棉花枯萎病和黄萎病菌生物学及抗病种质的创新与利用研究回顾与展望

doi:10.3864/j.issn.0578-1752.nykx-200740-3118

Abstract

Abstract: The pathogenicity of Fusarium wilt of cotton in different regions of China was studied. The results showed that pathogen of cotton Fusarium wilt is Fusarium oxysporum f.sp. vasinfectum Snyd. & Hans. The pathogenicity of isolates that collected from different regions of China were examined using a series of cultivars host internationally. The results showed that there is difference within Chinese isolates and world races that had reported that time. So we named the Chinese Fusarium wilt pathogen race 3, 7, 8. And the races 7 and 8 were first reported in the world. The race 7 is the main race of all of Chinese cotton plant regions. The pathogenicity of 109 isolates of Verticillium wilt of cotton collected from different regions of China were studied in greenhouse examined by 6 differential host cultivars that belong to 3 differential cotton species . They have obviously pathogenicity differentiation and can be divided into three physiological types: defoliation with strong pathogenicity, mixed symptoms with intermediate pathogenicity, none defoliation with weak pathogenicity. There are 30 isolates causing defoliation, for example, V56, V73 and so on, occupy 33.7% of total examined isolates. The molecular markers were made that they can divide different races of Fusarium oxysporum f.sp. vasinfectum Snyd. & Hans and defoliation isolates and none defoliation isolates of Verticillium dahliae. The gene probes PVD8-3 and PVD8-5 of defoliation isolate VD8 had made. It is very useful for identification to defoliation isolates. Many cultivars were bred that they are highly resistant to Fusarium wilt and Verticillium wilt of cotton. They used in naturally infested regions and were introduced into Xinjiang infested regions very early. They have made a great crucial role in control the diseases and in cotton sustainable production. The economic value was more than 8 billions yuan and indirect economic value was more than 300 billions yuan. This achievement had won the 1st class Beijing Sciences and Technology Award and the 1st class Chinese Academy of Agricultural Sciences Science and Technology Award in 2004.

Key words: Cotton , Fusarium , Verticillium , Disease resistance breeding

JIAN Gui-liang. The Biology of Cotton Fusarium and Verticillium Wilts Pathogen and Resistant Cultivars Breeding and Application[J].Scientia Agricultura Sinica, 2007, 40(增刊): 3118-3122.

