2015年
[1] Bao L, Ma K, Zhang S, Lin L, Qu L. Urban dust load impact on gas-exchange parameters and growth of Sophora japonica L. seedlings[J]. Plant Soil & Environment, 2015, 61(7): 309–315.
[2] Chen W, Bai Y, Zhang W, Lyu S, Jiao W. Perceptions of Different Stakeholders on Reclaimed Water Reuse: The Case of Beijing, China[J]. Sustainability, 2015, 7(7): 9696.
[3] Chen W, Lu S, Pan N, Wang Y, Wu L. Impact of reclaimed water irrigation on soil health in urban green areas[J]. Chemosphere, 2015, 119: 654–661.
[4] Cheng Y, Zhang C L, Zhang Y Y, Zhang H X, Sun X, Mu Y J. Characteristics and anthropogenic sources of carbonyl sulfide in Beijing[J]. Journal of Environmental Sciences-China, 2015, 28: 163–170.
[5] Dong R, Li T, Li Y, Jiang T, Li S, Yan Y, Li Q. Data issue considerations for the monitoring and evaluation of natural resources and the environment– a case study of Shangri-La County, Yunnan Province, China[J]. International Journal of Sustainable Development & World Ecology, 2015, 22(2): 178–183.
[6] Du X, Su J, Li X, Zhang W. Modeling and Evaluating of Non-Point Source Pollution in a Semi-Arid Watershed: Implications for Watershed Management[J]. CLEAN– Soil, Air, Water, 2015: n/a-n/a.
[7] Fan Y, Chen W, Jiao W, Chang A C. Cost-benefit analysis of reclaimed wastewater reuses in Beijing[J]. Desalination and Water Treatment, 2015, 53(5): 1224–1233.
[8] Feng Z, Paoletti E, Bytnerowicz A, Harmens H. Ozone and plants[J]. Environmental Pollution, 2015, 202: 215–216.
[9] Feng Z, Rütting T, Pleijel H, Wallin G, Reich P B, Kammann C I, Newton P C D, Kobayashi K, Luo Y, Uddling J. Constraints to nitrogen acquisition of terrestrial plants under elevated CO2[J]. Global Change Biology, 2015, 21(8): 3152–3168.
[10] Guo E, Chen L, Sun R, Wang Z. Effects of riparian vegetation patterns on the distribution and potential loss of soil nutrients: a case study of the Wenyu River in Beijing[J]. Frontiers of Environmental Science & Engineering, 2015, 9(2): 279–287.
[11] Han L, Zhou W, Li W. City as a major source area of fine particulate (PM2.5) in China[J]. Environmental Pollution, 2015, 206: 183–187.
[12] Han L, Zhou W, Li W. Increasing impact of urban fine particles (PM(2.5)) on areas surrounding Chinese cities[J]. Scientific Reports, 2015, 5: 12467.
[13] Han L, Zhou W, Li W, Meshesha D T, Li L, Zheng M. Meteorological and urban landscape factors on severe air pollution in Beijing[J]. Journal of the Air & Waste Management Association, 2015, 65(7): 782–787.
[14] Hu D, Guo Z, Wang Z, Xiao Q. Metabolism analysis and eco-environmental impact assessment of two typical cement production systems in Chinese enterprises [J]. Ecological Informatics, 2015, 26: 70–77.
[15] Hu E, Gao F, Xin Y, Jia H, Li K, Hu J, Feng Z. Concentration- and flux-based ozone dose–response relationships for five poplar clones grown in North China[J]. Environmental Pollution, 2015, 207: 21–30.
[16] Jiang B, Wong C P, Chen Y, Cui L, Ouyang Z. Advancing wetland policies using ecosystem services– China's way out[J]. Wetlands, 2015, 35(5): 983–995.
[17] Li B, Yang J, Lu B, Song X. Estimation of retired mobile phones generation in China: A comparative study on methodology[J]. Waste Management, 2015, 35: 247–254.
[18] Li L, Manning W J, Tong L, Wang X. Chronic drought stress reduced but not protected Shantung maple (Acer truncatum Bunge) from adverse effects of ozone (O3) on growth and physiology in the suburb of Beijing, China[J]. Environmental Pollution, 2015, 201: 34–41.
