[1] |
BARCO J, WONG K M, STENSTROM M K, 2008. Automatic calibration of the U.S. EPA SWMM Model for a large urban catchment[J]. Journal of Hydraulic Engineering, 134(4): 466-474.
DOI
URL
|
[2] |
BREZONIK P L, STADELMANN T H, 2002. Analysis and predictive models of stormwater runoff volumes, loads, and pollutant concentrations from watersheds in the Twin Cities metropolitan area, Minnesota, USA[J]. Water Research, 36(7): 1743-1757.
PMID
|
[3] |
EBODÉ V B, BRAUN J J, NNOMO B N, et al., 2022. Impact of rainfall variability and land use change on river discharge in South Cameroon[J]. Water, 14(6): 941.
DOI
URL
|
[4] |
KAWASAKI A, TAKAMATSU M, HE J, et al., 2010. An integrated approach to evaluate potential impact of precipitation and land-use change on streamflow in Srepok River Basin[J]. Theory and Applications of GIS, 18(2): 117-128.
DOI
URL
|
[5] |
KAWASAKI A, TAKAMATSU M, HE J, et al., 2019. An integrated approach to evaluate potential impact of precipitation and land-use change on streamflow in Srepok River Basin[J]. Theory and Applications of GIS, 18(2): 117-128.
DOI
URL
|
[6] |
LI C H, ZHENG X K, ZHAO F, et al., 2017. Effects of urban non-point source pollution from Baoding City on Baiyangdian Lake, China[J]. Water, 9(4): 249.
DOI
URL
|
[7] |
LI J, TAO T, PANG Z H, et al., 2015. Identification of different moisture sources through isotopic monitoring during a storm event[J]. Journal of Hydrometeorology, 16(4): 1918-1927.
DOI
URL
|
[8] |
LI L Q, YIN C Q, HE Q C, et al., 2007. First flush of storm runoff pollution from an urban catchment in China[J]. Journal of Environmental Sciences, 19(3): 295-299.
DOI
URL
|
[9] |
MANNINGS S, SMITH S, BELL J N B, 1996. Effect of acid deposition on soil acidification and metal mobilisation[J]. Applied Geochemistry, 11(1-2): 139-143.
DOI
URL
|
[10] |
MARCÉ R, GEORGE G, BUSCARINU P, et al., 2016. Automatic high frequency monitoring for improved lake and reservoir management[J]. Environmental Science & Technology, 50(20): 10780-10794.
DOI
URL
|
[11] |
RUMELHART D, HINTONG G, WILLIAMS R, 1986. Learning internal representation by Back-Propagation errors[J]. Nature, 323: 533-536.
DOI
|
[12] |
SEIFERT-DÄHNN I, FURUSETH I S, VONDOLIA G K, et al., 2021. Costs and benefits of automated high-frequency environmental monitoring - The case of lake water management[J]. Journal of Environmental Management, 285: 112108.
DOI
URL
|
[13] |
SIMPSON I M, WINSTON R J, BROOKER M R, 2022. Effects of land use, climate, and imperviousness on urban stormwater quality: A meta-analysis[J]. The Science of the Total Environment, 809: 152206.
DOI
URL
|
[14] |
TSIHRINTZIS V A, HAMID R, 1998. Runoff quality prediction from small urban catchments using SWMM[J]. Hydrological Processes, 12(2): 311-329.
DOI
URL
|
[15] |
XU H, PAERL H W, ZHU G W, et al., 2017. Long-term nutrient trends and harmful cyanobacterial bloom potential in hypertrophic Lake Taihu, China[J]. Hydrobiologia, 787(1): 229-242.
DOI
URL
|
[16] |
ZHANG Y L, SHI K, ZHOU Y Q, et al., 2016. Monitoring the river plume induced by heavy rainfall events in large, shallow, Lake Taihu using MODIS 250m imagery[J]. Remote Sensing of Environment, 173: 109-121.
DOI
URL
|
[17] |
ZHU Q D, SUN J H, HUA G F, et al., 2015. Runoff characteristics and non-point source pollution analysis in the Taihu Lake Basin: a case study of the town of Xueyan, China[J]. Environmental Science and Pollution Research, 22(19): 15029-15036.
