发展西南玉米现代生态育种之我见
来源: 时间:2026-03-16 09:02
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doi: 10.2135/cropsci1966.0011183X000600010011x[10] 陈雪求, 李殿申, 何文安, 王春生, 韩玉珍. 关于作物生态育种涉及的若干问题的探讨. 吉林农业大学学报, 1999, 21(2): 99-102. Chen X Q, Li D S, He W A, Wang C S, Han Y Z. The discussion of several problems in plant ecological breeding. J Jilin Agric Univ, 1999, 21(2): 99-102. (in Chinese with English abstract)[11] 荣廷昭, 李晚忱, 潘光堂. 新世纪初发展我国玉米遗传育种技术的思考. 玉米科学. 2003, 11(增刊2): 42-53. Rong T Z, Li W C, Pan G T. Suggestion on development of science and technology in maize genetics and breeding at the beginning of 21st century. J Maize Sci, 2003, 11(S2): 42-53. (in Chinese with English abstract)[12] 杨克诚, 苟才明, 荣廷昭, 潘光堂. 西南地区玉米育种现状及发展对策. 玉米科学, 2008, 16(3): 8-11. Yang K C, Gou C M, Rong T Z, Pang G T. Discussion present situation of maize breeding and countermeasure in southwest region. J Maize Sci, 2008, 16(3): 8-11. (in Chinese with English abstract)[13] 潘光堂, 杨克诚. 我国西南玉米育种面临的挑战及相应对策探讨. 作物学报, 2012, 38: 1141-1147. Pan G T, Yang K C. Facing to challenges and corresponding strategies for maize breeding in southwestern region of China. Acta Agron Sin, 2012, 38: 1141-1147. (in Chinese with English abstract)
doi: 10.3724/SP.J.1006.2012.01141[14] 李高科, 潘光堂. 西南玉米种质利用现状及研究进展. 玉米科学, 2005, 21(2): 3-7. Li G K, Pan G T. The utilization present situation and study advances of the germplasm in southwest maize zone. J Maize Sci, 2005, 13(2): 3-7. (in Chinese with English abstract)[15] 胡瑞发, Meng Erika C H, 张世煌, 石晓华. 采用参与式方法评估中国玉米研究的优先序. 中国农业科学, 2004, 37: 781-787. Hu R F, Meng Erika C H, Zhang S H, Shi X H. Prioritization for maize research and development in China. Sci Agric Sin, 2004, 37: 781-787. (in Chinese with English abstract)[16] 李芦江, 陈文生, 张敏, 兰海, 潘光堂, 杨克诚. 240份玉米自交系纹枯病抗性鉴定与评价. 植物遗传资源学报, 2014, 15: 1113-1119. Li L J, Chen W S, Zhang M, Lan H, Pan G T, Yang K C. Identification and evolution of 240 maize inbred lines for resistant to banded leaf and sheath blight. J Plant Genet Res, 2014, 15: 1113-1119.. (in Chinese with English abstract)[17] 李辉, 向葵, 张志明, 袁广胜, 潘光堂. 玉米穗腐病抗性机制及抗病育种研究进展. 玉米科学, 2019, 27(4): 167-174. Li H, Xiang K, Zhang Z M, Yuan G S, Pan G T. Research progress on ear rot resistant mechanism and resistant breeding in maize. J Maize Sci, 2019, 27(4): 167-174. (in Chinese with English abstract)[18] 张吉海, 高世斌, 杨克诚, 张志明, 林海建, 黄宁, 郑溟, 徐克成, 陈义轩, 潘光堂. 玉米耐低磷种质资源的筛选与鉴定. 植物遗传资源学报, 2008, 9: 335-339. Zhang J H, Gao S B, Yang K C, Zhang Z M, Lin H J, Huang N, Zheng M, Xu K C, Chen Y X, Pan G T. Screening and identification for tolerance to low phosphorus stress of maize germplasm resources. J P1ant Genet Res, 2008, 9: 335-339. (in Chinese with English abstract)[19] Zhang L T, Li J, Rong T Z, Gao S B, Wu F K, Xu J, Li M L, Cao M J, Wang J, Hu E L, Liu Y X, Lu Y L. Large-scale screening maize germplasm for low-phosphorus tolerance using multiple selection criteria. Euphytica, 2014, 197: 435-446.
