基本概况：

国家自然科学基金重大项目课题负责人，优秀青年科学基金获得者，“创新研究群体”核心成员，广东省杰出青年项目获得者。南方科技大学副教授、研究员。2015年获美国克莱姆森大学植物与环境科学博士学位，2015-2017年间在加拿大多伦多大学环境核磁共振中心从事环境化学领域博士后工作。主要从事有机碳分子生物地球化学研究，重点关注植物-土壤-水体连续体中天然有机质分子的碳过程与环境质量效应。获中国环境科学学会青年科学家奖（金奖）、中国土壤学会优秀青年学者奖、广东省土壤学会优秀青年科学家奖、期刊优秀副主编、优秀青年编委等奖项荣誉。在Nature Plants，Nature Communications，Environmental Science & Technology，Water Research，Geochimica et Cosmochimica Acta，Soil Biology & Biochemistry，Geophysical Research Letters等期刊上发表论文140余篇，其中一作或通讯80余篇，引用>4000次，H指数38，现任Journal of Environmental Quality副编辑，Critical Reviews in Environmental Science and Technology、Carbon Research和Chinese Chemical Letters青年编委，Frontiers in Soil Science和Frontiers in Marine Science评审编辑（review editor），《农业资源与环境学报》编委，曾担任过我国国家自然科学基金、各省部级基金、美国自然科学基金、法国国家研究局等机构项目评审人。

工作经历（包括现在的任职）：

2021-至今：南方科技大学环境科学与工程学院，副教授，研究员

2017-2021：南方科技大学环境科学与工程学院，助理教授，副研究员

2015-2017：加拿大多伦多大学物理与环境科学系，博士后

教育背景：

2011-2015：美国克莱姆森大学，博士(植物与环境科学)

2008-2011：北京大学，硕士(地理学)

2004-2008：华南理工大学，学士(环境工程)

社会兼职：

1. 2023：Carbon Research青年编委

2. 2022：Frontiers in Marine Science评审编辑

3. 2021：Critical Reviews in Environmental Science and Technology 青年编委

4. 2021：《农业资源与环境学报》编委

5. 2021：Frontiers in Soil Science评审编辑（review editor）

6. 2020：Journal of Environmental Quality副编辑

7. 2019：Chinese Chemical Letters青年编委

获奖情况及荣誉：

1. 2023：Carbon Research 优秀青年编委

2. 2023：Journal of Environmental Quality Outstanding Associate Editor

3. 2022：中国土壤学会—优秀青年学者奖

4. 2022：广东省土壤学会—优秀青年科学家奖

5. 2021：中国环境科学学会—青年科学家奖（金奖）

6. 2020：南方科技大学—科普奉献奖

7. 2017：中国环境化学大会—最佳展报奖

研究方向：

1. 根系化学性状与功能

2. SOM生物地球化学与全球环境变化

3. DOM化学和水安全

代表性科研项目：

1. 2024 国家自然科学基金-面上项目 半干旱草地根鞘土壤有机碳组分的稳定性及其对模拟增温的响应 主持

2. 2023 广东省科技厅-公益研究与能力建设-学科类省重点实验室建设 广东省土壤与地下水污染防控及修复重点实验室 参与

3. 2023 国家自然科学基金-创新研究群体项目 陆-海过渡带环境与生态科学 参与

4. 2022 深圳市科创委-学科布局/重点项目 基20220267 次生消杀污染物风险识别阻控关键问题研究 主持

5. 2021 国家自然科学基金-优秀青年科学基金项目 森林土壤有机质分子生物地球化学 主持

6. 2021 国家自然科学基金-重大项目 黑碳物质在典型土壤中的演化及其环境效应机理 主持

7. 2020 广东省科技厅-广东省自然科学基金-杰出青年 热带森林溶解有机质-土壤微生物互作调控碳循环机制 主持

8. 2020 深圳市科创委-稳定支持（面上） 林火灾后土壤溶解态黑碳-微生物互作调控元素循环机制研究 主持

9. 2020 深圳市科创委-自由探索/面上项目 污水厂出水有机物的氯化氯胺化反应活性和消毒副产物毒性 主持

10.  2020 广东省教育厅 树木根系微观性状对根系分解动力学过程的调控 主持

11.  2018 国家自然科学基金-青年科学基金项目 森林源溶解性有机质分子水平化学特性及其对氮沉降响应 主持

教学：

1. 土壤学（主讲）

2. 环境土壤学（主讲）

3. 高等环境化学（主讲；2018-2021）

4. 全球环境问题（合讲）

5. 环境科学与工程研究方法（合讲）

学术成果（发表论著或者论文或者专利）：

Refereed Journal Articles期刊论文

(Google Scholar: h-index: 37, citation: 4100, and i10-index: 92; as of Mar 17, 2025)

2025:

1. Chen, J., Cao, J.J., Han, M.X., Feng, Z.P., Tang, J.Q., Mo, X.H., Wang, J.J., Yang, Q.P., Pei, Y.X., Kuzyakov, Y., Ding, J.X., Makita, N.K., Yang, X.T., Zhang, H.Y., Zhao, Y., Kong, D.L.* Increased dependence on mycorrhizal fungi for nutrient acquisition under carbon limitation by tree girdling. Plant Diversity, 2025, doi:10.1016/j.pld.2025.02.004.

2. Yang, B.W., Ren, D., Zhang, P., Guo, Y.F., Zhang, G., Chow, A.T., Cai, Z.W., Du, P.H.*, Wang, J.J.* Heating temperature and oxygen availability alter the role of pyrogenic dissolved organic matter in sulfamethoxazole photodegradation. ACS ES&T Water, 2025, 5, 1125–1136. [Selected as Cover]

3. Du, P.H., Yang, B.W., Chow, A.T., Shi, D.L., Wong, K.M.C., Wang, J.J.* From quencher to promoter: Revisiting the role of 2,4,6-trimethylphenol (TMP) in triplet-state photochemistry of dissolved organic matter. Environmental Science & Technology, 2025, 59, 4444–4454.

4. Zhang, Q., Wang, Y.H., Zhang, Y.H., Zhang, J.W., Hou, F.Y., He, C., Shi, Q., Zhang, G., Wang, J.J.* Heating-induced changes in content and molecular characteristics of pyrogenic dissolved organic matter across soil types. Environmental Science & Technology, 2025, 59, 3937−3948.

5. Zhang, P., Wang, Y.H., Yang, B.W., Zhang, Z.X., Wang, X.J., Li, H.L., He, C., Zhang, C.L., Zheng, Y.*, Wang, J.J.* Marine recalcitrant dissolved organic matter gained by processing at sandy subterranean estuaries. Environmental Science & Technology, 2025, 59, 7, 3569–3581.

6. Zhang, Z.X., Zhang, Q., Guo, X., Zeng, Z.Z., Wang, Y.H., Zhang, P., Gao, D.Z., Deng, G.S., Sun, G.D., Yang, Y.X., Wang, J.J.* Forest soil pH and dissolved organic matter aromaticity distinctly drive microbial biotic interaction and carbon metabolism potential. Microbial Ecology, 2025, 87, 177.