[19] Li W H, Shi Y L, Gao L H, Liu J M, Cai Y Q. Occurrence, fate and risk assessment of parabens and their chlorinated derivatives in an advanced wastewater treatment plant[J]. Journal of Hazardous Materials, 2015, 300: 29–38.
[20] Li W, Bai Y, Zhou W, Han C, Han L. Land Use Significantly Affects the Distribution of Urban Green Space: Case Study of Shanghai, China[J]. Journal of Urban Planning and Development, 2015, 141(3): A4014001.
[21] Li X N, Jiao W T, Xiao R B, Chen W P, Chang A C. Soil pollution and site remediation policies in China: A review[J]. Environmental Reviews, 2015, 23(3): 263–274.
[22] Liu K K, Zhang C L, Cheng Y, Liu C T, Zhang H X, Zhang G, Sun X, Mu Y J. Serious BTEX pollution in rural area of the North China Plain during winter season[J]. Journal of Environmental Sciences-China, 2015, 30: 186–190.
[23] Lu B, Liu J, Yang J, Li B. The environmental impact of technology innovation on WEEE management by Multi-Life Cycle Assessment[J]. Journal of Cleaner Production, 2015, 89: 148–158.
[24] Ma D, Xian C, Zhang J, Zhang R, Ouyang Z. The Evaluation of Water Footprints and Sustainable Water Utilization in Beijing[J]. Sustainability, 2015, 7(10): 13206.
[25] Peng C, Wang M, Chen W, Chang A C. Mass balance-based regression modeling of PAHs accumulation in urban soils, role of urban development[J]. Environmental Pollution, 2015, 197: 21–27.
[26] Qian Y, Zhou W, Li W, Han L. Understanding the dynamic of greenspace in the urbanized area of Beijing based on high resolution satellite images[J]. Urban Forestry & Urban Greening, 2015, 14(1): 39–47.
[27] Qian Y, Zhou W, Yan J, Li W, Han L. Comparing machine learning classifiers for Object-Based land cover classification using very high resolution imagery[J]. Remote Sensing, 2015, 7(1): 153–168.
[28] Qian Y, Zhou W, Yu W, Pickett S T A. Quantifying spatiotemporal pattern of urban greenspace: new insights from high resolution data[J]. Landscape Ecology, 2015, 30(7): 1165–1173.
[29] Shi Y, Xu S, Xu L, Cai Y. Distribution, Elimination, and Rearrangement of Cyclic Volatile Methylsiloxanes in Oil-Contaminated Soil of the Shengli Oilfield, China[J]. Environmental Science & Technology, 2015, 49(19): 11527–11535.
[30] Song Y, Li F, Wang X, Xu C, Zhang J, Liu X, Zhang H. The effects of urban impervious surfaces on eco-physiological characteristics of Ginkgo biloba: A case study from Beijing, China[J]. Urban Forestry & Urban Greening, 2015, 14(4): 1102–1109.
[31] Song Y, Maher B A, Li F, Wang X, Sun X, Zhang H. Particulate matter deposited on leaf of five evergreen species in Beijing, China: Source identification and size distribution[J]. Atmospheric Environment, 2015, 105: 53–60.
[32] Su Z, Li X, Zhou W, Ouyang Z. Effect of landscape pattern on insect species density within urban green spaces in Beijing, China[J]. PLoS ONE, 2015, 10(3): e119276.
[33] Tao Y, Li F, Liu X, Zhao D, Sun X, Xu L. Variation in ecosystem services across an urbanization gradient: A study of terrestrial carbon stocks from Changzhou, China[J]. Ecological Modelling, 2015, 318: 210–216.
[34] Tao Y, Li F, Wang R, Zhao D. Effects of land use and cover change on terrestrial carbon stocks in urbanized areas: a study from Changzhou, China [J]. Journal of Cleaner Production, 2015, 103: 651–657.
[35] Wang H, Li X, Hao S. Effects of rainfall data resolution on watershed-scale model performance in predicting runoff[J]. Journal of Water & Climate Change, 2015, 6(2): 227–240.
[36] Wang M, Faber J H, Chen W, Li X, Markert B. Effects of land use intensity on the natural attenuation capacity of urban soils in Beijing, China[J]. Ecotoxicology and Environmental Safety, 2015, 117: 89–95.
