中国玉米灰斑病发生现状与未来扩散趋势分析

doi:10.3864/j.issn.0578-1752.2015.18.005

Abstract

Abstract: 【Objective】The objective of this study is to understand the occurrence status of maize gray leaf spot (GLS) in China, and to predict its spreading areas in near future. It is an important basis for protecting maize production.【Method】The strains isolated from samples of GLS in new areas where were not reported for GLS were identified by using morphologic, cultural characteristics and molecular identification techniques. The occurrence site data of GLS during 2004-2014 were summarized for detailed clearing the status of GLS distribution in China, and monsoon character was analyzed for speculating the spreading lines of GLS before 2014 and in the future.【Result】The strains from Guizhou and Sichuan were identified as Cercospora zeina, and the species C. zeae-maydis was identified in Hebei. Two species were found in strains from Shaanxi and Henan. GLS has been found in fifteen provinces in China and was severe in southwest areas. By the influence of southwest and subtropical monsoons, the GLS, caused by C. zeina, spread into southwest of Yunnan in 2001, and into west of Sichuan by wind and into Hubei maybe by seeds in 2007. In 2013 the disease outbreak in the west of Henan and in 2014 occurred in west of Shaanxi that means C. zeina GLS was colonized in north maize production area. In the future, with the influence of monsoon, C. zeina GLS will spread into southeast of Gansu, south of Ningxia and north of Shaanxi, and will be moved slowly toward the north and east areas which are important production areas of spring maize in China. If the disease reaches the north of China that is the place of C. zeae-maydia GLS occurred at present, C. zeina GLS will be a new destructive disease in the main maize production areas.【Conclusion】It was confirmed that C. zeina was colonized in Guizhou, Sichuan, Shaanxi and Henan as well as C. zeae-maydis in Hebei, Shaanxi and Henan. C. zeina crossed the Bashan and Qinling Mountains into the north spring maize areas and caused severe GLS disease in west of Shaanxi and west of Henan. The main reasons of C. zeina GLS fast spreading were the monsoon action and the seed-borne causal fungus. In the future, C. zeina GLS will be slowly moved to the areas including where the GLS has not occurred yet and C. zeae-maydis GLS spread areas, thus will be a new threat to maize production in China.

Key words: maize, gray leaf spot, Cercospora zeina; Cercospora zeae-maydis, spreading

ZHAO Li-ping, WANG Xiao-ming, DUAN Can-xing, LONG Shu-sheng, LI Xiao, LI Hong-lian, HE Yue-qiu, JIN Qi-ming, WU Xiao-fei, SONG Feng-jing. Occurrence Status and Future Spreading Areas of Maize Gray Leaf Spot in China[J].Scientia Agricultura Sinica, 2015, 48(18): 3612-3626.

0
/ / Recommend

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: https://www.chinaagrisci.com/EN/10.3864/j.issn.0578-1752.2015.18.005

https://www.chinaagrisci.com/EN/Y2015/V48/I18/3612

References

[1] Crous P W, Groenewald J Z, Groenewald M, Caldwell P, Braun U, Harrington T C. Species of Cercospora associated with grey leaf spot of maize. Studies in Mycology, 2006, 55: 189-197.

[2] 刘庆奎, 秦子惠, 张小利, 江凯, 陈茂功, 武小菲, 何月秋, 王桂清, 晋齐鸣, 王晓鸣. 中国玉米灰斑病原菌的鉴定及其基本特征研究. 中国农业科学, 2013, 46(19): 4044-4057.

Liu Q K, Qin Z H, Zhang X L, Jiang K, Chen M G, Wu X F, He Y Q, Wang G Q, Jin Q M, Wang X M. Identification of Cercospora species associated with maize gray leaf spot in China. Scientia Agricultura Sinica, 2013, 46(19): 4044-4057. (in Chinese)

[3] Kinyua Z M, Smith J J, Kibata G N, Simons S A, Langat B C. Status of grey leaf spot disease in Kenyan maize production ecosystems. African Crop Science Journal, 2010, 18(4): 183-194.

[4] Mathioni S M, de Carvalho R V, Brunelli K R, Beló A, Camargo L E A. Aggressiveness between genetic groups I and II of isolates of Cercospora zeae-maydis. Sciencia Agricola, 2006, 63(6): 547-551.