7. Ren, D., Yang, B.W., Wang, Y.H., Wang, J.J.* Molecular-level insight into the role of soil-derived dissolved organic matter composition in regulating photochemical reactivity. Water Research, 2025, 268, 122765.

8. Huang, Y.R.^#, Zhang, P.^#, Peng, H.B.^#, Pan, F., Liu, Y.*, Wang, K.*, Cai, Y., Wang, J.Y., Wang, Z.Y., Zheng, C.M., Li, H.L., He, D., Wang, J.J., Dang, C.Y., Wu, P.B., Chen, J., Maher, D., Xiao, K.* Benthic bioturbations weaken the stability of blue carbon storage. National Science Open, 2025, 4, 20240052.

9. Guo, W., Liao, P.*, Wang, J.J., Zhang, P., Lei, Y.H., Wang, J.F., Chen, J.A.* Critical role of hydroxyl radicals in CO₂ dark production from lake sediments during anoxic-oxic transitions across a watershed. Chemical Geology, 2025, 674, 122577.

10. 杨庆培, 郭冰林, 丁俊祥, 赵勇, 杨喜田, 冯志培, 李镇江, 范国强, 王俊坚, 何念鹏, 孔德良*[Yang, Q., Guo, B.L., Ding, J.X., Zhao, Y., Yang, X.T., Feng, Z.P., Li, Z.J., Fan, G.Q., Wang, J.J., He, N.P., Kong, D.L.*] 根系功能协作体: 整合研究植物根系的新理论框架[Root functional synergistic system: a new theoretical framework for the integrated study of plant root systems]. 中国科学：生命科学[Scientia Sinica Vitae], 2025, accepted.

11. 许静; 杨龙; 王俊坚; 孙中宇*[Xu, J., Yang, L., Wang, J.J., Sun, Z.Y.*] 无人机植被遥感中可见光相机色温对植被指数计算的影响[Effects of color temperature of visible light camera on vegetation index calculation in unmanned aerial vehicle vegetation remote sensing]. 应用生态学报[Chinese Journal of Applied Ecology], 2025, accepted.

2024:

12. Li, Z., Wu, S.L.*, Liu, Y.J., Thomsen, L., You, F., Wang, J.J., Huang, Y.F., Huang, L.B.* Water-stable aggregation and organic matter stabilisation by native plant Acacia auriculiformis in an early Technosol eco-engineered from Fe-ore tailings. Soil & Environmental Health, 2024, 2, 100115.

13. Xu, S., Eisenhauer, N., Zeng, Z.Z., Mo, X.H., Ding, Y., Lai, D.Y.F., Wang, J.J.* Drivers of soil organic carbon recovery under forest restoration: a global meta-analysis. Carbon Research, 2024, 3, 80.

14. Niu, G.X., Yin, G.G., Wang, J.J., Zhang, P., Xuan, Y.X., Mao, Q.G., Chen, W.B. Lu, X.K.* Changes in plant resource inputs lead to rapid alterations in soil dissolved organic matter composition in an old-growth tropical forest. Geoderma, 2024, 450, 117047.

15. Zhao, C.^#, Tian, Z.Y.^#, Zhang, Q., Wang, Y.H., Zhang, P., Sun, G.D., Yang, Y.X., He, D., Tu, S.X. Wang, J.J.* Unraveling the distribution of black carbon in Chinese forest soils using machine learning approaches. Geophysical Research Letters, 2024, 51, e2024GL110618.

16. Xu, S., Ou, J., Qiao, X.X., Zeng, Z.Z., Wang, J.J.* Experimental warming affects soil carbon dynamics in boreal and temperate forests: a meta-analysis. Environmental Research Letters, 2024, 19, 103002.

17. Zhang, Z.X., Zhang, Q., Wang, Y.H., Zhang, P., Deng, G.S., Sun, G.D., Yang, Y.X., Jiang, K., Jiao, S., Guo, X., Wang, J.J.* Soil microbial community in 47 Chinese forest sites: biogeographic patterns and links with soil dissolved organic matter. Journal of Geophysical Research – Biogeosciences, 2024, 129(8), e2023JG007813.

18. Sun, G.D., Wang, M.K., Zhang, Q., Wang, Y.H., Yang, Y.X., Xu, S., Wang, J.J.* Variations in source-specific soil organic matter components across 32 forest sites in China. Carbon Research, 2024, 3, 64.

19. Yin, G.G.^#, Guan, P.^#, Wang, Y.H., Zhang, P., Qu, B., Xu, S.J., Zhang, G., He, C., Shi, Q., Wang, J.J.* Temporal variations in fire impacts on characteristics and composition of soil-derived dissolved organic matter at Qipan Mountain, China. Environmental Science & Technology, 2024, 58(31), 13772–13782.

20. Cao, C., Liang, B.Y., Yang, Y., Ren, D., Tang, Q.H., Wang, C.W., Li, Z., Wang, J.J.* Temporal variations in absorption and translocation of heavy metal(loid)s in pak choi (Brassica rapa L.) under open-field and greenhouse cultivation. Ecotoxicology and Environmental Safety, 2024, 116667.

21. Cao, C.^#, Guo, Y.F.^#, Cheng, Y., Hu, W.F., Mi, J.L., Yang, B.W., Zheng, G.M., Wang, J.J.* Combining freshwater irrigation with vegetable selection to mitigate per- and polyfluoroalkyl substances occurrence in edible vegetable parts in a semiarid farmland in northwestern China. ACS ES&T Water, 2024, 4, 2803–2813.

22. Xu, S.^#, Yang, Y.X.^#, Sun, G.D., Zhang, Q., Wang, Y.H., Zeng, H., Simpson, M.J., Wang, J.J.* Aridity affects soil organic carbon concentration and chemical stability by different forest types and soil processes across Chinese natural forests. Science of The Total Environment, 2024 174002.

23. Cao, C., Wu, Y.Y., Lv, Z.Y., Wang, J.W., Wang, C.W., Zhang, H., Wang, J.J., Chen, H.* Uptake of polycyclic aromatic hydrocarbons (PAHs) from PAH–contaminated soils to carrots and Chinese cabbages under the greenhouse and field conditions. Chemosphere, 2014, 360, 142405.

24. Wang, M.K., Zhang, P., Li, H.S., Deng, G.S., Kong, D.L., Kong, S.F.*, Wang, J.J.* Molecular-level carbon traits of fine roots: unveiling adaptation and decomposition under flooded condition. Biogeosciences, 2024, 21, 2691–2704.

25. You, J.K., Liu, F., Wang, Y.W., Duan, C.S., Zhang, L., Li, H.S., Wang, J.J., Xu, H.C.* Photo-methanification of aquatic dissolved organic matters with different origins under aerobic conditions: Non-negligible role of hydroxyl radicals. Water Research, 2024, 256, 121609.

