人才与招聘

万的军 男,中国地质科学院水文地质环境地质研究所,副研究员 
招生专业:070905 第四纪地质学
 
河北省石家庄市中华北大街268号,050061
Email: wandejun@mail.cgs.gov.cn,dejunwan@foxmail.com 
 
2006-2013年先后在中国科学院获硕士和博士学位,2013-2016年在首都师范大学从事博士后研究。2013年起任职于中国地质科学院水文地质环境地质研究所。
现为副研究员,硕士生导师,九三学社社员,主要从事第四纪地质与环境、湖泊沉积与环境污染、近现代环境地球化学过程等方面的研究。
 
至今已主持国家自然科学基金等科研项目8项,发表学术论文20余篇,获国家实用新型专利5项(第一发明人)。获第十六届“青年地质科技奖”—银锤奖,入选河北省第三批青年拔尖人才支持计划,入选河北省“三三三人才工程”第三层次,获国家留学基金委“访问学者”资助,入选水环所“杰出青年”人才培养计划。
 
负责的科研项目主要有:青海湖大气水溶性与颗粒态重金属的沉降特征及其对湖泊的输入(国家自然科学基金,负责);中国北方晚全新世水文-生态环境与粉尘活动的湖泊沉积记录(基本科研业务费,负责);山西公海沉积记录的千年来沙尘天气变化过程及机制(基本科研业务费,负责);青海湖现代沉积物各主要来源通量及其贡献的定量解译(黄土与第四纪地质国家重点实验室开放基金,负责);石家庄市大气PM2.5的重金属污染及其健康风险评估(河北省自然科学基金,负责)等。
 
发表学术论文20余篇。其中代表性论文有(*为通讯作者):
1. Wan DJ*, Song L, Mao X, Yang JS, Jin ZD, Yang HD*, 2019. One-century sediment records of heavy metal pollution on the southeast Mongolian Plateau: implications for air pollution trend in China, Chemosphere, 220, 539-545  (SCI)   
2. Wan DJ*, Mao X, Jin ZD, Song L, Yang JS, Yang HD*, 2019. Sedimentary biogeochemical record in Lake Gonghai: implications for recent lake changes in relatively remote areas of China. Science of the Total Environment, 649, 929-937, doi: 10.1016/j.scitotenv.2018.08.331   (SCI)   
3. Wan DJ*, Yang GL, Yang JS, Zhan CL, 2018. Ecological risks and spatial distributions of heavy metals in atmospheric dust from Beijing, China. Polish Journal of Environmental Studies, 27(2), 881-887 (SCI)   
4. Wan DJ*, Song L, Yang JS, Jin ZD, Zhan CL, Mao X, Liu DW, Shao Y, 2016. Increasing heavy metals in the background atmosphere of central North China since the 1980s: evidence from a 200-year lake sediment record. Atmospheric Environment, 138, 183–190 (SCI)   
5. Wan DJ*, Jin ZD*, Zhang F, Song L, Yang JS, 2016. Increasing dust fluxes on the northeastern Tibetan Plateau linked with the Little Ice Age and recent human activity since the 1950s. Aeolian Research, 23, 93–102 (SCI) 
6. Wan DJ*, Han ZX, Yang JS, Yang GL, Liu XQ, 2016. Heavy metal pollution in settled dust associated with different urban functional areas in a heavily air-polluted city in North China. International Journal of Environmental Research and Public Health, 13(11), 1119, doi:10.3390/ijerph13111119 (SCI) 
7. Wan DJ*, Zhan CL, Yang GL, Liu XQ, Yang JS, 2016. Preliminary Assessment of Health Risks of Potentially Toxic Elements in Settled Dust over Beijing Urban Area. International Journal of Environmental Research and Public Health, 13(5), 491, doi:10.3390/ijerph13050491 (SCI)   
8. Wan DJ*, Han ZX, Liu DW, Yang JS, 2016. Risk assessments of heavy metals in house dust from a typical industrial area in Central China. Human and Ecological Risk Assessment, 22(2), 489–501 (SCI)
9. Wan DJ*, Han ZX, Liu DW, Yang JS, 2016. Pollution levels and spatial distribution of heavy metals in house dust from an industrial area in Xi’an, Central China. Fresenius Environmental Bulletin, 25(3), 839–851 (SCI)  
10. Wan DJ, Jin ZD*, Zhang F, et al., 2015. Further quantifying the fluxes and contributions of sources to modern Lake Qinghai sediment. Limnology, 16, 11–20 (SCI)  
11. Wan DJ*, Mu GJ, Jin ZD, Lei JQ, 2013. The effects of oasis on aeolian deposition under different weather conditions: A case study at the southern margin of the Taklimakan Desert. Environmental Earth Sciences, 68(1), 103–114 (SCI)  
12. Wan DJ, Jin ZD*, Wang YX, 2012. Geochemistry of eolian dust and its elemental contribution to Lake Qinghai sediment. Applied Geochemistry, 27(8), 1546–1555 (SCI)