DOI
URL
|
[18] |
包鑫, 江燕, 胡羽聪, 等, 2021. 潮河流域降雨径流事件污染物输出特征[J]. 环境科学, 42(7): 3316-3327.
|
|
BAO X, JIANG Y, HU Y C, et al., 2021. Characteristics of pollutant dynamics under rainfall-rainoff events in the Chaohe River watershed[J]. Environmental Science, 42(7): 3316-3327.
DOI
URL
|
[19] |
段洪涛, 万能胜, 邱银国, 等, 2020. 富营养化湖库天空地——体化监控平台系统设计与实践[J]. 湖泊科学, 32(5): 1396-1405.
|
|
DUAN H T, WAN N S, QIU Y G, et al., 2020. Discussions and practices on the framework of monitoring system in eutrophic lakes and reservoirs[J]. Journal of Lake Sciences, 32(5): 1396-1405.
DOI
URL
|
[20] |
郭强, 叶许春, 刘佳, 等, 2020. 土地利用变化对流域水文过程时空分异的影响——以赣江流域为例[J]. 长江流域资源与环境, 29(12): 2747-2759.
|
|
GUO Q, YE X C, LIU J, et al., 2020. Impact of land use change on spatio-temporal differentiation of watershed hydrological processes: a case study of Ganjiang River Basin[J]. Resources and Environment in the Yangtze Basin, 29(12): 2747-2759.
|
[21] |
何岩, 沈叔云, 黄民生, 等, 2012. 城市黑臭河道底泥内源氮硝化-反硝化作用研究[J]. 生态环境学报, 21(6): 1166-1170.
DOI
|
|
HE Y, SHEN S Y, HUANG M S, et al., 2012. Research of nitrification-denitrification regarding endogenous nitrogen from urban malodorous riversediments: A review[J]. Ecology and Environmental Sciences, 21(6): 1166-1170.
|
[22] |
黄金良, 黄亚玲, 李青生, 等, 2012. 流域水质时空分布特征及其影响因素初析[J]. 环境科学, 33(4): 1098-1107.
|
|
HUANG J L, HUANG Y L, LI Q S, et al., 2012. Preliminary analysis of spatiotemporal variation of water quality and its influencing factors in the Jiulong River watershed[J]. Environmental Science, 33(4): 1098-1107.
|
[23] |
李慧赟, 王裕成, 单亮, 等, 2022. 暴雨径流对新安江入库总磷负荷量的影响[J]. 环境科学研究, 35(4): 887-895.
|
|
LI H Y, WANG Y C, SHAN L, et al., 2022. Effect of rainstorm runoff on total phosphorus load in Xin'anjiang[J]. Research of Environmental Sciences, 35(4): 887-895.
|
[24] |
李云良, 张奇, 姚静, 等, 2013. 鄱阳湖湖泊流域系统水文水动力联合模拟[J]. 湖泊科学, 25(2): 227-235.
|
|
LI Y L, ZHANG Q, YAO J, et al., 2013. Integrated simulation of hydrological and hydrodynamic processes for Lake Poyang-catchment system[J]. Journal of Lake Sciences, 25(2): 227-235.
DOI
URL
|
[25] |
刘京, 周密, 陈鑫, 等, 2014. 国家地表水水质自动监测网建设与运行管理的探索与思考[J]. 环境监控与预警, 6(1): 10-13.
|
|
LIU J, ZHOU M, CHEN X, et al., 2014. Study on the construction and management of the quality automatic monitoring network of state surface water[J]. Environmental Monitoring and Forewarning, 6(1): 10-13.
|
[26] |
马晓宇, 朱元励, 梅琨, 等, 2012. SWMM模型应用于城市住宅区非点源污染负荷模拟计算[J]. 环境科学研究, 25(1): 95-102.
|
|
MA X Y, ZHU Y L, MEI K, et al., 2012. Application of SWMM in the simulation of non-point source pollution load in urban residential area[J]. Research of Environmental Sciences, 25(1): 95-102.
|
[27] |
孟祥巍, 许学工, 2014. 平原城市河流面源污染研究范围及方法的选择与效果比较[J]. 生态环境学报, 2014, 23(01): 145-150.
|
|
MENG X W, XU X G, 2014. The Studied area selection and result comparison of river non-point source pollution in plain urban area[J]. Ecology and Environmental Sciences, 23(1): 145-150.
|
[28] |
宋嘉, 李怀恩, 李家科, 等, 2021. 鹦鹉沟小流域天然降雨条件下水土及养分流失特征[J]. 水土保持研究, 28(5): 7-12, 21.
