英国365集团

邮箱： jialu-xu@bnu.edu.cn

通讯地址：珠海市金凤路18号燕华苑6栋一层（邮编：519087）

职称：副教授

工作经历

副教授                         英国365集团               2025至今

特聘副研究员               英国365集团               2022-2025

助理研究员                  浙江大学生物系统工程与食品科学学院                2018-2022

教育经历

博士               德国霍恩海姆大学               2018                

硕士               中国农业大学                      2013                

访学               德国霍恩海姆大学               2011.11; 2012.11-2013.1

学士               中国农业大学                      2011

代表性论文

- Zhang Z., Xu J.^*, Jin S., Zhuang H., Li S., Wu X., Zhang Z. (2024) Considerable energy crop production potentials in the Russian Far East. Biomass and Bioenergy, 189, 107365.

- Wu H., Zhang Z.^*, Xu J.^*, Song J., Han J., Zhang J., Mei Q., Cheng F., Zhuang H., and Li S. (2024). Food consumption away from home had divergent impacts on diet nutrition quality across urban and rural China. Food Security. https://doi.org/10.1007/s12571-024-01514-4.

- Xu J., Gao J., de Holanda H.V., Rodríguez L.F., Caixeta-Filho J.V., Zhong R., Jiang H., Li H., Du Z., Wang X., Wang S., Ting K.C., Ying Y., Lin T. (2021) Double cropping and cropland expansion boost grain production in Brazil. Nature Food, 2 (4), 264 - 273. 

- a. University of Delaware UDaily - Increasing crop production without clearing new fields transforms Brazilian agriculture

- b. Zhejiang University Newsroom - Story behind grain boom in Brazil

- Zhang B.¹, Xu J.¹, Lin Z., Lin T., Faaij A.P.C. (2021) Spatially explicit analyses of sustainable agricultural residue potential for bioenergy in China under various soil and land management scenarios. Renewable and Sustainable Energy Reviews, 137, 110614.

- Xu J., Gauder M., Zikeli S., Möhring J., Gruber S., & Claupein W. (2018) Effects of 16-year woodchip mulching on weeds and yield in organic farming. Agronomy Journal, 110(1), 359-368.

- Xu J., Gauder M., Gruber S., & Claupein W. (2017) Yields of annual and perennial energy crops in a 12-year field trial. Agronomy Journal, 109(3), 811-821.

其他论文

- Zhuang H., Zhang Z., Xu J., Han J., Cheng F., and Tao F. (2025). Overcoming wheat yield stagnation in China depends more on cultivar improvements than water and fertilizer management. Field Crops Research, 333, 110089.

- Han J., Luo Y., Zhang Z., Xu J., Chen Y., Asseng S., Jägermeyr J., Müller C., Olesen J.E., Rötter R., et al. (2025). Planting area and production decreased for winter-triticeae crops but increased for rapeseed in Ukraine with climatic impacts dominating. Geography and Sustainability, 6, 100226.

- Cao J., Zhang Z., Luo X., Luo Y., Xu J., Xie J., Han J., and Tao F. (2025). Mapping global yields of four major crops at 5-minute resolution from 1982 to 2015 using multi-source data and machine learning. Sci Data, 12, 357.

- Mei Q., Zhang Z., Han J., Song J., Cheng F., Zhuang H., Wu H., and Xu J. (2025). Cultivar shifts have offset climate warming impacts on soybean phenology in China since 1981. Agricultural Systems, 224, 104260.

- Han J., Zhang Z., Xu J., Chen Y., Jägermeyr J., Cao J., Luo Y., Cheng F., Zhuang H., Wu H., Mei Q., Song J., Tao F. (2024) Threat of low-frequency high-intensity floods to global cropland and crop yields. Nature Sustainability, 7 (8), 994 - 1006.

- Liang R., Zhang Y., Hu Q., Li T., Li S., Yuan W., Xu J., Zhao Y., Zhang P., Chen W., et al. (2024). Satellite-Based Monitoring of Methane Emissions from China’s Rice Hub. Environmental Science & Technology, 58(52), 23127-23137.

- Zhuang H., Zhang Z., Han J., Cheng F., Li S., Wu H., Mei Q., Song J., Wu X., Zhang Z., Xu J. (2024). Stagnating rice yields in China need to be overcome by cultivars and management improvements. Agricultural Systems, 221, 104134.

- Zhuang H., Zhang Z., Cheng F., Han J., Luo Y., Zhang L., Cao J., Zhang J., He B., Xu J., Tao F. (2024) Integrating data assimilation, crop model, and machine learning for winter wheat yield forecasting in the North China Plain. Agricultural and Forest Meteorology, 347, 109909.

- Mei Q., Zhang Z., Han J., Song J., Dong J., Wu H., Xu J., Tao F. (2024) ChinaSoyArea10m: a dataset of soybean-planting areas with a spatial resolution of 10m across China from 2017 to 2021. Earth System Science Data, 16 (7), 3213 - 3231.

- Zhang Z., Luo Y., Han J., Xu J., Tao F. (2024) Estimating global wheat yields at 4 km resolution during 1982–2020 by a spatiotemporal transferable method. Remote Sensing, 16 (13), 2342.

