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Migration and fate of polycyclic aromatic hydrocarbons in bioretention systems with different media:

Frontiers of Environmental Science & Engineering 2023, Volume 18, Issue 4, doi: 10.1007/s11783-024-1802-9

Abstract:

Bioretention systems showed > 92% load reduction rates of PAHs.

Keywords: Bioretention     Polycyclic aromatic hydrocarbons     HYDRUS-1D     Model simulation     Migration    

Hydrologic and water quality performance of alaboratory scale bioretention unit

Jun Xia, Hongping Wang, RichardL. Stanford, Guoyan Pan, Shaw L. Yu

Frontiers of Environmental Science & Engineering 2018, Volume 12, Issue 1, doi: 10.1007/s11783-018-1011-5

Abstract: A bioretention unit (BRU) or cell is a green infrastructurepractice that is widely used as a low impactBioretention is considered a goodfit for use in China’s sponge city construction projects.However,studies on bioretention design, which incorporates site-specific environmentaland social-economic

Keywords: Bioretention unit     Spongecity     Stormwater runoff     Peak reduction     Pollutant removal    

Hydrologic experiments and modeling of two laboratory bioretention systems under different boundary conditions

Ruifen Liu, Elizabeth Fassman-Beck

Frontiers of Environmental Science & Engineering 2017, Volume 11, Issue 4, doi: 10.1007/s11783-017-0951-5

Abstract: Hydrologic performance of bioretention systems is significantly influenced by the media composition andThis research measured hydrologic performance of column-scale bioretention systems during a syntheticFilling of an IWS zone is most likely to be influenced by many factors, such as the structure of the bioretentionMore research is needed on the analysis and modeling of hydrologic process in bioretention with IWS drainage

Keywords: Bioretention     Hydrologic process     Underdrain configuration     SWMM     Modeling    

A critical literature review of bioretention research for stormwater management in cold climate and future

Hannah Kratky, Zhan Li, Yijun Chen, Chengjin Wang, Xiangfei Li, Tong Yu

Frontiers of Environmental Science & Engineering 2017, Volume 11, Issue 4, doi: 10.1007/s11783-017-0982-y

Abstract: Bioretention is a popular best management practice of low impact development that effectively restoresBioretention systems have been studied quite extensively for warm climate applications, but data stronglyAlthough it is apparent that bioretention is an effective stormwater management system, its design innutrients, and organics are significantly more variable in their ability to be removed or degraded via bioretention

Keywords: Bioretention     Cold climate     Low impact development     Stormwater    

Initial impacts of rain gardens’ application on water quality and quantity in combined sewer: field-scale experiment

Isam Alyaseri, Jianpeng Zhou, Susan M. Morgan, Andrew Bartlett

Frontiers of Environmental Science & Engineering 2017, Volume 11, Issue 4, doi: 10.1007/s11783-017-0988-5

Abstract: Green infrastructures such as rain gardens can benefit onsite reduction of stormwater runoff, leading to reduced combined sewer overflows. A pilot project was conducted to evaluate the impact of rain gardens on the water quality and volume reduction of storm runoff from urban streets in a combined sewer area. The study took place in a six-block area on South Grand Boulevard in St. Louis, Missouri. The impact was assessed through a comparison between the pre-construction (2011/2012) and the post-construction (2014) phases. Shortly after the rain gardens were installed, the levels of total suspended solids, chloride, total nitrogen, total phosphorous, zinc, and copper increased. The level of mercury was lower than the detection level in both phases. was the only parameter that showed statistically significant decrease following the installation of rain gardens. The likely reason for initial increase in monitored water quality parameters is that the post-construction sampling began after the rain gardens were constructed but before planting, resulted from soil erosion and wash-out from the mulch. However, the levels of most of water quality parameters decreased in the following time period during the post-construction phase. The study found 76% volume reduction of stormwater runoff following the installation of rain gardens at one of studied sites. Statistical analysis is essential on collected data because of the encountered high variability of measured flows resulted from low flow conditions in studied sewers.

Keywords: Rain gardens     Bioretention     Combined sewer     Stormwater quality and quantity    

Life cycle assessment of low impact development technologies combined with conventional centralized water systems for the City of Atlanta, Georgia

Hyunju Jeong, Osvaldo A. Broesicke, Bob Drew, Duo Li, John C. Crittenden

Frontiers of Environmental Science & Engineering 2016, Volume 10, Issue 6, doi: 10.1007/s11783-016-0851-0

Abstract: Bioretention areas, rainwater harvesting, and xeriscaping were considered.Low-impact development (LID) technologies, such as bioretention areas, rooftop rainwater harvesting,

Keywords: Life cycle assessment (LCA)     Low impact development (LID)     Bioretention area     Rainwater harvesting     Xeriscaping    

Plant Traits for Phytoremediation in the Tropics Article

Xiangting Cleo Chen, Liling Huang, Tze Hsien Agnes Chang, Bee Lian Ong, Say Leong Ong, Jiangyong Hu

Engineering 2019, Volume 5, Issue 5,   Pages 841-848 doi: 10.1016/j.eng.2019.07.019

Abstract: Bioretention systems are efficient in removing these pollutants in the presence of plants.that can enhance the phytoremediation of nutrient pollutants in stormwater runoff for application in bioretentionThese results are valuable for choosing plants for application in bioretention systems.

Keywords: Nitrogen     Phosphorus     Plant traits     Bioretention system     Stormwater     Tropical plant     Nutrient pollutant    

Title Author Date Type Operation

Migration and fate of polycyclic aromatic hydrocarbons in bioretention systems with different media:

Journal Article

Hydrologic and water quality performance of alaboratory scale bioretention unit

Jun Xia, Hongping Wang, RichardL. Stanford, Guoyan Pan, Shaw L. Yu

Journal Article

Hydrologic experiments and modeling of two laboratory bioretention systems under different boundary conditions

Ruifen Liu, Elizabeth Fassman-Beck

Journal Article

A critical literature review of bioretention research for stormwater management in cold climate and future

Hannah Kratky, Zhan Li, Yijun Chen, Chengjin Wang, Xiangfei Li, Tong Yu

Journal Article

Initial impacts of rain gardens’ application on water quality and quantity in combined sewer: field-scale experiment

Isam Alyaseri, Jianpeng Zhou, Susan M. Morgan, Andrew Bartlett

Journal Article

Life cycle assessment of low impact development technologies combined with conventional centralized water systems for the City of Atlanta, Georgia

Hyunju Jeong, Osvaldo A. Broesicke, Bob Drew, Duo Li, John C. Crittenden

Journal Article

Plant Traits for Phytoremediation in the Tropics

Xiangting Cleo Chen, Liling Huang, Tze Hsien Agnes Chang, Bee Lian Ong, Say Leong Ong, Jiangyong Hu

Journal Article