26. Wang, M.K., Kong, D.L.*, Mo, X.H., Wang, Y.H., Yang, Q.P., Kardol, P., Valverde-Barrantes, O.J., Simpson, M.J., Zeng, H., Reich, P.B., Bergmann, J., Tharayil, N., Wang, J.J.* Molecular-level carbon traits enable multi-dimensional fine root economics space. Nature Plants, 2024, 10, 901–909.

27. Du, P.H., Tang, K.X.*, Yang, B.W., Mo, X.H., Wang, J.J.* Reassessing the quantum yield and reactivity of triplet-state dissolved organic matter via global kinetic modeling. Environmental Science & Technology, 2024, 58(13), 5856–5865.

28. Zhou, T.T., Hu, W.F., Lai, D.Y.F., Yin, G.G., Ren, D., Guo, Z.L., Zheng, Y., Wang, J.J.* Interaction of reed litter and biochar presences on performances of constructed wetlands. Water Research, 2024, 121387.

29. Xu, S., Song, X.Y., Zeng, H.*, Wang, J.J.* Soil microbial necromass carbon in forests: A global synthesis of patterns and controlling factors. Soil Ecology Letters, 2024, 6, 240237.

30. Zhang, Y., Guo, Y.F., Wang, J.J., Maher, D.T., Geng, X.L., Wang, Q.Q., Xiao, K., Ding, H., Li, H.L., Zheng, C.M., Wang, Z.Y., Wang, X.J.* Dissolved carbon dynamics and exchange in a high permeability beach aquifer. Geochimica et Cosmochimica Acta, 2024, 368, 64–75.

31. Xu, S., Wang, J.J., Sayer, E.J., Lam, S.K., Lai, D.Y.F.* Precipitation change affects forest soil carbon inputs and pools: A global meta-analysis. Science of The Total Environment, 2024, 908, 168171.

32. Zhang, Y., Cao, J.J., Lu, M.Z., Kardol, P., Wang, J.J., Fan, G.Q., Kong, D.L.* The origin of bi-dimensionality in plant root traits. Trends in Ecology and Evolution, 2024, 39(1), 78–88. [Selected as Journal Front Cover]

33. Aftab, B.^#, Yin, G.G.^#, Maqbool, T., Hur, J., Wang, J.J.* Enhanced landfill leachate treatment performance by adsorption-assisted membrane distillation. Water Research, 2024, 250, 121036.

34. Li, H.S., Rao, Z.M., Sun, G.D., Wang, M.K., Yang, Y.X., Zhang, J.W., Li, H., Pan, M., Wang, J.J.*, Chen, X.W.* Root chemistry and microbe interactions contribute to metal(loid) tolerance of an aromatic plant – Vetiver grass. Journal of Hazardous Materials, 2024, 461, 132648.

35. Zhang, J.^#, Wang, Y.H.^#, Shi, Y.M., Yang, B.W., Zhang, A.P., Du, Z.L., Zhong, G.C., Luo, C.L., Zhang, G., Wang, J.J.* Dosage- and site-dependent retention of black carbon and polycyclic aromatic hydrocarbons in farmland soils via long-term biochar addition. Carbon Research, 2024, 3, 14.

36. Chen, X.W.^#, Kamchoom, V.^#, Wu, J.Q., Sun, G.D., Zhang, Q., Li, H.S., Ng, C.W.W., Wong, M.H., Li, H., Wang, J.J.* Potentials of mycorrhizal fungi in altering eight biomechanical properties of plant roots. Land Degradation & Development, 2024, 35, 835–848.

37. Li, Z., Wu, S.L., Liu, Y.J., Yi, Q., Hall, M., Saha, N., Wang, J.J., Huang, Y.F.*, Huang, L.B. Arbuscular mycorrhizal fungi regulate plant mineral nutrient uptake and partitioning in iron ore tailings undergoing eco-engineered pedogenesis. Pedosphere, 2024, 34(2), 385-398.

38. 郑焰*, 郑一, 冯炼, 张传伦, 李海龙, 王俊坚.[Zheng, Y.*, Zheng, Y., Feng, L., Zhang, C.L., Li, H.L., Wang, J.J.] 近海生态环境高时空分辨观测与人工智能赋能的有害藻华预报[Spatially and Temporally Resolved Coastal Ecological and Environmental Observation System for Al Enhanced Harmful Algal Bloom Forecasting]. 中国科学基金[Bulletin of National Natural Science Foundation of China], 2024, 38(6), 969-983.[In Chinese]

2023:

39. Zhang, Q., Wang, Y.H.*, Zhang, P., Mo, X.H., Yin, G.G., Qu, B., Guan, P., He, C., Shi, Q., Zhang, G., Dittmar, T. Wang, J.J.* Temperature thresholds of pyrogenic dissolved organic matter in heating experiments simulating forest fires. Environmental Science & Technology, 2023, 57, 17291–17301.

40. Sato, Y., Guo, H.X., Xiang, Y.Y., Goh, J.J., Luo, Y., Chen, G.P., Wang, J.J., Chen, G.H.* Chlorine reuse in UV/electrochemical oxidation to advance sewage co-treatment of landfill leachate. ACS ES&T Water, 2023, 3, 4123–4132.

41. Zhang, Q., Wang, Y.H., Zhang, X.L., Mo, X.H., Zhang, P., Li, H.L., Jiao, J.J., He, C., Shi, Q., Fu, Q.L., Chen, B.Y., Wang, J.J.* Dissolved organic matter characteristics and composition in the Badain Jaran Desert, China. ACS Earth and Space Chemistry, 2023, 7, 2239–2251.

42. Du, P.H.^#, Chen, G.P.^#, Zhang, P., Yang, B.W., Wang, J.J.* Photo-transformation of wastewater effluent organic matter reduces the formation potential and toxicity of chlorinated disinfection byproducts. Ecotoxicology and Environmental Safety, 2023, 265, 115515.

43. Guo, Y.D.*, Zeng, Z.Z.*, Wang, J.J., Zou, J.Y., Shi, Z. Chen, S.C. Research advances in mechanisms of climate change impacts on soil organic carbon dynamics. Environmental Research Letters, 2023, 18, 103005.

44. Yin, G.G., Zhang, P., Wang, Y.H., Aftab, B., Du, P.H., Zhang, Q., Chen, G.P., Wang, M.K., Yang, B.W., Wang, S.H.M., J. M., Zhang, W., Wang, J.J.* Photochemical transformation of terrestrial dissolved organic matter derived from multiple sources in tropical plantations. Geochimica et Cosmochimica Acta, 2023, 358, 162–173.

45. Ding, J.X., Yin, H.J.*, Kong, D.L.*, Liu, Q., Zhang, Z.L., Wang, Q.T., Guo, W.J., Lambers, H., Valverde-Barrantes, O.J., Wang, J.J., Liu, Z.F. Precipitation, rather than temperature drives coordination of multidimensional root traits with ectomycorrhizal fungi on the Tibetan Plateau. Journal of Ecology, 2023, 111, 1935–1949.

