个人简介
代兴龙,男,汉族,山东聊城人,博士,副教授,硕士生导师
教育经历:
2009/09- 2014/06,山东农业大学农学院,作物栽培学与耕作学专业,获博士学位;
2005/09 - 2009/06,山东农业大学农学院,植物科学与技术专业(本硕连读),获学士学位。
工作经历:
2018.07-至今,山东农业大学,农学院,副教授;
2014.07-2018.06,山东农业大学,农学院,讲师。
主讲课程:
农学概论、三农政策与法规、专业综合实践、专业认知实践、作物生产学实验等。
主持完成/在研国家自然科学基金青年基金项目1项、国家重点研发计划子课题2项、山东省自然科学基金博士基金项目1项。获山东省农业技术推广成果优选计划三等奖1项,以第一或通讯作者在Field Crops Research、European Journal of Agronomy、Plant and Soil等杂志发表学术论文22篇,其中SCI收录17篇(累计影响因子80.5,中科院1区论文4篇,2区论文9篇),一级学报5篇,授权国家发明专利3项,立项山东省农业主推技术1项、农业技术规程1项、山东省标准化协会团体标准1项。长期在农业生产一线开展技术培训、现场指导,研究集成的小麦丰产提质增效栽培技术和冬小麦化肥农药减施增效综合栽培技术在泰安、济宁、潍坊、烟台等地区大面积推广应用,取得了显著的经济、社会和生态效益。
主持国家级科研项目:
1. 国家自然科学基金青年基金(31801298),宽幅播种对适度密植小麦冠层结构和冠层光合效率的调控及其生理机制,2019.01-2021.12,主持,直接经费24万元。
2. 国家重点研发计划子课题“黄淮东部高产高效型强中筋小麦品种筛选及其配套栽培技术”(2016YFD0300403),2016.01-2021.06,主持,经费136万元。
3. 国家重点研发计划子课题“鲁东高产高效多抗冬小麦品种筛选与健康栽培及化肥农药减施技术集成研究与示范”(2017YFD0201705),2017.01-2021.06,主持,经费122.5万元。
主持或参加省部级科研项目:
1. 泰山产业领军人才团队(山东省重点研发计划项目)“中低产田小麦玉米周年增产提质增效技术体系研究与应用”(LJNY202103),2021.01-2024.12,参加,总经费200万元。
2. 山东省自然科学基金博士基金“宽幅播种对密植小麦冠层结构、光能利用和产量形成的调控效应研究”(ZR2018BC034),2018.03-2020.12,主持,经费9万元。
获得奖励:
鲁东冬小麦化肥农药减施技术集成研究与推广, 山东省农业技术推广成果优选计划三等奖,第二位(2/25)
授权发明专利:
1. 代兴龙, 张秀, 贺明荣, 刘运景, 柏慧, 初金鹏, 郑飞娜. 利用靶向定量蛋白组学方法测定小麦籽粒链终止子的方法. 授权发明专利, ZL202110392599.8
2. 于海涛, 石书兵, 陶金先, 宋顺, 王丽杰, 于田利, 代兴龙, 刘亚男, 魏秀华, 张志伟. 一种秸秆粉碎箱. 授权发明专利, ZL202110905724.0
3. 石书兵, 于海涛, 陶金先, 宋顺, 王丽杰, 刘亚男, 于田利, 代兴龙, 魏秀华, 张志伟. 一种小麦脱粒装置. 授权发明专利, ZL202110959094.5
授权实用新型专利:
1. 代兴龙, 王洁, 华一帆, 刘曼玉, 左品露, 初金鹏, 秦际远, 李仲峰, 贺明荣, 李玉道. 小行距麦类作物种绳播种机. ZL202220885419.X
实践教学奖励:
1. 2016-2020年全国农科学子联合实践行动“优秀指导教师”, 中国作物学会, 2021.04
2. 2017年山东省大中专学生志愿者暑期“三下乡”社会实践活动“优秀指导教师”, 中共山东省委宣传部
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
中科院SCI期刊分区1区论文(4篇):
1. Xiu Zhang#, Jinpeng Chu, Shuxin Dong, Feina Zheng, Hui Bai, Manyu Liu, Xinglong Dai *, Mingrong He*. Chain terminators and glutathione weaken wheat dough under excess nitrogen input. Journal of Agricultural and Food Chemistry, 2022, 70(17): 5357-5368 (影响因子: 5.895)
2. Lijun Yin#, Xinglong Dai*, Mingrong He*. Delayed sowing improves nitrogen utilization efficiency in winter wheat without impacting yield. Field Crops Research, 2018, 221: 90-97 (影响因子: 6.145)
3. Xinglong Dai#, Yuechao Wang, Xiuchun Dong, Taifeng Qian, Lijun Yin, Shuxin Dong, Jinpeng Chu, Mingrong He*. Delayed sowing can increase lodging resistance while maintaining grain yield and nitrogen use efficiency in winter wheat. The Corp Journal, 2017, 5: 541-552 (影响因子: 4.647)
4. Xinglong Dai#, Xiaohu Zhou#, Dianyong Jia, Lili Xiao, Haibo Kong, Mingrong He*. Managing the seeding rate to improve nitrogen–use efficiency of winter wheat. Field Crops Research, 2013, 154: 100-109 (影响因子: 6.145)
中科院SCI期刊分区2区论文(9篇):
1. Xiuchun Dong#, Taifeng Qian, Jinpeng Chu, Xiu Zhang, Yunjing Liu, Xinglong Dai*, Mingrong He*. Late sowing enhances lodging resistance of wheat plant via improving biosynthesis and accumulation of lignin and cellulose. Journal of Integrative Agriculture, 2022, (影响因子: 4.384)
2. Xiu Zhang#, Yifan Hua, Yunjing Liu, Mingrong He, Zhengchun Ju*, Xinglong Dai*. Wide belt sowing improves the grain yield of bread wheat by maintaining grain weight at the backdrop of increases in spike number. Frontiers in Plant Science, 2022, 13, 992772 (影响因子: 6.627)
3. Liwei Fei#, Jinpeng Chu, Xiu Zhang, Shuxin Dong, Xinglong Dai*, Mingrong He*. Physiological and proteomic analyses indicate delayed sowing improves photosynthetic capacity in wheat flag leaves under heat stress. Frontiers in Plant Science, 2022, 13, 848464 (影响因子: 6.627)
