主要从事的科研工作:
(1) 2021-2024年,主持国家自然科学基金面上项目抗草丁膦转基因油菜与野芥菜回交后代抗性基因沉默的机制及潜在的生态效应(32071656)
(2)2016-2020年,主持转基因生物新品种培育科技重大专项转基因作物自然生态风险监测与控制技术子课题:转基因作物自然生态风险管理及控制技术(2016ZX08012005-06)
(3)2017-2020年,主持国家重点研发计划项目入侵植物与脆弱生态系统相互作用的机制、后果及调控子任务加拿大一枝黄花的生物防治(2017YFC1200100)
(3) 2013-2016年,主持国家自然科学基金面上项目抗草甘膦转基因油菜的抗性基因向野芥菜的渗入(31270579)
(4) 2011-2020年,作为主要完成人承担转基因生物新品种培育科技重大专项转基因水稻环境安全评价技术子课题:转基因水稻对生物多样性与生态系统功能影响的评价技术(2011ZX08011-001,2013ZX08011-001,2016ZX08011-001)
(5) 2008-2010年,主持转基因生物新品种培育科技重大专项转基因生物抽样和精准检测技术”子任务:转基因大豆田间检测抽样技术的研究(2008ZX08012-001)
(6) 2009-2010年,主持留学人员回国基金“接受抗草甘膦基因的野芥菜(Brassica juncea var. gracilis)后代的适合度研究”。
发表的主要论文:
1. Ke Wan, Meilin Linghu, Xueqin Li, Zhu Li, Xiaoling Song, and Sheng Qiang. First Report of Calonectria ilicicola causing Leaf spot on Camellia sinensis in Yunnan province, China. Plant Disease[OL], 30 Nov 2023, https://doi.org/10.1094/PDIS-09-23-1745-PDN
2. Liang, R.; Liu, J.-L.; Ji, X.-Q.; Olsen, K.M.; Qiang, S.; Song, X.-L. Fitness and Hard Seededness of F2 and F3 Descendants of Hybridization between Herbicide-Resistant Glycine max and G. soja. Plants 2023, 12, 3671.
3. HU Yu-qi, SHENG Ze-wen, LIU Jin-yue, LIU Qi, QIANG Sheng, SONG Xiao-ling, LIU Biao,Sexual compatibility of transgenic soybean and different wild soybean populations, Journal of Integrative Agriculture 2022, 21(1): 36–48
4. Zicheng Shao, Lei Huang, Yuchi Zhang, Sheng Qiang and Xiaoling Song *,Transgene Was Silenced in Hybrids between Transgenic Herbicide-Resistant Crops and Their Wild Relatives Utilizing Alien Chromosomes,Plants 2022, 11, 3187.
5. Rong Liang, Xueqin Ji, Zewen Sheng, Jinyue Liu, Sheng Qiang and Xiaoling Song *,Fitness and Rhizobacteria of F2, F3 Hybrids of Herbicide‐Tolerant Transgenic Soybean and Wild Soybean, Plants 2022, 11, 3184.