[5] Brunelli K R, Dunkle L D, Sobrinho C A, Fazza A C, Camargo L E A. Molecular variability in the maize grey leaf spot pathogens in Brazil. Genetics and Molecular Biology, 2008, 31(4): 938-942.

[6] Carson M L, GoodmanM M, Williamson S M. Variation in aggressiveness among isolates of Cercospora from maize as a potential cause of genotype-environment interaction in gray leaf spot trials. Plant Disease, 2002, 86(10): 1089-1093.

[7] Carson M L, Goodman M M. Pathogenicity, aggressiveness, and virulence of three species of Cercospora associated with gray leaf spot of maize. Maydica, 2006, 51: 89-92.

[8] Lyimo H J F, Pratt R C, Mnyuku R S O W. Variation in aggressiveness among isolates of Cercospora zeae-maydis in low-, medium- and high-altitude maize agro-ecologies of Tanzania. Archives of Phytopathology and Plant Protection, 2012, 45(9): 1076-1086.

[9] 戚佩坤, 白金皚, 朱桂香. 吉林省栽培植物真菌病害志. 北京: 科学出版社, 1966.

Qi P K, Bai J K, Zhu G X. Annals of Fungal Disease on Cultivate Plants in Jilin Province. Beijing: Science Press, 1966. (in Chinese)

[10] 吴纪昌, 马丽君, 孙义, 白金凯. 玉米上一种新病害—尾孢菌叶斑病 (Cercospora zeae-maydis)大发生. 玉米科学, 1992, 创刊号: 67- 68.

Wu J C, Ma L J, Sun Y, Bai J K. Outbreak of a new disease-Cercospora leaf spot on maize. Maize Science (in Chinese), 1992, The first issue: 67-68.

[11] 李志勇, 梅丽艳. 玉米灰斑病发生趋势研究. 黑龙江农业科学, 2008(5): 72-74.

Li Z Y, Mei L Y. Study on investigation of gray leaf spot of maize in Heilongjiang Province. Heilongjiang Agricultural Sciences, 2008(5): 72-74. (in Chinese)

[12] 任智惠, 苏前富, 孟玲敏, 李红, 宋淑云, 赵振伟, 潘洪玉, 晋齐鸣. 吉林省玉米灰斑病菌RAPD分析. 玉米科学, 2011, 19(6): 118-121.

Ren Z H, Su Q F, Meng L M, Li H, Song S Y, Zhao Z W, Pan H Y, Jin Q M. RAPD analysis of Cercospora zeae-maydis in Jilin Province. Journal of Maize Sciences, 2011, 19(6): 118-121. (in Chinese)

[13] 陈刚, 张铁一. 玉米尾孢菌叶斑病的发生与危害. 辽宁农业科学, 1993(4): 29-31.

Chen G, Zhang T Y. Occurrence and damage of Cercospora leaf spot on maize. Liaoning Agricultural Sciences, 1993(4): 29-31. (in Chinese)

[14] 周惠萍, 吴景芝, 李月秋, 赵文华, 肖文祥, 吴毅歆, 何月秋. 云南省玉米灰斑病发生规律研究. 西南农业学报, 2011, 24(6): 2207-2212.

Zhou H P, Wu J Z, Li Y Q, Zhao W H, Xiao W X, Wu Y X, He Y Q. Epidemic of gray leaf spot of maize in Yunnan Province. Southwest China Journal of Agricultural Sciences, 2011, 24(6): 2207-2212. (in Chinese)

[15] 李晓, 张小飞, 崔丽娜, 邹成佳, 杨元明, 林勇, 张晋康, 舒乾芬. 警惕四川玉米灰斑病的发生危害. 四川农业科技, 2011(12): 37.

Li X, Zhang X F, Cui L N, Zou C J, Yang Y M, Lin Y, Zhang J K, Shu Q F. Attention to the epidemic of gray leaf spot of maize in Sichuan Province. Sichuan Agricultural Science and Technology, 2011(12): 37. (in Chinese)

[16] 王黎明, 郑兴权, 刘传兵, 向发洪, 刘好梁, 郭光耀. 鄂西山区玉米病害发生情况和趋势分析. 湖北农业科学, 2009, 48(11): 2738-2740.

