantitative trait loci in maize II Factors influencing yield and its component traits[J]. Crop Science, 27(4): 639-648.
Shi H L(2009). Developing markers and fine-mapping of genes conferring the resistance to Sphacelotheca reiliana in maize [D]. Sichuan Agricultural University.
Shi H L, Jiang YX, Wang ZH, Li XH, Li MS, Zhang S H (2005). QTL identification of resistance to head smut in maize[J]. Acta Agronomica Sinica, 31: 1449–1454.
Simcox KD(1995). Co-segregation of the maize dwarf mosaic virus resistance gene, Mdm1, with the nucleolus organizer region in maize[J]. Theoretical and Applied Genetics, 90:341-346.
Sanz-Alferez S, Richter TE, Hulbert SH, Bennetzen JL(1995). The Rp3 disease resistance gene of maize: mapping and characterization of introgressed alleles[J]. Theoretical and Applied Genetics, 91:25-32.
Tuberosa R, Sanguineti M, Landi P, Salvi S, Casarini E, Conti S (1998). RFLP mapping of quantitative trait loci controlling abscisic acid concentration in leaves of drought-stressed maize (Zea mays L.)[J]. Theoretical and Applied Genetics, 97: 744-755.
Tan K, Li C H, Yang M, Shen T, Qiu H B (2019). Identification of head smut resistance and analysis of genetic diversity of 10 commonly used maize inbred lines in Guizhou [J]. Journal of Southern Agriculture, 50 (11):2384-2391.
Wang Z H, Li X H, Li M H, Li W H, Zhang S H(2004B). Inheritance of resistance to sugarcane mosaic virus in maize [J]. Acta agronomica Sinica, 30(2):95-100.
Wu J Y, Ding J Q, Du Y X, Xu Y B, Zhang X C (2007). Genetic analysis and molecular mapping of two dominant complementary genes determining resistance to sugarcane mosaic virus in maize [J]. Euphytica, 156:355-364.
Wang Z H, Jing Y X, Wang L F, Jin Y, Li X H, Shi H L (2002). Research Advance on Head Smut Disease in Maize [J]. Journal of Maize Sciences, (04): 61-64.
Wang L S,Kong L X,Zhao J Y,Luo P C. (2001). Screening and identification disease resistance of corn to various diseases[J]. Journal of Agricultural University of Hebei,24 (4): 62-67.
Wang Z H,Li X H,E WD,Yu T J,Zhang L,Dong L,Jiang Y X,Jin Y (2004).Germplasm identification and genetics study of resistance to head smut in maize[J]. Journal of Northeast Agricultural University,(03): 261-267.
Yong X L, Xun W, Jennifer J, Dengfeng Zhang, Donghui Cui, Chunhui Li, Guanghui Hu, Huaiyu Dong, Yan-chun Song, Yun-su Shi, Tianyu Wang , Bailin Li, Yu Li (2015). The Identification of Two Head Smut Resistance-Related QTL in Maize by the Joint Approach of Linkage Mapping and Association Analysis[J]. Plos One, 10(12): e0145549.
Zhang S, Gardiner J, Xiao Y, Zhao J, Wang F, Zheng Y (2013). Floral transition in maize infected with Spor-isorium reilianum disrupts compatibility with this biotrophic fungal pathogen. Planta, 237: 1251-1266.
Zhao X R, Tan G Q, Xing Y X, Lai Wei, Qing Chao, Weiliang Zuo, Thomas Lübberstedt & Mingliang Xu (2012). Marker-assisted introgression of q HSR1 to improve maize resistance to head smut[J]. Mol Breeding. 30(2),1077-1088.
Zhang W Z, Song D Z, Zhao J F, Zhang W Y, Li H S, Liu J X, Yang G Y (2002). Study on Genetics Features of Maize Head Smut-resistance [J]. Journal of Maize Sciences, (04): 67-69.
Zaitlin D, Demars S, Ma Y (1993). Linkage of rhm, a recessive gene for resistance to southern corn leaf blight, to RFLP marker loci in maize(Zea mays) seedlings [J]. Genome, 36: 555-564.https://doi.org/10.1139/g93-076.