首页 > 分享 > 黄淮海地区夏玉米育种目标与策略

黄淮海地区夏玉米育种目标与策略

花匠小妙招
2025-05-11 03:04

[1] Li Q, Wang J C, Ye J W, Zheng X X, Xiang X L, Li C S, Fu M M, Wang Q, Zhang Z Y, Wu Y R. The maize imprinted gene Floury3 encodes a PLATZ protein required for tRNA and 5S rRNA transcription through interaction with RNA polymerase III. Plant Cell, 2017, 29: 2661-2675.[2] 徐小曼, 王成军. 我国玉米生产要素配置效率研究: 基于黑龙江、河南和四川3个玉米主产省的调查. 玉米科学, 2023, 31(2): 174-180. Xu X M, Wang C J. Study on allocation efficiency of corn production factors in China: based on the investigation of three major corn producing provinces, Heilongjiang, Henan, and Sichuan. J Maize Sci, 2023, 31(2): 174-180 (in Chinese with English abstract).[3] 刘世梦倪, 宋敏. 品种改良对玉米单产的贡献率分析. 河南农业大学学报, 2021, 55: 364-371. Liu S M N, Song M. Analysis on the contribution rate of variety improvement to corn yield. J Henan Agric Univ, 2021, 55: 364-371 (in Chinese with English abstract).[4] 戴景瑞, 鄂立柱. 我国玉米育种科技创新问题的几点思考. 玉米科学, 2010, 18(1): 1-5. Dai J R, E L Z. Scientific and technological innovation of maize breeding in China. J Maize Sci, 2010, 18(1): 1-5 (in Chinese with English abstract).[5] Ye X X, Ye Y, Chai R S, Li J L, Ma C, Li H Y, Xiong Q Z, Gao H J. The influence of a year-round tillage and residue management model on soil N fractions in a wheat-maize cropping system in central China. Sci Rep, 2019, 9: 4767.
doi: 10.1038/s41598-019-41409-5pmid: 30886311[6] 周宝元, 葛均筑, 孙雪芳, 韩玉玲, 马玮, 丁在松, 李从锋, 赵明. 黄淮海麦玉两熟区周年光温资源优化配置研究进展. 作物学报, 2021, 47: 1843-1853.
doi: 10.3724/SP.J.1006.2021.13012 Zhou B Y, Ge J Z, Sun X F, Han Y L, Ma W, Ding Z S, Li C F, Zhao M. Research advance on optimizing annual distribution of solar and heat resources for double cropping system in the Yellow-Huaihe-Haihe Rivers plain. Acta Agron Sin, 2021, 47: 1843-1853 (in Chinese with English abstract).[7] 周宝元, 马玮, 孙雪芳, 高卓晗, 丁在松, 李从锋, 赵明. 播/收期对冬小麦-夏玉米一年两熟模式周年气候资源分配与利用特征的影响. 中国农业科学, 2019, 52: 1501-1517.
doi: 10.3864/j.issn.0578-1752.2019.09.003 Zhou B Y, Ma W, Sun X F, Gao Z H, Ding Z S, Li C F, Zhao M. Effects of different sowing and harvest dates of winter wheat-summer maize under double cropping system on the annual climate resource distribution and utilization. Sci Agric Sin, 2019, 52: 1501-1517 (in Chinese with English abstract).[8] 任冠怡. 我国玉米主要产区生产效率分析. 河南农业大学硕士学位论文,河南郑州, 2019. Ren G Y. The Analysis of Corn Productivity in China Major Production Areas. MS Thesis of Henan Agricultural University, Zhengzhou, Henan, China, 2019 (in Chinese with English abstract).[9] 许海涛, 王友华, 许波, 王成业, 张海申. 黄淮海区玉米生产发展现状、存在问题及对策. 玉米科学, 2007, 15(增刊1): 160-162. Xu H T, Wang Y H, Xu B, Wang C Y, Zhang H S. Present situation and problem in the development of corn production in Huang-Huai-Hai Valley and its countermeasure. J Maize Sci, 2007, 15(S1): 160-162 (in Chinese with English abstract).[10] Zhao C, Liu B, Piao S L, Wang X H, Lobell D B, Huang Y, Huang M T, Yao Y T, Bassu S, Ciais P, Durand J L, Elliott J, Ewert F, Janssens I A, Li T, Lin E D, Liu Q, Martre P, Müller C, Peng S S, Peñuelas J, Ruane A C, Wallach D, Wang T, Wu D H, Liu Z, Zhu Y, Zhu Z C, Asseng S. Temperature increase reduces global yields of major crops in four independent estimates. Proc Natl Acad Sci USA, 2017, 114: 9326-9331.