|
|
SONG J, LI H E, LI J K, et al., 2021. Characteristics of soil and nutrient losses under rainfall in Yingwugou small watershed[J]. Research of Soil and Water Conservation, 28(5): 7-12, 21.
|
[29] |
王书敏, 郭树刚, 何强, 等, 2015. 城市流域降雨径流水质特性及初期冲刷现象[J]. 环境科学研究, 28(4): 532-539.
|
|
WANG S M, GUO S G, HE Q, et al., 2015. Water quality characteristics of stormwater runoff and the first flush effect in urban regions[J]. Research of Environmental Sciences, 28(4): 532-539.
|
[30] |
辛苑, 李萍, 吴晋峰, 等, 2021. 强降雨对北运河流域沙河水库水质的影响[J]. 环境科学学报, 41(1): 199-208.
|
|
XIN Y, LI P, WU J F, et al., 2021. Impacts of heavy rainfall on the water quality of shahe reservoir in the north canal basin[J]. Acta Scientiae Circumstantiae, 41(1): 199-208.
|
[31] |
严莉, 黄炳彬, 何春利, 等, 2022. 沙河水库周边典型排口降雨溢流污染特征研究[J]. 环境科学学报, 42(3): 28-39.
|
|
YAN L, HUANG B B, HE C L, et al., 2022. Research on the pollution of the combined sewer overflow in Shahe Reservoir watershed[J]. Acta Scientiae Circumstantiae, 42(3): 28-39.
|
[32] |
张运林, 孙晓, 李娜, 等, 2020. 复杂场景下水体叶绿素和藻蓝素陆基遥感机器学习算法: 中国, CN 112070234 A[P]. 2020-12-11. https://kns.cnki.net/kcms/detail/detail.aspx?FileName=CN112070234A&DbName=SCPD2020.
|
|
ZHANG Y L, SUN X, LI N, et al, 2020. Land-based remote sensing machine learning algorithm for chlorophyll and phycocyanin in complex scene. Chinese: CN 112070234 A[P]. 2020-12-11. https://kns.cnki.net/kcms/detail/detail.aspx?FileName=CN112070234A&DbName=SCPD2020.
|
[33] |
张运林, 孙晓, 李娜, 等, 2021. 水体营养盐和化学需氧量的陆基遥感监测方法: 中国, CN 112816421 A[P]. 2021-05-18. https://kns.cnki.net/kcms/detail/detail.aspx?FileName=CN112816421A&DbName=SCPD2021.
|
|
ZHANG Y L, SUN X, LI N, et al, 2021. Land-based remote sensing monitoring of nutrients and Chemical oxygen demand in water.Chinese: CN 112816421 A[P]. 2021-05-18. https://kns.cnki.net/kcms/detail/detail.aspx?FileName=CN112816421A&DbName=SCPD2021.
|
[34] |
张彦, 邹磊, 梁志杰, 等, 2022. 暴雨前后河南北部河流水质分异特征及其污染源解析[J]. 环境科学, 43(5): 2537-2547.
|
|
ZHANG Y, ZOU L, LIANG Z J, et al., 2022. Differential characteristics and source identification of water quality of the rivers in northern Henan before and after rainstorm[J]. Environmental Science, 43(5): 2537-2547.
DOI
URL
|
[35] |
张郁婷, 陈永华, 汤春芳, 等, 2017. 东江上游高风险支流不同功能区初期雨水径流污染特征分析[J]. 生态环境学报, 26(11): 1942-1949.
DOI
|
|
ZHANG Y T, CHEN Y H, TANG C F, et al., 2017. Analysis on pollution characteristics of initial rainwater runoff from different functional areas of high risk tributary in Dongjiang upriver[J]. Ecology and Environmental Sciences, 26(11): 1942-1949.
|
[36] |
郑清, 黎云祥, 朱广伟, 等, 2022. 夏季强降雨期间千岛湖有机碳的时空分布特征及影响因素[J]. 环境科学研究, 35(4): 896-907.
|
|
ZHENG Q, LI Y X, ZHU G W, et al., 2022. Spatio-temporal distribution and driving factors of organic carbon in Qiandaohu Reservoir during summer storm[J]. Research of Environmental Sciences, 35(4): 896-907.
|