46. Yin, S., Wang, J.J., Zeng, H.* A bibliometric study on carbon cycling in blue carbon ecosystems. Environmental Science and Pollution Research, 2023, 30, 74691–74708

47. Li, L.P.*, Jin, Y.C., Ren, D., Wang, J.J., Fang, L., Li, X., Zhang, X., Cui, D.W., Chen, X., Liu, X.H.* Deciphering the photolysis products and biological concerns of triclosan under UVC and UVA. Ecotoxicology and Environmental Safety, 2023, 258, 114998.

48. Mo, X.H., Wang, M.K., Zeng, H., Wang, J.J.* Rhizosheath: distinct features and environmental functions. Geoderma. 2023, 435, 116500.

49. Xiao, K., Zhang, L.C., Zhang, P., Wang, J.J., Chen, N.W., Li, Z.Y., Pan, F., Lu, Z.Y., Li, H.L.* Tidal exchange of dissolved metal(loid)s and organic matters across the sediment-water interface in a salt marsh-mangrove ecotone. Journal of Hydrology, 2023, 129665.

50. Yang, B.W., Du, P.H., Chen, G.P., Zhang, P., Zhang, Q., Wang, Z.Y., Zhang, G., Cai, Z.W., Wang, J.J.* Dual role of soil-derived dissolved organic matter in the sulfamethoxazole oxidation by manganese oxide. Water Research, 2023, 235, 119901.

51. Chen, H., Rücker, A.M., Liu, Y.N., Miller, D., Dai, J.N., Wang, J.J., Suhre, D.O., Kuo, L.J., Conner, W.H., Campbell, B.J., Rhew, R.C., Chow, A.T.* Unique biogeochemical characteristics in coastal ghost forests – the transition from freshwater forest wetland to salt marsh under the influences of sea level rise. Soil & Environmental Health, 2023, 1, 100005. [highlighted in Zinke, L. (2023). "Ghost forests stand apart." Nature Reviews Earth & Environment]

52. Xiao, K.^#, Zhang, P.^#, Santos, I.R., Wang, J.J.*, Li, Z.Y., Wang, X.J., Wang, Y.H., Lu, M.Q., Zhang, L.C. Li, H.L.* Tidal pumping controls dissolved organic matter properties and outwelling from mangrove groundwater to coastal water. Water Resource Research, 2023, 59, e2022WR033913.

53. Du, P.H., Liu, W., Zhang, Q., Zhang, P., He, C., Shi, Q., Huang, C.H., Wang, J.J.* Transformation of dissolved organic matter during UV/peracetic acid treatment. Water Research, 2023, 232, 119676.

54. Yin, S., Wang, J.J., Yu, T.F., Wang, M.Q., Wu, Y.X., Zeng, H.* Constraints on the spatial variations of soil carbon fractions in a mangrove forest in Southeast China. Catena, 2023, 222, 106889.

55. Wang, Y.H., Zhang, P., He, C., Yu, J.C., Shi, Q., Dahlgren, R.A., Spencer, R.G.M., Yang, Z.B., Wang, J.J.* Molecular signatures of soil-derived dissolved organic matter constrained by mineral weathering. Fundamental Research, 2023, 3, 377–383. (Invited contribution)

2022:

56. Yu, T.F., Wang, J.J., Chao, Y.W., Zeng, H.* Extinction effect of foliar dust retention on urban vegetation as estimated by atmospheric PM10 concentration in Shenzhen, China. Remote Sensing, 2022, 14, 5103.

57. Du, L., Liu, Y.M., Hao, Z.N., Chen, M., Li, L.P., Ren, D.,* Wang, J.J.* Fertilization regime shifts the molecular diversity and chlorine reactivity of soil dissolved organic matter from tropical croplands. Water Research, 2022, 225, 119106.

58. Niu, G.X., Yin, G.G., Mo, X.H., Mao, Q.G., Mo, J.M., Wang, J.J., Lu, X.K.*, Do long-term high nitrogen inputs change the composition of soil dissolved organic matter in a primary tropical forest? Environmental Research Letters, 2022, 7, 095015.

59. Wang, Y.H., Liu, Y.N., Chu, R.K., Bowden, R.D., Lajtha, K., Simpson, M.J., Wang, J.J.* Characterization of sequentially extracted soil organic matter by electrospray ionization and atmospheric pressure photoionization Fourier transform ion cyclotron resonance mass spectrometry. ACS Earth and Space Chemistry, 2022, 6(9), 2142–2148

60. Ye, Q.H., Sun, G.D., Wang, Y.H., Zhang, S., Xu, Y., Feng, L., Simpson, M.J., He, C., Shi, Q., Li, L.P.*, Wang, J.J.* Lake reclamation alters molecular-level characteristics of lacustrine dissolved organic matter – A study of nine lakes in the Yangtze Plain, China. Water Research, 2022, 222, 118884.

61. Chen, H., Wang, J.J., Ku, P.J., Tsui, M.T.K., Abney, R.B., Berhe, A.A., Zhang, Q., Burton, S.D., Dahlgren, R.A., Chow, A.T.* Burn intensity drives the alternation of phenolic lignin to (poly)aromatic hydrocarbons as revealed by pyrolysis-gas chromatography-mass spectrometry (Py-GC-MS). Environmental Science & Technology, 2022, 56 (17), 12678–12687.

62. Mo, X.H., Wang, M.K., Wang, Y.H., Zhang, P., Zhang, A., Kong, D.L., Zeng, H., Wang, J.J.* High content and distinct spectroscopic characteristics of water-extractable organic matter in rhizosheath soils in a semiarid grassland. Rhizosphere, 2022, 23, 100553.

63. Li, Y.D., Li, Z.J., Wang, J.J., Zeng, H.* Analyses of driving factors on the spatial variations in regional eco-environmental quality using two types of species distribution models: a case study of Minjiang River Basin, China. Ecological Indicators, 2022, 139, 108980.

64. Qi, Y.L., Xie, Q.R., Wang, J.J., He, D., Bao, H.Y., Fu, Q.L., Su, S.H., Sheng, M., Li, S.L., Volmer, D.A., Wu, F.C., Jiang, G.B., Liu, C.Q., Fu, P.Q.* Deciphering dissolved organic matter by Fourier transform ion cyclotron resonance mass spectrometry: From bulk to fractions and individuals. Carbon Research, 2022, 1, 3.

65. Sun, G.D.#, Cao, C.#, Li, H.S., Wang, M.K., Wang, Y.H., Deng, G.S., Wang, J.J.* Organic matter biomarker and ¹³C NMR characteristics of soil and sediment standard reference materials from China. Science of the Total Environment, 2022, 836, 155661.

66. Mo, X.H.#, Wang, M.K.#, Wang, Y.H., Chen, X.W., Zhang, A., Zeng, H., Zheng, Y., Kong, D.L.*, Wang, J.J.* Molecular-level characteristics of soil organic carbon in rhizosheaths from a semiarid grassland of North China. Soil Biology and Biochemistry, 2022, 170, 108682.