doi: 10.1007/s10681-014-1079-3[20] Zhang Z M, Jin F, Wang C, Luo J, Lin H J, Xiang K, Liu L, Zhao M J, Zhang Y S, Ding H P, Zhou S F, Shen Y O, Pan G T. Difference between Pb and Cd accumulation in 19 elite maize inbred lines and application prospects. J Biomed Biotechnol, 2012, ID271485.[21] 赵雄伟, 金枫, 曹艳花, 李芦江, 张永中, 张志明, 沈亚欧, 林海建, 潘光堂. 玉米重金属铅Pb2+含量的配合力分析与育种对策. 植物遗传资源学报, 2015, 16: 29-36. Zhao X W, Jin F, Cao Y H, Li L J, Zhang Y Z, Zhang Z M, Shen Y O, Lin H J, Pan G T. Combining ability analysis for Pb2+ content in maize and corresponding breeding strategy. J P1ant Genet Res, 2015, 16: 29-36. (in Chinese with English abstract)[22] Lu Y L, Yan J B, Claudia Guimarães T, Taba S, Ha Z F, Gao S B, Chen S J, Li J S, Zhang S H, Vivek S B, Magorokosho C, Mugo S, Makumbi D, Parentoni S N, Shah T, Rong T Z, Crouch J H, Xu Y B. Molecular characterization of global maize breeding germplasm based on genome-wide single nucleotide polymorphisms. Theor Appl Genet, 2009, 120: 93-115.
doi: 10.1007/s00122-009-1162-7[23] 潘光堂, 杨克诚, 李晚忱, 黄玉碧, 高世斌, 兰海, 李芦江, 曹墨菊, 唐祈林, 付凤玲, 周树峰, 吴元奇, 卢艳丽, 林海建, 沈亚欧, 荣廷昭. 我国西南玉米杂种优势群及其杂优模式研究与应用的回顾. 玉米科学. 2020, 28(1): 1-8. Pan G T, Yang K C, Li W C, Huang Y B, Gao S B, Lan H, Cao M J, Tang Q L, Fu F L, Zhou S F, Wu Y Q, Lu Y L, Lin H J, Sheng Y O, Rong T Z. A review of the research and application of heterotic groups and patterns of maize breeding in southwest China. J Maize Sci, 2020, 28(1): 1-8. (in Chinese with English abstract)[24] 梁燕, 高世斌, 谭登峰, 李建, 张志明, 潘光堂. 玉米温热杂交种光周期敏感相关性状的遗传模型研究. 中国农业科学, 2008, 41: 3326-3335. Liang Y, Gao S B, Tan D F, Li J, Zhang Z M, Pan G T. Study on genetic model of traits related to photoperiod sensitive phenomenon of Temperate × Tropical crosses in maize. Sci Agric Sin, 2008, 41: 3326-3335. (in Chinese with English abstract)[25] Mu G Q, Liang Y, Zhang Z M, Wu Y Q, Liu S J, Peng H, Zhang S Z, Pan G T. Mapping quantitative trait loci associated with photoperiod sensitivity in maize (Zea mays L.). J Integr Agric, 2009, 8(1): 24-30.[26] Zhang X, Zhang H, Li L J, Lan H, Ren Z Y, Liu D, Wu L, Liu H L, Jaqueth J, Li B L, Pang G T, Gao S B. Characterizing the population structure and genetic diversity of maize breeding germplasm in southwest China using genome-wide SNP markers. BMC Genomics, 2016, 17: 697.[27] Luo B W, Ma P, Nie Z, Zhang X, He X, Ding X, Feng X, Lu Q X, Ren Z Y, Lin H J, Wu Y Q, Shen Y O, Zhang S Z, Wu L, Liu D, Pan G T, Rong T Z, Gao S B. Combining metabolite profiling with genome-wide association study to reveal response mechanisms of Zea mays seedlings under low-phosphorus conditions. Plant J, 2019, 97: 947-969.
