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黄晓磊
姓名: 黄晓磊
性别:
出生年月:
籍贯: 河北邢台
职务:
职称: 教授
学位: 博士
毕业院校: 南京农业大学
研究方向: 研究方向为土壤改良与肥力培育:主要围绕有机(类)肥料增碳沃土机制开展研究。具体包括:(1)水稻土关键元素生物地球化学循环和 (2)旱地作物-土壤互作与调控
电子邮箱:
huangxiaolei@sxau.edu.cn
责任分工:

【个人简介】

黄晓磊,山西农业大学,资源环境学院,教授,博士生导师, 国家现代农业谷子高粱产业技术体系养分管理岗位骨干成员,山西省科技创新青年人才团队(土壤生态管理与健康生产科技创新团队)骨干成员。主要从事土壤改良与肥力培育方面的研究:针对石灰性褐土有机质含量低,提升难度大的问题,依托长期定位试验,揭示了微生物化学计量比理论和微生物氮矿理论在夏耕作季与冬休闲季交替起主导作用的旱地土壤有机质转化与累积过程,明确了长期有机培肥下真菌残体在有机质品质提升和土壤团聚化中的重要作用,阐明了有机肥通过驱动石灰性褐土碳酸钙转化(脱钙)及钙质有机矿质复合体和团聚体的形成来加速土壤熟化的机制;针对稻麦轮作系统化肥长期过量施用问题,系统研究了畜禽粪便与秸秆还田对水稻土有机质提升的影响及机理,揭示了水旱轮作下团聚体周转耦合氧化铁转化及“铁门”与“酶栓”交替起主导作用的有机质转化和累积过程,阐明了以有机(类)肥料促进稻田土壤团聚化和矿物活化的地力提升机理,构建了以含木质素较多的猪粪堆肥快速定向培育中低产水稻土的肥力培育新模式。申报人主持国家自然科学基金项目两项(41907083和42277345),山西省青年基金项目一项(201901D211386),山西农业大学“杰青优青培育工程”项目一项(2022YQPYGC06),省部共建有机旱作农业国家重点实验室(筹)自主研发课题一项 (有机肥促进褐土钙质纳米矿物形成机制及其固碳效应研究,202105D121008-1-9),参与国家现代农业谷子高粱产业技术体系建设专项项目(CARS-06-14.5-A20)和山西省科技合作交流专项项目(202204041101001)各一项,以第一作者和通讯作者在Soil Biology and Biochemistry(2022, 2018)、Biology and Fertility of Soils (2023)、Geoderma(2024, 2019, 2016)和Science of the Total Environment(2022, 2020)等杂志发表SCI论文12篇,其中一区Top论文8篇,2019年获山西农业大学“晋农新秀”, 2023年获山西农业大学首批“晋农学者”新秀奖。

【教育经历】 

2012/9-2017/6,南京农业大学,资源与环境科学学院植物营养学,硕博连读,导师:冉炜教授(沈其荣院士课题组)

2008/9-2012/6,河北科技师范学院,生命科技学院农学系,学士

【工作经历】

2023/2-至今,山西农业大学,资源环境学院,教授,博导

2020/1-2023/1,山西农业大学,资源环境学院,副教授,硕导

2017/6-2019/12,山西农业大学,资源环境学院,讲师

【主讲课程】

《农业自然资源概论》、《植物营养学》和《高级植物营养学》

【科研项目】

(1)国家自然科学基金委员会,面上基金项目,42277345,水旱轮作下微生物碳铁双泵介导的有机质转化累积机制研究,2023-01至2026-12,53万元,在研,主持

(2)国家自然科学基金,青年基金项目, 41907083,水稻土氧化铁生物转化及其固碳机制研究,2020-1至2022-12,24万元,结题,主持

(3)山西省应用基础研究项目,青年基金项目,201901D211386,石灰性水稻土减磷增效机制与调控措施,2020-9至2022-9,3万元,结题,主持

(4) 山西农业大学杰青优青培育工程项目,优青培育工程项目,2022YQPYGC06,稻麦轮作下微生物碳铁双泵介导的有机质分子转化累积机制,2022-07至2026-07,60万元,在研,主持

(5) 省部共建有机旱作农业国家重点实验室(筹), 山西省重大专项重点实验室课题, 202105D121008-1-9, 有机肥促进褐土钙质纳米矿物形成机制及其固碳效应研究, 2021-09 至 2022-09, 10万元, 结题, 主持

(6) 国家现代农业产业技术体系,谷子高粱产业技术体系养分管理岗位专家项目(CARS-06-14.5-A20),2020-2023,参与,骨干成员

(7) 山西省科学技术厅,山西省科技合作交流专项项目(202204041101001),高粱产量及品质响应施肥的微生物学机制,2023-01至2025-12,40万元,在研,参与

【发表论文】

(1) Huang Xiaolei, Li Yunyan, Zhang Dandan, Zhao Yan, Wang Yuan, Liu Qiuxia, Dong Erwei, Wang Jinsong, Jiao Xiaoyan*. Long-term organic fertilization combined with deep ploughing enhances carbon sequestration in a rainfed sorghum-maize rotation system. Geoderma, 2024, 442, 116778.

