土壤学科-庞志豪
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发表时间:(2025-10-16)
个人基本信息
庞志豪,土壤学科副教授。
通讯地址:北京市海淀区清华东路35号北京林业大学林学院106
邮政编码:100083
教育背景
2021.9-2025.9浙江大学环境与资源学院植物营养学专业,获农学博士,导师 梁永超教授
2024.8-2025.4新加坡国立大学化学与生物分子工程学院,联合培养博士,导师 Tedrick Thomas Salim Lew 教授
2017.9-2021.6南开大学生命科学学院伯苓班,获理学学士,导师 石福臣教授
工作及任职经历
2025.10 北京林业大学林学院土壤学科副教授
研究方向
植物硅营养、植物逆境生理、施肥创新
学术任职
1.Journal of Plant Ecology青年编委
2.Forestry Research青年编委
主要科研项目
1.国家自然科学基金委员会青年学生基础研究项目,陆地植物硅化温度依赖性的生理和进化证据,2025-01至2026-12,30万元,主持.
2.中国科协青年人才托举工程博士生专项,植物营养与肥料学会,托举导师:周卫 院士,2025-01至2026-12,4万元.
主要发表文章
1. 一作及通讯论文
(1)Pang Z, Tombeur F, Hartley S, Zohner C, Nikolic M, Violle C, Mo L, Crowther T, Guan D, Luo Z, Zhu Y, Wang Y, Zhang P, Peng H, Nikolic N, Liang Y. (2025). Convergent evidence for temperature-dependent emergence of silicification in terrestrial plants. Nature Communications 16: 1155.
(2)Pang Z, Peng H, Lin S, Liang Y. (2024). Theory and application of a Si-based defense barrier for plants: Implications for Soil-Plant-Atmosphere system health. Critical Reviews in Environmental Science and Technology 54(9): 722-746.
(3)Pang Z, Liang Y. (2024). Emergency remedial measures to salvage losses from Chinese wheat post-harvest sprouting. npj Sustainable Agriculture 2: 3.
(4)Pang Z, Mei Y, Nikolic N, Nikolic M, Li T, Peng H, Liang Y. (2023). From promoting aggregation to enhancing obstruction: A negative feedback regulatory mechanism of alleviation of trivalent chromium toxicity by silicon in rice. Journal of Hazardous Materials 457: 131720.
(5)Pang Z, Zhu Y, Guan D, Wang Y, Peng H, Liang Y. (2024). Unveiling mechanisms of silicon-mediated resistance to chromium stress in rice using a newly-developed hierarchical system. Plant Physiology and Biochemistry 207: 108368.
(6)Pang Z, Qiu L, Guan D, Zeng X, Wang Y, Peng H, Song A, Liang Y. (2025). A novel layered culture device reveals spatial dynamics of root element uptake and optimal silicon application site for mitigating chromium uptake by rice. Journal of Environmental Management 373: 123488.
(7)Pang Z, Shen S, Ma Q, Wang Y, Peng H, Liang Y. (2024). Extracellular silicon (Si) nanocoating induced by cationic polymers enhances heavy metal resistance in both Si-accumulating and non-Si-accumulating plants. Environmental Technology & Innovation 33: 103500.
(8)Pang Z, Yin W, Wang Y, Zeng W, Peng H, Liang Y. (2023). Silicon-phosphorus pathway mitigates heavy metal stress by buffering rhizosphere acidification. Science of The Total Environment 904: 166887.
(9)Pang Z, Luo Z, Guan D, Zhang T, Qiu L, Zhao E, Ma Q, Li T, Peng H, Liang Y. (2024). The adsorption-diffusion model and biomimetic simulation reveal the switchable roles of silicon in regulating toxic metal uptake in rice roots. Chemosphere 353: 141669.
(10)Pang Z, Yang X, Zhang H, Luo J, Peng H, Li T, Liang Y. (2025). Grafting technique accelerates heavy metal phytoextraction by Sedum alfredii and preserves its beneficial effects on soil microorganisms. Rhizosphere, 34: 101090.
