论文著作: 著作: 1. 《东北花生栽培理论与技术》,副主编,中国农业出版社,2022.09; 2. 《花生高产高效优质生产技术》,主编,沈阳科技出版社,辽宁沈阳,2015; 3. 《大田作物生产技术问答篇》,主编,沈阳科技出版社,辽宁沈阳,2017; 4. 《玉米花生宽幅间作理论基础与技术》,参编,中国农业科学技术出版社,2023.08; 5. 《花生》,参编,沈阳科技出版社,辽宁沈阳,2013; 论文: 1. Zhao XH#, Dong QQ#, Han Y, Zhang KZ, Shi XL, Yang X, Yuan Y, Zhou DY, Wang K, Wang XG, Jiang CJ, Liu XB, Zhang H, Zhang ZM, Yu HQ※. Maize/peanut intercropping improves nutrient uptake of side-row maize and system microbial community diversity. BMC Microbiology, 2022, 22:14, SCI, JCR 二区,IF=4.818; 2. Dong QQ#, Zhao XH#, Zhou DY, Liu ZH, Shi XL, Yuan Y, Jia PY, Liu YY, Song PH, Wang XG, Jiang CJ, Liu XB, Zhang H, Zhong C, Guo F, Wan SB, Yu HQ※, Zhang Z※. Maize and peanut intercropping improves the nitrogen accumulation and yield per plant of maize by promoting the secretion of flavonoids and abundance of Bradyrhizobium in rhizosphere. Frontiers in Plant Science, 2022, 13: 957336, SCI, JCR 一区,IF=7.255; 3. Lu JT, Dong QQ, Lan GH, He ZC, Zhou DY, Zhang H, Wang XG, Liu XB, Jiang CJ, Zhang Z, Wan SB, Zhao XH※, Yu, HQ※. Row ratio increasing improved light distribution, photosynthetic characteristics, and yield of peanut in the maize and peanut strip intercropping system. Frontiers in Plant Science,2023, 14:1135580, SCI, JCR 一区,IF=6.800; 4. Shi XL, Zhou YF, Guo P, Ren JY, Zhang H, Dong QQ, Jiang CJ, Zhong C, Zhang Z, Wan SB, Zhao XH※, Yu HQ※. Peanut/sorghum intercropping drives specific variation in peanut rhizosphere soil properties and microbiomes under salt stress. Land Degradation & Development, 2023, 34:736-50, SCI, JCR 二区,IF=5.205; 5. Shi XL, Zhou DY, Guo P, Zhang H, Dong JL, Ren JY, Jiang CJ, Zhong C, Zhao XH※, Yu HQ※. External potassium mediates the response and tolerance to salt stress in peanut at the flowering and needling stages. Photosynthetica, 2020,58 (5): 1141-1149, SCI, JCR二区, IF=3.38; 6. Ren JY, Jiang CJ, Zhang H, Shi XL, Ai X, Li RY, Dong JL, Wang J, Zhao XH※, Yu HQ※. LncRNA-mediated ceRNA networks provide novel potential biomarkers for peanut drought tolerance. Physiologia Plantarum, 2022: 174:e13610, SCI, JCR 一区,IF=5.120; 7. Zhou DY, Wang K, Zhang H, Du Q, Liu YY, Wang J, Wang XG, Yu HQ, Zhao XH※. The Potassium-dependent transcriptome analysis of maize provides novel insights into the rescue role of auxin in responses to potassium Deficiency. Agronomy, 2022, 12(6):1318, SCI, JCR一区, IF=4.117; 8. Han Y, Dong QQ, Zhang KZ, Sha DJ, Jiang CJ, Yang X, Liu XB, Zhang H, Wang XG, Guo F, Zhang Z, Wan SB, Zhao XH※, Yu HQ※. Maize-peanut rotational strip intercropping improves peanut growth and soil properties by optimizing microbial community diversity. PeerJ, 2022,10:e13777, SCI, JCR二区, IF=3.537; 9. Zhang H, Jiang CJ, Lei JN, Dong JL, Ren JY, Shi XL, Zhong C, Wang XG, Zhao XH※, Yu HQ※. Comparative physiological and transcriptomic analyses reveal key regulatory networks and potential hub genes controlling peanut chilling tolerance. Genomics, 2022, 114: 110285, SCI, JCR二区, IF= 4.380; 10. 董奇琦, 袁洋, 杜琪, 刘振华, 史晓龙, 张克朝, 周东英, 杨旭, 王晓光, 蒋春姬, 刘喜波, 郭峰, 赵新华※, 于海秋※. 玉米花生带状间作对植株氮吸收和土壤微生物群落的影响. 中国油料作物学报, 2022, 44(6): 1296-1306, 权威期刊; 11. 董奇琦, 艾鑫, 张艳正, 张克朝, 周东英, 王晓光, 蒋春姬, 赵姝丽, 钟超, 王婧, 于海秋, 赵新华※. 干旱胁迫对不同耐性花生品种生理特性及产量的影响. 我校学报, 2020,51(1):18-26, 权威期刊; 12. 袁洋, 董奇琦, 贾佩岩, 史晓龙, 蒋春姬, 王晓光, 张正, 万书波, 于海秋, 赵新华※. 间作下不同肥料对玉米花生生长发育、代谢及产量的影响. 我校学报, 2022,53(2):129-139,权威期刊; 13. 张克朝, 董奇琦, 霍元元, 艾鑫, 蒋春姬, 于海秋, 赵新华※. 不同钙肥用量对花生养分吸收利用与生长发育的影响. 花生学报, 2020, 49(3): 22-31, 核心期刊. |