67. Liu, Y.M., Xu, N.Y., Li, Z.J., Wang, J.J., Zeng, H.* Differential impact of constructed land expansion on ecosystem health: A case study in the coastal region of the East China Sea. Ecological Engineering. 2022, 180, 106665.

68. Tong, G.H., Yang, X.L., Li, Y., Jin, M., Yu, X.B.*, Huang, Y., Zheng, R.Y., Wang, J.J., Chen, H. Impacts of haze on the photobleaching of chromophoric dissolved organic matter in surface water. Environmental Research, 2022, 212, 113305.

69. Xu, S., Eisenhauer, N., Pellegrini, A.F.A., Wang, J.J., Giacomo, C., Guerra, C.A., Lai, D.Y.F.* Fire frequency and type regulate the response of soil carbon cycling and storage to fire across soil depths and ecosystems: a meta-analysis. Science of the Total Environment, 2022, 825, 153921.

70. Du, P.H., Wang, J.J., Sun, G.D., Chen, L., Liu, W.* Hydrogen atom abstraction mechanism for organic compound oxidation by acetylperoxyl radical in Co(II)/peracetic acid activation system. Water Research, 2022, 212, 118113.

71. Wu, D.M., Li, M., Du, L., Ren, D.*, Wang, J.J. Straw return in paddy field alters photodegradation of organic contaminants by changing the quantity rather than the quality of water-soluble soil organic matter. Science of the Total Environment, 2022, 821, 153371.

72. Du, P.H., Liu, W., Rao, Z.M., Wang, J.J.* Accelerated oxidation of organic micropollutants during peracetic acid treatment in the presence of bromide ion. ACS ES&T Water, 2022, 2, 320-328.

73. Chen, X.W., Coo, J.L., So, P.S., Wang, J.J., Ng, C.W.W.*, Wong, M.H.* An experimental setup to prepare root-free mycorrhizal soil specimen for hydraulic conductivity measurement. Journal of Soils and Sediments, 2022, 22, 1278–1285.

74. Li, L.P., Liu, Y.H., Ren, D., Wang, J.J.* Characteristics and chlorine reactivity of biochar-derived dissolved organic matter: Effects of feedstock types and pyrolysis temperatures. Water Research, 2022, 211, 118044.

75. Cao, C., Yang, Y., Kwan, M.P., Ma, Z.B., Karthikeyan, R., Wang, J.J.*, Chen, H.* Crop selection reduces potential heavy metal(loid)s health risk in wastewater contaminated agricultural soils. Science of the Total Environment, 2022, 152502.

76. Yang, B.W., Shi, Y.M., Xu, S., Wang, Y.H., Kong, S.F., Cai, Z.W.*, Wang, J.J.* Polycyclic aromatic hydrocarbon occurrences in forest soils in response to fires: a summary across sites. Environmental Science: Processes & Impacts, 2022, 24, 32-41. [Selected as Journal Front Cover]

77. Li, H., Gao, M.Y., Mo, C.H., Wong, M.H., Chen, X.W.*, Wang, J.J.* Potentials of arbuscular mycorrhizal fungi in mitigating arsenic and cadmium accumulation in rice. Journal of Experimental Botany, 2022, 73(1), 50–67.

78. 张丽聪, 肖凯*, 张鹏, 李海龙, 王俊坚, 李镇扬, 王芬芳, 徐华林 and 郭跃华[Zhang, L.C., Xiao, K.*, Zhang, P., Li, H.L., Wang, J.J., Li, Z.Y., Wang, F.F., Xu, H.L., Guo, Y.H.]. 淤泥质潮滩重金属和溶解性有机质的潮汐变化特征及其环境影响评价[Tidal variation characteristics of heavy metals and dissolved organic matter and environmental impact in a silt tidal flat]. 生态环境学报[Ecology and Environmental Sciences], 2022, 31(11), 2169-2179.

2021:

79. Wang, M.K., Zhang, Z.T., Wang, Y.H., Mo, X.H., Zhang, Q., Zhang, P., Yin, G.G., Li, L.P., Wang, S.H., Mo, J.M., Zhang, W.*, Wang, J.J.* Characteristics of dissolved organic matter and dissolved lignin phenols in tropical forest soil solutions during rainy seasons and their responses to nitrogen deposition. ACS Earth and Space Chemistry, 2021, 5 (11), 3150–3158.

80. Wang, Y.H.#, Zhang, Q.#, Majidzadeh, H., He, C., Shi, Q., Kong, S.F., Yang, Z.B., Wang, J.J.* Depletion of soil water-extractable organic matter with long-term coverage of impervious surfaces. Frontiers in Environmental Science, 2021, 9, 714311.

81. Xu, Y., Feng, L.*, Hou, X.J., Wang, J.J., Tang, J. Four-decade dynamics of the water color in 61 large lakes on the Yangtze Plain and the impacts of reclaimed aquaculture zones. Science of the Total Environment, 2021, 781, 146688.

82. Wang D.*,#, Wang J.J.#, Olatunji O.A., Liu Q.* Different decomposition metrics of root xylem and root tissues outside xylem: An 8-year-long root decomposition study in an alpine shrubland. Plant and Soil, 2021, 463, 415–425.

83. Dong C.C., Shi Y., Wang J.J., Zeng H., Wang W.* Divergent responses of the soil bacteria community to multi-level nitrogen enrichment in temperate grasslands under different degrees of degradation. Land Degradation & Development, 2021, 32(13), 3524–3535.

84. Cao, C., Zhang, P., Ma, Z.P., Ma, Z.B., Wang, J.J., Tang, Y.Y., Chen, H.* Coupling sprinkler freshwater irrigation with vegetable species selection as a sustainable approach for agricultural production in farmlands with a history of 50-year wastewater irrigation. Journal of Hazardous Materials, 2021, 414, 125576.

85. Zhang, P.#, Cao, C.#, Wang, Y.H., Yu, K., Liu, C.X., He, C., Shi, Q. Wang, J.J.* Chemodiversity of water-extractable organic matter in sediment columns of a polluted urban river in South China. Science of the Total Environment, 2021, 777, 146127.

86. Xu, S., Sayer, E.J., Eisenhauer, N., Lu, X.K., Wang, J.J., Liu, C.S.* Aboveground litter inputs determine carbon storage across soil profiles: a meta-analysis. Plant and Soil, 2021, 462, 429–444.

87. Kong, D.L.*, Wang, J.J.*, Valverde-Barrantes, O.J., Kardol, P. A framework to assess the carbon supply-consumption balance in plant roots. New Phytologist, 2021, 229: 659–664.

88. Ren, Z.G., Zhang, H.Y., Wang, Y.W., Zou, J.W., Ren, D.*, Wang, J.J.*, Multiple roles of dissolved organic matter released from decomposing rice straw at different times in organic pollutant photodegradation. Journal of Hazardous Materials, 2021, 401, 123434.