doi: 10.1111/tpj.14160[28] 杨爱国, 张世煌, 李明顺, 荣廷昭, 潘光堂. CIMMYT和我国玉米种质群体的配合力及杂种优势分析. 作物学报, 2006, 32: 1329-1337. (in Chinese with English abstract) Yang A G, Zhang S H, Li M S, Rong T Z, Pan G T. Combining ability and heterosis of 14 CIMMYT and 13 domestic maize populations in an NCII mating design. Acta Agron Sin, 2006, 32: 1329-1337.[29] 邬成, 陈泽辉, 祝云芳, 王安贵, 郭向阳, 李娟. 玉米Tuxpeno和Suwan种质改良系农艺性状的分析. 贵州农业科学, 2010, 38(7): 1-4. Wu C, Chen Z H, Zhu Y F, Wang A G, Guo X Y, Li J. Analysis of agronomic characters of corn Tuxpeno and Suwan germplasm improved lines. Guizhou Agric Sci, 2010, 38(7): 1-4. (in Chinese with English abstract)[30] 陈泽辉, 祝云芳, 王安贵, 郭向阳, 赵丽, 胡兴. 玉米Tuxpeno-Reid和Suwan-Lancaster合成群体相互轮回选择效果及杂种优势研究. 玉米科学, 2013, 21(4): 1-5. Chen Z H, Zhu Y F, Wang A G, Guo X Y, Zhao L, Hu X. Two Maize populations of Tuxpeno-Reid and Suwan-Lancaster by reciprocal selection and the heterosis. J Maize Sci, 2013, 21(4): 1-5. (in Chinese with English abstract)
doi: 10.2135/cropsci1966.0011183X000600010011x[10] 陈雪求, 李殿申, 何文安, 王春生, 韩玉珍. 关于作物生态育种涉及的若干问题的探讨. 吉林农业大学学报, 1999, 21(2): 99-102. Chen X Q, Li D S, He W A, Wang C S, Han Y Z. The discussion of several problems in plant ecological breeding. J Jilin Agric Univ, 1999, 21(2): 99-102. (in Chinese with English abstract)[11] 荣廷昭, 李晚忱, 潘光堂. 新世纪初发展我国玉米遗传育种技术的思考. 玉米科学. 2003, 11(增刊2): 42-53. Rong T Z, Li W C, Pan G T. Suggestion on development of science and technology in maize genetics and breeding at the beginning of 21st century. J Maize Sci, 2003, 11(S2): 42-53. (in Chinese with English abstract)[12] 杨克诚, 苟才明, 荣廷昭, 潘光堂. 西南地区玉米育种现状及发展对策. 玉米科学, 2008, 16(3): 8-11. Yang K C, Gou C M, Rong T Z, Pang G T. Discussion present situation of maize breeding and countermeasure in southwest region. J Maize Sci, 2008, 16(3): 8-11. (in Chinese with English abstract)[13] 潘光堂, 杨克诚. 我国西南玉米育种面临的挑战及相应对策探讨. 作物学报, 2012, 38: 1141-1147. Pan G T, Yang K C. Facing to challenges and corresponding strategies for maize breeding in southwestern region of China. Acta Agron Sin, 2012, 38: 1141-1147. (in Chinese with English abstract)
