董合忠
董合忠,男,1965年9月生,中共党员,博士,二级研究员,博士研究生导师。山东省农业科学院经济作物研究所棉花首席专家,国家棉花产业技术体系岗位科学家,农业农村部棉花遗传改良与栽培生理重点实验室主任和棉花专家指导组成员,Filed Crops Research主编,Journal of Integrative Agriculture、《中国农业科学》《作物学报》等期刊编委。荣获俄罗斯自然科学院院士、国务院政府特殊津贴,新世纪百千万人才工程国家级人选、泰山学者攀登计划专家、天池英才特聘教授、全国农业科研杰出人才、全国先进工作者等荣誉。
一、研究方向
主要从事棉花等经济作物栽培、生理生态和棉花育种。
二、科研项目与学术成果
先后主持国家及省部科研项目40余项,发表论文300多篇,其中在Plant Physiology, Journal of Experimental Botany、Field Crops Research、Journal of Cleaner Production等期刊发表SCI收录论文165篇,出版著作15部,主持育成棉花品种6个,创建全国农业主推技术7套,累计推广2.3亿亩,新增经济效益338亿元。获国家科技进步二等奖4项、省部级一等奖8项,多次入选爱斯维尔中国高被引学者和全球前2%顶尖科学家终身成就榜。
(一)主持重要科研项目
(1)国家棉花产业技术体系,CARS-15-15,抗逆栽培岗位科学家,2021-2025,275万元,主持。
(2)国家自然科学基金项目,32372229,棉花单粒精播调控幼苗弯钩与叶枝发育促进出苗和稳产的机理,2023-2027,50万,主持。
(3)国家重点研发计划课题,2020YFD1001002,棉花抗逆高效栽培技术集成与应用,2020-2022,266万,主持。
(4)济南市“新高校20条”资助项目,202228097,董合忠耐盐经济作物科普工作室,2022-2025,40万,主持。
(二)主要成果
1、代表性期刊论文
[1] Dong Hezhong (通讯作者). Spatiotemporal diversification enables sustainable cotton-soybean production with enhanced yield and reduced emissions. Journal of Cleaner Production, 2025 (SCI, IF=10.0,中科院一区).
[2] Dong Hezhong (通讯作者). Shading-induced canopy cooling alleviates waterlogging damage during flowering by disrupting heat synergism in field-grown cotton. Field Crops Research, 2025 (SCI, IF=6.4,中科院一区).
[3] Dong Hezhong (通讯作者). Integrated transcriptomics and metabolomics elucidate additive inhibitory effects of combined salinity-waterlogging stress on soybean growth and metabolic adaptations. Plant Physiology and Biochemistry, 2025 (SCI, IF=5.7,中科院一区).
[4] Dong Hezhong (通讯作者). Mitigating waterlogging-induced yield loss in cotton through removal of early fruits: Agronomic and physiological mechanisms. Field Crops Research, 2025 (SCI, IF=6.4,中科院一区).
[5] Dong Hezhong (通讯作者). Light-hormone crosstalk modulates vegetative branching and yield stability in dual-planting cotton systems. Field Crops Research, 2025 (SCI, IF=6.4,中科院一区).
[6] Dong Hezhong (通讯作者). Enhancing stand establishment and yield formation of cotton with multiple drip irrigation during emergence in saline fields of Southern Xinjiang. Field Crops Research, 2024 (SCI, IF=6.4,中科院一区).
[7] Dong Hezhong (通讯作者). Melatonin enhances waterlogging tolerance of field-grown cotton through quiescence adaptation and compensatory growth strategies. Field Crops Research, 2024 (SCI, IF=6.4,中科院一区).
[8] Dong Hezhong (通讯作者). HLS1 promotes apical hook formation by regulating YUCCA8 and GH3.17 expression differently in the inner and outer side of the hook in cotton. Physiologia Plantarum, 2024 (SCI, IF=3.6,中科院二区).
[9] Dong Hezhong (通讯作者). Genome-wide identification of isopentenyl transferase genes in cotton and their roles in regulating vegetative branching after topping. Industrial Crops & Products, 2025 (SCI, IF=5.8,中科院一区).
[10] Dong Hezhong (通讯作者). Managing interspecific competition to enhance productivity through selection of soybean varieties and sowing dates in a cotton-soybean intercropping system. Field Crops Research, 2024 (SCI, IF=6.4,中科院一区).
[11] Dong Hezhong (通讯作者). Leaf-derived jasmonate mediates water uptake from hydrated cotton roots under partial root-zone irrigation, Plant Physiology, 2019, (SCI, IF=6.9,中科院一区).
[12] Dong Hezhong (通讯作者). H2O2 and ABA signaling are responsible for the increased Na+ efflux and water uptake in Gossypium hirsutum L. roots in the non-saline side under non-uniform root zone salinity, Journal of Experimental Botany, 2019, (SCI, IF=5.7,中科院一区).
[13] Dong Hezhong (通讯作者). Effects of non-uniform root zone salinity on water use, Na+recirculation, and Na+ and H+flux in cotton, Journal of Experimental Botany, 2012, (SCI, IF=5.7,中科院一区).
[14] Dong Hezhong (通讯作者). Optimizing root system architecture to improve cotton drought tolerance and minimize yield loss during mild drought stress. Field Crops Research, 2024 (SCI, IF=6.4,中科院一区).
[15] Dong Hezhong (通讯作者). Xinjiang cotton: Achieving super-high yield through efficient utilization of light, heat, water, and fertilizer by three generations of cultivation technology systems. Field Crops Research, 2024 (SCI, IF=6.4,中科院一区).
