| Loading estimates of lead, copper, cadmium, and zinc in urban runoff from specific sources AP Davis, M Shokouhian, S Ni Chemosphere 44 (5), 997-1009, 2001 | 1253 | 2001 |
| Bioretention technology: Overview of current practice and future needs AP Davis, WF Hunt, RG Traver, M Clar Journal of environmental engineering 135 (3), 109-117, 2009 | 1163 | 2009 |
| Laboratory study of biological retention for urban stormwater management AP Davis, M Shokouhian, H Sharma, C Minami Water Environment Research 73 (1), 5-14, 2001 | 753 | 2001 |
| Water quality improvement through bioretention media: Nitrogen and phosphorus removal AP Davis, M Shokouhian, H Sharma, C Minami Water Environment Research 78 (3), 284-293, 2006 | 675 | 2006 |
| Evaluation and optimization of bioretention media for treatment of urban storm water runoff C Hsieh, AP Davis Journal of Environmental Engineering 131 (11), 1521-1531, 2005 | 660 | 2005 |
| Field performance of bioretention: Hydrology impacts AP Davis Journal of hydrologic engineering 13 (2), 90-95, 2008 | 628 | 2008 |
| Engineered bioretention for removal of nitrate from stormwater runoff H Kim, EA Seagren, AP Davis Water Environment Research 75 (4), 355-367, 2003 | 566 | 2003 |
| Water quality improvement through bioretention: Lead, copper, and zinc removal AP Davis, M Shokouhian, H Sharma, C Minami, D Winogradoff Water Environment Research 75 (1), 73-82, 2003 | 522 | 2003 |
| Field performance of bioretention: Water quality AP Davis Environmental Engineering Science 24 (8), 1048-1064, 2007 | 477 | 2007 |
| Mitigation of impervious surface hydrology using bioretention in North Carolina and Maryland H Li, LJ Sharkey, WF Hunt, AP Davis Journal of Hydrologic Engineering 14 (4), 407-415, 2009 | 380 | 2009 |
| Meeting hydrologic and water quality goals through targeted bioretention design WF Hunt, AP Davis, RG Traver Journal of Environmental Engineering 138 (6), 698-707, 2012 | 364 | 2012 |
| Stormwater management for smart growth AP Davis, RH McCuen Springer Science & Business Media, 2005 | 336 | 2005 |
| Removal of Cu (II) and Cd (II) from aqueous solution by seafood processing waste sludge SM Lee, AP Davis Water Research 35 (2), 534-540, 2001 | 329 | 2001 |
| Water quality improvement through reductions of pollutant loads using bioretention H Li, AP Davis Journal of Environmental Engineering 135 (8), 567-576, 2009 | 318 | 2009 |
| Green engineering principles promote low-impact development AP Davis Environmental science & technology 39 (16), 338A-344A, 2005 | 312 | 2005 |
| Urban stormwater runoff nitrogen composition and fate in bioretention systems L Li, AP Davis Environmental science & technology 48 (6), 3403-3410, 2014 | 308 | 2014 |
| Photocatalytic oxidation in aqueous titanium dioxide suspensions: the influence of dissolved transition metals EC Butler, AP Davis Journal of Photochemistry and Photobiology A: Chemistry 70 (3), 273-283, 1993 | 280 | 1993 |
| Bioretention column studies of phosphorus removal from urban stormwater runoff C Hsieh, AP Davis, BA Needelman Water Environment Research 79 (2), 177-184, 2007 | 258 | 2007 |
| Removal and fate of polycyclic aromatic hydrocarbon pollutants in an urban stormwater bioretention facility CJ DiBlasi, H Li, AP Davis, U Ghosh Environmental science & technology 43 (2), 494-502, 2009 | 254 | 2009 |
| Heavy metal fates in laboratory bioretention systems X Sun, AP Davis Chemosphere 66 (9), 1601-1609, 2007 | 252 | 2007 |