89. Chen, X.W., Wong, J.T.F., Wang, J.J., Ng, C.W.W.*, Wong, M.H.* Effects of mycorrhizal Bermuda grass on low range soil matric suction. Journal of Soils and Sediments, 2021, 21, 990-1000.

90. Gao, Q.Q., Ma, L.X., Zhang, A.P., Li, G.C., Wang, J.J., Wu, D., Wu, W.L., Du, Z.L.* Conservation tillage for 17 years alters the molecular composition of organic matter in soil profile. Science of the Total Environment, 2021, 762, 143116.

91. Chen, X.W., Wong, J.T.F., Wang, J.J.*, Wong, M.H.*, Vetiver grass-microbe interactions for soil remediation. Critical Reviews in Environmental Science and Technology, 2021, 51, 897-938.

92. 曹春，任丹，吕贞英，张鹏，李锦超，陈勋文，王俊坚*[Cao, C., Ren, D., Lv, Z.Y., Zhang, P., Li, J.C., Chen, X.W., Wang, J.J.*]. 温室与大田种植方式对胡萝卜生长过程中重金属吸收的影响[Effects of greenhouse and open-field cultivation on heavy metal uptake during carrot growth]. 环境科学[Environmental Science], 2021, 43(2), 1004–1014. [in Chinese]

2020:

93. Wang, Y.H., Shi, Y.M., Sun, G.D., Li, J.T., Chen, H., Chow, A.T., Yang, Z.B., Majidzadeh, H.*, Wang, J.J.* Soil organic carbon signature under impervious surfaces. ACS Earth and Space Chemistry, 2020, 4, 1785−1792.

94. Li, L.P., Huang, W.L., Yang, M.T., Liu, Y., Bowden, R.D., Simpson, M.J., Lajtha, K., Tian, L.Q., Wang, J.J.* Chlorination of soil-derived dissolved organic matter: Long-term nitrogen deposition does not increase terrestrial precursors of toxic disinfection byproducts. Water Research, 2020, 185, 116271.

95. Cai, W., Du, Z.L., Zhang, A.P., He, C., Shi, Q., Tian, L.Q., Zhang, P., Li, L.P.*, Wang, J.J.* Long-term biochar addition alters characteristics but not chlorine reactivity of soil-derived dissolved organic matter. Water Research, 2020, 185, 116260.

96. Hou, X.J., Feng, L.*, Tang, J., Song, X.P., Liu, J.G., Zhang, Y.L., Wang, J.J., Xu, Y., Dai, Y.H., Zheng, Y., Zheng, C.M., Bryan, B.A. Anthropogenic transformation of Yangtze Plain freshwater lakes: patterns, drivers and impacts. Remote Sensing of the Environment, 2020, 248, 111998.

97. Ye, Q., Wang, Y.H., Zhang, Z.T., Huang, W.L., Li, L.P., Li, J.T., Liu, J.S., Zheng, Y., Mo, J.M., Zhang, W.*, Wang, J.J.*, Dissolved organic matter characteristics in soils of tropical legume and non-legume tree plantations. Soil Biology and Biochemistry, 2020, 107880.

98. Lu, H., Yan, M., Wong, M.H., Mo, W.Y., Wang, Y.H., Chen, X.W.*, Wang, J.J.*, Effects of biochar on soil microbial community and functional genes of a landfill cover three years after ecological restoration. Science of the Total Environment, 2020, 717, 137133.

99. Zhang, S., Chen, X.W., Ye, Q.H., Zhang, Z.T., Kong, S.F., Cao, C.*, Wang, J.J.*, Dissolved metal(loid) concentrations and their relations with chromophoric and fluorescent dissolved organic matter in an urban river in Shenzhen, South China. Water, 2020, 12, 281.

100. Wang, J.J., Liu, Y.N., Bowden, R.D., Lajtha, K., Simpson, A.J., Huang, W.L., Simpson, M.J.*, Long-term nitrogen addition alters the composition of soil-derived dissolved organic matter. ACS Earth and Space Chemistry, 2020, 4(2), 189-201.

101. Liu, Y.C.#, Ye, Q.#, Huang, W.L., Feng, L., Wang, Y.H., Xie, Z., Yong, S.S., Zhang, S., Jiang, B., Zheng, Y., Wang, J.J.*, Spectroscopic and molecular-level characteristics of dissolved organic matter in the Pearl River Estuary, South China. Science of the Total Environment, 2020, 710, 136307.

102. 曹春，张松*，张鹏，刘雨晨，陈勋文，王俊坚 [Cao, C., Zhang, S.*, Zhang, P., Liu, Y.C., Chen, X.W., Wang, J.J.]. 大宝山污灌区土壤-蔬菜系统重金属污染现状及其风险评价[Heavy metal contamination in soil-vegetable system and its health risks in area irrigated with acid mine drainage in Dabaoshan, Guangdong, China]. 农业环境科学学报[Journal of Agro-Environment Science], 2020, 7, 1521-1531. [in Chinese]

2019:

103. Ye, Q.H., Zhang, Z.T., Liu, Y.C., Wang, Y., Zhang, S., He, C., Shi, Q., Zeng, H.X., Wang, J.J.* Spectroscopic and molecular-level characteristics of dissolved organic matter in a highly polluted urban river in South China. ACS Earth and Space Chemistry, 2019, 3(9) 2033-2044.

104. Wang, J.J., Liu, Z.R., Wan, S.Q., Han, H.Y., Zhu, W.Z., Zhang, Z.T., Huang, W.L, Zeng, H.* Relatively stable metal(loid) levels in surface soils of a temperate steppe under multiple climate change factors. Geoderma, 2019, 352, 268-276.

105. Chen, H., Tsai, K.P., Su, Q., Chow, A.T., Wang, J.J.* Throughfall dissolved organic matter as terrestrial disinfection byproduct precursors. ACS Earth and Space Chemistry, 2019, 3(8), 1603-1613. [Selected as Cover]

106. Kong, D.L.*,#, Wang, J.J.*,#(equal contribution), Wu, H.F.#, Valverde-Barrantes, O.J.#, Wang, R.L., Zeng, H., Kardol, P., Zhang, H.Y. and Feng, Y.L.* Nonlinearity of root trait relationships and the root economics spectrum. Nature Communications, 2019, 10, 2203. [ESI hot paper; ESI highly cited paper]

107. Bowden, R.D.*, Wurzbacher, S.J., Washko, S.E., Wind, L., Rice, A., Coble, A.E., Baldauf, N., Johnson, B., Wang, J.J., Simpson, M.J., Lajtha, K. Long-term nitrogen addition decreases organic matter decomposition and increases forest soil carbon. Soil Science Society of America Journal, 2019, 81(s1), S82-S95. [Selected as Cover of CSA News]

108. Wang, J.J., Bowden, R.D., Lajtha, K., Washko, S.E., Wurzbacher, S.J., Simpson, M.J.* Long-term nitrogen addition suppresses microbial degradation, enhances soil carbon storage, and alters the molecular composition of soil organic matter. Biogeochemistry, 2019, 142 (2), 299–313.