[37] Wang W G, Li K, Zhou L, Ge M F, Hou S Q, Tong S R, Mu Y J, Jia L. Evaluation and Application of Dual-Reactor Chamber for Studying Atmospheric Oxidation Processes and Mechanisms[J]. Acta Physico-Chimica Sinica, 2015, 31(7): 1251–1259.
[38] Wang Z, Sun R, Zhang H, Chen L. Analysis and assessment of heavy metal contamination in surface water and sediments: a case study from Luan River, Northern China[J]. Frontiers of Environmental Science & Engineering, 2015, 9(2): 240–249.
[39] Wong C P, Jiang B, Kinzig A P, Lee K N, Ouyang Z. Linking ecosystem characteristics to final ecosystem services for public policy[J]. Ecology Letters, 2015, 18(1): 108–118.
[40] Wu J, Ren Y, Wang X, Wang X, Chen L, Liu G. Nitrogen and phosphorus associating with different size suspended solids in roof and road runoff in Beijing, China[J]. Environmental Science and Pollution Research, 2015, 22(20): 15788–15795.
[41] Xian Y, Wang M, Chen W. Quantitative assessment on soil enzyme activities of heavy metal contaminated soils with various soil properties[J]. Chemosphere, 2015, 139: 604–608.
[42] Xiao Y, Xiao Q, Ouyang Z Y, Qin M M. Assessing changes in water flow regulation in Chongqing region, China[J]. Environmental Monitoring and Assessment, 2015, 187(3626).
[43] Xie Y, Li X, Qu L W X. Seasonal and Spatial Variation in Hydrochemical Characteristics of a Semi-Arid River Basin, China[J]. Human & Ecological Risk Assessment, 2015, 21(3): 845–861.
[44] Xiu C, Gerisch M, Ilg C, Henle K, Ouyang Z. Effects of hydrologic modifications to riparian plant communities in a large river system in northern China[J]. Ecological Research, 2015, 30: 461–469.
[45] Xu W, Zhou C, Lan Y, Jin J, Cao A. An incentive-based source separation model for sustainable municipal solid waste management in China[J]. Waste Management & Research, 2015, 33(5): 469–476.
[46] Yang D, Liu J, Yang J, Ding N. Life-cycle assessment of China's multi-crystalline silicon photovoltaic modules considering international trade[J]. Journal of Cleaner Production, 2015, 94: 35–45.
[47] Yao L, Chen L, Wei W, Sun R. Potential reduction in urban runoff by green spaces in Beijing: A scenario analysis[J]. Urban Forestry & Urban Greening, 2015, 14(2): 300–308.
[48] Yao L, Liu J, Wang R, Yin K, Han B. A qualitative network model for understanding regional metabolism in the context of Social–Economic–Natural Complex Ecosystem theory [J]. Ecological Informatics, 2015, 26: 29–34.
[49] Zhang G, Mu Y J, Zhou L X, Zhang C L, Zhang Y Y, Liu J F, Fang S X, Yao B. Summertime distributions of peroxyacetyl nitrate (PAN) and peroxypropionyl nitrate (PPN) in Beijing: Understanding the sources and major sink of PAN[J]. Atmospheric Environment, 2015, 103: 289–296.
[50] Zhou C, Gong Z, Hu J, Cao A, Liang H. A cost-benefit analysis of landfill mining and material recycling in China[J]. Waste Management, 2015, 35: 191–198.
[51] Zhou C, Huang H, Cao A, Xu W. Modeling the carbon cycle of the municipal solid waste management system for urban metabolism[J]. Ecological Modelling, 2015, 318: 150–156.
[52] Zhou C, Xu W, Gong Z, Fang W, Cao A. Characteristics and Fertilizer Effects of Soil-Like Materials from Landfill Mining[J]. CLEAN– Soil, Air, Water, 2015, 43(6): 940–947.
[53] 单保庆, 王超, 李叙勇, 李文赞, 张洪. 基于水质目标管理的河流治理方案制定方法及其案例研究[J]. 环境科学学报, 2015(08): 2314–2323.
[54] 丁宁, 杨建新. 中国化石能源生命周期清单分析[J]. 中国环境科学, 2015(05): 1592–1600.
