[1] |
卢庆善. 高粱学[M]. 北京: 中国农业出版社, 1999.
|
[2] |
卢庆善, 孙毅, 华泽田. 农作物杂种优势[M]. 北京: 中国农业科技出版社, 2002.
|
[3] |
丁国祥. 高粱炭疽病的发生与防治[J]. 四川农业科技, 2014(2):44-45.
|
[4] |
MILLIANO W D, FREDERIKSEN R A, BENGSTON G D. Sorghum and millets diseases: a second world review[J]. International crops research institute for the semi-arid tropics, 1992.
|
[5] |
COTA L V, SOUZA A G C D, COSTA R V, et al. Quantification of yield losses caused by leaf anthracnose on sorghum in Brazil[J]. Journal of phytopathology, 2017:1-7.
|
[6] |
LI Y, TEBEEST D. Temporal and spatial development of sorghum anthracnose in Arkansas[J]. Plant disease, 2009, 93(3):287-292.
doi: 10.1094/PDIS-93-3-0287
pmid: 30764185
|
[7] |
邓小锋, 彭秋, 李青风, 等. 高粱炭疽病抗性机理研究进展[J]. 贵州农业科学, 2019, 47(11):68-74.
|
[8] |
BALDRICH P, CHAYA T, CAPLAN J L, et al. Genome assembly and transcriptome of Colletotrichum sublineola CsGL1, a new resource to study anthracnose disease in sorghum[J]. Molecular plant microbe interactions, 2021; 34(10):1209-1211.
doi: 10.1094/MPMI-04-21-0094-A
URL
|
[9] |
李志. 浅谈高粱种植主要病害的防治[J]. 农业与技术, 2018, 38(10):34.
|
[10] |
王秋月, 李清虎, 尹学伟, 等. 不同高粱品种对炭疽病的抗性及其与产量的相关性研究[J]. 农业科技通讯, 2020(4):37-41.
|
[11] |
ACHARYA B, THOMAS N, EVERMAN W, et al. Effectiveness of fungicides and their application timing for the management of sorghum foliar anthracnose in the Mid-Atlantic United States[J]. Plant disease, 2019, 103(11).
|
[12] |
ARAGAW G, CHALA A, TEREFE H. Spatial distribution and association of factors influencing sorghum anthracnose epidemics in Eastern Ethiopia[J]. International journal of pest management, 2021, 67(1).
|
[13] |
孔凡信, 徐婧, 刘志. 辽西高粱炭疽病的发生与防控[J]. 辽宁农业科学, 2020(3):48-49.
|
[14] |
杨蕾, 姜钰, 徐秀德. 高粱炭疽病发生与有效控制研究进展[J]. 辽宁农业科学, 2005(5):40-41.
|
[15] |
XU X D, LIU Z H. A color atlas of sorghum diseases and pests[M]. China agricultural science and technology press, 2012:951-955.
|
[16] |
CROUCH J A, TOMASOPETERSON M. Anthracnose disease of centipedegrass turf caused by Colletotrichum eremochloae, a new fungal species closely related to Colletotrichum sublineola[J]. Mycologia, 2012, 104(5):1085-1096.
doi: 10.3852/11-317
URL
|
[17] |
SUTTON B C. The Coelomycetes: fungi imperfecti with pycnidia, acervuli and stromata[J]. Coelomycetes fungi imperfecti with pycnidia acervuli and stromata, 1980.
|
[18] |
SHERRIFF C, WHELAN M J, ARNOLD G M, et al. rDNA sequence analysis confirms the distinction between Colletotrichum graminicola and Colletotrichum sublineolum[J]. Mycological research, 1995, 99(4):475-478.
doi: 10.1016/S0953-7562(09)80649-7
URL
|
[19] |
BARONCELLI R, SANZ-MARTIN J M, RECH G E, et al. Draft genome sequence of Colletotrichum sublineola, a destructive pathogen of cultivated sorghum[J]. Genome announcements, 2014, 2(3):e514-e540.