2018:

109. Chen, H., Chow, A.T., Li, X.W., Ni, H.G., Dahlgren, R.A., Zeng, H.*, Wang, J.J.* Wildfire burn intensity affects the quantity and speciation of polycyclic aromatic hydrocarbons in soils. ACS Earth and Space Chemistry, 2018, 2 (12), 1262–1270. [Selected as Cover]

110. Li, J.T., Wang, J.J., Zeng, D.H., Zhao, S.Y., Huang, W.L., Sun, X.K., Hu, Y.L.* The influence of drought intensity on soil respiration during and after multiple drying-rewetting cycles. Soil Biology and Biochemistry, 2018, 127, 82-89.

111. Kong, D.L.*#, Wang, J.J.#(equal contribution), Yang, F., Shao, P.S., Rhizosheaths stimulate short-term root decomposition in a semiarid grassland. Science of the Total Environment, 2018, 640-641, 1297–1301.

112. Cao, C., Zhang, Q., Ma, Z. B., Wang, X. M., Chen, H.*, Wang, J.J.*, Fractionation and mobility risks of heavy metals and metalloids in wastewater-irrigated agricultural soils from greenhouses and fields in Gansu, China. Geoderma, 2018, 328:1-9.

113. Wang, J.J., Lafrenière, M., Lamoureux, S., Simpson, A.J., Gélinas, Y., Simpson, M.J.*, Differences in riverine and pond water dissolved organic matter composition and sources in Canadian High Arctic watersheds affected by active layer detachments. Environmental Science & Technology, 2018, 52 (3), 1062-1071.

114. Cao C., Liu S.Q., Ma Z.B., Lin Y., Su Q., Chen H.*, Wang, J.J.*, Dynamics of multiple elements in fast decomposing vegetable residues. Science of the Total Environment, 2018, 616-617:614-621.

Before joining SUSTech in 2017:

115. Wang J.J., Pisani O., Lin, L.H., Lun O.O.Y., Lajtha K., Bowden R.D., Simpson A.J. and Simpson, M.J.*, Long-term litter manipulation alters soil organic matter turnover in a temperate deciduous forest. Science of the Total Environment, 2017, 607–608:865-875.

116. Zhang D., Wang J.J., Ni H.G., Zeng H.*, Spatial-temporal and multi-media variations of polycyclic aromatic hydrocarbons in a highly urbanized river system in Shenzhen, South China. Science of the Total Environment, 2017, 581-582:621–628.

117. Kong D.L.*, Wang J.J., Zeng H., Liu M.Z., Miao Y., Wu H.F., Kardol P., The nutrient absorption-transportation hypothesis: optimizing structural traits in absorptive roots. New Phytologist, 2017, 213:1569-1572.

118. 朱文舟, 王俊坚, 曾辉*[Zhu, W.Z., Wang, J.J., Zeng, H.*]. 森林火灾对土壤及水体重金属浓度水平的潜在影响研究进展[Potential impact of forest fire on soil and water heavy metal concentrations: A review]. 生态学杂志[Chinese Journal of Ecology], 2017, 36 (9), 2641-2649. [in Chinese]

119. Chow A.T.*, Pitt A.L., Baldwin R.F., Suhre D.O., Wang J.J., Water quality dynamics of ephemeral wetlands in the Piedmont ecoregion, South Carolina, USA. Ecological Engineering, 2016, 94, 555-563.

120. Cao C., Chen X.P., Ma Z.B., Jia H.H., Wang J.J.*, Greenhouse cultivation mitigates metal-ingestion-associated health risks from vegetables in wastewater-irrigated agroecosystems. Science of the Total Environment, 2016, 560, 204-211.

121. Wang J.J., Dahlgren R.A., Ersan M.S., Karanfil T., Chow A.T.*, Temporal variations of disinfection byproduct precursors in wildfire detritus. Water Research, 2016, 99, 66-73.

122. Zhang D., Wang J.J., Zeng H.*, Soil polycyclic aromatic hydrocarbons across urban density zones in Shenzhen, China: occurrences, source apportionments, and spatial risk assessment. Pedosphere, 2016, 26 (5): 676-686.

123. Wang J.J., Jiao Y., Rhew R.C., Chow A.T.*, Haloform formation in coastal wetlands along a salinity gradient at South Carolina, United States. Environmental Chemistry, 2016, 13 (4) 745-756. [Invited contribution]

124. Kong D.L.*, Wang J.J., Kardol P., Wu H.F., Zeng H., Deng X.B., Deng Y., Economic strategies of plant absorptive roots vary with root diameter. Biogeosciences, 2016, 13, 415-424.

125. 刘泽睿, 王俊坚, 万师强, 曾辉*[Liu, Z., Wang, J.J., Wan, S.Q., Zeng, H.*]. 氮素输入与降水增加对温带草原土壤金属元素库存的影响[Effects of nitrogen addition and increased precipitation on metal pools in temperate steppe, northern China]. 生态学杂志[Chinese Journal of Ecology], 2016, 35 (5): 1125-1131. [in Chinese]

126. Wang J.J., Dahlgren R.A., Chow A.T.*, Controlled burning of forest detritus altering spectroscopic characteristics and chlorine reactivity of water extractable organic matter: Effects of temperature and oxygen availability. Environmental Science & Technology, 2015, 49 (24):14019–14027.

127. Wang J.J., Dahlgren R.A., Ersan M.S., Karanfil T., Chow A.T.*, Wildfire altering terrestrial precursors of disinfection byproducts in forest detritus. Environmental Science & Technology, 2015, 49, 5921-5929.

128. Wang J.J.*, Tharayil N., Chow A.T., Suseela V., Zeng H., Phenolic profile of fine roots highlights a disconnect in root tissue quality predicted by elemental- and molecular-level carbon composition. New Phytologist, 2015, 206:1261-1273. (New Phytologist Editors' Choice; see commentary by the Editor Richard Norby)

129. Yu X.B., Hawley-Howard J., Pitt, A.L., Wang J.J., Baldwin R.F., Chow A.T.*, Water quality of small seasonal wetlands in the Piedmont Ecoregion, South Carolina, USA: Effects of land use and hydrological connectivity. Water Research, 2015, 73:98-108.

130. Dai J.N., Wang J.J.*, Chow A.T. Conner W.H., Electrical energy production from foliar detritus in forested wetland using microbial fuel cell. Global Change Biology - Bioenergy, 2015, 7 (2): 244–252.

131. Wang J.J., Chow A.T.*, Sweeney J., Mazet J., Trihalomethanes in marine mammal aquaria: Occurrence, source and health risks. Water Research, 2014, 59:219-228.

132. Wang J.J., Liu X., Ng T.W., Xiao J.W., Chow A.T.*, Wong P.K.*, Disinfection byproducts formation from chlorination of pure bacterial cells and pipeline biofilms. Water Research, 2013, 47 (8):2701-2709.