(2) Xiaolei Huang, Zhixin Jia, Jinsong Wang, Xiaoyan Jiao*, Xuefang Huang, Juanling Wang. Linking soil aggregation to organic matter chemistry in a Calcic Cambisol: evidence from a 33-year field experiment. Biology and Fertility of Soils, 2023, 59, 73-85.

(3) Qin Jiali, Han Xinci, Jia Zhixin, Li Yunyan, Zhang Dandan, Li Lina, Xie Junyu, Li Li, Li Tingliang, Huang Xiaolei*, Ling Ning, Yu Guanghui. Nine-year organic fertilization enhances poorly crystalline iron hydroxide formation and phosphorus availability in a temperate rice-wheat cropping system. Soil Science Society of America Journal, 2023, 87, 808-820.

(4) Xiaolei Huang, Zhixin Jia, Xiaoyan Jiao, Juanling Wang*, Xuefang Huang**. Long-term manure applications to increase carbon sequestration and macroaggregate-stabilized carbon. Soil Biology and Biochemistry, 2022, 174, 108827.

(5) Huang, Xiaolei, Wang, Lei, Mei, Yiran, Jia, Zhixin, Li, Tingliang, Yu, Guanghui, Ran, Wei. Towards a mechanistic understanding of microbial and nonmicrobial mediated topsoil organic carbon sequestration efficiency in a rice-wheat cropping system. Applied Soil Ecology, 2022, 170, 104259.

(6) Zhixin Jia #, Xiaolei Huang#, Lina Li, Tingliang Li, Yonghong Duan*, Ning Ling, Guanghui Yu. Rejuvenation of iron oxides enhances carbon sequestration by the ‘iron gate’ and ‘enzyme latch’ mechanisms in a rice-wheat cropping system. Science of the Total Environment, 2022, 839, 156209.

(7) Huang Xiaolei; Kang Wenjing; Wang Lei; Yu Guanghui; Ran Wei*; Hong Jianping; Shen Qirong; Preservation of organic carbon promoted by iron redox transformation in a rice-wheat cropping system, Applied Soil Ecology, 2020, 147, 103425.

(8) Huang Xiaolei; Kang Wenjing; Guo Junjie; Wang Lei; Tang Haiyan; Li Tingliang; Yu Guanghui; Ran Wei;* Hong Jianping; Shen Qirong; Highly reactive nanomineral assembly in soil colloids: Implications for paddy soil carbon storage. Science of the Total Environment, 2020, 703, 134728.

(9) Huang Xiaolei#; Jia Zhixin#; Guo Junjie; Li Tingliang; Sun Dasheng; Meng Huisheng; Yu Guanghui; He Xinhua; Ran Wei*, Zhang Shusheng; Hong Jianping; Shen Qirong; Ten-year long-term organic fertilization enhances carbon sequestration and calcium-mediated stabilization of aggregate-associated organic carbon in a reclaimed Cambisol, Geoderma, 2019, 355, 113880.

(10) Huang Xiaolei; Tang Haiyan; Kang Wenjing; Yu Guanghui; Ran Wei*; Hong Jianping; Shen Qirong; Redox interface-associated organo-mineral interactions: A mechanism for C sequestration under a rice-wheat cropping system, Soil Biology and Biochemistry, 2018, 120, 12-23.

(11) Huang Xiaolei; Feng Chenglong; Zhao Guanglei; Ding Mi; Kang Wenjing; Yu Guanghui; Ran Wei*; Shen Qirong; Carbon sequestration potential promoted by oxalate extractable iron oxides through organic fertilization, Soil Science Society of America Journal, 2017, 81(6), 1359-1370.

(12) Huang Xiaolei; Jiang Hong; Li Yong; Ma Yucui; Tang Haiyan; Ran Wei*; Shen Qirong; The role of poorly crystalline iron oxides in the stability of soil aggregate-associated organic C in a rice-wheat cropping system, Geoderma, 2016, 279, 1-10. 

【实用新型专利】 

一种农业营养土配备装置。专利号:2020230205567。

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