参考文献/References:
[1] 单文坡,殷永泉,杜世勇,等.夏季城市大气O3浓度影响因素及其相关关系[J].环境科学,2006:1276-1281.
[2] 赵江伟,聂赛赛,于玉洁,等.河北南部城市臭氧和VOCs的污染特征及传输贡献[J].环境科学,2023,44(9):4775-4784.
[3] 刘枢,王铎,陈宗娇,等.辽宁省环渤海地区臭氧污染趋势及时空分布特征[J].环境科学与技术,2018(41):257-262.
[4] 窦鑫,张金强,朱彬,等.香河地基观测臭氧柱总量数据分析及臭氧变化趋势研究[J].气候与环境研究,2019,24(2):143-151.
[5] 赵泽盟.基于非正态分布假设下的高浓度地表臭氧预报模型的应用[D].北京:北京化工大学,2013.
[6] 毛卓成,许建明,瞿元昊,等.上海海陆风分类特征、环流背景及对O3的影响[J].中国环境科学,2023,43(3):1002-1013.
[7] 刘玉,蔡秋亮,佟磊,等.海陆风对宁波东南滨海郊区大气臭氧变化特征及预测的影响[J].环境科学学报, 2023,43(4):27-39.
[8] 王宏,郑秋萍,洪有为,等. 2017年漳州海陆风特征与冬春季污染物浓度关系[J].气象与环境学报,2020,36(3):33-40.
[9] WU M,LUO Y,WU D,et al. Observation on the characteristics of sea-land breezes and its influence to air quality over Pearl River Delta region during dry season[J]. China Environmental Science,2016,36(11),3263-3272.
[10] 陈彬,于恩洪.渤海湾西部海陆风的天气气候特征[J].海洋通报,1989(1):23-29.
[11] 郑冬,阎守政.东北沿海城市与其他地区臭氧污染异同分析[J].绿色科技,2021,23(10):150-153.
[12] ZHAO D D. Effects of the sea-land breeze on coastal ozone pollution in the Yangtze River Delta,China[J]. Science of the Total Environment,2022.
[13] 何礼,束炯,钟方潜,等.上海海陆风特征及其对臭氧浓度的影响[J].环境监测管理与技术,2019,31(3):17-21.
[14] SULLIVAN J T,RABENHORST S D,DREESSEN J,et al. Lidar observations revealing transport of O3 in the presence of a nocturnal low-level jet:Regional implications for "next-day" pollution[J]. Atmospheric Environment,2017.
[15] 刘海燕,乔生仲.激光雷达技术在大气环境监测中的应用[J].青海环境,2018(28):200-202.
[16] 钟声,孙鹏,吴祺,等.臭氧激光雷达技术及应用研究进展[J].环境监控与预警,2023,15(5):17-23.
[17] 郭宇.风廓线雷达探测大气边界层特性研究[D].江苏:南京信息工程大学,2020.
[18] 孟宪贵,郭俊建,韩永清.ERA5再分析数据适用性初步评估[J].海洋气象学报,2018,38(1):91-99.
[19] 刘吉敏,黄泓,王学忠.葫芦岛沿岸海陆风特征及其环境效应[J].气象与环境科学,2019(42):79-85.
[20] BORNE K, CHEN D, NUNEZ M. A method for finding sea breeze days under stable synoptic conditions and its application to the Swedish west coast[J]. International Journal of Climatology:A Journal of the Royal Meteorological Society,1998,18(8):901-914.
[21] PRTENJAK M T. Main characteristics of sea/land breezes along the eastern coast of the Northern Adriatic[J]. Geofizika,2003.
[22] STOHL A,JANES P. A Lagrangian analysis of the atmospheric branch of the global water cycle. Part I:Method description, validation,and demonstration for the August 2002 flooding in central Europe[J]. Journal of Hydrometeorology,2004, 5(4):656-678.
[23] 钱昱先,王刚,孟庆晓,等.2019-2022年华北平原典型地区不同污染等级和污染持续时间下的O3污染规律及来源[J/OL].中国环境科学,1-11[2024-7-12].
[24] ARRITT R W.Effects of the Large-Scale Flow on Characteristic Features of the Sea Breeze[J]. Journal of Applied Meteorology,1993,32(1):116-125.
[25] WANG Y L,XUE W B,LEI Y,et al. Model-derived source apportionment and regional transport matrix study of ozone in Jingjinji[J]. China Environment Science,2017(37):3684-3691.