SCI论文:
1. Wang Y, Li XM, Li SL, Hedding DW, Chen Y*, Chen J. Riverine evidence for the significant anthropogenic impact on sulfur and carbon biogeochemical cycle: A case study from Xijiang River Basin. Journal of Hazardous Materials, 2025, 49: 138424.. https://doi.org/10.1016/j.jhazmat.2025.138424
2. Wang, Y., Chen, Y.*, Li, S., Hedding, D.W., & Chen, J. Carbon emissions through the weathering of petrogenic organic carbon and the net geological carbon budget of the Tibetan Plateau. Geophysical Research Letters, 2025, 52: e2024GL110718. https://doi.org/10.1029/2024GL110718
3. Yao, P., Zhang, J., Zhou, B*. Chen, Y”., He D. A novel approach for fast microplastic quantification in sediments using machine learning—Spectrometer combinations. Water Air Soil Pollution, 2025, 236: 922. https://doi.org/10.1007/s11270-025-08575-x
4. Wang Y, Li SL, Xu PX, Wang HX, Chen Y*, Chen J. Rapid and significant perturbations on the global geochemical cycle of rhenium by human activities ----- A case study in Yangtze River basin. Applied Geochemistry, 2024, 162: 105912. https://doi.org/10.1016/j.apgeochem.2024.105912
5. Li S, Li GK, Li W, Chen Y*, Raymo ME, Chen J. Effects of secondary carbonate precipitation and dissolution on Changjiang (Yangtze) river chemistry and estimates of silicate weathering rates. Global Biogeochemical Cycles, 2023, 37: e2022GB007581. https://doi.org/10.1029/2022GB007581
6. Wang H, Chen Y*, Ji J, Li X, Hedding DW. Chen J. Chemical weathering intensity controls the accumulation of nickel in rice (Oryza sativa L.) cultivated in basalt-derived paddy fields. Geoderma, 2023, 434: 116494, https://doi.org/10.1016/j.geoderma.2023.116494
7. Wang HX, Li XM, Chen Y*, Li ZB, Hedding DW, Nel W, Ji JF, Chen J. Geochemical behavior and potential health risk of heavy metals in basalt-derived agricultural soil and crops: A case study from Xuyi County, eastern China. Science of The Total Environment, 2020, 729: 139058, https://doi.org/10.1016/j.scitotenv.2020.139058
8. Chen Y, Hedding DW, Li XM, Greyling AC, Li GJ*. Weathering dynamics of Large Igneous Provinces (LIPs): A case study from the Lesotho Highlands, Earth and Planetary Science Letters, 2020, 530: 115871, https://doi.org/10.1016/j.epsl.2019.115871
9. Li SL, Li WQ, Beard BL, Raymo ME, Wang XM, Chen Y, Chen J. K isotopes as a tracer for continental weathering and geological K cycling. Proceedings of the National Academy of Sciences, 2019, 116(18): 8740–8745
10. Li ZB, Lu XC, Teng H, Chen Y, Zhao L, Ji JF, Chen J, Liu LW, Specificity of low molecular weight organic acids on the release of elements from lizardite during fungal weathering. Geochimica et Cosmochimica Acta, 2019, 256 (SI): 20-34