133. Zhou J., Wang J.J., Baudon A., Chow A.T.*, Improved fluorescence excitation-emission matrix regional integration to quantify spectra for fluorescent dissolved organic matter. Journal of Environmental Quality, 2013, 42 (3):925-930.

134. Guo Y.Y.#, Wang J.J.# (equal contribution), Kong D.L, Guo D.L., Wang Y.B., Xie Q.L., Liu Y.S.*, Zeng H.*, Fine root branch orders contribute differentially to uptake, allocation and return of potentially toxic metals. Environmental Science & Technology, 2013, 47 (20), 11465-11472.

135. Chow A.T.*, Dai J.N., Conner, W.H., Hitchcock D.R., Wang J.J., Dissolved organic matter and nutrient dynamics of a coastal freshwater forested wetland in Winyah Bay, South Carolina. Biogeochemistry, 2013, 112 (1):571-587.

136. Wang J.J., Ng T.W., Zhang Q., Yang X.B., Dahlgren R.A., Chow A.T.*, Wong P.K.*, Reactivity of C1 and C2 organohalogens formation – from plant litter to bacteria. Biogeosciences, 2012, 9 (10): 3721-3727. 

137. Wang J.J., Guo Y.Y., Guo D.L., Yin S.L., Kong D.L., Liu Y.S.*, Zeng H.*, Fine root mercury heterogeneity: metabolism of lower-order roots as an effective route for mercury removal. Environmental Science & Technology, 2012, 46 (2):769-777.

138. Wang J.J., Zhao H.W., Zhong X.P., Kong S.F., Liu Y.S.*, Zeng H.*, Investigation of mercury levels in soil around a municipal solid waste incinerator in Shenzhen, China. Environmental Earth Sciences, 2011, 64 (4):1001-1010.

139. 王俊坚, 赵宏伟, 钟秀萍, 刘阳生, 曾辉*[Wang, J.J., Zhao, H.W., Zhong, X.P., Liu, Y.S., Zeng, H.*]. 垃圾焚烧厂周边土壤重金属浓度水平及空间分布[concentration levels and spatial distribution of heavy metals in soil surrounding a municipal solid waste incineration plant (Shenzhen)]. 环境科学[Environmental Science], 2011 (1): 276-282. [in Chinese]

140. 贾慧慧, 王俊坚, 高梅, 魏建兵, 曾辉*[Jia, H.H., Wang, J.J., Gao, M., Wei, J.B., Zeng, H.*]. 湿地水环境质量时空分异的影响因子[Factors affecting the spatiotemporal differentiation of wetland water environmental quality]. 生态学杂志[Chinese Journal of Ecology], 2011, 30 (7): 1551-1557. [in Chinese]

141. 李英汉, 王俊坚, 陈雪, 孙建林, 曾辉*[Li, Y.H., Wang, J.J., Chen, X., Sun, J.L., Zeng, H*]. 深圳市居住区绿地植物冠层格局对微气候的影响[Effects of green space vegetation canopy pattern on the microclimate in residential quarters of Shenzhen City]. 应用生态学报[Chinese Journal of Applied Ecology], 2011, 22 (02):343-349. [in Chinese]

142. 李英汉, 王俊坚, 李贵才, 曾辉*[Li, Y.H., Wang, J.J., Li, G.C., Zeng, H.*]. 居住区植物绿量与其气温调控效应的关系[Effects of green space vegetation canopy pattern on the microclimate in residential quarters of Shenzhen City]. 生态学报[Acta Ecologica Sinica],  2011, 31 (3):830-838. [in Chinese]

143. 王俊坚*, 曾辉, 刘阳生[Wang, J.J.*, Zeng, H., Liu, Y.S.]. 甲烷液相制甲醇技术及机制研究进展[Recent advances in technologies and mechanism of catalytic oxidation of methane to methanol in liquid phase]. 环境工程[Environmental Engineering],  2010 (S28): 351-355. [in Chinese]

144. 钟秀萍, 王俊坚, 赵宏伟, 刘阳生, 曾辉*[Zhong, X.P., Wang, J.J., Zhao, H.W., Liu, Y.S., Zeng, H.*]. 垃圾焚烧厂周围优势植物的重金属污染特征研究——以深圳市清水河垃圾焚烧厂为例[Investigation of heavy metals pollution in predominant plants around a municipal solid waste incineration plant: A case study in Shenzhen Qingshuihe MSWI Plant]. 北京大学学报 (自然科学版)[Acta Scientiarum Naturalium Universitatis Pekinensis], 2010, 46 (4):674-680. [in Chinese]

145. 赵宏伟, 钟秀萍, 刘阳生, 王俊坚, 洪渊, 招康赛, 曾辉*[Zhao, H.W., Zhong, X.P., Liu, Y.S., Wang, J.J., Hong, Y., Zhao, K.S., Zeng, H.*]. 深圳市清水河垃圾焚烧厂周围地区优势植物的汞污染研究[Mercury pollution investigation in predominant plants surrounding Shenzhen Qingshuihe Municipal Solid Waste Incineration Plant]. 环境科学[Environmental Science],  2009, 30 (9): 2786-2791. [in Chinese]

Book Chapters专著章节

1. Majidzadeh H.#, Wang J.J.# (equal contribution), Chow A.T.*, Prescribed fire altered dissolved organic matter and disinfection by-product precursors in forested watersheds - Part I. A controlled laboratory study. Book chapter in “Recent Advances in Disinfection By-Products”, 2015, pp 271-292. American Chemical Society:

2. Wang J.J., What is the nutrient pool in the soil? Book chapter in “One Hundred Thousand High-Tech Whys”, 2020, pp 177-181. Guangdong Science & Technology Press: Guangdong, Guangzhou.

Software Copyright软件著作权

1. 杜朋辉, 王俊坚, 唐可欣, 杨碧薇, 莫潇晗[Du P.H., Wang J.J., Tang K.X., Yang B.W., Mo X.H.] Triplet DOM量子产率与反应活性分析软件V1.0 [Software of quantum yield and reactivity analysis of TripletDOM V1.0.] 2023. 软件著作权[Software copyright], 注册号registration no. [2023SR1362352].

Patents专利

1. 杜朋辉, 王俊坚[Du P.H., Wang J.J.] 一种检测乙酰过氧自由基与有机化合物二级反应速率常数的方法[A method for detecting the secondary reaction rate constant of acetyl peroxyl radicals and organic compounds..]. 发明专利[Invention patent]. 申请号[Application number]: 202410835106.7.

2. 张强, 陈勋文, 刘军定, 王俊坚, 吴家琦, 李慧 [Zhang Q., Chen X.W., Liu J.D., Wang J.J., Wu J.Q., Li H.] 一种基于根系受拉状态下的应力-应变数据的自动化处理方法[An automated processing method for stress-strain data based on root tension. Invention patent]. 发明专利[Invention patent]. 申请号[Application number]: 202311341596.7.