姓名:王希全
性别:男
职称:讲师内蒙古农业大学刚性引进高层次人才第五类
所在教研室:作物栽培学与耕作学教研室
办公地点:燕麦楼301
电子邮箱:wangxiquan@ imau.edu.cn
个人简历:
2011-2015 中国农业大学,农学专业,获农学学士学位;
2015-2017 中国农业大学,作物栽培学与耕作学专业,硕博连读;
2017-2020 中国农业大学,作物栽培学与耕作学专业,获农学博士学位(其间:2019.12-2020.03,丹麦Aarhus University联合培养);
2021-2023 中国农业科学院农业资源与农业区划研究所,生态学博士后(助理研究员)
2023至今 内蒙古农业大学农学院教师
教学工作
本科生:参讲《耕作学》
研究生:参将《学术诚信与科技论文写作讲座》《作物科学研究法》《作物栽培耕作研究法》《农业生态与可持续耕作制度》
研究方向
中国北方农业可持续发展关键技术及机理,具体包括燕麦抗逆优质高产栽培、有机肥替代化肥、豆禾轮作农作制、盐碱地改良与黑土地利用等。
课题项目
1. 国家自然科学基金委员会,青年项目,河套平原盐碱地麦后复种绿肥氧化亚氮排放特征与调控机理(32101852),2022.01—2024.12,30万元,主持;
2. 中国博士后科学基金会,面上一等,河套灌区盐碱地麦后复种绿肥氧化亚氮减排潜力与调控机理(2022M710165),2022.07—2025.07,12万元,主持;
3. 国家重点研发计划,子课题,土壤团聚体快速构建技术,2023.11—2028.10,65万元,主持;
4. 国家重点研发计划,子课题,杂粮宜机栽培技术模式构建与适应性评价,2023.11—2028.10,120万元,主持;
5. 国家重点研发计划,子课题,耕层快速增碳技术及配套产品研发,2021.07—2025.12,240万元,共同主持。
论文著作
[1] Wang, X., Jia, R., Zhao, J., Yang, Y., Zang, H., Zeng, Z., Olesen, J.E., 2022. Quantifying water footprint of winter wheat – summer maize cropping system under manure application and limited irrigation: An integrated approach. Resources, Conservation and Recycling 183, 106375. (1区Top,IF: 13.716)
[2] Wang, X. #, Wang, S. #, Zang, H., Nie, J., Zhao, J., Wang, P., Peixoto, L., Yang, Y., Olesen, J.E., Zeng, Z., 2023. Replacing chemical fertilizer with manure reduces N2O emissions in winter wheat – summer maize cropping system under limited irrigation. Journal of Environmental Management 336, 117677. (1区Top,IF: 8.910)
[3] Wang, X. #, Lv, G. #, Zhang, Y., Yu Y., Wang, X., Peixoto, L., Qian, C., Pang, H., 2023. Annual burying of straw after pelletizing: A novel and feasible way to improve soil fertility and productivity in Northeast China. Soil & Tillage Research 230, 105699. (1区Top,IF: 7.366)
[4] Wang, X., Zhang, H., Zhang, Z., Zhang, C., Zhang, K., Pang, H., Bell, S.M., Li, Y., Chen, J., 2023. Reinforced soil salinization with distance along the river: A case study of the Yellow River Basin. Agricultural Water Management 279, 108184. (1区Top,IF: 6.611)
[5] Wang, X., Nie, J., Wang, P., Zhao, J., Yang, Y., Wang, S., Zeng, Z., Zang, H., 2021. Does the replacement of chemical fertilizer nitrogen by manure benefit water use efficiency of winter wheat – summer maize systems? Agricultural Water Management 243, 106428. (1区Top,IF: 6.611)
[6] Zhang, K.#, Wang, X.#, Li, Y., Zhao, J., Yang, Y., Zang, H., Zeng, Z., 2022. Peanut residue incorporation benefits crop yield, nitrogen yield, and water use efficiency of summer peanut – winter wheat systems. Field Crops Research 279, 108463. (共一,1区Top,IF: 6.145)
[7] Wang, X. #, Yang, Y. #, Zhao, J., Nie, J., Zang, H., Zeng, Z., Olesen, J.E., 2020. Yield benefits from replacing chemical fertilizers with manure under water deficient conditions of the winter wheat – summer maize system in the North China Plain. European Journal of Agronomy 119, 126118. (1区Top,IF: 5.722)
[8] Chang, F.#, Wang, X.#, Song, J., Zhang, H., Yu, R., Wang, J., Liu, J., Wang, S., Ji, H., Li, Y., 2023. Optimized straw interlayer improves organic carbon and total nitrogen contents in the soil profile: A four-year experiment in a saline soil, Journal of Integrative Agriculture. (共一,1区Top,IF: 4.384)
[9] Wang, X. #, Yang, Y. #, Pei, K., Zhou, J., Peixoto, L., Gunina, A., Zeng, Z., Zang, H., Rasmussen, J., Kuzyakov, Y., 2020. Nitrogen rhizodeposition of legumes and its fate in agroecosystems: field study and literature review. Land Degradation & Development 32, 410–419. (2区,IF: 4.377)
[10] Nie J. #, Wang X. #, Ma S., Zhang K., Zhang X., Zhao J., Zang H., Yang Y., Zeng Z., 2022. Evaluation of crop productivity, water and nitrogen use, and carbon footprint of summer peanut – winter wheat cropping systems in the North China Plain. Food and Energy Security 11: e401. (共一,2区,IF: 4.667)
[11]王希全,杨亚东,张凯,等.农牧结合的意义、发展历程及前景[J].农学学报,2020,10(1):27-31.