11. He T*, Liu LW, Chen Y, Sheng XF, Ji JF, Chen J. Glacial-interglacial change in chlorite concentration from Lingtai section in Chinese Loess Plateau over the past 1.2Ma and its possible forcing mechanism. Quaternary Research, 2018, 89(2): 511-519
12. Li L, Chen J, Chen Y, Hedding DW, Li T, Li LF; Liu XJ, Zeng FM, Wu WH, Zhao L, Li GJ*. Uranium isotopic constraints on the provenance of dust on the Chinese Loess Plateau, Geology, 2018.09, 46(9): 747-750
13. Li LF, Chen TY, Chen J, Chen Y, Hedding DW, Li G, Li L, Li T, Robinson LF, West AJ, Wu WH, You CF, Zhao L, Li GJ. Weathering dynamics reflected by the response of riverine uranium isotope disequilibrium to changes in denudation rate. Earth and Planetary Science Letters, 2018.10.15, 500: 136-144
14. He T*, Liu LW, Chen Y, Sheng XF, Ji JF. A seven-million-year hornblende mineral record from the central Chinese Loess Plateau, Scientific Reports, 2017/5, 7: 2382, 10.1038/s41598-017-02400-0
15. Zhang T, Chillrud S N, Ji JF*, Chen Y, Pitiranggon M, Li W, Liu Z, Yan B. Comparison of PM2.5 exposure in hazy and non-hazy days in Nanjing, China. Aerosol and Air Quality Research, 2017, 17: 2235–2246
16. He T, Liu LW, Chen Y, Sheng XF, Ji JF. Plagioclase sub-species in Chinese loess deposits: Implications for dust source migration and past climate change. Quaternary Research, 2016, 85(1): 17-24
17. Li GJ, Hartmann J, Derry L A, West A J, You C F, Long X Y, Zhan T, Li L, Li G, Qiu W, Li T, Liu L W, Chen Y. Ji J F,; Zhao L, Chen J. Temperature dependence of basalt weathering. Earth and Planetary Science Letters, 2016, 443: 59-69
18. Li Z, Xu J, Teng HH, Liu L, Chen J, Chen Y, Zhao L, Ji J. Bioleaching of lizardite by magnesium- and nickel-resistant fungal isolate from serpentinite soils - implication for carbon capture and storage. Geomicrobiology Journal, 2015, 32(2): 181-192
19. Rao WB, Tan HB, Chen J, Ji JF, Chen Y, Pan YD, Zhang WB. Nd-Sr isotope geochemistry of fine-grained sands in the basin-type deserts,
20. Wang C, Li W, Yang ZF, Chen Y, Shao WJ, Ji JF. An invisible soil acidification: Critical role of soil carbonate and its impact on heavy metal bioavailability. Scientific Reports, 2015, 5: 12735
21. Li GJ, Chen J, Chen Y. Primary and secondary carbonate in Chinese loess discriminated by trace element composition. Geochimica et Cosmochimica Acta, 2013, 103: 26-35
22. He T, Chen Y, Balsam W, Qiang XK, Liu LW, Chen J, Ji JF. Carbonate leaching processes in the Red Clay Formation, Chinese Loess Plateau: fingerprinting East Asian summer monsoon variability during the late Miocene and Pliocene. Geophysic Research Letters, 2013, 40:194-198
23. He T, Chen Y, Balsam W, Sheng XF, Liu LW, Chen J, Ji JF. Distribution and origin of protodolomite from the late Miocene-Pliocene Red Clay Formation, Chinese Loess Plateau. Geochemistry Geophysics Geosystems, 2012, 13: Q06004