doi: 10.1073/pnas.1701762114pmid: 28811375[11] 刘万才, 刘振东, 黄冲, 陆明红, 刘杰, 杨清坡. 近10年农作物主要病虫害发生危害情况的统计和分析. 植物保护, 2016, 42(5): 1-9. Liu W C, Liu Z D, Huang C, Lu M H, Liu J, Yang Q P. Statistics and analysis of crop yield losses caused by main diseases and insect pests in recent 10 years. Plant Prot, 2016, 42(5): 1-9 (in Chinese with English abstract).[12] 高俊, 汪慧泉, 顾东祥, 张斯梅, 张传辉, 顾克军. 秸秆还田对土壤生态及农作物生长发育影响的研究进展. 中国农学通报, 2023, 39(30): 87-93.
doi: 10.11924/j.issn.1000-6850.casb2022-0897 Gao J, Wang H Q, Gu D X, Zhang S M, Zhang C H, Gu K J. Effects of straw returning on soil ecology and crop growth and development. Chin Agric Sci Bull, 2023, 39(30): 87-93 (in Chinese with English abstract).
doi: 10.11924/j.issn.1000-6850.casb2022-0897[13] 范非. 浅析农村土地规模化经营现状: 以山东省济南市为例. 中国统计, 2019, (4): 72-74. Fan F. A brief analysis of the current situation of large-scale management of rural land: taking Jinan city of Shandong province as an example. China Stat, 2019, (4): 72-74 (in Chinese).[14] 王琳颖. 乡村振兴战略下农村土地经营权流转的法律规制. 现代农业研究, 2022, 28(3): 30-32. Wang L Y. Legal regulation of rural land management right transfer under the strategy of rural revitalization. Mod Agric Res, 2022, 28(3): 30-32 (in Chinese with English abstract).[15] 韩占兵. 农业生产规模化经营现状、障碍与政策支持. 农村经济与科技, 2018, 29(7): 1-2. Han Z B. Current situation, obstacles and policy support of large-scale operation of agricultural production. Rural Econ Sci Technol, 2018, 29(7): 1-2 (in Chinese).[16] 祖祎祎. 玉米单粒播种子质量标准即将实施. 农民日报, 2021-10-26 (007). Zu W W. The quality standard of maize single-seed sowing will be implemented soon. Farmers’ Daily, 2021-10-26 (007) (in Chinese).[17] 孙海全, 邓奥严, 姜业成, 王立春, 尤丽娜. 玉米生产全程机械化现状和存在的问题及发展趋势. 农机科技推广, 2024, (5): 4-8. Sun H Q, Deng A Y, Jiang Y C, Wang L C, You L N. Present situation, existing problems and development trend of corn production mechanization. Agric Mach Technol Ext, 2024, (5): 4-8 (in Chinese).[18] 辛尚龙, 赵武云, 曲浩, 杨天, 史瑞杰, 闫治斌, 马海军. 玉米机械化收获技术现状分析及发展趋势. 农机化研究, 2024, 46(10): 9-14. Xin S L, Zhao W Y, Qu H, Yang T, Shi R J, Yan Z B, Ma H J. Current situation analysis and development trend of maize mechanized harvesting technology. J Agric Mech Res, 2024, 46(10): 9-14 (in Chinese with English abstract).[19] Miu P. Combine Harvesters:Theory, Modeling, and Design. BocaTaton: CRC Press Inc., 2015. pp 3-25.[20] 王克如, 李璐璐, 高尚, 王浥州, 黄兆福, 谢瑞芝, 明博, 侯鹏, 薛军, 张国强, 侯梁宇, 李少昆. 中国玉米机械粒收质量主要指标分析. 作物学报, 2021, 47: 2440-2449.