[12] Chen L., Zhang K., Gong X., Wang H., Gao Y., Wang X., Zeng Z., Hu Y., 2020. Effects of different LEDs light spectrum on the growth, leaf anatomy, and chloroplast ultrastructure of potato plantlets in vitro and minituber production after transplanting in the greenhouse. Journal of Integrative Agriculture 19, 108-119.
[13] Chen L., Xue X., Yang Y., Chen F., Zhao J., Wang X., Khan A.T., Hu Y., 2018. Effects of red and blue LEDs on in vitro growth and microtuberization of potato single-node cuttings. Frontiers of Agricultural Science and Engineering 5, 197-205.
[14] Luo, B., Zhou, J., Zang, H., Sawut, A., Feng, X., Yang, Y., Peixoto, L., Wang, X., Olesen, J.E., Zeng, Z., 2023. Optimize farm size and agronomic practices to improve agricultural sustainability: a case of multi-indicator assessment from the North China Plain. Environment, Development and Sustainability.
[15] Nie, J., Harrison, M.T., Zhou, J., Yang, L., Zhao, J., Wang, X., Liu, K., Wang, S., Zang, H., Yang, Y., Zeng, Z., 2023. Productivity and water use efficiency of summer soybean-winter wheat rotation system under limited water supply in the North China Plain. European Journal of Agronomy 151, 126959.
[16] Nie J., Zhou J., Zhao J., Wang X., Liu K., Wang P., Wang S., Yang L., Zang H., Harrison M.T., Yang Y., Zeng Z., 2022. Soybean crops penalize subsequent wheat yield during drought in the North China Plain. Frontiers in Plant Science 13, 947132.
[17] Song, J., Zhang, H., Peixoto, L., Chang, F., Yu, R., Wang, X., Wang, J., Cao, J., Zhou, J., Kumar, A., Li, Y., 2023. Burying straw interlayers decreases CO2 emissions in deep saline soil. Sustainable Production and Consumption 43, 194-203.
[18] Song, J., Zhang, H., Chang, F., Yu, R., Zhang, X., Wang, X., Wang, W., Liu, J., Zhou, J., Li, Y., 2023. Humic acid plus manure increases the soil carbon pool by inhibiting salinity and alleviating the microbial resource limitation in saline soils. Catena 233, 107527.
[19] Song, J., Zhang, H., Chang, F., Yu, R., Wang, J., Wang, X., Li, Y., 2022. If the combination of straw interlayer and irrigation water reduction maintained sunflower yield by boosting soil fertility and improving bacterial community in arid and saline areas. Agricultural Water Management. 262, 107424.
[20] Wang, P., Wang, X., Nie, J., Wang, Y., Zang, H., Peixoto, L., Yang, Y., Zeng, Z., 2022. Manure application increases soil bacterial and fungal network complexity and alters keystone taxa. Journal of Soil Science and Plant Nutrition 22, 607–618.
[21] Wang, P., Nie, J., Yang, L., Zhao, J., Wang, X., Zhang, Y., Zang, H., Yang, Y., Zeng, Z., 2023. Plant growth stages covered the legacy effect of rotation systems on microbial community structure and function in wheat rhizosphere. Environmental science and pollution research. https://doi.org/10.1007/s11356-023-26703-0
[22] Wang P., Yang Y., Wang X., Zhao J., Peixoto L., Zeng Z., Zang H., 2020. Manure amendment increased the abundance of methanogens and methanotrophs but suppressed the type I methanotrophs in rice paddies. Environmental Science and Pollution Research 27, 8016–8027.
[23] Xu, Y., Luo, B., Jia, R., Xiao, J., Wang, X., Yang, Y., Xue, S., Zeng, Z., Brown, R.W., Zang, H., 2024. Quantifying synergies and trade-offs in the food-energy-soil-environment nexus under organic fertilization. Journal of Environmental Management 349, 119526.
[24] Yang Y., Ren Y., Wang X., Hu Y., Wang Z., Zeng Z., 2018. Ammonia-oxidizing archaea and bacteria responding differently to fertilizer type and irrigation frequency as revealed by Illumina Miseq sequencing. Journal of Soils & Sediments 18, 1029-1040.
[25] Yu, R., Zhang, H., Chang, F., Song, J., Wang, J., Wang, X., Kan, Z., Zhao, N., Li, X., Ma, J., Li, Y., 2024. Mixed sowing of Feed rape and Vicia villosa can substitute nitrogen fertilizer to improve soil multifunctionality in the Hetao irrigation District. Catena 235, 107617.