doi: 10.3724/SP.J.1006.2012.01141[14] 李高科, 潘光堂. 西南玉米种质利用现状及研究进展. 玉米科学, 2005, 21(2): 3-7. Li G K, Pan G T. The utilization present situation and study advances of the germplasm in southwest maize zone. J Maize Sci, 2005, 13(2): 3-7. (in Chinese with English abstract)[15] 胡瑞发, Meng Erika C H, 张世煌, 石晓华. 采用参与式方法评估中国玉米研究的优先序. 中国农业科学, 2004, 37: 781-787. Hu R F, Meng Erika C H, Zhang S H, Shi X H. Prioritization for maize research and development in China. Sci Agric Sin, 2004, 37: 781-787. (in Chinese with English abstract)[16] 李芦江, 陈文生, 张敏, 兰海, 潘光堂, 杨克诚. 240份玉米自交系纹枯病抗性鉴定与评价. 植物遗传资源学报, 2014, 15: 1113-1119. Li L J, Chen W S, Zhang M, Lan H, Pan G T, Yang K C. Identification and evolution of 240 maize inbred lines for resistant to banded leaf and sheath blight. J Plant Genet Res, 2014, 15: 1113-1119.. (in Chinese with English abstract)[17] 李辉, 向葵, 张志明, 袁广胜, 潘光堂. 玉米穗腐病抗性机制及抗病育种研究进展. 玉米科学, 2019, 27(4): 167-174. Li H, Xiang K, Zhang Z M, Yuan G S, Pan G T. Research progress on ear rot resistant mechanism and resistant breeding in maize. J Maize Sci, 2019, 27(4): 167-174. (in Chinese with English abstract)[18] 张吉海, 高世斌, 杨克诚, 张志明, 林海建, 黄宁, 郑溟, 徐克成, 陈义轩, 潘光堂. 玉米耐低磷种质资源的筛选与鉴定. 植物遗传资源学报, 2008, 9: 335-339. Zhang J H, Gao S B, Yang K C, Zhang Z M, Lin H J, Huang N, Zheng M, Xu K C, Chen Y X, Pan G T. Screening and identification for tolerance to low phosphorus stress of maize germplasm resources. J P1ant Genet Res, 2008, 9: 335-339. (in Chinese with English abstract)[19] Zhang L T, Li J, Rong T Z, Gao S B, Wu F K, Xu J, Li M L, Cao M J, Wang J, Hu E L, Liu Y X, Lu Y L. Large-scale screening maize germplasm for low-phosphorus tolerance using multiple selection criteria. Euphytica, 2014, 197: 435-446.
doi: 10.1007/s10681-014-1079-3[20] Zhang Z M, Jin F, Wang C, Luo J, Lin H J, Xiang K, Liu L, Zhao M J, Zhang Y S, Ding H P, Zhou S F, Shen Y O, Pan G T. Difference between Pb and Cd accumulation in 19 elite maize inbred lines and application prospects. J Biomed Biotechnol, 2012, ID271485.[21] 赵雄伟, 金枫, 曹艳花, 李芦江, 张永中, 张志明, 沈亚欧, 林海建, 潘光堂. 玉米重金属铅Pb2+含量的配合力分析与育种对策. 植物遗传资源学报, 2015, 16: 29-36. Zhao X W, Jin F, Cao Y H, Li L J, Zhang Y Z, Zhang Z M, Shen Y O, Lin H J, Pan G T. Combining ability analysis for Pb2+ content in maize and corresponding breeding strategy. J P1ant Genet Res, 2015, 16: 29-36. (in Chinese with English abstract)[22] Lu Y L, Yan J B, Claudia Guimarães T, Taba S, Ha Z F, Gao S B, Chen S J, Li J S, Zhang S H, Vivek S B, Magorokosho C, Mugo S, Makumbi D, Parentoni S N, Shah T, Rong T Z, Crouch J H, Xu Y B. Molecular characterization of global maize breeding germplasm based on genome-wide single nucleotide polymorphisms. Theor Appl Genet, 2009, 120: 93-115.