doi: 10.3724/SP.J.1006.2021.03046 Wang K R, Li L L, Gao S, Wang Y Z, Huang Z F, Xie R Z, Ming B, Hou P, Xue J, Zhang G Q, Hou L Y, Li S K. Analysis of main quality index of corn harvesting with combine in China. Acta Agron Sin, 2021, 47: 2440-2449 (in Chinese with English abstract).[21] 胥丽艳. 玉米机械化收获损失影响因素分析. 农机使用与维修, 2023, (10): 79-81. Xu L Y. Analysis of factors influencing losses in mechanized corn harvesting. Agric Mach Using Maint, 2023, (10): 79-81 (in Chinese with English abstract).[22] Wu Y R, Messing J. RNA interference can rebalance the nitrogen sink of maize seeds without losing hard endosperm. PLoS One, 2012, 7: e32850.[23] Vasal S K, Villegas E, Bjarnason M, Gelaw B, Goertz P. Genetic modifiers and breeding strategies in developing hard endosperm opaque-2 materials. Proceedings of the Improvement of Quality Traits of Maize for Grain and Silage Use, 1980. pp37-73.[24] 白岩, 高婷婷, 卢实, 郑淑波, 路明. 近四十年来我国玉米大品种的历史沿革与发展趋势. 作物学报, 2023, 49: 2064-2076.
doi: 10.3724/SP.J.1006.2023.23067 Bai Y, Gao T T, Lu S, Zheng S B, Lu M. A retrospective analysis of the historical evolution and developing trend of maize mega varieties in China from 1982 to 2020. Acta Agron Sin, 2023, 49: 2064-2076 (in Chinese with English abstract).
doi: 10.3724/SP.J.1006.2023.23067[25] Mansfield B D, Mumm R H. Survey of plant density tolerance in U.S. maize germplasm. Crop Sci, 2014, 54: 157-173.[26] Wang Y B, Bao J X, Wei X, Wu S W, Fang C W, Li Z W, Qi Y C, Gao Y X, Dong Z Y, Wan X Y. Genetic structure and molecular mechanisms underlying the formation of tassel, anther, and pollen in the male inflorescence of maize (Zea mays L.). Cells, 2022, 11: 1753.[27] 任佰朝, 李利利, 董树亭, 刘鹏, 赵斌, 杨今胜, 王丁波, 张吉旺. 种植密度对不同株高夏玉米品种茎秆性状与抗倒伏能力的影响. 作物学报, 2016, 42: 1864-1872.
doi: 10.3724/SP.J.1006.2016.01864 Ren B Z, Li L L, Dong S T, Liu P, Zhao B, Yang J S, Wang D B, Zhang J W. Effects of plant density on stem traits and lodging resistance of summer maize hybrids with different plant heights. Acta Agron Sin, 2016, 42: 1864-1872 (in Chinese with English abstract).[28] Wang H H, Huang Y C, Xiao Q, Huang X, Li C S, Gao X Y, Wang Q, Xiang X L, Zhu Y D, Wang J C, Wang W Q, Larkins B A, Wu Y R. Carotenoids modulate kernel texture in maize by influencing amyloplast envelope integrity. Nat Commun, 2020, 11: 5346.
doi: 10.1038/s41467-020-19196-9pmid: 33093471[29] Wang H Q, Wang K, Du Q G, Wang Y F, Fu Z Y, Guo Z Y, Kang D M, Li W X, Tang J H. Maize Urb2 protein is required for kernel development and vegetative growth by affecting pre-ribosomal RNA processing. New Phytol, 2018, 218: 1233-1246.
doi: 10.1111/nph.15057pmid: 29479724[30] Wang H C, Sayyed A, Liu X Y, Yang Y Z, Sun F, Wang Y, Wang M D, Tan B C. SMALL KERNEL4 is required for mitochondrial cox1 transcript editing and seed development in maize. J Integr Plant Biol, 2020, 62: 777-792.[31] Huang Y C, Wang H H, Huang X, Wang Q, Wang J C, An D, Li J Q, Wang W Q, Wu Y R. Maize VKS1 regulates mitosis and cytokinesis during early endosperm development. Plant Cell, 2019, 31: 1238-1256.[32] Zhang S S, Zhan J P, Yadegari R. Maize opaque mutants are no longer so opaque. Plant Reprod, 2018, 31: 319-326.
