主要论文 |
代表性论文: 1.Changcheng Tang,Rongbo Xiao*, Bohua Ling, Peng Wang, Jiatong Zheng, Fei Huang, Weizhan Liu. Prediction of Cr and Ni contents in soil from hyperspectral data combined with Al-Fe minerals. International Journal of Remote Sensing, 2023, 44(8): 2781–2797. 2. Jiatong Zheng, Peng Wang*, Hangyuan Shi, Changwei Zhuang, Yirong Deng, Xiaojun Yang, Fei Huang,Rongbo Xiao*. Quantitative source apportionment and driver identification of soil heavy metals using advanced machine learning techniques. Science of the Total Environment, 2022. 3.Hangyuan Shi ,Peng Wang*,Jiatong Zheng , Yirong Deng , Changwei Zhuang ,Fei Huang ,Rongbo Xiao*. A comprehensive framework for identifying contributing factors of soil trace metal pollution using Geodetector and spatial bivariate analysis. Science of The Total Environment, 2022, 857:159636-159647. 4. Meili Xu, Weijie Dai, Zilin Zhao, Jiatong Zheng, Fei Huang*, Chuang Mei, Shuting Huang, Chufan Liu, Peng Wang,Rongbo Xiao*. Effect of rice straw biochar on three different levels of Cd-contaminated soils: Cd availability, soil properties, and microbial communities, Chemosphere, 2022. 5. Shuting Huang, Fei Huang*, Xiaojun Yang,Rongbo Xiao*, Yunze Wang, Meili Xu, Yuxuan Huang, Hangyuan Shi and Peng Wang. Relative Contribution of Metal Content and Soil Particle Mass to Health Risk of Chromium-Contaminated Soil. International Journal of Environmental Research and Public Health, 2022, 19(9):5253. 6. Liu, Qianjun*; Chen, Zhaowei; Tang, Jiepeng; Luo, Jiayi; Huang, Fei; Wang, Peng,Xiao,Rongbo*. Cd and Pb immobilisation with iron oxide lignin composite and the bacterial community response in soil. SCIENCE OF THE TOTAL ENVIRONMENT. 802, 2021. 7. Chufan Liu,Rongbo Xiao*, Fei Huang, Xiaojun Yang, Weijie Dai, Meili Xu. Physiological responses and health risks of edible amaranth under simultaneous stresses of lead from soils and atmosphere. Ecotoxicology and Environmental Safety, 223, 2021. 8. Weijie Dai, Meili Xu, Zilin Zhao, Jiatong Zheng, Fei Huang*, Heng Wang, Chufan Liu,Rongbo Xiao*. Characteristics and quantification of mechanisms of Cd2+ adsorption by biochars derived from three different plant-based biomass. Arabian Journal of Chemistry. 14(5), 2021. 9. Heng Wang, Fei Huang*, Zi-Lin Zhao, Ren-Ren Wu, Wei-Xin Xu, Peng Wang,Rong-Bo Xiao*. High-efficiency removal capacities and quantitative adsorption mechanisms of Cd2þ by thermally modified biochars derived from different feedstocks. Chemosphere. 272, 2021. 