24. Li GJ, Chen J, Chen Y, Yang JD, Ji JF, Liu LW. Dolomite as a tracer for the source regions of Asian dust. Journal of Geophysical Research-atmospheres, 2007, 112 (d17): art. no. d17201
25. Li GJ, Sheng XF, Chen J, Yang JD, Chen Y. Oxygen-isotope record of paleorainwater in authigenic carbonates of Chinese loess-paleosol sequences and its paleoclimatic significance. Palaeogeography Palaeoclimatology Palaeoecology, 2007, 245 (3-4): 551-559
26. Chen J, Chen Y, Liu L, Ji J, Balsam W, Sun Y, Lu H. Zr/Rb ratio in the Chinese loess sequences and its implication for changes in the East Asian winter monsoon strength. Geochimi. Cosmochim. Acta, 2006, 70 (6): 1471-1482
27. Teng HH, Chen Y, Pauli E. Direction specific interactions of 1,4-dicarboxylic acid with calcite surfaces. J. Am. Chem. Soc., 2006, 128: 14482-14484
28. Fan CF, Chen J, Chen Y, Ji JF, Teng HH. Relationship between solubility and solubility product: The roles of crystal sizes and crystallographic directions. Geochimi. Cosmochim. Acta, 2006, 70 (15): 3820-3829
29. Liu LW, Chen J, Ji JF, Chen Y, Balsam W. Variation of Zr/Rb ratios in the Chinese loess deposits during the past 1.8 Myr and its implication for the change of East Asian monsoon intensity. Geochemistry Geophysics Geosystems, 2006, 7: Art. No. Q10006
30. Ji JF, Balsam W, Chen X, Chen Y, Wang HT. Rate of solar insolation change and the glacial//interglacial transition. Geophys. Res. Lett., 2006, 33, L04706, doi:10.1029/ 2005GL025401
31. Sheng XF, Chen J, Cai YF, Chen Y, Ji, J F. Aragonite-calcite transformation in fossil snail shells of loess sequences in Loess Plateau,
32. Zhao L, Ji JF, Chen J, Liu L W, Chen Y, Balsam W. Variations of illite/chlorite ratio in Chinese loess sections during the last glacial and interglacial cycle: Implications for monsoon reconstruction. Geophysical Research Letters, 2005, 32 (20): Art. No. L20718
33. Liu LW, Chen J, Ji JF, Chen Y. Comparison of paleoclimatic change from Zr/Rb ratios in Chinese loess with marine isotope records over the 2.6-1.2 Ma BP interval. Geophys. Res. Lett., 2004, 31 (15): Art. No. L15204
34. Chen TH, Xu HF, Ji JF, Chen J, Chen Y. Formation mechanism of ferromagnetic minerals in loess of
35. Chen Y, Chen J, Liu LW, Ji JF, Zhang JX. Spatial and temporal changes of summer monsoon on the Loess Plateau of Central China during the last 130 ka inferred from Rb/Sr ratios. Science in China Series D-Earth Sciences, 2003, 46(10): 1022-1030
36. Jin L, Ji JF, Balsam W, Chen Y, Chen J, and Lu HY. Determining magnetic susceptibility in loess-paleosol sections by near-infrared reflectance spectroscopy. Geophys. Res. Lett., 2003, 30 (10): Art. No. 1520
37. Chen J, Ji JF, Balsam W, Chen Y, Liu LW, An ZS. Characterization of the Chinese loess - paleosol stratigraphy by whiteness measurement. Palaeogeogr. Palaeoclim. Palaeoecol., 2002, 183 (3-4): 287–297
