Chinese Agricultural Science Bulletin ›› 2020, Vol. 36 ›› Issue (15): 152-159.doi: 10.11924/j.issn.1000-6850.casb19010144
Special Issue: 现代农业发展与乡村振兴; 农业工程; 油料作物
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Zhang Yinping1, Wang Qiang1(), Zhao Li1, Lin Yongxiang1, Zhang Yi1, Xu Guizhen2
Received:
2019-03-01
Revised:
2019-03-15
Online:
2020-05-25
Published:
2020-05-21
Contact:
Wang Qiang
E-mail:wq161@aliyun.com
CLC Number:
Zhang Yinping, Wang Qiang, Zhao Li, Lin Yongxiang, Zhang Yi, Xu Guizhen. Sesame Mechanized Production: Research Status and Development Tendency[J]. Chinese Agricultural Science Bulletin, 2020, 36(15): 152-159.
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URL: https://www.casb.org.cn/EN/10.11924/j.issn.1000-6850.casb19010144
[1] | Georgiev S, Stamatov S, Deshev M . Requirements to sesame (Sesamum indicum L.) cultivars breeding for mechanized harvesting[J]. Bulgarian Journal of Agricultural Science, 2008,14:616-620. |
[2] | Stamatov S, Deshev M . Model of breeding for high yields in non-shattering sesame (Sesamum indicum L.) suitable for mechanized harvest[J]. Rasteniev'dni Nauki, 2010,47(2):99-101. |
[3] | Georgiev, S, Stamatov, S, Deshev M . Analysis of heterosis and combining ability in some morphological characters in sesame (Sesamum indicum L.)[J] Bulgarian Journal of Agricultural Science, 2011,17:456-464. |
[4] | Langham Derald Ray. Non-dehiscent black-seeded sesame variety sesaco 55[P]. USA: US 08003848, 2011-8-23. |
[5] | Langham Derald Ray. Non-dehiscent sesame variety Sesaco 27[P]. USA: 07964768, 2011-6-21. |
[6] | Langham, D R . Pygmy sesame plants for mechanical harvesting[P]. USA: 8,664,472. 2014-03-04. |
[7] | Stamatov S, Ishpekov S, Naydenov N , et al. The reduction rate of seed moisture as an indicator for determining the susceptibility of sesame plants for mechanized harvesting [R]. , 317209579. |
[8] | Stamatov S, Ishpekov S, Deshev M , et al. Application of the independent subjective evaluation method of the hybrid material in the breeding of sesame (Sesamum indicum L). Bulgarian Journal of Agricultural Science, 2017,23(4):584-588. |
[9] | Couch A, Gloaguen R M, Langham D R , et al. Non-dehiscent sesame (Sesamum indicum L.): its unique production potential and expansion into the southeastern USA[J]. Journal of Crop Improvement, 2017,31(2):101-172. |
[10] | Deshev M, Stamatov S . Bulgarian approaches and methods for selection of sesame varieties(Sesamum indicum L.), suitable for mechanized harvesting[R]. 2017. |
[11] | Stamatov S K, Deshev M G . Review of the methods for breeding of sesame varieties (Sesamum indicum L.) in Bulgaria[J]. Bulgarian Journal of Agricultural Science, 2018,24(3):411-416. |
[12] | 王瑞霞, 张春花, 杨光宇 , 等. 周口芝麻产业发展现状、存在问题及建议[J]. 农业科技通讯, 2015(4):25-27. |
[13] | 张体德, 王保勤, 杜振伟 , 等. 河南省芝麻育种成果回顾与展望[J]. 河南农业科学, 2017(10):38-43. |
[14] | 那艳斌, 孙会杰, 高德学 . 辽宁芝麻种质资源形态多样性分析[J]. 辽宁农业科学, 2018(05):1-7. |
[15] | 刘红艳, 周芳, 周婷 , 等. 全国芝麻区试(江淮片)品种主要农艺性状和品质特性的比较[EB/OL]. 分子植物育种, . |
[16] | 于沐, 周秋峰, 赵建国 , 等. 芝麻诱发突变技术育种研究进展[J]. 生物技术通报, 2017(11):14-18. |
[17] |
陈占宽, 郅玉宝, 易明林 , 等. 芝麻人工构建雄性不育基因的转化研究初报[J]. 华北农学报, 1996,11(4):33-38.