10. Fei Huang, Si-Ming Zhang, Ren-Ren Wu, Lu Zhang, Peng Wang, Rong-Bo Xiao *. Magnetic biochars have lower adsorption but higher separation effectiveness for Cd2þ from aqueous solution compared to nonmagnetic biochars. Environmental Pollution, 2021, 275: 116485. 11. Huang, F., Zhang, L., Wu, R.R., Zhang, S.M.,Xiao, R.B*. Adsorption behvior and relative distribution of Cd2+ adsorption mechanisms by magnetic and nonmagnetic biochars derived from chicken manure. Int. J. Environ. Res. Public Health, 2020, 17, 1602. 12. Huang, F., Gao, L.Y., Wu, R.R., Wang, H.,Xiao, R.B*. Qualitative quantitative characterization of adsorption mechanisms for Cd2+ by silicon-rich biochar. Sci. Total Environ, 2020, 731, 139163. 13. Chufan Liu,Rongbo Xiao*, Weijie Dai, Fei Huang1, Xiaojun Yang. Cadmium accumulation and physiological response of Amaranthus tricolor L. under soil and atmospheric stresses. Environmental Science and Pollution Research, 2020, 12. 14. Huang, F., Zhang, L., Wu, R.R., Zhang, S.M.,Xiao, R.B*. Adsorption behavior and relative distribution of Cd2+ adsorption mechanisms by magnetic and nonmagnetic biochars derived from chicken manure. Int. J. Environ. Res. Public Health, 2020, 17, 1602. 15. Huang, F., Gao, L.Y., Wu, R.R., Wang, H.,Xiao, R.B*. Qualitative quantitative characterization of adsorption mechanisms for Cd2+ by silicon-rich biochar. Sci. Total Environ, 2020, 731, 139163. 16. Huang, F., Li, K., Wu, R.R., Yan, Y.J.,Xiao, R.B*. Insight into the Cd2+ biosorption by viable Bacillus cereus RC-1 immobilized on different biochars: roles of bacterial cell and biochar matrix. J. Clena. Prod. 2020, 272, 122743. 17. Quanfa Zhong, Qintie Lin⁎, Runlin Huang, Hengyi Fu, Xiaofeng Zhang, Haoyu Luo,Rongbo Xiao*. Oxidative degradation of tetracycline using persulfate activated byN and Cu codoped biochar. Chemical Engineering Journal, 2019(380). 08. 24. 18. Sheng-xiang Yang, Bin Liao,Rong-bo Xiao*,Jin-tian Li*. Effects of Amendments on Soil Microbial Diversity, Enzyme Activity and Nutrient Accumulation after Assisted Phytostabilization of an Extremely Acidic Metalliferous Mine Soil. Applied Sciences, 2019, 9, 1552. 19.XIAO Rongbo*, Hongze Huang; Xiaonuo Li. Lime and Phosphate Amendment Can Significantly Reduce Uptake of Cd and Pb by Field-grown Rice. Sustainability, 2017, 9, 430. 20. X.N. Li, W.T. Jiao,XIAO Rongbo,Chen, WP*,Liu, W . Contaminated sites in China: Countermeasures of provincial governments. Journal of Cleaner Production, 2017, 147: 485-496. 21. X.N. Li,XIAO Rongbo*,W.P. Chen. A Conceptual Framework for Classification Management of Contaminated Sites in Guangzhou, China. Sustainability, 2017, 9, 362. 