4. Shuxin Dong#, Xiu Zhang, Jinpeng Chu, Feina Zhang, Liwei Fei, Xinglong Dai*, Mingrong He*. Optimized seeding rate and nitrogen topdressing ratio for simultaneous improvement of grain yield and bread-making quality in bread wheat sown on different dates. Journal of The Science of Food and Agriculture, 2022, 102: 360-369 (影响因子: 4.125)
5. Yuangang Zhu#, Jinpeng Chu, Xinglong Dai*, Mingrong He*. Delayed sowing increases grain number by enhancing spike competition capacity for assimilates in winter wheat. European Journal of Agronomy, 2019, 104: 49-60 (影响因子: 5.722)
6. Lijun Yin#, Haicheng Xu, Shuxin Dong, Jinpeng Chu, Xinglong Dai*, Mingrong He*. Optimised nitrogen allocation favours improvement in canopy photosynthetic nitrogen-use efficiency: Evidence from late-sown winter wheat. Environmental and Experimental Botany, 2019, 159: 75-86 (影响因子: 6.028)
7. Haicheng Xu#, Xinglong Dai#, Jinpeng Chu, Yuechao Wang, Lijun Yin, Xin Ma, Shuxin Dong, Mingrong He*. Integrated management strategy for improving the grain yield and nitrogen-use efficiency of winter wheat. Journal of Integrative Agriculture, 2018, 17(2): 315-327 (影响因子: 4.384)
8. Yu Zhang#, Xinglong Dai#, Dianyong Jia, Huaying Li, Yuechao Wang, Chuanxing Li, Haicheng Xu, Mingrong He*. Effects of plant density on grain yield, protein size distribution, andbreadmaking quality of winter wheat grown under two nitrogenfertilisation rates. European Journal of Agronomy, 2016, 73: 1-10 (影响因子: 5.722)
9. Xinglong Dai#, Lili Xiao#, Dianyong Jia, Haibo Kong, Yuechao Wang, Chuanxing, Li, Mingrong He*. Increased plant density of winter wheat can enhance nitrogen-uptake from deep soil. Plant and Soil, 2014, 384: 141-152 (影响因子: 4.993)
中科院SCI期刊分区3区论文(3篇):
1. Shuxin Dong#, Juan Zhang, Ting Zha, Xinglong Dai*, Mingrong He*. Increased plant density with reduced nitrogen input can improve nitrogen use efficiency in winter wheat while maintaining grain yield. Archives of Agronomy and Soil Science, 2020, 66(12): 1707-1720 (影响因子: 2.242)
2. Yi Cheng#, Xinglong Dai#, Hao Ren, Yuechao Wang, Peng Liu, Mingrong He. Precision double cropping synergistically improves wheat and maize yield as well as resource efficiency. Agronomy Journal, 2020, 112: 1035-1048 (影响因子: 2.650)
3. Dianyong Jia#, Xinglong Dai#, Mingrong He*. Polymerization of glutenin during grain development and quality expression in winter wheat in response to irrigation levels. Crop Science, 2012, 52: 1816-1827 (影响因子: 2.763)
中科院SCI期刊分区4区论文(1篇):
1. Dianyong Jia#, Xinglong Dai#, Hongwen Men, Mingrong He*. Assessment of Winter Wheat (Triticum aestivum L.) Grown under Alternate Furrow Irrigation in Northern China: Grain Yield and Water Use Efficiency. Canadian Journal of Plant Science, 2012, 52: 1816-1827 (影响因子: 1.375)
一级学报收录(5篇):
1. 刘运景#, 郑飞娜, 张秀, 初金鹏, 于海涛, 代兴龙*, 贺明荣*. 宽幅播种对强筋小麦籽粒产量、品质和氮素吸收利用的影响. 作物学报, 2022, 48(3): 716-725 .
2. 郑飞娜#, 初金鹏, 张秀, 费立伟, 代兴龙*, 贺明荣*. 播种方式与种植密度互作对大穗型小麦品种产量和氮素利用率的调控效应. 作物学报, 2020, 46(3): 423-431
3. 朱元刚#, 肖岩岩, 初金鹏, 张秀, 钤太峰, 马鑫, 代兴龙*, 贺明荣*. 不同播期冬小麦小花发育特性与同化物代谢的相关性. 植物营养与肥料学报, 2019, 25(3): 370-381
4. 石玉华#, 初金鹏, 尹立俊, 贺明荣, 邓淑珍, 张良, 孙晓乐, 田奇卓, 代兴龙*. 宽幅播种提高不同播期小麦产量与氮素利用率. 农业工程学报, 2018, 34(17): 127-133
5. 初金鹏#, 朱文美, 尹立俊, 石玉华, 邓淑珍, 张良, 贺明荣, 代兴龙*. 宽幅播种对冬小麦“泰农18”产量和氮素利用率的影响. 应用生态学报, 2018, 29(8): 2517-2524