汪吉东,博士,研究员,江苏省农科院资环所土壤肥力与植物营养团队首席。南京农业大学、江苏大学、南京信息工程大学、青岛农业大学硕士生导师,博士后合作导师。中国植物营养与肥料学会耕地培肥专业委员会副主任,江苏省土壤学会理事,江苏省农业科学院滨海黄河故道农业产业研究院院长,《土壤学报》和《土壤》青年编委,江苏省咨询认证专家,国家第三次土壤普查江苏省专家组成员。国家公派访问学者。
一、主要研究方向
主要从事土壤质量及作物养分高效管理研究工作。共主持国家自然科学基金面上、国家科技支撑计划专题、江苏省重点研发重点项目、江苏省自主创新资金重点项目等项目10余项。获国际植物营养研究所学术奖、江苏省农业技术推广奖二等奖、江苏农业科技奖二等奖。共发表论文60余篇,参编专著4部,制定标准4项,授权发明专利5项,培养研究生8名。
二、主持和参加项目
[1] 国家自然科学基金面上项目:大豆玉米秸秆组合还田分解和向土壤有机碳转化的过程及生物学机制(2024-2027),主持,49万;
[2] 江苏省优秀青年基金项目:有机物料施用对潮土团聚体氧化亚氮排放的影响及其微生物机制(2023-2025),参与(徐聪主持);
[3] 江苏省重点研发重点项目:江苏黄河故道沿线中低产农田质量提升关键技术集成与示范(2021-2025),主持,200万;
[4] 江苏省自主创新资金重大核心创新类项目:江苏典型中低产田障碍 因子消解及肥力定向提升关键技术研究(2021-2024),主持,200万元;
[5] 国家重点研发项目子专题: 淮河流域作物结构与肥料优化面源污染防治技术集成与示范(2018-2021),50万,主持;
[6] 江苏省自主创新资金项目: 江苏典型粮田土壤肥力性状、生物多样性及环境质量监测(2018-2020),60万,主持;
[7] 江苏省自主创新资金项目:粮食主产区耕地保育与质量提升综合解决方案第2课题(2017-2020),270万,主持;
[8] 院基本科研业务专项(农业部长期性基础性监测项目):土壤质量监测和农业环境监测(2017-2018),100万,主持;
[9] 国家自然科学基金项目:增施猪粪对水稻土酸化的影响及其驱动机制。(2013-2015), 26万,主持;
[10] 江苏省农业科学院滨海黄河故道农业产业研究院160万(每年40万,2020—),院长。
三、代表性专利、标准、奖励
[1] Organic fertilizer for improving remediation effect of acidified soil and preparation method thereof, 2021, PCT专利, 第一;
[2] 淮北农区土壤有效磷、速效钾丰缺指标,江苏省地方标准,第一;
[3] 淮北农区高标准农田土壤肥力分级指标,江苏省地方标准,第一;
[4] 沿江农区高标准农田土壤肥力指标,江苏省地方标准,第一;
[5] 宁镇扬丘陵农区耕地保育技术集成与应用,省农业技术推广奖二等奖,江苏省人民政府,2015,第3;
[6] Scholar Award,国际植物营养研究所(加拿大),第1。
[7] 江苏省典型中低产田改良培肥技术集成与推广,第五届江苏省农学会科技奖推广类二等奖(2022),排名第一。
[8] Effect of potassium and arbuscular mycorrhizal fungi on root morphology, photosynthetic characteristics and nutrient uptake of sweet potato. 第九届国际甘薯大会优秀报告奖(2022)
[9] 《江苏耕地》,45万字,与省耕环站合著,执笔副主编,江苏凤凰传媒出版集团
四、代表性论文
[1]. Zhang Z, Ma Hong*, Wang J*. A slow-release fertilizer containing cyhalofop-butyl reduces N2O emissions by slowly releasing nitrogen and down-regulating the relative abundance of nirK. Science of the Total Environment, 2024(1区TOP/9.8).
[2]. Xu C, Zhu H, Wang J*, et al. Fertilizer N triggers native soil N-derived N2O emissions by priming gross N mineralization. Soil Biology and Biochemistry, 2023,(1区TOP/9.7).
[3]. Xu C, Zhu H, Wang J*, et al. Patterns of crop-specific fertilizer-nitrogen losses and opportunities for sustainable mitigation: A quantitative overview of 15N-tracing studies. Soil Ecology Letters.2023, in publication(NA/4.0).
[4]. Yuan J, Zhang H, Zhang Y, et al. Long-term organic fertilization enhances potassium uptake and yield of sweet potato by expanding soil aggregates-associated potassium stocks. Agriculture, Ecosystems & Environment, 2023,(1区TOP/6.6).
[5]. Wang L, Zhang H, Xu C, Wang J*. Long-term nitrogen fertilization and sweetpotato cultivation in the wheat-sweetpotato rotation system decrease alkaline phosphomonoesterase activity by regulating soil phoD-harboring bacteria communities. Science of the Total Environment, 2023,(1区TOP/9.8).
[6]. Wang L, Wang J*, Yuan J, et al. Long-Term Organic Fertilization Strengthens the Soil Phosphorus Cycle and Phosphorus Availability by Regulating the pqqC-and phoD-Harboring Bacterial Communities. Microbial Ecology, 2023,(1区TOP/3.6)
[7]. Zhang J, Zhou Y, Wu L, et al. The Yield-Forming Role of Nitrogen in Rice in the Growing Seasons with Variable Thermal Conditions. Agronomy, 2023,(1区/4.0).