6. Can Zhao, Wenrong Xu, Lingchao Meng, Sheng Qiang, Weimin Dai, Zheng Zhang, Xiaoling Song*, Rapid endosperm development promotes early maturity in weedy rice (Oryza sativa f. spontanea),Weed Science,2020,68(2):168-178
7. HUANG Yao*, WANG Yuan-yuan*, QIANG Sheng, SONG Xiao-ling, DAI Wei-min. Fitness of F1 hybrids between stacked transgenic rice T1c-19 with cry1C*/bar genes and weedy rice. Journal of Integrative Agriculture 2019, 18(12): 2793–2805
8. Yuan Wang, Shu‐Da Mo, Meng‐Yao Kong, Jing Chao, Xiao‐Feng Chen, Jin‐Ling Yang, Yu‐Jiang Yan, Zhi‐Hua Shi,Sheng Qiang, Xiao‐Ling Song*, and Wei‐Min Dai. Better performance of germination in hyperosmotic solutions in conspecific weedy rice than cultivated rice. Journal of Systematics and Evolution, 2019, 57(5): 519–529
9. Jianmei Fu , Xiaoling Song*, Biao Liu*, Yu Shi , Wenjing Shen, Zhixiang Fang,Li Zhang. Fitness Cost of Transgenic cry1Ab/c Rice Under Saline-Alkaline Soil Condition,Frontiers in Plant Science,2018, 9:1552
10. Xiao-Qin Sun . Yan-Qiu Qu . Mi-Mi Li . Xiao-Ling Song*. Yue-Yu Hang*. Genetic diversity, genetic structure and migration routes of wild Brassica juncea in China assessed by SSR markers, Genet Resour Crop Evol, 2018: 65:1581–1590
11. Lei Dai†, Xiaoling Song† Baoye He, Bernal E Valverde, Sheng Qianga*, Enhanced photosynthesis endows seedling growth vigour contributing to the competitive dominance of weedy rice over cultivated rice. Pest Management Science, 2017; 73: 1410–1420
12. Liu Shengnan, Song Xiaoling, Hu Yanhua, Dai Weiming, and Qiang Sheng*Fitness of Hybrids between Two Types of Transgenic Rice and Six Japonica and Indica Weed Rice Accessions. Crop Science, 2016, 56:2751-2765
13. HUANG Yao*, LI Ji-kun*, QIANG Sheng, DAI Wei-min, SONG Xiao-ling*,Transgenic restorer rice line T1c-19 with stacked cry1C*/bar genes has low weediness potential without selection pressure,Journal of Integrative Agriculture 2016, 15(5): 1046–1058
14. Y. Li, X.Q. Sun, Q.Q. Yan, J.L. Guo, S. Qiang, X.L. Song* and M.M. Li. Isolation and characterization of microsatellite DNA loci for wild Brassica juncea (Brassicaceae). Genetics and Molecular Research, 2013, 12 (4): 5392-5395
15. Song XL, Wang Z, Zuo J, Huangfu CH, Qiang S*. Potential gene flow of two herbicide-tolerant transgenes from oilseed rape to wild B. juncea var. gracilis, Theor Appl Genet, 2010,120:1501–1510
16. Song XL, Munns K, Qiang S, Blackshaw R, Sharma R*. Detection and quantification of 5 enolpyruvylshikimate-3-phosphate synthase (cp4 epsps) upon Brassica napus× Brassica juncea outcrossing using real-time PCR,Eur Food Res Technol,2009,228(6):939-944
17. Song XL, Liu LL, Wang Z, Qiang S*, potential gene flow from transgenic rice (Oryza sativa L.) to different weedy rice (Oryza sativa f. spontanea) accessions based on reproductive compatibility, Pest Management Science, 2009, 65:862-869
18. Song XL, Wang Z, Qiang S*, Agronomic performance of F1, F2 and F3 hybrids between weedy rice and transgenic glufosinate –resistant rice, Pest Management Science, 2011; 67: 921–931
19. Song XL, Wu Jia jun, Zhang Hong jun, Qiang Sheng, Occurrence of glyphosate-resistant Horseweed (Conyza canadensis) population in China. Agriculture Science in China, 2011, 10(7): 1049-1055
20. 戴玲玲,邓海玲,强胜等. 碧护对小麦异丙隆低温药害的缓解作用 [J].井冈山大学学报(自然科学版), 2023, 44(05): 48-54+63.
21. 肖乐铨,李雷,戴伟民等. 转cry2A~*/bar基因水稻与杂草稻杂交后代的苗期生长特性 [J].中国水稻科学,2023, 37 (04): 347-358.