doi: 10.1007/s00122-009-1162-7[23] 潘光堂, 杨克诚, 李晚忱, 黄玉碧, 高世斌, 兰海, 李芦江, 曹墨菊, 唐祈林, 付凤玲, 周树峰, 吴元奇, 卢艳丽, 林海建, 沈亚欧, 荣廷昭. 我国西南玉米杂种优势群及其杂优模式研究与应用的回顾. 玉米科学. 2020, 28(1): 1-8. Pan G T, Yang K C, Li W C, Huang Y B, Gao S B, Lan H, Cao M J, Tang Q L, Fu F L, Zhou S F, Wu Y Q, Lu Y L, Lin H J, Sheng Y O, Rong T Z. A review of the research and application of heterotic groups and patterns of maize breeding in southwest China. J Maize Sci, 2020, 28(1): 1-8. (in Chinese with English abstract)[24] 梁燕, 高世斌, 谭登峰, 李建, 张志明, 潘光堂. 玉米温热杂交种光周期敏感相关性状的遗传模型研究. 中国农业科学, 2008, 41: 3326-3335. Liang Y, Gao S B, Tan D F, Li J, Zhang Z M, Pan G T. Study on genetic model of traits related to photoperiod sensitive phenomenon of Temperate × Tropical crosses in maize. Sci Agric Sin, 2008, 41: 3326-3335. (in Chinese with English abstract)[25] Mu G Q, Liang Y, Zhang Z M, Wu Y Q, Liu S J, Peng H, Zhang S Z, Pan G T. Mapping quantitative trait loci associated with photoperiod sensitivity in maize (Zea mays L.). J Integr Agric, 2009, 8(1): 24-30.[26] Zhang X, Zhang H, Li L J, Lan H, Ren Z Y, Liu D, Wu L, Liu H L, Jaqueth J, Li B L, Pang G T, Gao S B. Characterizing the population structure and genetic diversity of maize breeding germplasm in southwest China using genome-wide SNP markers. BMC Genomics, 2016, 17: 697.[27] Luo B W, Ma P, Nie Z, Zhang X, He X, Ding X, Feng X, Lu Q X, Ren Z Y, Lin H J, Wu Y Q, Shen Y O, Zhang S Z, Wu L, Liu D, Pan G T, Rong T Z, Gao S B. Combining metabolite profiling with genome-wide association study to reveal response mechanisms of Zea mays seedlings under low-phosphorus conditions. Plant J, 2019, 97: 947-969.
doi: 10.1111/tpj.14160[28] 杨爱国, 张世煌, 李明顺, 荣廷昭, 潘光堂. CIMMYT和我国玉米种质群体的配合力及杂种优势分析. 作物学报, 2006, 32: 1329-1337. (in Chinese with English abstract) Yang A G, Zhang S H, Li M S, Rong T Z, Pan G T. Combining ability and heterosis of 14 CIMMYT and 13 domestic maize populations in an NCII mating design. Acta Agron Sin, 2006, 32: 1329-1337.[29] 邬成, 陈泽辉, 祝云芳, 王安贵, 郭向阳, 李娟. 玉米Tuxpeno和Suwan种质改良系农艺性状的分析. 贵州农业科学, 2010, 38(7): 1-4. Wu C, Chen Z H, Zhu Y F, Wang A G, Guo X Y, Li J. Analysis of agronomic characters of corn Tuxpeno and Suwan germplasm improved lines. Guizhou Agric Sci, 2010, 38(7): 1-4. (in Chinese with English abstract)[30] 陈泽辉, 祝云芳, 王安贵, 郭向阳, 赵丽, 胡兴. 玉米Tuxpeno-Reid和Suwan-Lancaster合成群体相互轮回选择效果及杂种优势研究. 玉米科学, 2013, 21(4): 1-5. Chen Z H, Zhu Y F, Wang A G, Guo X Y, Zhao L, Hu X. Two Maize populations of Tuxpeno-Reid and Suwan-Lancaster by reciprocal selection and the heterosis. J Maize Sci, 2013, 21(4): 1-5. (in Chinese with English abstract)
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