- Wu H., Zhang J., Zhang Z., Han J., Cao J., Zhang L., Luo Y., Mei Q., Xu J., Tao F. (2023) AsiaRiceYield4km: seasonal rice yield in Asia from 1995 to 2015. Earth System Science Data, 15 (2), 791 - 808.

- Zhu P., Burney J., Chang J., Jin Z., Mueller N.D., Xin Q., Xu J., Yu L., Makowski D., Ciais P. (2022) Warming reduces global agricultural production by decreasing cropping frequency and yields. Nature Climate Change, 12 (11), 1016 - 1023.

- Cheng F., Zhang Z., Zhuang H., Han J., Luo Y., Cao J., Zhang L., Zhang J., Xu J., Tao F. (2022) ChinaCropSM1 km: A fine 1km daily soil moisture dataset for dryland wheat and maize across China during 1993-2018. Earth System Science Data, 15 (1), 395 - 409.

- Lin Z., Zhong R., Xiong X., Guo C., Xu J., Zhu Y., Xu J., Ying Y., Ting K.C., Huang J., Lin T. (2022) Large-scale rice mapping using multi-task spatiotemporal deep learning and Sentinel-1 SAR time series. Remote Sensing, 14 (3), 699.

- Lin T., Zhong R., Wang Y., Xu J., Jiang H., Xu J., Ying Y., Rodriguez L., Ting K.C., Li H. (2020) DeepCropNet: a deep spatial-temporal learning framework for county-level corn yield estimation. Environmental Research Letters, 15 (3), 034016.

- Jiang H., Hu H., Zhong R., Xu J., Xu J., Huang J., Wang S., Ying Y., Lin T. (2020) A deep learning approach to conflating heterogeneous geospatial data for corn yield estimation: A case study of the US Corn Belt at the county level. Global Change Biology, 26 (3), 1754 - 1766.

- Xu J., Zhu Y., Zhong R., Lin Z., Xu J., Jiang H., Huang J., Li H., Lin T. (2020) DeepCropMapping: A multi-temporal deep learning approach with improved spatial generalizability for dynamic corn and soybean mapping. Remote Sensing of Environment, 247, 111946.

- Lin T., Xu J., Shen X., Jiang H., Zhong R., Wu S., Du Z., Rodriguez L., Ting K.C. (2019) Spatiotemporal assessment of field residues of rice, maize, and wheat at provincial and county levels in China. GCB Bioenergy, 11 (10), 1146 - 1158.

- Gruber, S., Xu, J., Zikeli, S., Belz, R. Potential of wood chips for weed control, In: Adujemo, T. Ol, Vögele, R.T. (eds.) Biopesticides-botanical and microorganisms for improving agriculture and human health. Chapter 6, Logos Verlag Berlin. (Book chapter)

科研项目

国家自然科学基金青年项目“基于生产-消费格局的蔬菜运输损失及其隐性代价研究”，2024-2026，主持，在研。

国家自然科学基金面上项目”遥感信息-气象数据-深度学习耦合的玉米单产模型机理及其时空尺度效应分析”，2021-2024，参与，结题。 

课程教学

- 农业生产与粮食安全（研究生课），主讲

- 中国粮食安全与碳中和（本科生选修课），主讲

- 资源安全学（研究生课），联合讲授

- 资源安全前沿讲座（研究生课），参与讲授

- 国家安全学导论（研究生课），参与讲授

- 国家安全导论（本科生必修课），参与讲授

学术会议及报告

Xu, J. and Zhang, Z. Assessing the Impact of Long-Term Wind Speed Changes on Crop Yields in China. Presented at EGU General Assembly 2025. Vienna, Austria, 27 Apr–2 May 2025, EGU25-1509, https://doi.org/10.5194/egusphere-egu25-1509, 2025.

Xu, J., Exploring Opportunities for China's Food Security within the Framework of Globalization. Presented at Frontiers in Soil Health and Food Security: A Youth-Led Vanguard International Symposium. Yunnan, China, Oct. 16-19, 2024 (Invited talk)

张宗亮，徐佳路，以俄远东为例的高纬度地区生物能源开发潜力评估.第六届环境地理青年论坛.吉林省延边朝鲜族自治州.2024年8月2–5日

徐佳路，2022年第一期莱茵-美因论坛，德国法兰克福大使馆教育组农学-食品-生物经济专业学术专题讲座，特邀报告

Xu, J., de Holanda, H. V., and Lin, T. Driving Process for the Booming Grain Production in Brazil: A Transition from Extensification to Intensification. Presented at 2019 ASA-CSSA-SSSA International Annual Meeting. San Antonio, Texas, Nov. 10-13, 2019

科研及教学奖项

- 自然资源部科学技术奖二等奖（排名第4，2024）

- 气象科技创新奖二等奖（排名第7，2024）

- 学院首届青年教师教学基本功比赛二等奖、最佳教态奖及最佳课程思政奖（2024）

研究兴趣

影响作物生产及粮食安全的环境及社会经济驱动因素

作物生产体系宏观变化、可持续性及气候变化适应性

招生方向

欢迎具有地理、地信、经济、统计等大类专业背景的同学报考，数学建模、大数据相关背景优先；欢迎来信咨询报考及其他科研合作。