doi: 10.3321/j.issn:1000-7091.1996.04.007 URL |
[18] | Yadav M, Chaudhary D, Sainger M , et al. Agrobacterium tumefaciens-mediated genetic transformation of sesame(Sesamum indicum L.), Plant Cell Tiss. Organ Cult., 2010,103(3):377-386. |
[19] | 魏利斌, 马琴, 琚铭 , 等. 芝麻子叶基因转化受体系统的建立[J]. 分子植物育种, 2011,09(6):770-778. |
[20] | 杨剑波, 倪大虎, 魏鹏程 , 等. 转基因植物风险防控技术研究[M]. 北京: 科学出版社. |
[21] | Topakci M, Karayel D, Canakci M , et al. Sesame hill dropping performance of a vacuum seeder for different tillage practices[J]. Applied Engineering in Agriculture, 2011,27(2):203-209. |
[22] | Ishpekov S, Naydenov N, Zaykov R , et al. Releasing of seeds by a lateral mechanical impact for feeding sesame stems into harvester[J]. Agricultural Engineering International, 2017,19(4):54-60. |
[23] | Ishpekov S, Petrov P, Triffonov A . Investigation the indices for mechanized picking sesame capsules. In Bulgarian Journal of Agricultural Science, April 2012. |
[24] | Ishpekov S, Trifonov A, Stamatov S , et al. Shock shattering Indices of non-burst sesame capsules. 2008, See discussions, stats, and author profiles for this publication at: . |
[25] | Ishpekov S, Petrov P, Triffonov A , et al. Investigation the indices for mechanized picking sesame capsules[J]. Bulgarian Journal of Agricultural Science, 2012,18(4):635-640. |
[26] | Lee K S, Noh H K . Development of Threshing Machine for Shatter-Resistant Sesame[J]. Journal of Biosystems Engineering, 2015,40(2):110-114. |
[27] | Ishpekov S S, Zaykov R, Petrov P , et al. Indices of flow fruit detacher with angular vibrations at inertial threshing of sesame[J]. Agricultural Engineering International: CIGR Journal, 2016,18(2):94-102. |
[28] | 刘文萍 . 山西芝麻高产高效栽培技术与对机械化的需求[J]. 农业技术与装备, 2009(13):52. |
[29] | 刘曙光, 尚书旗, 杨然兵 , 等. 小区播种机存种装置参数试验及优化[J]. 农业工程学报. 2010(9):101-109. |
[30] | 魏林根, 肖运萍, 汪瑞清 , 等. 芝麻播种机的选择及使用技术[J]. 农村百事通, 2014(4):54-55. |
[31] | 孟庆华, 宫慧慧 . 一种用于麦后直播芝麻的旋耕施肥播种机[P]. 申请号:201721847625.7. |
[32] | 张春平 等. 对转旋耕秸秆剪粉芝麻播种机[P]. 申请号:201710668323.1. |
[33] | 潘万胜 等. 一种芝麻种植用双层覆土播种机[P]. 申请号:201710723308.2. |
[34] | 刘文萍 等. 芝麻打顶机[P]. 申请号:201711408198.7. |
[35] | 汪强, 张子福, 赵莉 , 等. 芝麻保护性耕作种植技术初步研究与示范[A]. 全国保护性耕作与农机农艺结合技术交流研讨会. 2009: 196-201. |
[36] | Uzun B, Yol E, Furat S , et al. The effects of different tillage methods on the post-wheat second crop sesame: seed yield, energy budget, and economic return.[J]. Turkish Journal of Agriculture and Forestry, 2012,36(4):399-407. |
[37] | 魏林根, 肖运萍, 吕丰娟 , 等. 芝麻耕种施肥一体化机械播种方式对芝麻出苗的影响[J]. 湖南农业科学, 2016(3):28-29,33. |
