主要论著:
1.Chen, J.A.*, Yu, J., et al, 2020. Fragility of karst ecosystem and environment: long-term evidence from lake sediments. Agr. Ecosyst. Environ. , 294, 106862.
2.Wang J.F., Chen, J.A.*, et al. 2020. Oxygenation and synchronous control of N and P release at the SWI using ONBMM. Sci. Total Environ., 725, 138258.
3.Yin, C. , Chen, J.A.*, et al. 2020. Combined use of N and O isotopes to constrain the nitrate sources in a karst lake. Agr. Ecosyst. Environ. 303, 107089.
4.Jin, Z.X., Chen, J.A. *, et al. Identifying the sources of nitrate using δ15N-δ18O in the Kelan Reservoir, Guangxi, China. Agr. Ecosyst. Environ. , 2020, 297: 106936.
5.Yu, J., Chen, J.A.*, et al. 2020. C and P transformation during the deposition of particulate matter in a deep reservoir. J. Environ. Manage., 265, 110514.
6.Chen, J.A.*, Zeng, Y., et al. 2019. Preferential regeneration of P relative to C in a freshwater lake. Chemosphere, 222: 15-21.
7.Chen, Q., Chen, J.A.*, et al. 2019. In situ evidence of P release from sediments controlled by Fe-P in a reservoir, SW China . Sci. Total Environ., 666: 39-45.
8.Liu, Y., Wang, J.F.*, Chen, J.A.*, et al. Pretreatment method for phosphate oxygen isotope of P fractions in sediments. Science of the Total Environment, 2019, 685:229–238. 7. 8.
9.Wang, J.F., Chen, J.A.*, et al. Assessment on the effects of AMC in inactivating internal phosphorus in eutrophic reservoirs. Chemosphere, 2019, 215: 657-667.
10.Chen J. A.*, Yang H., Combined use of radiocarbon and stable carbon isotope to constrain the sources and cycling of particulate organic carbon in a large freshwater lake, China. Science of the Total Environment, 2018, 625: 27-38
11.Chen J.*, Wang J., Zeng Y., Guo J. Eco-environment of reservoirs in China: characteristics and research prospects. Progress in Physical Geography, 2018, DOI:10.1177/0309133317751844
12.Wang J., Chen J.*, Ding S., Guo J., Chris D., Dai Z., Yang H. Effects of seasonal hypoxia on the release of phosphorus from sediments in deep-water ecosystem: A case study in Hongfeng Reservoir, Southwest China. Environmental Pollution, 2016, doi.org/10.1016/ j.envpol.2016.08.013
13.Guo J., Chen J.* Sedimentary Records of Polycyclic Aromatic Hydrocarbons in China: A Comparison to the Worldwide. Critical Reviews in Environmental Science and Technology, 2017, 47:1612-1667
14.Zeng Y., Chen J.*, Xiao J., Qi L. Non-residual Sr of the sediments in Daihai Lake as a good indicator of chemical weathering. Quaternary Research, 2013, 79:284-291
15.Chen J.A.*, Wan G.J. Zhang D.D., Chen Z.L., Xu J.Y., Xiao T.F. and Huang R.G. The ‘Little Ice Age’ recorded by sediment chemistry in Lake Erhai, Southwest China. Holocene, 2005,15(6): 925~931
16.Chen J.A.*, Zhang D.D., Wang S., Xiao T. and Huang R. Factors controlling tufa deposition in natural waters at waterfall sites. Sedimentary Geology, 2004, 166: 353~366
17.Chen J.A.*, Wan G.J., Zhang D.D., Zhang F. and Huang R. Environmental records of lacustrine sediments in different time scales: sediment grain size as an example. Science In China (series D), 2004, 47 (10): 954~960