doi: 10.1007/s00497-018-0344-3pmid: 29978299[33] Chen G S, Zhang B, Ding J Q, Wang H Z, Deng C, Wang J L, Yang Q H, Pi Q Y, Zhang R Y, Zhai H Y, Dong J F, Huang J S, Hou J B, Wu J H, Que J M, Zhang F, Li W Q, Min H X, Tabor G, Li B L, Liu X G, Zhao J R, Yan J B, Lai Z B. Cloning southern corn rust resistant gene RppK and its cognate gene AvrRppK from Puccinia polysora. Nat Commun, 2022, 13: 4392.[34] Deng C, Leonard A, Cahill J, Lv M, Li Y R, Thatcher S, Li X Y, Zhao X D, Du W J, Li Z, Li H M, Llaca V, Fengler K, Marshall L, Harris C, Tabor G, Li Z M, Tian Z Q, Yang Q H, Chen Y H, Tang J H, Wang X T, Hao J J, Yan J B, Lai Z B, Fei X H, Song W B, Lai J S, Zhang X C, Shu G P, Wang Y B, Chang Y X, Zhu W L, Xiong W, Sun J, Li B L, Ding J Q. The RppC-AvrRppC NLR-effector interaction mediates the resistance to southern corn rust in maize. Mol Plant, 2022, 15: 904-912.[35] Mu X H, Dai Z Z, Guo Z Y, Zhang H, Yang J P, Gan X K, Li J K, Liu Z H, Tang J H, Gou M Y. Systematic dissection of disease resistance to southern corn rust by bulked-segregant and transcriptome analysis. Crop J, 2022, 10: 426-435.
doi: 10.1016/j.cj.2021.07.001[36] Ren W, Zhao L F, Liang J X, Wang L F, Chen L M, Li P C, Liu Z G, Li X J, Zhang Z H, Li J P, He K H, Zhao Z, Ali F, Mi G H, Yan J B, Zhang F S, Chen F J, Yuan L X, Pan Q C. Genome-wide dissection of changes in maize root system architecture during modern breeding. Nat Plants, 2022, 8: 1408-1422.
doi: 10.1038/s41477-022-01274-zpmid: 36396706[37] 霍治国, 张海燕, 李春晖, 孔瑞, 江梦圆. 中国玉米高温热害研究进展. 应用气象学报, 2023, 34: 1-14. Huo Z G, Zhang H Y, Li C H, Kong R, Jiang M Y. Review on high temperature heat damage of maize in China. J Appl Meteor Sci, 2023, 34: 1-14 (in Chinese with English abstract).[38] 降志兵, 陶洪斌, 吴拓, 王璞, 宋庆芳. 高温对玉米花粉活力的影响. 中国农业大学学报, 2016, 21(3): 25-29. Jiang Z B, Tao H B, Wu T, Wang P, Song Q F. Effects of high temperature on maize pollen viability. J China Agric Univ, 2016, 21(3): 25-29 (in Chinese with English abstract).[39] 杨国虎. 玉米花粉花丝耐热性研究进展. 种子, 2005, 24(2): 47-51. Yang G H. The progress of pollens and silks thermotolerance in Maize. Seed, 2005, 24(2): 47-51 (in Chinese).[40] Djalovic I, Kundu S, Bahuguna R N, Pareek A, Raza A, Singla-Pareek S L, Prasad P V V, Varshney R K. Maize and heat stress: physiological, genetic, and molecular insights. Plant Genome, 2024, 17: e20378.[41] Zenda T, Wang N, Dong A Y, Zhou Y Z, Duan H J. Reproductive-stage heat stress in cereals: impact, plant responses and strategies for tolerance improvement. Int J Mol Sci, 2022, 23: 6929.[42] 穆心愿, 马智艳, 卢良涛, 吕姗姗, 刘天学, 胡秀丽, 李树岩, 蒋寒涛, 范艳萍, 赵霞, 唐保军, 夏来坤. 授粉期高温胁迫对夏玉米植株形态、叶片光合及产量的影响. 中国生态农业学报(中英文), 2024, 32: 106-118. Mu X Y, Ma Z Y, Lu L T, Lyu S S, Liu T X, Hu X L, Li S Y, Jiang H T, Fan Y P, Zhao X, Tang B J, Xia L K. Effects of high temperature stress during pollination on plant morphology, leaf photosynthetic characteristics and yield of summer maize. Chin J Eco-Agric, 2024, 32: 106-118 (in Chinese with English abstract).