Wang L M, Zheng X Q, Liu C B, Xiang F H, Liu H L, Guo G Y. Status and trend analysis of maize diseases in the west mountain regions of Hubei. Hubei Agricultural Sciences, 2009, 48(11): 2738-2740. (in Chinese)

[17] 张小飞, 李晓, 崔丽娜, 邹成佳, 杨晓蓉. 西南地区玉米灰斑病病原种类分子鉴定. 西南农业学报, 2014, 27(3): 1079-1081.

Zhang X F, Li X, Cui L N, Zou C J, Yang X R. Molecular identification of race from maize gray leaf spot in Southwest China. Southwest China Journal of Agriculture, 2014, 27(3): 1079-1081. (in Chinese)

[18] 卢宗志, 李艳君, 李海春, 傅俊范. 玉米灰斑病对玉米产量及产量特性的影响研究. 玉米科学, 2008, 16(6): 126-129.

Lu Z Z, Li Y J, Li H C, Fu J F. Studies on effect of gray leaf spot to yield loss and yield characters. Journal of Maize Sciences, 2008, 16(6): 126-129. (in Chinese)

[19] 尹鑫, 谷勇, 饶孝武, 温权洲, 李维群. 恩施自治州玉米灰斑病对产量损失的初步测定. 湖北植保, 2014(6): 12-13.

Yin X, Gu Y, Rao X W, Wen Q Z, Li W Q. Testing yield loss caused by gray leaf spot in maize in Enshi. Hubei Plant Protection, 2014(6): 12-13. (in Chinese)

[20] Liu K J, Xu X D. First report of gray leaf spot of maize caused by Cercospora zeina in China. Plant Disease, 2013, 97(12): 1656.

[21] 贾建云, 张俊祥, 吴毅歆, 王永云, 毛自朝, 何月秋. 云南省玉米灰斑病菌差异性分析. 西南农业学报, 2013, 26(3): 1014-1018.

Jia J Y, Zhang J X, Wu Y X, Wang Y Y, Mao Z C, He Y Q. Analysis of Cercospora zeina differences in Yunnan Province. Southwest China Journal of Agricultural Sciences, 2013, 26(3): 1014-1018. (in Chinese)

[22] 黄惠川, 杨敏, 王岩, 何霞红, 李成云, 朱有勇, 朱书生. 云南省玉米灰斑病菌的分子鉴定. 植物保护, 2014, 40(2): 28-35.

Huang H C, Yang M, Wang Y, He X H, Li C Y, Zhu Y Y, Zhu S S. Molecular identification of maize grey leaf spot pathogens in Yunnan Province. Plant Protection, 2014, 40(2): 28-35. (in Chinese)

[23] 张天宇. 介绍一项用于单孢子分离和制片以备显微摄影的显微操作技术. 真菌学报, 1983, 2(3): 197-200.

Zhang T Y. A technique using micromanipulator for isolating singlespores and preparing slide for photomicrogragh. Acta Mycologica Sinica, 1983, 2(3): 197-200. (in Chinese)

[24] 全国农业技术推广服务中心. 中国玉米新品种动态-2004年国家级玉米区试报告. 北京: 中国农业科学技术出版社, 2005.

The National Agricultural Technology Extension Service Center. Development of New Varieties-Reports for National Corn Testing in 2004. Beijing: China Agricultural Science and Technology Press, 2005. (in Chinese)

[25] 全国农业技术推广服务中心. 中国玉米新品种动态-2005年国家级玉米区试报告. 北京: 中国农业科学技术出版社, 2006.

The National Agricultural Technology Extension Service Center. Development of New Varieties-Reports for National Corn Testing in 2005. Beijing: China Agricultural Science and Technology Press, 2006. (in Chinese)

[26] 全国农业技术推广服务中心. 中国玉米新品种动态-2006年国家级玉米区试报告. 北京: 中国农业科学技术出版社, 2007.

The National Agricultural Technology Extension Service Center. Development of New Varieties-Reports for National Corn Testing in 2006. Beijing: China Agricultural Science and Technology Press, 2007. (in Chinese)

[27] 全国农业技术推广服务中心. 中国玉米新品种动态-2007年国家级玉米区试报告. 北京: 中国农业科学技术出版社, 2008.