[26] Zhang, H., Pang, H., Song, J., Chang, F., Wang, J., Wang, X., Zhang, Y., Peixoto, L., Li, Y., 2022. Subsurface organic ameliorant plus polyethylene mulching strengthened soil organic carbon by altering saline soil aggregate structure and regulating fungal community. Land Degradation & Development 33, 2543–2553.
[27] Zhang K., Zhao J., Wang X., Xu H., Zang H., Liu J., Hu Y., Zeng Z., 2018. Estimates on nitrogen uptake in the subsequent wheat by aboveground and root residue and rhizodeposition of using peanut labeled with 15N isotope on the North China Plain. Journal of Integrative Agriculture 17, 60345-60352.
[28] 董睿潇,王永庆,王鑫博,李玉义,王希全,张宏媛,宋佳珅,于茹,逄焕成,王婧. 盐胁迫对食用型向日葵现蕾期叶片光合性能与冠层结构的影响[J]. 中国生态农业学报(中英文), 2023, DOI: 10.12357/cjea.20230227.
[29] 冯文豪,王希全,杨国威,等.山西省东北部地区3种豆科作物品种的适应性分析[J].河北农业科学,2021,25(05):33-37.
[30] 冯喜梅,王希全,赵杰,等.黑龙港低平原地区涝害条件下春大豆高产品种的筛选及其农艺性状[J].河北农业科学,2018,22(02):78-81.
[31] 姜瑶,王希全,赵杰,等.黑龙港低平原地区直播春花生高产品种筛选[J].河北农业大学学报,2017,40(03):26-31.
[32] 姜瑶,王希全,张凯,等.适宜黑龙港低平原地区种植的小豆高产品种筛选[J].河北农业科学,2017,21(03):35-39.
[33] 李康利,佟越强,聂江文,王希全,杨亚东,臧华栋,曾昭海.黑龙港地区夏大豆高产品种筛选[J].大豆科技,2020(06):1-8.
[34] 尚梦洁,王希全,杨亚东,等.黑龙港低平原区直播夏花生高产品种筛选[J].河北农业大学学报,2020,43(02):40-46.
[35] 王上,郑瑛,杨国威,聂江文,冯喜梅,王希全,曾昭海.黑龙港低平原地区绿豆高产品种筛选[J].河北农业科学,2019,23(02):79-85+103.
[36] 于茹,宋佳珅,张宏媛,常芳弟,王永庆,王希全,王婧,王伟妮,李玉义. 秸秆隔层结合春灌对河套灌区盐碱地土壤呼吸及其温度敏感性的影响[J]. 中国农业科学,2023,56,2341-2353.
[37] 张凯,曾昭海,赵杰,王希全,周婕,许和水,王志敏.华北平原压采地下水对小麦生产的影响分析[J].中国农业科技导报,2016,18(05):111-117.
获奖情况
1. 2015-2016学年超大奖学金
2. 2016-2017学年博士二等学业奖学金
3. 2017-2018学年博士二等学业奖学金
4. 2019-2020学年博士一等学业奖学金
5. 2019-2020学年院长特别奖学金
6. 中国农业科学院农业资源与农业区划研究所博士后创新人才支持计划重点资助
7. 中国农业科学院博士后“优农计划”特别资助
8. 国家自然科学基金项目申报工作优秀青年奖
9. 中国农业科学院优秀博士后
授权专利
[1]李玉义,张宏媛,于茹,宋佳珅,常芳弟,王希全,王婧. 多功能根箱装置及其应用, 发明专利CN115078361A. 2022-09-20
[2]曾昭海,王上,臧华栋,杨亚东,赵杰,聂江文,王希全,李超. 一种黑龙港低平原地区两年三熟节水轮作方法: 发明专利CN110140625A. 2019-08-20
地方标准
[1] 吕国依,钱春荣,逄焕成,于洋,王婧,郝玉波,王希全,宫秀杰,任天志,姜宇博,张艺腾,孟凡迪,李梁,刘凯,任洋,杨忠良,侯国强,夏天舒,李艳欣,谢婷婷,孙丹,杨贤莉,赵杨,孙兵,王彤彤,张玉红. 秸秆颗粒化倍量还田培肥技术规程, 黑龙江省地方标准DB23/T 3583—2023. 2023-09-27
[2] 曾昭海,李超,臧华栋,李玉坤,杨亚东,赵凤娟,李琳,张明娟,陈平,宁国平,蔡永耀,王上,赵杰,王希全,李亚楠,王平. 绿豆节水稳产栽培技术规程, 沧州市地方标准DB1309/T 238—2020. 2020-09-30
参编著作
[1] 陈源泉主编,《大学生社会实践手册:走进乡土乡村50问》,中国农业大学出版社,2018
[2] 李玉义主编,《内蒙古河套灌区盐碱耕地质量特征与分区治理》,内蒙古大学出版社,2021