[55] 董仁才, 李思远, 全元, 董志南, 李春明, 郑拴宁, 刘昱聪. 城市可持续规划中的生态敏感区避让分析——以丽江市为例[J]. 生态学报, 2015(07): 2234–2243.
[56] 高洁, 王如松, 周传斌, 郜彗. 基于SUSTAIN模型方法的社区暴雨径流管理BMP措施模拟与优化[J]. 给水排水, 2015(S1): 254–260.
[57] 韩风森, 胡聃, 王晓琳, 周宏轩. 北京2种阔叶树不同高度枝干的呼吸速率及其对温度的敏感性[J]. 植物生态学报, 2015, 39(2): 197–205.
[58] 李博, 杨建新, 吕彬, 宋小龙. 中国废旧手机产生量时空分布研究[J]. 环境科学学报, 2015(12): 4095–4101.
[59] 林晓丹, 吕彬, 田良, 刘晶茹, 杨建新. 基于LCA的北京市公交车节能及温室气体减排潜力分析[J]. 环境科学学报, 2015(02): 576–584.
[60] 刘慧娟, 卫伟, 王金满, 陈利顶, 姚磊, 董博昶. 城市典型下垫面产流过程模拟实验[J]. 资源科学, 2015(11): 2219–2227.
[61] 刘晶茹, 聶鑫蕊, 周传斌, 石垚, 刘瑞权. 农工共生型生态产业园的构建——以郑州经开区为例[J]. 生态学报, 2015, 35(14): 4891–4896.
[62] 刘文, 陈卫平, 彭驰. 城市雨洪管理低影响开发技术研究与利用进展[J]. 应用生态学报, 2015, 26(6): 1901–1912.
[63] 欧阳志云, 崔书红, 郑华. 我国生态安全面临的挑战与对策[J]. 科学与社会, 2015(01): 20–30.
[64] 欧阳志云, 李小马, 徐卫华, 李煜珊, 郑华, 王效科. 北京市生态用地规划与管理对策[J]. 生态学报, 2015, 35(11): 3778–3787.
[65] 欧阳志云, 张路, 吴炳方, 李晓松, 徐卫华, 肖燚, 郑华. 基于遥感技术的全国生态系统分类体系[J]. 生态学报, 2015(02): 219–226.
[66] 钱雨果, 周伟奇, 李伟峰, 韩立建. 基于类型和要素的城市多等级景观分类方法[J]. 生态学报, 2015(15): 5207–5214.
[67] 施晓清, 孙赵鑫, 李笑诺, 李金香, 杨建新. 北京电动出租车与燃油出租车生命周期环境影响比较研究[J]. 环境科学, 2015(03): 1105–1116.
[68] 宋英石, 李晓文, 李锋, 李海梅. 北京市奥林匹克公园不同地表类型对土壤动物多样性的影响[J]. 应用生态学报, 2015(04): 1130–1136.
[69] 王中航, 王如松. 北京城市交通适应性管理——以定制公交为例[J]. 现代城市研究, 2015(03): 2–8.
[70] 王中航, 周传斌, 王如松, 林雅逢, 孙晓. 中国典型特大城市交通的生态足迹评价[J]. 生态学杂志, 2015(04): 1129–1135.
[71] 武俊良, 任玉芬, 王雪梅, 王效科, 陈利顶, 刘刚才. 城市道路径流的排污特征[J]. 环境科学, 2015, 36(10): 3691–3696.
[72] 徐琬莹, 邵蕾, 周传斌, 王如松. 基于减量与资源化家庭厨余垃圾堆肥参数研究[J]. 环境科学与技术, 2015(05): 95–101.
[73] 杨东, 刘晶茹, 杨建新, 丁宁. 基于生命周期评价的风力发电机碳足迹分析[J]. 环境科学学报, 2015, 35(3): 927–934.
[74] 杨阳, 代丹, 蔡怡敏, 陈卫平, 侯瑜, 杨锋. 基于Monte Carlo模拟的土壤重金属综合风险评价与案例分析[J]. 环境科学, 2015(11): 4225–4231.
[75] 姚磊, 卫伟, 于洋, 肖峻, 陈利顶. 基于GIS和RS技术的北京市功能区产流风险分析[J]. 地理学报, 2015(02): 308–318.