The National Agricultural Technology Extension Service Center. Development of New Varieties-Reports for National Corn Testing in 2007. Beijing: China Agricultural Science and Technology Press, 2008. (in Chinese)

[28] 全国农业技术推广服务中心. 中国玉米新品种动态-2008年国家级玉米区试报告. 北京: 中国农业科学技术出版社, 2009.

The National Agricultural Technology Extension Service Center. Development of New Varieties-Reports for National Corn Testing in 2008. Beijing: China Agricultural Science and Technology Press, 2009. (in Chinese)

[29] 全国农业技术推广服务中心. 中国玉米新品种动态-2009年国家级玉米区试报告. 北京: 中国农业科学技术出版社, 2010.

The National Agricultural Technology Extension Service Center. Development of New Varieties-Reports for National Corn Testing in 2009. Beijing: China Agricultural Science and Technology Press, 2010. (in Chinese)

[30] 全国农业技术推广服务中心. 中国玉米新品种动态-2011年国家级玉米区试报告. 北京: 中国农业科学技术出版社, 2012.

The National Agricultural Technology Extension Service Center. Development of New Varieties-Reports for National Corn Testing in 2011. Beijing: China Agricultural Science and Technology Press, 2012. (in Chinese)

[31] 全国农业技术推广服务中心. 中国玉米新品种动态-2012年国家级玉米区试报告. 北京: 中国农业科学技术出版社, 2013.

The National Agricultural Technology Extension Service Center. Development of New Varieties-Reports for National Corn Testing in 2012. Beijing: China Agricultural Science and Technology Press, 2013. (in Chinese)

[32] 汪晓平. 重庆春玉米灰斑病发生规律及综合防治措施. 农业开发与装备, 2014(8): 102.

Wang X P. Occurrence and control of maize gray leaf spot in Chongqing. Agricultural Development & Equipments, 2014(8): 102. (in Chinese)

[33] 王晓鸣, 晋齐鸣, 石洁, 王作英, 李晓. 玉米病害发生现状与推广品种抗性对未来病害发展的影响. 植物病理学报, 2006, 36(1): 1-11.

Wang X M, Jin Q M, Shi J, Wang Z Y, Li X. The status of maize diseases and the possible effect of variety resistance on disease occurrence in the future. Acta Phytopathologica Sinica, 2006, 36(1): 1-11. (in Chinese)

[34] 张述尧, 杨志刚, 张立新, 董发生, 李学金, 柴绍荣, 阎自强. 滇西南玉米灰斑病的初步研究. 云南农业科技, 2010(4): 48-52.

Zhang S Y, Yang Z G, Zhang L X, Dong F S, Li X J, Chai S R, Yan Z Q. Primary study on maize gray leaf spot occurred in southwest of Yunnan. Yunnan Agricultural Science and Technology, 2010(4): 48-52. (in Chinese)

[35] 郑宇鸣, 李勃, 张锡顺, 林郁, 刘振环. 玉米灰斑病发生危害及GPS监测. 安徽农业科学, 2010, 38(34): 19411-19412, 19415.

Zheng Y M, Li B, Zhang X S, Lin Y, Liu Z H. Occurrence and damage of maize gray leaf spot and its GPS monitoring. Journal of Anhui Agricultural Sciences, 2010, 38(34): 19411-19412, 19415. (in Chinese)

[36] 孙林华. 怎样认识玉米灰斑病. 云南农业, 2005(12): 9-10.

Sun L H. How to recognize maize gray leaf spot. Yunnan Agriculture, 2005(12): 9-10. (in Chinese)

[37] 黄必华, 张晓梅, 肖卫华, 张碧胜, 勾宇宏, 段鸿娟. 云南省德宏州玉米灰斑病. 作物杂志, 2009(4): 80-82.发生规律及防治技术研究

Huang B H, Zhang X M, Xiao W H, Zhang B S, Gou Y H, Duan H J. Occurrence and control techniques of gray leaf spot of maize in Yunnan Province. Crops, 2009(4): 80-82. (in Chinese)

[38] 李月秋, 杨德良, 王红愫, 字迎彪, 董静光, 赵艳民, 张仕伟, 彭嘉喜, 刘荣宾, 何月秋. 云南大理州玉米灰斑病发生、危害现状及防治研究. 云南大学学报: 自然科学版, 2008, 30(S1): 339-343.