38. Liu LW, Chen J, Chen Y, Ji JF, Lu HY. Variation of Zr/Rb ratios on the Loess Plateau of Central China during the last 130,000 years and its implications for winter monsoon. Chinese Science Bulletin, 2002, 47 (15): 1298–1302
39. Chen J, An ZS, Liu LW, Ji JF, Yang JD, Chen Y. Variations in chemical Compositions of the eolian dust in Chinese Loess Plateau over the past 2.5 Ma and chemical weathering in the Asian inland. Science in China (Series D), 2001, 44 (5): 403–413
40. Yang JD, Chen J, Tao XC, Li CL, Ji JF, Chen Y. Sr isotope ratios of acid-leached loess residues from
41. Liu LW, Chen J, Wang HT, Chen Y. A chemical index of weathering without effect of wind sorting: Fe/Mg ratios in the acid-insoluble phases of loess deposits. Chinese Science Bulletin, 2001, 46 (16): 1384–1387
42. Chen J, Ji JF, Chen Y, An ZS, Dearing J A, Wang YJ. Use of rubidium to date loess and paleosol of Luochuan sequence, central
43. Chen J, Wang YJ, Chen Y,Liu LW, Ji JF, Lu HY. Geochemical characterization of Rb and Sr in the Chinese loess stratigraphy and its implications for paleomonsoon climate. Acta Geologica Sinica, 2000, 74 (2): 279–288
44. Yang JD, Chen J, An ZS, Shields G, Tao XC, Zhu HB, Ji JF, Chen Y. Variation in 87Sr/ 86Sr ratios of calcites in Chinese loess: A proxy for chemical weathering associated with the East Asian summer monsoon. Palaeogeogr. Palaeoclim. Palaeoecol, 2000, 157: 151–159
45. Chen J, An ZS, Wang YJ, Ji JF, Chen Y, Lu HY. Distribution of Rb and Sr in the Luochuan loess-paleosol sequence of
中文文章:
1. 莫朋军,陈旸*,许义江,高伟斌,王浩贤,赵晓豹,贾晓.玄武岩粉配施对鲜食甜糯玉米生长和产量品质的影响.江苏农业科学,2025,53(10):95-102
2. 许小淇,周斌,李锦徽,陈旸.小龙虾壳生物炭对重金属Ni(Ⅱ)的吸附特征及机理探究.高校地质学报,2024,30(6):668-677
3. 李石磊,陈旸,陈骏.山脉隆升驱动硅酸盐风化机制研究进展.高校地质学报,2024,30(3):336-344
4. 高伟斌,王少华,王浩贤,陈旸*,王一剑.施加玄武岩对小麦生长和籽粒干重的影响.南京大学学报(自然科学版),2024,60(5):860-870
5. 王鹤年,陈旸,盛雪芬,钱汉东.太湖冲击坑:沉积岩中冲击变质现象新证据.地学前缘,2024,31(6):320-330
6. 王野,陈旸*,陈骏.岩石有机碳风化及其控制因素.地学前缘,2024,31(2):402-409
7. 吴亚妮,陈旸*,王野,莫朋军,高伟斌.210Pb同位素在人类世沉积物定年中的应用.地球科学进展,2024, 39(1): 71-81
8. 张家铭,周斌*,陈旸*,姚骠,周雪航.南京市九乡河流域栖霞段近四十年沉积序列微塑料赋存特征.地球与环境,2024,52(2):221-229
9. 高伟斌,陈旸*,王浩贤.增强硅酸盐岩风化——“碳中和”之新路径.地球科学进展,2023,38(2):137-150
10. 聂浩阳,李石磊,陈旸*,王洪涛.全球变暖背景下北美育空河流域化学风化增强. 高校地质学报,2022,28(6):825-837
11. 康志强,陈骏,袁道先,何师意,邓艳,陈旸,刘媛媛,姜光辉,张勤军.岩溶关键带植被对水循环过程的影响作用研究.地球学报,2021,42(3):391-396
12. 刘媛媛,马腾飞,陈旸,杨晓帆,刘崇炫.表生地球化学反应的尺度效应.矿物岩石地球化学通报,2021,40(5):1107-1120
13. 李旭明,李来峰,王浩贤,王野,陈旸*.土壤中次生与碎屑组分的差异性剥蚀.地球科学进展,2020,35(8): 826-838
14. 王浩贤,李子波,陈旸*,詹涛,杨业,李峨,王洪涛.真菌-玄武岩相互作用过程中真菌属种差异对元素释放行为的影响.第四纪研究,2019,39(2):458-468
15. 王鹤年,钱汉东,陈旸,周丽娅.苏州西山震裂锥:太湖冲击坑又一新证据.高校地质学报,2019,25(1):58-67
16. 李来峰,孙明照,李乐,吴卫华,陈旸,李高军.物理剥蚀影响硫酸风化的小流域水化学研究及其对碳循环的启示意义.第四纪研究,2017,37(6):1219-1225
17. 彭弋倪,陈旸*,李石磊.辽河流域的风化速率与碳汇计算.地球科学与环境学报,2017,39(3):439-449