References

[1]沈其益. 棉花病害基础研究与防治. 北京: 科学出版社, 1992: 171-205.
[2]Hillocks R J. Cotton Diseases. CAB International, 1992: 240-257.
[3]Jian G L, Ma C, Zhang C L, Zou Y F. Advances in cotton breeding for resistance to Fusarium and Verticillium wilt in the last fifty years in China. Agricultural Sciences in China, 2003, 2(3): 280-288.
[4]沈其益. 中国棉花病害研究及其综合防治. 北京: 农业出版社, 1984: 1-20.
[5]陈其煐, 李典谟, 曹赤阳. 棉花病虫害综合防治及研究进展. 北京: 中国农业科技出版社, 1990: 1-32.
[6]冯洁, 陈其煐. 我国棉花枯萎病研究概况. 棉花学报, 1994, 6(2): 65-69.
[7]马存, 简桂良. 1993年棉花黄萎病大发生的原因及应急防治措施. 中国农学通报, 1994, 10(3): 33-35.
[8]石磊岩, 简桂良. 棉花黄萎病爆发成灾的原因及防治措施. 植物保护, 1994, 20(1): 34-35.
[9]简桂良, 马存. 1995年北方棉区黄萎病大发生及综合防治措施. 植物保护, 1996, 22: 35-36.
[10]简桂良, 马存. 警惕棉花黄萎病再度暴发. 农民日报, 1994, 8. 5. 2.
[11]石磊岩, 冯洁, 王莉梅, 简桂良. 北方植棉区棉花黄萎病菌生理分化类型研究. 棉花学报, 1997, 9(5): 3-6.
[12]马存, 陈其煐, 简桂良. 综合防治棉花黄萎病刻不容缓. 中国棉花, 1994, 21(7): 8-9.
[13]简桂良, 邹亚飞, 马存. 棉花黄萎病连年流行原因及对策. 中国棉花, 2003, 31(3): 31-33.
[14]陈其煐, 孙文姬, 籍秀琴. 我国棉花枯萎菌生理小种研究. 中国农业科学, 1985, 8(6): 1-6.
[15]陈其煐, 孙文姬, 籍秀琴. 我国棉花枯萎镰刀菌“种”的研究. 中国农业科学, 1992, 25(2): 1-8.
[16]孙文姬, 简桂良, 陈其煐. 我国棉枯萎镰刀菌生理小种变异监测研究. 中国农业科学, 1999, 32(1): 51-57.
[17]陈其煐, 孙文姬, 籍秀琴. 棉枯萎镰刀菌致病性和小种鉴定结论. 植物病理学报, 1986, 16(4): 36-38.
[18]陈其煐, 孙文姬, 籍秀琴. 诱发棉枯萎镰刀菌产生大孢子. 植物保护, 1985, (1): 13-15.
[19]石磊岩, 王波, 文学. 棉花黄萎病落叶型菌系研究. 棉花学报, 1993, 5(1): 89-92.
[20]王莉梅, 石磊岩. 北方棉区棉花黄萎病菌落叶型菌系鉴定. 植物病理学报, 1999, 29(2): 181-189.
[21]石磊岩, 王莉梅. 北方棉区棉花黄萎病菌(Verticillium dahliae)的RAPD分析与致病型鉴定. 植物病害研究与防治. 北京: 中国农业科技出版社, 1998: 433-440.
[22]石磊岩, 王莉梅. 北方棉区棉花黄萎病菌RAPD分析. 植物保护, 1997, 23(5): 3-7.
[23]邹亚飞, 简桂良, 马存. 棉花黄萎病菌致病型的AFLP分子分析. 中国植物病理学报, 2003, 33(2): 135-141.
[24]邹亚飞, 简桂良, 马存. 棉花黄萎病菌分子生物学研究新进展. 棉花学报, 2001, 13(4): 254-256.
[25]简桂良, 邹亚飞, 王天存. 不同强度温度刺激对棉花黄萎病的影响. 棉花学报, 2003, 13(2): 83-87.
[26]简桂良, 田东兰, 马存. 黄萎病胁迫下棉花不同抗病品种水势的变化. 植物病理学研究进展. 北京: 中国农业科技出版社, 2001: 81-85.
[27]石磊岩. 棉花黄萎病灾害因素分析. 中国棉花, 1999, 26(7): 8-9.
[28]徐荣旗, 石磊岩. 棉花黄萎病菌致害棉株叶片内源激素的动态变化. 棉花学报, 2000, 12(6): 310-315.
[29]石磊岩, 徐荣旗. 棉花黄萎病菌致害棉株落叶的关键因素研究. 植物保护学会等编. 面向21世纪的植物保护发展战略. 北京: 中国科技出版社, 2001: 722-725.
[30]冯洁. 棉花与黄萎病互作机制研究现状及展望. 棉花学报, 1998, 10(6): 281-284.
[31]马存, 简桂良. 适宜棉麦套种的棉花抗病早熟新品种86-4号. 中国农业科学, 1988, 21(5): 94-95.
[32]马存, 简桂良. 棉花高产优质双抗新品系86-6号. 中国农业科学, 1994, 27(4): 88.
[33]马存, 简桂良. 棉花双抗新品系86-6号抗黄萎病鉴定结果. 植物保护, 1995, 21(6): 31.
[34]马存, 简桂良. 中国棉花抗病育种50年. 中国农业科学, 2002, 35(5): 508-513.
[35]马存, 简桂良. 我国棉花抗黄萎病育种现状、问题及对策. 中国农业科学, 1997, 30: 58-64.
[36]简桂良, 孙文姬, 马存. 棉花黄萎病抗性鉴定新方法—无底塑钵菌液浇根法. 棉花学报, 2001, 13(2): 1-4.
[37]冯洁, 孙文姬, 马存. 我国棉枯萎菌生理小种特异性DNA扩增片段的筛选及系列测定. 中国植物病理学报, 2000, 30(1): 37-41.
[38]冯洁, 孙文姬, 石磊岩, 马存. 中国棉枯萎菌生理小种的RAPD分析. 菌物系统, 2000, 19(1): 45-50.
[39]冯洁, 孙文姬, 石磊岩, 马存. 棉花枯萎病菌生理小种的分子指纹分析. 棉花学报, 1999, 11(5): 230-234.
[40]冯洁, 陈其煐. 棉株内阿魏酸和绿原酸含量及其对枯萎病抗性的关系. 棉花学报, 1990, 2(2): 81-86.
[41]冯洁, 陈其煐. 棉花幼苗分泌物与枯萎病关系的研究. 棉花学报, 1991, 3(1): 89-96.
[42]冯洁, 陈其煐. 棉株体内几种生化物质与抗枯萎病之间关系的初步研究. 植物病理学报, 1991, 21(4): 291-297.
[43]冯洁, 陈其煐. 枯萎菌诱导棉花细胞壁富含羟脯氨酸糖蛋白积累与枯萎病抗性的关系. 植物病理学报, 1995, 25(2): 133-138.