Li Y Q, Yang D L, Wang H S, Zi Y B, Dong J G, Zhao Y M, Zhang S W, Peng J X, Liu R B, He Y Q. Occurrence, damage and control of maize gray spot in Dali Prefecture, Yunnan. Journal of Yunnan University: Natural Science Edition, 2008, 30(S1): 339-343. (in Chinese)

[39] 顾家禄, 王润辉. 红河州玉米灰斑病发生规律与防治技术研究. 中国植保导刊, 2009, 29(5): 21-22.

Gu J L, Wang R H. Occurring characteristic and control techniques of Cercospora zeae-maydis in Honghe County. China Plant Protection, 2009, 29(5): 21-22. (in Chinese)

[40] 仲富珍, 朱安兰, 杨梅燕, 王化, 陆家琼. 玉米灰斑病发生规律及防治方法. 农业科技通讯, 2010(12): 167-169.

Zhong F Z, Zhu A L, Yang M Y, Wang H, Lu J Q. Occurrence and control of maize gray leaf spot. Bulletin of Agricultural Science and Technology, 2010(12): 167-169. (in Chinese)

[41] 刘金菊. 临沧市玉米灰斑病发生流行的原因及防治措施. 临沧科技, 2009(3): 33-35.

Liu J J. Cause and control measures of maize gray leaf spot occurred in Lincang, Yunnan. Lincang Science and Technology, 2009(3): 33-35. (in Chinese)

[42] 涂永海, 沙本才, 何月秋. 凤庆县玉米灰斑病发生规律初步研究. 云南农业大学学报, 2007, 22(4): 604-607.

Tu Y H, Sha B C, He Y Q. Preliminary investigation on maize gray spot in Fengqing County, Yunnan Province. Journal of Yunnan Agricultural University, 2007, 22(4): 604-607. (in Chinese)

[43] 左文明. 普洱市玉米灰斑病发生原因及防治对策. 中国农技推广, 2010, 26(6): 41.

Zuo W M. Cause and control measures of maize gray leaf spot in Pu’er, Yunnan. China Agricultural Technology Extension, 2010, 26(6): 41. (in Chinese)

[44] 梁建茵, 李春晖, 吴尚森. 2003年我国夏季西南季风活动概况. 气象, 2004, 30(8): 8-11.

Liang J Y, Li C H, Wu S S. A review of activities of summer southwest monsoon over China in 2003. Meteorological Monthly, 2004, 30(8): 8-11. (in Chinese)

[45] 明庆忠. 西南季风对中国自然环境影响的区域变化研究. 云南地理环境研究, 2007, 19(4): 93-96.

Ming Q Z. A study on regional change of natural environment of China influenced by southwest monsoon. Yunnan Geographic Environment Research, 2007, 19(4): 93-96. (in Chinese)

[46] 周成霞. 贵州省风向频率的统计分析. 贵州气象, 1996, 20(5): 12-13.

Zhou C X. Analyzing for wind directions frequency in Guizhou Province. Journal of Guizhou Meteorology, 1996, 20(5): 12-13. (in Chinese)

[47] 江滢, 罗勇, 赵宗慈. 近50年我国风向变化特征. 应用气象学报, 2008, 19(6): 666-672.

Jiang Y, Luo Y, Zhao Z C. Characteristics of wind direction change in China during recent 50 years. Journal of Applied Meteorological Science, 2008, 19(6): 666-672. (in Chinese)

[48] Latterell F M, Rossi A E. Gray leaf spot of corn: a disease on the move. Plant Disease, 1983, 67(8): 842-847.

[49] Ward J M J, Stromberg E L, Nowell D C, Nutter F W. Gray leaf spot: a disease of global importance in maize production. Plant Disease, 1999, 83(10): 884-895.

[50] Brunelli K R, Dunkle L D, Sobrinho C A, Fazza A C, Camargo L E A. Molecular variability in the maize grey leaf spot pathogens in Brazil. Genetics and Molecular Biology, 2008, 31(4): 938-942.

[51] Meisel B, Korsman J, Kloppers F J, Berger B. Cercospora zeina is the causal agent of grey leaf spot disease of maize in southern Africa. European Journal of Plant Pathology, 2009, 124(4): 577-583.