22. 纪雪勤,刘金悦,胡玉琪等.抗草甘膦转基因大豆与内蒙古包头野大豆杂交F_2适合度分析[J]. 威廉希尔williamhill官方网站学报, 2023, 46 (04):698-709.
23. 李雷,肖乐铨,王园园等.复合性状转cry2A~*/bar基因水稻T2A-1与杂草稻F1、F2、F3的适合度[J]. 威廉希尔williamhill官方网站学报,2023, 46 (02):266-277.
24. 刘佳丽,刘金悦,纪雪勤等. 抗草甘膦转基因大豆与野大豆杂交F3代表型性状分析[J]. 植物资源与环境学报, 2023, 32(02):56-64.
25. 李光宁,程文超,胡荣娟等. 赤·吲乙·芸薹与氯氟吡啶酯混用对水稻安全性的生理生化机制[J]. 杂草学报, 2023, 41(01): 66-73.
26. 李震,戴玲玲,邓海玲等.碧护缓解低温对草坪草萌发及苗期胁迫的作用[J].草地学报,2023,31(03):804-812.
27. 肖乐铨,李雷,戴伟民等.复合性状转cry2A*/bar基因水稻T2A-1与杂草稻杂交F(1)~F(4)的苗期特性 [J/OL]. 中国水稻科学,1-17[2023-12-09]
28. 邓海玲,杨雪,张巧凤等. 耐异丙隆和甲基二磺隆小麦种质资源筛选[J]. 杂草学报, 2022, 40(03): 22-34.
29. 王园园,刘琳莉,李雷等. 复合性状转cry2A/bar基因水稻T2A-1的生存竞争能力 [J]. 威廉希尔williamhill官方网站学报, 2020, 43 (05):862-868.
30. 刘龙男,李鹤卫,张华等.抗草甘膦转基因油菜与4个种群野芥菜抗性回交2代(BC2F_1)的适合度 [J].农业生物技术学报, 2020, 28(08): 1379-1389.
31. 宋小玲,强胜,彭于发. 抗草甘膦转基因大豆(Glycine mac(L.)Merri)杂草性评价的试验实例 [J]. 中国农业科学, 2009, 42(01): 145-153.
32. 胡玉琪,刘金悦,盛泽文,强胜,李香菊,宋小玲*,转基因大豆MON 87701RR2Y 和MON 87701 杂草化的风险评估,大豆科学, 2020, 39(3) : 390-400
33. 王钰,王晓蕾,张庆玲,王建,强胜,宋小玲*,不同土层中抗除草剂转基因油菜与野生芥菜回交3 代后代活力种子百分比的比较,植物资源与环境学报,2019,28( 4) : 32-40
34. 王园园, 王敏, 相世刚,刘琪,强胜,宋小玲*,全球抗除草剂转基因作物转化事件分析,农业生物技术学报,2018, 26(1): 167-175
35. 闫静,王晓蕾,张玉池,张庆玲,王建,强胜,宋小玲*,抗除草剂转基因油菜与野芥菜的抗性回交3 代子3 代的适合度, 中国农业科学 2018,51(1):105-118
36. 刘琪,相世刚,胡玉琪,强胜,宋小玲*, 野生大豆对草甘膦的耐性筛选及施用草甘膦后叶绿素荧光参数的变化,大豆科学,2018, 37( 3) : 399 - 407
37. 王晓蕾,王建,张庆玲,闫静,强胜,宋小玲*, 抗草丁膦转基因油菜与野芥菜的抗性回交3 代子1 代和子2 代的适合度. 草业学报,2017,26(12): 138-151
38. 卞清,王晓蕾,强胜,宋小玲*,抗除草剂转基因油菜与野芥菜的抗性回交3 代子4 代的适合度,中国油料作物学报, 2017,39( 6) : 737 - 745
39. 左娇,强胜,宋小玲*, 温室条件下抗除草剂转基因水稻与杂草稻杂交和回交后代的适合度分析,中国水稻科学,2010,24(6):608-616