[16] Dong Hezhong (通讯作者). Alternate cotton‑peanut intercropping: a new approach to increasing productivity and minimizing environmental impact. Journal of Cotton Research, 2024 (SCI, IF=2.4,中科院一区).
[17] Dong Hezhong (通讯作者). Ridge intertillage alters rhizosphere bacterial communities and plant physiology to reduce yield loss of waterlogged cotton. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[18] Dong Hezhong (通讯作者). Field-grown cotton shows genotypic variation in agronomic and physiological responses to waterlogging. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[19] Dong Hezhong (通讯作者). Terminal removal at first square enhances vegetative branching to increase seedcotton yield at low plant density. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[20] Dong Hezhong (通讯作者). Alternate intercropping of cotton and peanut increases productivity by increasing canopy photosynthesis and nutrient uptake under the influence of rhizobacteria. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[21] Dong Hezhong (通讯作者). Cotton-based rotation, intercropping, and alternate intercropping increase yields by improving root–shoot relations. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[22] Dong Hezhong (通讯作者). Mitigating salinity stress and improving cotton productivity with agronomic practices. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[23] Dong Hezhong (通讯作者). Cotton yield stability achieved through manipulation of vegetative branching and photoassimilate partitioning under reduced seedling density and double seedlings per hole. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[24] Dong Hezhong (通讯作者). Cotton-based rotation, intercropping, and alternate intercropping increase yields by improving root–shoot relations. Agronomy, 2023 (SCI, IF=2.0,中科院二区).
[25] Dong Hezhong (通讯作者). Mitigating salinity stress and improving cotton productivity with agronomic practices. Agronomy, 2023 (SCI, IF=2.0,中科院二区).
[26] Dong Hezhong (通讯作者). Plant topping effects on growth, yield, and earliness of field-grown cotton as mediated by plant density and ecological conditions. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[27] Dong Hezhong (通讯作者). Nitric oxide reduces the yield loss of waterlogged cotton by enhancing post-stress compensatory growth. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[28] Dong Hezhong (通讯作者). Plastic film mulching does not increase the seedcotton yield due to the accelerated late-season leaf senescence of short-season cotton compared with non-mulching. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[29] Dong Hezhong (通讯作者). One-off basal application of nitrogen fertilizer increases the biological yield but not the economic yield of cotton in moderate fertility soil. Field Crops Research, 2023 (SCI, IF=5.8,中科院一区).
[30] 董合忠 (通讯作者). 论棉花多目标协同栽培. 中国农业科学, 2025 (卓越期刊).
[31] 董合忠 (通讯作者). 我国现代植棉理论与技术的新发展——棉花集中成熟栽培. 中国农业科学, 2021 (卓越期刊).
3、科研奖励与荣誉
[1]国家科技进步二等奖(第一位),滨海盐碱地棉花丰产栽培技术体系的创建与应用,2013。
[2]国家科技进步二等奖(第二位),转Bt Cry1A 基因抗虫棉品种和抗虫棉生产技术体系,2007。
[3]国家科技进步二等奖(第三位),高产稳产广适高效转基因抗虫杂交棉鲁棉研15号选育与产业化开发,2006。
[4]全国先进工作者,董合忠个人,2015。
[5]兵团科学技术二等奖(排名第一),盐碱地棉花抗逆轻简集中成熟栽培理论与技术,2025。
[6]山东省科技进步一等奖(排名第一),棉花轻简化丰产栽培技术体系及在主产棉区的应用,2018。
[7]山东省科技进步一等奖(排名第一),中国滨海盐碱地棉花栽培技术体系的建立与应用,2012。
[8]山东省科技进步一等奖(排名第一),转基因抗虫棉及种子生产的理论与技术体系研究与开发,2006。
[9]神农中华农业科技奖一等奖(排名第一),棉花集中成熟轻简高效栽培技术体系创建与应用,2024。
[10]神农中华农业科技奖一等奖(排名第一),棉花轻简化丰产栽培关键技术与区域化应用,2017。
4、知识产权
[1]全国农业主推技术,黄河流域一熟制春棉绿色高效栽培技术,2021,2022.
[2]全国农业主推技术,黄河流域两熟制夏直播棉绿色高效栽培技术,2021,2022.
[3]全国农业主推技术,盐碱地棉花轻简抗逆高效栽培技术,2022,2024.
[4]全国农业主推技术,棉花集中成熟轻简高效栽培技术,2022,2025.
[5]国家标准,棉花集中成熟栽培技术要求. GB/T 45035-2024. 董合忠(第二位),2024.
[6]K638 植物新品种权 CAN20100831.9 董合忠(第1位),2011.
[7]K836 植物新品种权 CNA20121037.7 董合忠(第1位),2012.
[8]杂交棉栽培法 发明专利 ZL200510043325.9 董合忠(第1位),2005.
[9]滨海盐碱地棉花经济施肥法 发明专利 ZL200810015823.6 董合忠(第1位),2008.
[10]盐碱地棉种精播机 发明专利 ZL200910209910.X 董合忠(第1位),2009.
[11]一种促进盐碱地棉花成苗的种衣剂及其制备方法 发明专利 ZL200810139291.7 董合忠(第1位),2008.
[12]一种棉花嫁接分根方法 发明专利 ZL201010190429.3 董合忠(第1位),2010.
[13]无级调距式棉花膜上精量播种机 发明专利 ZL201410725608.0 董合忠(第1位),2014.
[14]一种滨海盐碱地短季棉露地直播轻简化栽培方法 发明专利 ZL201710203461.2 董合忠(第1位),2017.
[15]一种棉花促根抗病壮株剂及水肥药一体化施用方法 发明专利 ZL201610055473.0 董合忠(第1位),2016.
三、联系方式
E-mail:donghezhong@163.com
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