[52] Derera J, Tongoona P, Kevin V P, Vivek B, Laing M D, van Rij N C. Gene action controlling gray leaf spot resistance in southern African maize germplasm. Crop Science, 2008, 48: 93-98.

[53] Katwal T B, Wangchuk D, Dorji L, Wangdi N, Choney R. Evaluation of gray leaf spot tolerant genotypes from CIMMYT in the highland maize production eco-systems of Bhutan. Journal of Life Sciences, 2013, 7(5): 443-452.

[54] de Brito A H, Davide L M C, Pinho R G V, de Carvalho R P, dos Reis M C. Genetic control of resistance to gray leaf spot of maize in tropical germplasm. Crop Breeding and Applied Biotechnology, 2012, 12: 145-150.

[55] Hsieh L S. Coexistence of sibling species of Cercospora causing gray leaf spot on maize in southern New York State[D]. Cornell University, 2011.

[56] Paul P A, Munkvold G P. Influence of temperature and relative humidity on sporulation of Cercospora zeae-maydis and expansion of gray leaf spot lesions on maize leaves. Plant Disease, 2005, 89(6): 624-630.

[57] ShimW B, Dunkle L D. Identification of genes expressed during crocosporin biosynthesis in Cercospora zeae-maydis. Physiological and Molecular Plant Pathology, 2002, 61: 237-248.

[58] Bluhm B H, Dhillon BAnalyses of expressed sequence tags from the maize foliar pathogen Cercospora zeae-maydis identify novel genes expressed during vegetative, infectious, and reproductive growth. BMC Genomics, 2008, 9: 523., Lindquist E A, Kema G H J, Goodwin S B, Dunkle L D.

[59] Koshikumo E S M, Alves E, Pinho R G V. Induction and detection of toxin in Cercospora zeina and Cercospora sorghi f. sp. maydis. Revista Brasileira de Ciências Agrárias, 2014, 9(1): 31-35.

[60] 程龙, 刘海文, 周天军, 朱玉祥. 近30余年来盛夏东亚东南季风和西南季风频率的年代际变化及其与青藏高原积雪的关系. 大气科学, 2013, 37(6): 1326-1336.

Cheng L, Liu H W, Zhou T J, Zhu Y X. Interdecadal variations of summer southeast and southwest monsoonfrequency over East Asia and its relationship with snow cover over the Tibetan Plateau for recent 30 years. Chinese Journal of Atmospheric Sciences, 2013, 37(6): 1326-1336. (in Chinese)