(11)Pang Z, Nikolic N, Nikolic M, Lux A, Liang Y. (2025). Where is plant beneficial element research heading? Journal of Integrative Agriculture.
(12)Pang Z#, Qiu L#, Wang Y, Li G, Guan D*, Liang Y*. (2025). Single-pulse silicic acid immersion for extending the shelf life of lettuce. LWT: 118407.
(13)Mei Y, Pang Z*, Gao Z, Peng H, Tang X, Liang Y*. (2025). Optimization and mechanistic insights into silicon-doped ferrihydrite for simultaneous removal of arsenic and cadmium from contaminated water. Ecotoxicology and Environmental Safety 303: 118784.
(14)Yin W#, Pang Z#, Feng X, Wang Y, Peng H, Liang Y. (2025). Comparison of the effects of silicic acid, organosilicon and nano-silicon on rice cell wall phosphorus. Plant Physiology and Biochemistry 227: 110089.
2.其他论文
(1)Yuan J, Pang Z, Liu Q, Huang L, Liu Y, Liao J et al (2024). Plant endophyte immobilization technology: A promising approach for chromium-contaminated water and soil remediation. Journal of Hazardous Materials 477: 135320.
(2)Zhao E, Pang Z, Li W, Tan L, Peng H, Luo J, Ma Q, Liang Y. (2024). Spatial variation in stability of wheat (Triticum aestivum L.) straw phytolith-occluded carbon in China. Science of The Total Environment 920: 170909-170909.
(3)Zhao E, Li W, Pang Z, Tan L, Peng H, Luo J, Ma Q, Feng Y, Liang Y. (2025). The effects of crop varieties and environmental conditions on the stability of phytolith-occluded carbon in wheat and rice. Journal of Cleaner Production 486: 144506.
(4)Feng X, Pang Z, Liu J, Peng H, Liang Y, Guo B. (2025). Chemical and microbial mechanisms underpinning calcium-regulated suppression of cadmium bioavailability in alkaline paddy soil and cadmium accumulation in rice grain. Ecotoxicology and Environmental Safety 302: 118620.
(5)Zhang W, Pang Z, Zheng W, Hartley SE, Zhang Z, Peng H, Liang Y. (2025). Silica nanoparticles outperform sodium silicate in enhancing trivalent chromium resistance in rice through their physicochemical impacts on root apoplastic barriers. Environmental Research 285: 122280.
(6)史馨怡, 管冬兴, 邱丽雪, 刘艺文, 庞志豪, 廖敏. (2024). 施硅对稻田土-水稻系统磷活化与吸收的调控机制. 浙江大学学报(农业与生命科学版) 50(6): 930-941.
(7)郑璞帆, 张梅, 庞志豪, 马恩凤, 王芝学, 石福臣 (2020). 京津冀地区主栽梨品种果实外观特征、营养特性及香气物质分析. 南开大学学报(自然科学版) 53: 35-42.
发明专利
(1)庞志豪, 梁永超. ZL202310142969.1, 一种利用硅层层自组装增强植物重金属铬抗性的方法. 2023-02-21.
(2)庞志豪, 梅宇超, 彭红云, 梁永超. ZL202411592086.1, 电刺激诱导水稻根部硅酸聚合以增强抗逆性的装置和方法. 2024-12-05.
(3)庞志豪, 冯小羽, 彭红云, 梁永超. ZL202411592088.0, 插秧前建立水稻纳米硅防御屏障的通电装置和方法. 2024-12-02.
奖励及荣誉
1.第九届国际农业硅大会Emanuel Epstein Award
2.第二十届全国研究生环境论坛最佳口头汇报
3.第十届全国生态修复研究生学术大会一等奖
4.天津市风景园林学会科技进步三等奖(3/8)
5.南开大学优秀助教
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