18. 何同,刘连文,陈旸,强小科,季峻峰.晚中新世-上新世黄土高原佳县红粘土剖面碳同位素记录与C4植被演化.第四纪研究,2015,35(4):791-800
19. 王成,袁旭音,陈旸,季峻峰,席斌斌.苏州地区水稻土重金属污染源解析及端元影响量化研究.环境科学学报,2015,35(10):3269-3275
20. 王成,李文青,李靖,陈森,陈红燕,周艳文,高小杰,陈旸,廖启林.长江下游南京段典型潮土镉富集以及生物有效性影响因素研究.农业环境科学学报,2015,34(2):274-281
21. 陈霞玉,陈立辉,陈旸,曾罡,刘建强. 中国中-东部地区新生代玄武岩的分布规律与面积汇总. 高校地质学报,2014,20(4):507-518
22. 杨胜利,盛阳,韩永祥,陈旸. 格尔木地区沙尘气溶胶铁氧化物漫反射光谱分析. 兰州大学学报(自然科学版),2014,50(5):710-715
23. 郑菲,施小清,吴吉春,赵良,陈旸. 深部咸水层CO2地质封存数值模拟参数的全局敏感性分析——以苏北盆地盐城组为例. 吉林大学学报(地球科学版),2014,(01期):310-318
24. 莫绍星,李灜,龙星皎,施小清,赵良,陈旸. 咸水层CO2矿物封存数值模拟研究进展. 地质科技情报,2013,32(6):150-158
25. 都凯,陈旸*,季峻峰,李慧,龙晓泳,陈骏. 中国东部玄武岩风化土壤的粘土矿物及碳汇地球化学研究.高校地质学报,2012,18(2):256-272
26. 黄晟,陈旸*,潘雪莲,崔宜斌,季峻峰,陈骏. 甘肃西峰黄土中细菌16S rDNA文库的构建与组成初步分析. 高校地质学报,2012,18(4):765-772
27. 陈岭啸,宋垠先,袁旭音,杨忠芳,陈旸,陈骏,季峻峰.长江三角洲典型地区土壤-水稻系统中Cd的分布及其迁移制约因素.地球科学与环境学报,2011,33(3):288-295
28. 王震宇,吴昌志,季峻峰,陈振岩,陈旸,李军,杨光达,顾连兴.基性岩油气储层的CO2封存潜力及可行性初探——以下辽河坳陷青龙台辉绿岩油气藏为例.第四纪研究,2011,31(3):473-482
29. 汤志云,陈旸,Yuan Guodong,吴龙华,章海波,骆永明.原子力显微镜表征土壤中的纳米胶体.土壤学报,2009,46(5):840-850
30. 潘雪莲,黄晟,方昊,徐军,郭晓峰,陈旸,崔益斌.黄土高原土壤中细菌群落结构多样性的PCR-DGGE分析.生态与农村环境学报,2009,25(3):39-43
31. 季峻峰,陈骏,Balsam W,刘连文,陈旸,赵良,周玮.黄土剖面中赤铁矿和针铁矿的定量分析与气候干湿变化研究.第四纪研究,2007,27(2):221-229
32. 薛根元,周锁铨,陈旸,郦敏捷,陈红梅,全利红.黄土高原260万年以来东亚夏季风演变信号研究.气候与环境研究,2007,12(1):63-73
33. 杨杰东,陈骏,张兆峰,季峻峰,陈旸.距今7Ma以来甘肃灵台剖面Nd和Sr同位素特征.地球化学,2005,34(1):1-6
34. 杨杰东,陈骏,张兆峰,季峻峰,陈旸.黄土高原黄土和太平洋沉积物Nd,Sr同位素变化的比较.地球学报,2005,26(B09):192-194
35. 盛雪芬,陈骏,蔡元峰,陈旸,季峻峰.黄土沉积中蜗牛壳体矿物相转变现象.科学通报,2005,50(7):698–702
36. 杨杰东,陈骏,张兆峰,季峻峰,陈旸.距今7Ma以来甘肃灵台剖面Nd和Sr同位素特征.地球化学,2005,34(1):1–6
37. 陈天虎,季峻峰,陈骏,陈旸.黄土中强磁性矿物透射电子显微镜观察和成因分析.科学通报,2003,48(17):1883-1889
38. 陈旸,陈骏,刘连文,季峻峰,张建新.最近13万年来黄土高原Rb/Sr记录与夏季风时空变迁.中国科学(D辑),2003,33(6):513–519
39. 杨杰东,陈骏,刘连文,陈旸,季峻峰.2.5Ma以来黄土高原灵台剖面黄土-古土壤87Sr/86Sr比值的变化.南京大学学报(自然科学版),2003,39(6):731–738
40. 赵良,季峻峰,陈骏,刘连文,陈旸,鹿化煜.最近13万年来黄土高原黄土剖面中绿泥石的化学风化与古气候变迁.矿物学报,2003,23(2):163–168
41. 陈旸,陈骏,季峻峰,刘连文.陕西洛川黄土剖面的白度参数及其古气候意义.地质论评,2002,48(1):38–43
42. 刘连文,陈骏,陈旸,季峻峰,鹿化煜.最近130ka以来黄土中Zr/Rb值变化及其对冬季风的指示意义.科学通报,2002,47(9):702-706
43. 刘连文,陈骏,陈旸,季峻峰.黄土的连续提取实验及Rb/Sr值意义.土壤学报,2002,39(1):65–70
44. 刘连文,王洪涛,陈旸,陈骏.黄土醋酸淋溶实验及其碳酸盐组分的地球化学特征.岩石矿物学杂志,2002,21(1):69–75
45. 盛雪芬,陈骏,杨杰东,季峻峰,陈旸.不同粒级黄土-古土壤中碳酸盐碳氧稳定同位素组成及其古环境意义.地球化学,2002,(2):105–112
46. 陈骏,汪永进,陈旸,刘连文,季峻峰,鹿化煜.中国黄土地层Rb和Sr地球化学特征及其古季风气候意义.地质学报,2001,75(2):259–266
47. 陈骏,安芷生,刘连文,季峻峰,杨杰东,陈旸.最近2.5Ma以来黄土高原风尘化学组成的变化与亚洲内陆的化学风化.中国科学,2001,31(2):136-145
48. 陈旸,陈骏,季峻峰,刘连文.甘肃西峰晚第三纪红粘土的化学组成及化学风化特征.地质力学学报,2001,7(2):167–175
49. 刘连文,陈骏,王洪涛,陈旸.一个不受风力分选作用影响的化学风化指标:黄土酸不溶物中Fe/Mg值.科学通报,2001,46(07):578–582
50. 杨杰东,陈骏,李春雷,陶仙聪,季峻峰,陈旸.2.5Ma以来大陆风化速率的演变.地质论评,2000,46(5):472–480
51. 陈骏,汪永进,季峻峰,陈旸,鹿化煜.陕西洛川黄土剖面的Rb/Sr参数及其气候地层学意义.第四纪研究,1999,19(4):350–356
52. 陈旸,陈骏,季峻峰.一种新的第四纪时序:黄土Rb含量计年法.南京大学学报(自然科学版),1999,35(6):767–769
53. 刘连文,陈骏,季峻峰,鹿化煜,陈旸.黄土的粒度分维值及其意义.高校地质学报,1999,5(4):412–417
54. 陈骏,安芷生,汪永进,季峻峰,陈旸,鹿化煜.最近800ka洛川黄土剖面中Rb/Sr分布和古季风变迁.中国科学(D辑),1998,28(6):498–504