[38] | 魏林根, 吕丰娟, 汪瑞清 , 等. 耕种施肥一体化机械耙齿盖土器对芝麻出苗的影响[J]. 湖北农业科学, 2018,57(10):98-100. |
[39] | Tahsin Söğüt . Effect of Main and Second Cropping on Seed Yield, Oil and Protein Content of Sesame (Sesamum indicum L.) Genotypes[J]. Turkish Journal of Field Crops, 2009,14(2):64-71. |
[40] | Saikat Chongdar, Singharoy A, Saha A , et al. Performance of summer sesame (Sesamum indicum L.) cultivars under varying dates of sowing in prevailing agro-climatic condition of North Bengal[J]. Scientific research and essays, 2015,10(12):411-420. |
[41] | Hakeem M, WaseeM M, Baloch D M , et al. impact of sowing interval on the yield and yield contributing traits of sesame (Sesamum indicum L.) under the tropical circumstance. Cercetări Agronomice în Moldova, 2017,3(171):83-94. |
[42] | Tahir M, Saeed U, Ali A , et al. Optimizing sowing date and row spacing for newly evolved sesame (Sesamum indicum L.) variety TH-6[J]. Pakistan Journal of Life and Social Sciences, 2012,10:1-4. |
[43] | Ngala A L, Dugje I Y, Yakubu H . effects of inter-row spacing and plant density on performance of sesame (Sesamum indicum L.) in a nigerian sudan savanna[J]. Scientific International, 2013,25(3):513-519. |
[44] | Gloaguen R M, Byrd S, Rowland D L , et al. Planting date and row spacing effects on the agronomic potential of sesame in the southeastern USA[J]. Journal of Crop Improvement, 2018(5):1-31. |
[45] |
Salem, Emad M M . Effect of sowing dates and sulphur levels on some sesame (Sesamum indicum L.) cultivars under new valley conditions. Egyptian Journal of Desert Research, 2016,66(1):17-34.
doi: 10.21608/ejdr.2016.5750 URL |
[46] | Couch A, Jani A, Mulvaney M , et al. Nitrogen accumulation, partitioning, and remobilization by diverse sesame cultivars in the humid southeastern USA[J]. Field Crops Research, 2017,203(Complete):55-64. |
[47] | 汪强, 赵莉, 徐桂珍 , 等. 优质高产芝麻新品种皖芝3号选育经过与农机农艺配套栽培技术[J]. 现代农业科技, 2013(23):75-76. |
[48] | 汪强, 赵莉, 张子福 , 等. 芝麻种植机械调研及农机农艺配套技术研究[J]. 中国油料作物学报, 2014,36(2):224-230. |
[49] | 马广明 . 阜阳市芝麻机播技术研究[J]. 现代农业科技, 2015(1):37-39. |
[50] | 张祎, 汪强, 赵莉 , 等. 芝麻膜下滴灌适宜机械化种植参数的研究. 热带农业科学, 2018(9):37-39,44. |
[51] | 徐桂珍 . 优质皖芝系列新品种选育与高产增效栽培技术研究[A]. 中国作物学会油料作物专业委员会第八次会员代表大会暨学术年会综述与摘要集[C], 2018. |
[52] | 孟庆华, 宫慧慧 . 一种麦茬芝麻轻简化种植方法[P].201711436512.2. |
[53] | 周林娜, 阚跃峰, 周霞丽 , 等. 驻马店市芝麻机械化种植技术应用现状与思考[J]. 农业科技通, 2015(12):247-249. |
[54] | 裴新涌, 李春明, 秦灵灵 . 基于国外期刊英文文献浅析芝麻研究现状与发展趋势[J]. 河南农业科学, 2014,43(5):13-19. |
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