22. X.N. Li, W.T. Jiao,XIAO Rongbo,Chen, WP, Bai, YY*. Regional Variation of Public Perception on Industrial Contaminated Sites in China and Its Influencing Factors. International Journal of Environmental Research and Public Health, 2016, 13(4):410. (SCI) 23. Guanhua Guo, Xiaoqing Zhou, Zhifeng Wu*,XIAO Rongbo. Characterizing the impact of urban morphology heterogeneity on land surface temperature in Guangzhou, China. Environmental Modelling & Software, 2016, 84: 427–439. (SCI) 24. X.N. Li, W.T. Jiao,XIAO Rongbo,Chen, WP*,Chang, AC. Soil pollution and site remediation policies in China: A review. Environ. Rev. 2015(23): 1–12. (SCI) 25. Guanhua Guo, Zhifeng Wu*,XIAO Rongbo. Impacts of urban biophysical composition on land surface temperature in urban heat island clusters. Landscape and Urban Planning, 2015,135: 1-10 .(SCI) 26.XIAO Rongbo*, WENG Qihao. Land Surface Temperature Variation and Major Factors in Beijing, China. Photogrammetric Engineering & Remote Sensing, 2008, 74(4): 451-461. (SCI) 27.XIAO Rongbo*, OUYANG Zhiyun. Spatial Patterns of Impervious Surface and Its Impacts on Land Surface Temperature in Beijing. Journal of Environmental Sciences, 2007, 19: 250-256. (SCI) 28. OUYANG Zhiyun,XIAO Rongbo*. Beijing Urban Spatial Distribution and Resulting Impacts on Heat Island, In: Sun-Kee Hong, Nobukazu Nakagoshi, Bojie Fu (Eds), Landscape Ecological Applications in Man-Influenced Areas: Linking Man and Nature Systems, 459-478. Netherlands: Springer, 2006. 29.胡珂,舒兆恩,罗堯,尚袁凌博,康祖杰,贺春容,杨存存,唐甲,郑烨,刘阳,杨道德,肖荣波*.湖南发现苍头燕雀、日本鹰鸮和短趾雕.动物学杂志, 2023-2-20, 58(1): 142-147. 30.何梦婷,肖荣波*,黄飞,王鹏,王韵泽,罗树华,杨洁鑫,徐美丽. 抗坏血酸改性纳米硫化亚铁对水体Cr(Ⅵ)的还原特性及机制.环境科学学报,203,43(02):61-72. 31. 黄俣轩;黄飞;胡志文;赵梓霖;王鹏;肖荣波*. 大气湿沉降下油菜体内铅的形态累积及氧化胁迫效应. 生态学报, 2023. 32. 岑渝华;王鹏; 陈庆春;张承云;余上;胡珂;刘阳;肖荣波*. 城市绿地动物声景的时空特征及其驱动因素. 生物多样性, 2022: 31(01):43-57. 33. 黄淑婷,肖荣波*,黄飞,徐美丽,黄俣轩,石航源,王鹏. 土壤不同粒级中Cr(Ⅵ)生物可给性及健康风险. 生态毒理学报, 2022: 1-12. 34. 李永洁,王鹏,肖荣波*.国土空间生态修复国际经验借鉴与广东省实施路径[J].生态学报,2021,41(19):7637-7647. 35. 高中原,肖荣波*,王鹏,邓一荣,戴伟杰,刘楚藩.融合自然-人为因子改进回归克里格对土壤镉空间分布预测[J].环境科学,2021,42(01):343-352. 36. 修晨,肖荣波*, 陈三雄, 张晖. 国内外主要湾区生态系统特征、修复理论与技术模式. 生态学报, 2020, 40(23): 8377-8391. 37. 刘楚藩,肖荣波*, 黄飞, 戴伟杰, 高中原, 徐美丽, 温小情. 土壤与大气双重胁迫下苋菜幼苗对铅的累积与生理响应. 生态学报, 2020, 40(24): 9174-9183. 38. 庄长伟,肖荣波*, 黄柳菁, 罗造, 曹兴兴. 广州市中心城区不同绿地类型植物种类构成差异研究. 环境科学与管理, 2020, 45(09): 152-155. 39. 邓一荣, 陆海建, 董敏刚, 程洲, 庄长伟,肖荣波*. 粤港澳大湾区典型化工场地苯系物污染特征及迁移规律. 环境科学, 2019, 40(12): 5615-5622. 40. 邓一荣, 陆海建, 董敏刚, 程洲, 庄长伟,肖荣波*, 钟音, 彭平安. 粤港澳大湾区典型化工场地苯系物污染特征及迁移规律, 环境科学, 2019, 40(12): 5615-5662. 41. 常春英, 董敏刚, 邓一荣*,肖荣波*, 刘丽丽. 粤港澳大湾区污染场地土壤风险管控制度体系建设与思考, 环境科学, 2019, 40(12): 5570-5580. 42. 赵慧,何博,王铁宇* ,孟晶,肖荣波*,刘胜然,周云桥,史斌。我国南方典型城市土壤重金属污染特征及源汇关系分析,环境科学学报, 2019, 39(7): 2231-2239. |