|
[20] |
BUIATE E A S, XAVIER K V, MOORE N, et al. Correction to: A comparative genomic analysis of putative pathogenicity genes in the host specific sibling species Colletotrichum graminicola and Colletotrichum sublineola[J]. BMC genomics, 2018, 19(1).
|
[21] |
徐婧, 胡兰, 刘可杰, 等. 我国高粱炭疽病症状类型及其病原菌鉴定[J]. 沈阳农业大学学报, 2019, 50(5):529-535.
|
[22] |
CASELA C R. Evidence for dilatory resistance to anthracnose in sorghum[J]. Plant disease, 1993, 77(9):908-908.
doi: 10.1094/PD-77-0908
URL
|
[23] |
CHALA A, TRONSMO A M, BURBERG M B. Genetic differentiation and gene flow in Colletotrichum sublineolumin Ethiopia, the centre of origin and diversity of sorghum, as revealed by AFLP analysis[J]. Plant pathology, 2011, 60:474-482.
doi: 10.1111/j.1365-3059.2010.02389.x
URL
|
[24] |
姜钰, 胡兰, 刘可杰, 等. 高粱种质资源对3种主要病害的抗性鉴定与评价[C]. 植保科技创新与农业精准扶贫—中国植物保护学会2016年学术年会论文集. 2016:350.
|
[25] |
徐婧, 姜钰, 胡兰, 等. 高粱抗炭疽病资源筛选及病情与产量损失的关系[J]. 中国农业科学, 2019, 52(22):4079-4087.
|
[26] |
徐婧, 胡兰, 姜钰. 高粱种质资源对高粱炭疽病的抗性鉴定与评价[C]. 中国植物保护学会2019年学术年会论文集, 2019:66.
|
[27] |
邓小锋, 彭秋, 刘天友, 等. 贵州地方高粱资源炭疽病害田间抗性评估[J]. 西南农业学报, 2017, 30(5):1074-1077.
|
[28] |
DESSALEGN K, LULE D, NIDA H, et al. Evaluation of selected Ethiopian sorghum genotypes for resistance to anthracnose[J]. European journal of plant pathology, 2021, 162(1):79-91.
doi: 10.1007/s10658-021-02386-6
URL
|
[29] |
LUCIANO V C, ANDRE G C S, RODRIGO V C, et al. Quantification of yield losses caused by leaf anthracnose on sorghum in Brazil[J]. Journal of phytopathology, 2017, 165(7/8):479-485.
doi: 10.1111/jph.12582
URL
|
[30] |
CUEVAS H E, PROM L K, Evaluation of genetic diversity, agronomic traits, and anthracnose resistance in the NPGS Sudan sorghum core collection[J]. BMC genomics, 2020, 21(1):88.
doi: 10.1186/s12864-020-6489-0
pmid: 31992189
|
[31] |
THOMAS I, HUGO C, RAMASAMY P, et al. Response of sorghum accessions from four african countries against Colletotrichum sublineolum, causal agent of sorghum anthracnose[J]. American journal of plant sciences, 2012(1):125-129.
|
[32] |
PROM L K, ERPELDING J E, NOE M G. Chinese sorghum germplasm evaluated for resistance downy mildew and anthracnose[J]. Communications in biometry and crop science, 2007, 2(1):26-31.
|
[33] |
PROM L K, ISAKEIT T, PERUMAL R, et al. Evaluation of the Ugandan sorghum accessions for grain mold and anthracnose resistance[J]. Crop protection, 2011, 30(5):566-571.
doi: 10.1016/j.cropro.2010.12.025
URL
|
[34] |
刘胜毅, 许泽永, 何礼远. 植物与病原菌互作和抗病性的分子机制[J]. 中国农业科学, 1999(S1):94-102.
|
[35] |
王海华, 曹赐生, 高健. 植物抗病性的遗传基础及其分子机制[J]. 湘潭师范学院学报:社会科学版, 2000(6):88-92.