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

Occurrence Status and Future Spreading Areas of Maize Gray Leaf Spot in China

RichHTML

PDF

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 0

[1]	ZHAO ZhengXin,WANG XiaoYun,TIAN YaJie,WANG Rui,PENG Qing,CAI HuanJie. Effects of Straw Returning and Nitrogen Fertilizer Types on Summer Maize Yield and Soil Ammonia Volatilization Under Future Climate Change [J]. Scientia Agricultura Sinica, 2023, 56(1): 104-117.
[2]	CHAI HaiYan,JIA Jiao,BAI Xue,MENG LingMin,ZHANG Wei,JIN Rong,WU HongBin,SU QianFu. Identification of Pathogenic Fusarium spp. Causing Maize Ear Rot and Susceptibility of Some Strains to Fungicides in Jilin Province [J]. Scientia Agricultura Sinica, 2023, 56(1): 64-78.
[3]	LI ZhouShuai,DONG Yuan,LI Ting,FENG ZhiQian,DUAN YingXin,YANG MingXian,XU ShuTu,ZHANG XingHua,XUE JiQuan. Genome-Wide Association Analysis of Yield and Combining Ability Based on Maize Hybrid Population [J]. Scientia Agricultura Sinica, 2022, 55(9): 1695-1709.
[4]	XIONG WeiYi,XU KaiWei,LIU MingPeng,XIAO Hua,PEI LiZhen,PENG DanDan,CHEN YuanXue. Effects of Different Nitrogen Application Levels on Photosynthetic Characteristics, Nitrogen Use Efficiency and Yield of Spring Maize in Sichuan Province [J]. Scientia Agricultura Sinica, 2022, 55(9): 1735-1748.
[5]	LI YiLing,PENG XiHong,CHEN Ping,DU Qing,REN JunBo,YANG XueLi,LEI Lu,YONG TaiWen,YANG WenYu. Effects of Reducing Nitrogen Application on Leaf Stay-Green, Photosynthetic Characteristics and System Yield in Maize-Soybean Relay Strip Intercropping [J]. Scientia Agricultura Sinica, 2022, 55(9): 1749-1762.
[6]	MA XiaoYan,YANG Yu,HUANG DongLin,WANG ZhaoHui,GAO YaJun,LI YongGang,LÜ Hui. Annual Nutrients Balance and Economic Return Analysis of Wheat with Fertilizers Reduction and Different Rotations [J]. Scientia Agricultura Sinica, 2022, 55(8): 1589-1603.
[7]	LI Qian,QIN YuBo,YIN CaiXia,KONG LiLi,WANG Meng,HOU YunPeng,SUN Bo,ZHAO YinKai,XU Chen,LIU ZhiQuan. Effect of Drip Fertigation Mode on Maize Yield, Nutrient Uptake and Economic Benefit [J]. Scientia Agricultura Sinica, 2022, 55(8): 1604-1616.
[8]	ZHANG JiaHua,YANG HengShan,ZHANG YuQin,LI CongFeng,ZHANG RuiFu,TAI JiCheng,ZHOU YangChen. Effects of Different Drip Irrigation Modes on Starch Accumulation and Activities of Starch Synthesis-Related Enzyme of Spring Maize Grain in Northeast China [J]. Scientia Agricultura Sinica, 2022, 55(7): 1332-1345.
[9]	TAN XianMing,ZHANG JiaWei,WANG ZhongLin,CHEN JunXu,YANG Feng,YANG WenYu. Prediction of Maize Yield in Relay Strip Intercropping Under Different Water and Nitrogen Conditions Based on PLS [J]. Scientia Agricultura Sinica, 2022, 55(6): 1127-1138.
[10]	LIU Miao,LIU PengZhao,SHI ZuJiao,WANG XiaoLi,WANG Rui,LI Jun. Critical Nitrogen Dilution Curve and Nitrogen Nutrition Diagnosis of Summer Maize Under Different Nitrogen and Phosphorus Application Rates [J]. Scientia Agricultura Sinica, 2022, 55(5): 932-947.
[11]	QIAO Yuan,YANG Huan,LUO JinLin,WANG SiXian,LIANG LanYue,CHEN XinPing,ZHANG WuShuai. Inputs and Ecological Environment Risks Assessment of Maize Production in Northwest China [J]. Scientia Agricultura Sinica, 2022, 55(5): 962-976.
[12]	HUANG ZhaoFu, LI LuLu, HOU LiangYu, GAO Shang, MING Bo, XIE RuiZhi, HOU Peng, WANG KeRu, XUE Jun, LI ShaoKun. Accumulated Temperature Requirement for Field Stalk Dehydration After Maize Physiological Maturity in Different Planting Regions [J]. Scientia Agricultura Sinica, 2022, 55(4): 680-691.
[13]	FANG MengYing,LU Lin,WANG QingYan,DONG XueRui,YAN Peng,DONG ZhiQiang. Effects of Ethylene-Chlormequat-Potassium on Root Morphological Construction and Yield of Summer Maize with Different Nitrogen Application Rates [J]. Scientia Agricultura Sinica, 2022, 55(24): 4808-4822.
[14]	DU WenTing,LEI XiaoXiao,LU HuiYu,WANG YunFeng,XU JiaXing,LUO CaiXia,ZHANG ShuLan. Effects of Reducing Nitrogen Application Rate on the Yields of Three Major Cereals in China [J]. Scientia Agricultura Sinica, 2022, 55(24): 4863-4878.
[15]	YI YingJie,HAN Kun,ZHAO Bin,LIU GuoLi,LIN DianXu,CHEN GuoQiang,REN Hao,ZHANG JiWang,REN BaiZhao,LIU Peng. The Comparison of Ammonia Volatilization Loss in Winter Wheat- Summer Maize Rotation System with Long-Term Different Fertilization Measures [J]. Scientia Agricultura Sinica, 2022, 55(23): 4600-4613.