[8]. Yuan J, Shi K, Zhou X, Wang J*, et al. Interactive impact of potassium and arbuscular mycorrhizal fungi on the root morphology and nutrient uptake of sweet potato (Ipomoea batatas L.). Frontiers in microbiology, 2023,(1区/5.2).
[9]. Ji C., Han Z., Zheng F, Wang J*., et al. Biochar reduced soil nitrous oxide emissions through suppressing fungal denitrification and affecting fungal community assembly in a subtropical tea plantation. Agriculture, Ecosystems & Environment, 2022,(1区TOP/6.6).
[10]. Wang L, Zhang H, Wang J*, et al. Long-term fertilization with high nitrogen rates decreased diversity and stability of diazotroph communities in soils of sweet potato. Applied Soil Ecology, 2022, (2区/4.8).
[11]. Huang X, Wang L, Mei Y, et al. Towards a mechanistic understanding of microbial and nonmicrobial mediated topsoil organic carbon sequestration efficiency in a rice-wheat cropping system. Applied Soil Ecology, 2022, (2区/4.8).
[12]. Xu C, Wang J*, Wu D, et al. Optimizing organic amendment applications to enhance carbon sequestration and economic benefits in an infertile sandy soil. Journal of Environmental Management, 2022, (1区TOP/8.1).
[13]. Dong L, Wang J, Shen M, et al. Biochar combined with nitrogen fertilizer affects soil properties and wheat yield in medium‐low‐yield farmland. Soil Use and Management, 2022, (2区/3.8).
[14]. Reduced basal and increased topdressing fertilizer rate combined with straw incorporation improves rice yield stability and soil organic carbon sequestration in a rice–wheat system. Frontiers in Plant Science, 2022, (1区TOP/5.6).
[15]. Xu C, Han X, Zhuge Y, et al. Crop straw incorporation alleviates overall fertilizer-N losses and mitigates N2O emissions per unit applied N from intensively farmed soils: an in situ 15N tracing study. Science of the Total Environment, 2021,( 1区TOP/9.8)
[16]. Wang J, Chen Y, Zhang Y, et al. Phenotyping and validation of root morphological traits in barley (Hordeum vulgare L.). Agronomy, 2021,(1区/4.0).
[17]. Xu Cong, Meng Fanqiao. Crop straw incorporation alleviates overall fertilizer-N losses and mitigates N2O emissions per unit applied N from intensively farmed soils: An in situ 15N tracing study. Science of The Total Environment. 2021,(1区TOP/9.8)
[18]. Ma Hongbo et al., Glutamate promotes sweet potato storage root swelling by enhancing starch accumulation. Acta Physiologiae Plantarum. 2021, (3区/2.52)
[19]. Li Chunhua, Wang Jidong Root growth and phosphorus efficiency among sweet potato genotypes under low phosphorus. Journal of plant nutrition.2021,(2区/2.1)
[20]. Wang J, Wang K, Wang X, et al. Carbon sequestration and yields with long-term use of inorganic fertilizers and organic manure in a six-crop rotation system. Nutrient Cycling in Agroecosystems, 2018,(2区/3.1).
[21]. Wang J, Zhu G, Dong Y, et al. Potassium starvation affects biomass partitioning and sink–source responses in three sweet potato genotypes with contrasting potassium-use efficiency. Crop and Pasture Science, 2018, (2区/1.9).
[22]. Wang Ping, Wang Jidong et al., The role of iron oxides in the preservation of soil organic matter under long-term fertilization. Journal of Soils and Sediments, 2018. (共同一作IF 3.536,)
[23]. Wang Jidong, Pengfu Hou, et al., Potassium partitioning and redistribution as a function of K-use efficiency under K deficiency in sweet potato (Ipomoea batatas L.). Field Crops Research,2017. (1区TOP/ 6.145)
[24]. Cao Yun, Wang Jidong, et al., Soil chemical and microbial responses to biogas slurry amendment and its effect on Fusarium wilt suppression. Applied Soil Ecology,2016. (IF 5.509)
[25]. Wang Jidong, Wang Huoyan, et al., Intraspecific variation in potassium uptake and utilization among sweet potato (Ipomoea batatas L.) genotypes. Field Crops Research, 2015. (1区TOP/ 6.145)
[26]. 梁栋, 周巧林,汪吉东等. 生物炭和有机肥配施对水稻土溶解性有机质光谱学特征的影响. 土壤学报, 2024
[27]. 周巧林, 梁栋,汪吉东等. 聚氨酯微塑料和秸秆添加对滨海脱盐潮土有机碳矿化及其组分的影响生态与农村环境学报, 2023
[28]. 纪程,孙玉香等,汪吉东*. 稻麦轮作体系长期秸秆还田对土壤真菌群落结构及秸秆降解潜力的影响. 农业环境科学学报,2022.
[29]. 徐聪,吴迪等, 汪吉东*. 菌渣施用对黄河故道区低产田土壤理化性质、小麦根系生长和产量的影响. 土壤,2022.
[30]. 李传哲,汪吉东*.生物炭配施氮肥对典型黄河故道区土壤理化性质和冬小麦产量的影响(通讯作者). 应用生态学报, 2020.
[31]. 李传哲,汪吉东*.有机物料输入对土壤及玉米籽粒重金属来源解析及风险评估(通讯作者). 农业环境科学学报, 2020.
[32]. 汪吉东等. 中国几种典型土壤酸碱缓冲容量测定方法的比较研究. 江苏农业学报, 2020.
五、联系信息
E-Mail: jdwang66@163.com;jidongwang@jaas.ac.cn