|
[36] |
BOORA K S, FREDERIKSEN R, MAGILL C. DNA- based markers for a recessive gene conferring anthracnose resistance in sorghum[J]. Crop science, 1998, 38(6).
|
[37] |
PANDAY S, SINDHU A, BOORA K S. RAPD based DNA markers linked to anthracnose disease resistance in Sorghum bicolor (L.) Moench[J]. Indian journal of experimental biology, 2002, 40(2):206-211.
|
[38] |
SINGH M, CHAUDHARY K, SINGAL H R, et al. Identification and characterization of RAPD and SCAR markers linked to anthracnose resistance gene in sorghum [Sorghum bicolor (L.) Moench][J]. Euphytica, 2006, 149(1-2):179-187.
doi: 10.1007/s10681-005-9065-4
URL
|
[39] |
SINGH M, CHAUDHARY K, BOORA K S. RAPD-based SCAR marker SCA 12 linked to recessive gene conferring resistance to anthracnose in sorghum [Sorghum bicolor (L.) Moench][J]. Theoretical and applied genetics, 2006, 114(1):187-192.
doi: 10.1007/s00122-006-0423-y
URL
|
[40] |
CUEVAS H E, PROM L K, COOPER E A, et al. Genome-wide association mapping of anthracnose (Colletotrichum sublineolum) resistance in the U.S. sorghum association panel[J]. The plant genome, 2018, 11(2):99.
|
[41] |
MENGISTU G, SHIMELIS H, ASSEFA E, et al. Genome-wide association analysis of anthracnose resistance in sorghum [Sorghum bicolor (L.) Moench][J]. PloS one, 2021,16.
|
[42] |
CRUET-BURGOS C M, CUEVAS H E, PROM L K, et al. Genomic dissection of anthracnose (Colletotrichum sublineolum) resistance response in sorghum differential line SC112-14[J]. G3: genes genomes genetics, 2020, 10(4):1403-1412.
|
[43] |
KATILE S O. Expression of defense genes in sorghum grain mold and tagging and mapping a sorghum anthracnose resistance gene[J]. Dissertations and theses gradworks, 2009.
|
[44] |
RAMASAMY P, MENZ M A, MEHTA P J, et al. Molecular mapping of Cg1, a gene for resistance to anthracnose (Colletotrichum sublineolum) in sorghum[J]. Euphytica, 2009, 165(3):597-606.
doi: 10.1007/s10681-008-9791-5
URL
|
[45] |
VALERIO H M, ALVES J M S, RESENDE M A, et al. The effects of host diversity in anthracnose management and race composition of Colletotrichum sublineolum in sorghum lineage mixtures[J]. Journal of agricultural science and technology B, 2018, 8(1):15.
|
[46] |
THAKUR R P, RAO V P, WU S M, et al. Genetic resistance to foliar anthracnose in sorghum and pathogenic variability in Colletotrichum graminicola[J]. Indian phytopathology, 2007, 60(1):13-23.
|
[47] |
ABREHA K B, ORTIZ R, CARLSSON A S, et al. Understanding the sorghum Colletotrichum sublineola interactions for enhanced host resistance[J]. Frontiers in plant science, 2021, 12:641969.
doi: 10.3389/fpls.2021.641969
URL
|
[48] |
STUTTS L R, VERMERRIS W. Elucidating anthracnose resistance mechanisms in sorghum-a review[J]. Phytopathology, 2020, 110(12):1863-1876.
doi: 10.1094/PHYTO-04-20-0132-RVW
pmid: 33100146
|
[49] |
WOLFE M S. The current status and prospects of multiline cultivars and variety mixtures for disease resistance[J]. Annual review of phytopathology, 1985, 23(1):251-273.
doi: 10.1146/annurev.py.23.090185.001343
URL
|
[50] |
陈满静, 任艳, 彭秋, 等. 基于BSA-seq方法定位贵州高粱抗炭疽病害关键遗传区段[J]. 江苏农业科学, 2022, 50(5):28-34.
|