[1] |
潘智, 杨枝煌. 中国甜菜糖业现状及其应对[J]. 中国糖料, 2014(01):68-73.
|
[2] |
曲文章, 崔广臣, 陈连江, 等. 中国甜菜学[M]. 哈尔滨: 黑龙江人民出版社, 2003:19-30.
|
[3] |
陈丽, 刘景泉, 程大友, 等. 优质抗病甜菜新品种中甜204的选育[J]. 中国糖料, 2001(2):3-5.
|
[4] |
Saito K, Hosokawa S. Statistical analysis of resistance to leaf-spot disease (Cercospora beticola) in sugar beet[J]. Japanese journal of breeding [J]. 1964, 14(2):20-24.
|
[5] |
Zhang Y F, Li G L, Wang X F, et al. Transcriptomic profiling of taproot growth and sucrose accumulation in sugar beet (Beta vulgaris L. ) at different developmental stages[J]. PLoS One, 2017, 12(4):e0175454.
doi: 10.1371/journal.pone.0175454
URL
|
[6] |
高妙珍. 甜菜根重和含糖率相关关系的研究[J]. 中国糖料, 1995(1):16-19.
|
[7] |
杨瑞红, 李占学. 甜菜含糖率与根重关系的研讨[J]. 中国甜菜糖业, 1994(4):9-12.
|
[8] |
邵科, 李满红, 李国龙, 等. 甜菜生育期根重与含糖率增长关系及其变化规律的研究[J]. 中国甜菜糖业, 2018(1):1-9.
|
[9] |
郑子英, 崔平. 甜菜品种资源的品质研究[J]. 中国甜菜糖业, 1994(3):16-19.
|
[10] |
程大友, 伊尚武. 关于糖甜菜工艺品质的研究及其育种现状[J]. 中国甜菜, 1990(2):43-46.
|
[11] |
Fernando Gil J, Liebe S, Thiel H, et al. Massive up-regulation of LBD transcription factors and EXPANSINs highlights the regulatory programs of rhizomania disease[J]. Mol Plant Pathol, 2018, 19(10):2333-2348.
doi: 10.1111/mpp.12702
pmid: 30011123
|
[12] |
Taguchi K, Ogata N, Kubo T, et al. Quantitative trait locus responsible for resistance to Aphanomyces root rot (black root) caused by Aphanomyces cochlioides Drechs. in sugar beet[J]. TheorAppl Genet, 2009, 118(2):227-34.
doi: 10.1007/s00122-008-0891-3
URL
|
[13] |
Vogel J, Kenter C, Holst C, et al. New Generation of Resistant Sugar Beet Varieties for Advanced Integrated Management of Cercospora Leaf Spot in Central Europe[J]. Front Plant Sci, 2018, 27, 9:222.
doi: 10.3389/fpls.2018.00222
URL
|
[14] |
陈丽, 赵春雷, 李彦丽, 等. 中国甜菜主要种质资源抗病性鉴定与评价[J]. 中国农学通报, 2020, 36(26):14-21.
|
[15] |
黎裕, 王天宇. 美国植物种质资源保护与研究利用[J]. 作物杂志, 2018(6):1-9.
|
[16] |
Li J, Lühmann A K, Weißleder K, et al. Genome-wide distribution of genetic diversity and linkage disequilibrium in elite sugar beet germplasm[J]. BMC Genomics, 2011, 12:484.
doi: 10.1186/1471-2164-12-484
URL
|
[17] |
刘景泉. 甜菜品质性状的遗传相关与评价方法[J]. 中国甜菜, 1990(1):51-57.
|
[18] |
Prune P-E, Olivier G, Bruno D, et al. Discovery of interesting new polymorphisms in a sugar beet (elite exotic) progeny by comparison with an elite panel[J]. Theor Appl Genet., 2019, 132(11):3063-3078.
doi: 10.1007/s00122-019-03406-0
URL
|
[19] |
Ewa M W, Sławomir J K. Content of polycyclic aromatic hydrocarbons in soil in a multi-annual fertilization regime[J]. Environ Monit Assess, 2020, 92(5):314.
|
[20] |
Guy A, Eduardo B, Dudy B-Z. The sugar beet gene encoding the sodium/proton exchanger 1 (BvNHX1) is regulated by a MYB transcription factor[J]. Planta, 2010, 232(1):187-195.
doi: 10.1007/s00425-010-1160-7
URL
|
[21] |
乔志文. 甜菜褐斑病发生时间动态规律研究[J]. 中国农学通报, 2019, 35(6):83-88.
|
[22] |
乔志文, 陆安军, 韩成贵. 黑龙江省甜菜立枯病病区和品种抗病性分类研究[J]. 中国农学通报, 2018(34):152-158.
|
[23] |
王叶琼, 於丽华, 王皙玮. 甜菜根腐病的发生及防治研究进展[J]. 中国农学通报, 2017, 33(22):126-132.
|
[24] |
乔志文, 张杰, 赵海英. 国外甜菜褐斑病、根腐病、黄化病毒病研究进展[J]. 中国糖料, 2011(3):55-59.
|
[25] |
Monteiro F, Frese L, Castro S, et al. Genetic and Genomic Tools to Asssist Sugar Beet Improvement: The Value of the Crop Wild Relatives[J]. Front Plant Sci, 2018, 9:74.
doi: 10.3389/fpls.2018.00074
pmid: 29467772
|
[26] |
崔平. 中国甜菜种质资源性状特征及遗传多样性分析[J]. 中国糖料, 2010(3):46-48.
|
[27] |
邹奕, 吴则东, 兴旺, 等. 甜菜种质资源遗传多样性研究进展[J]. 中国糖料, 2018(5):73-76,80.
|
[28] |
崔平. 甜菜种质资源描述规范和数据标准[M]. 北京: 中国农业出版社, 2006:76-83.
|
[29] |
杨在中. 对甜菜单株后代观察株效的计算[J]. 中国甜菜糖业, 1998, 2:9-12
|
[30] |
邓先勇, 陶胜国. 制糖废蜜糖分损失的影响因素及其计算[J]. 企业科技与发展, 2013(15):45-46.
|
[31] |
何凤仪. 甜菜糖灰分的影响因素及其控制研究[D]. 广州:华南理工大学, 2009:16-22.
|