Related Articles 15

[1]	LI YuanJing, YUAN RuiXiang, LI YongTai, SUN TianGe, LIU Feng, LI YanJun, ZHANG XinYu. Identification and Functional Characterization of β-Glucosidase Genes in Verticillium dahliae for Pathogenicity on Cotton [J]. Scientia Agricultura Sinica, 2026, 59(7): 1380-1399.
[2]	YAN TingLin, DU YaDan, HU XiaoTao, WANG He, LI XiaoYan, WANG YuMing, NIU WenQuan, GU XiaoBo. The Impacts of Nitrogen Fertilizer Organic Alternatives Under Aerated Drip Irrigation on Cotton Yield and Water Use Efficiency Under Deficit Irrigation Conditions [J]. Scientia Agricultura Sinica, 2026, 59(3): 602-618.
[3]	HOU PuXing, WANG Yong, FENG JunTao, MA ZhiQing, WU Hua. Inhibitory Activities of Ethanol Extracts from 75 Plants Against Two Soil-Borne Pathogens [J]. Scientia Agricultura Sinica, 2026, 59(2): 322-335.
[4]	GUO ChenLi, LIU Yang, CHEN Yan, HU Wei, WANG YouHua, ZHOU ZhiGuo, ZHAO WenQing. Effects of Phosphorus Fertilizer Postpone Under Nitrogen Reduction Condition on Yield, Phosphorus Fertilizer Utilization Efficiency of Drip-Irrigated Cotton [J]. Scientia Agricultura Sinica, 2025, 58(9): 1749-1766.
[5]	WANG WeiMeng, WEI YunXiao, TANG YunNi, LIU MiaoMiao, CHEN QuanJia, DENG XiaoJuan, ZHANG Rui. Establishment and Rooting Optimization of Agrobacterium rhizogenes Transformation System in Cotton [J]. Scientia Agricultura Sinica, 2025, 58(8): 1479-1493.
[6]	ZHAO YuXuan, MIAO JiYuan, HU Wei, ZHOU ZhiGuo. Effects of Low Temperature at Seedling Stage on Cotton Floral Bud Differentiation and Cotton Plant Yield [J]. Scientia Agricultura Sinica, 2025, 58(7): 1311-1320.
[7]	TIAN LiWen, LOU ShanWei, ZHANG PengZhong, DU MingWei, LUO HongHai, LI Jie, PAHATI MaiMaiTi, MA TengFei, ZHANG LiZhen. Analysis of Problems and Pathways for Increasing Cotton Yield per Unit Area in Xinjiang Under Green and Efficient Production Mode [J]. Scientia Agricultura Sinica, 2025, 58(6): 1102-1115.
[8]	WANG LiYuan, WANG Hui, WANG MuMu, WANG DongJian, LI RuYu, ZHENG YongSheng, ZHANG Han. Construction and Application of DNA Fingerprint Database for Known Varieties in Upland Cotton DUS Testing [J]. Scientia Agricultura Sinica, 2025, 58(22): 4570-4588.
[9]	TANG ChaoYuan, LIU TaoFen, WU YanQin, ZHANG QiPeng, LI ZiLiang, CHEN YunRui, LEI ZhangYing, ZHANG YaLi, ZHANG WangFeng, DU MingWei, YANG MingFeng, TIAN JingShan. Relationship Between Boll Morphological Characteristics and Fiber and Kernel Quality of Gossypium hirsutum L. and Gossypium barbadense L. [J]. Scientia Agricultura Sinica, 2025, 58(15): 2980-2992.
[10]	WEN Jin, NING YanFang, QIN Xin, LIU Yuan, ZHANG XiaoLing, ZHU YongHong, TIAN ShiMin, MA YanBin. Resistance Evaluation and Genetic Stability Analysis of Insect- Resistant and Glyphosate-Tolerant Transgenic Cotton Lines [J]. Scientia Agricultura Sinica, 2025, 58(12): 2291-2302.
[11]	DONG Ming, QI Hong, ZHANG Qian, WANG Yan, WANG ShuLin, FENG GuoYi, LIANG QingLong, GUO BaoSheng. The Impact of Sowing Methods on the Seed Germination Environment and Cotton Emergence and Growth [J]. Scientia Agricultura Sinica, 2025, 58(12): 2346-2357.
[12]	ZHAO LinLin, HE YuXi, PENG JieLi, WANG Xu, MA Jia, ZHANG XiuMin, HU Dong. Streptomyces TOR3209 and Its Volatile Organic Compounds Enhance Tobacco Resistance to Fusarium equiseti [J]. Scientia Agricultura Sinica, 2025, 58(11): 2162-2175.
[13]	ZHANG YanJun, DAI JianLong, DONG HeZhong. On Multi-Objective Collaborative Cultivation in Cotton Production [J]. Scientia Agricultura Sinica, 2025, 58(10): 1908-1916.
[14]	CAO YanYong, CHENG ZeQiang, MA Juan, YANG WenBo, ZHU WeiHong, SUN XinYan, LI HuiMin, XIA LaiKun, DUAN CanXing. Integrating Transcriptomic and Metabolomic Analyses Reveals Maize Responses to Stalk Rot Caused by Fusarium proliferatum [J]. Scientia Agricultura Sinica, 2025, 58(1): 75-90.
[15]	WU YuZhen, HUANG LongYu, ZHOU DaYun, HUANG YiWen, FU ShouYang, PENG Jun, KUANG Meng. Construction of SSR Fingerprint Library and Comprehensive Evaluation for Approved Cotton Varieties in China [J]. Scientia Agricultura Sinica, 2024, 57(8): 1430-1443.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

The Biology of Cotton Fusarium and Verticillium Wilts Pathogen and Resistant Cultivars Breeding and Application

PDF

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 0