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Water Quality Improvement through Bioretention Media: Nitrogen and Phosphorus Removal

Davis, Allen P. ; Shokouhian, Mohammad ; Sharma, Himanshu ; [et al.]

Wiley ; 2006

In: Water Environment Research Vol. 78, No. 3 ( 2006-03), p. 284-293

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In: Water Environment Research, Wiley, Vol. 78, No. 3 ( 2006-03), p. 284-293

Abstract: High nutrient inputs and eutrophication continue to be one of the highest priority water quality problems. Bioretention is a low‐impact development technology that has been advocated for use in urban and other developed areas. This work provides an in‐depth analysis on removal of nutrients from a synthetic stormwater runoff by bioretention. Results have indicated good removal of phosphorus (70 to 85%) and total Kjeldahl nitrogen (55 to 65%). Nitrate reduction was poor ( 〈 20%) and, in several cases, nitrate production was noted. Variations in flowrate (intensity) and duration had a moderate affect on nutrient removal. Mass balances demonstrate the importance of water attenuation in the facility in reducing mass nutrient loads. Captured nitrogen can be converted to nitrate between storm events and subsequently washed from the system. Analysis on the fate of nutrients in bioretention suggests that accumulation of phosphorus and nitrogen may be controlled by carefully managing growing and harvesting of vegetation.

Type of Medium: Online Resource

ISSN: 1061-4303 , 1554-7531

URL: Article

DOI: 10.2175/106143005X94376

RVK:

AR 10100

Language: English

Publisher: Wiley

Publication Date: 2006

detail.hit.zdb_id: 1098976-6

detail.hit.zdb_id: 2051010-X

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Water Quality Improvement through Bioretention: Lead, Copper, and Zinc Removal

Davis, Allen P. ; Shokouhian, Mohammad ; Sharma, Himanshu ; [et al.]

Wiley ; 2003

In: Water Environment Research Vol. 75, No. 1 ( 2003-01), p. 73-82

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In: Water Environment Research, Wiley, Vol. 75, No. 1 ( 2003-01), p. 73-82

Abstract: Intensive automobile use, weathering of building materials, and atmospheric deposition contribute lead, copper, zinc, and other heavy metals to urban and roadway runoff. Bioretention is a low‐impact‐development best management practice that has the potential to improve stormwater quality from developed areas. The practice represents a soil, sand, organic matter, and vegetation‐based storage and infiltration facility used in parking lots and on individual lots to treat runoff. Investigations using pilot‐plant laboratory bioretention systems and two existing bioretention facilities documented their effectiveness at removing low levels of lead, copper, and zinc from synthetic stormwater runoff. Removal rates of these metals (based on concentration and total mass) were excellent, reaching close to 100% for all metals under most conditions, with effluent copper and lead levels mostly less than 5 μg/L and zinc less than 25 μg/L. Somewhat less removal was noted for shallow bioretention depths. Runoff pH, duration, intensity, and pollutant concentrations were varied, and all had minimal effect on removal. The two field investigations generally supported the laboratory studies. Overall, excellent removal of dissolved heavy metals can be expected through bioretention infiltration. Although the accumulation of metals is a concern, buildup problems are not anticipated for more than 15 years because of the low metal concentrations expected in runoff.

Type of Medium: Online Resource

ISSN: 1061-4303 , 1554-7531

URL: Article

DOI: 10.2175/106143003X140854

RVK:

AR 10100

Language: English

Publisher: Wiley

Publication Date: 2003

detail.hit.zdb_id: 1098976-6

detail.hit.zdb_id: 2051010-X

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Laboratory Study of Biological Retention for Urban Stormwater Management

Davis, Allen P. ; Shokouhian, Mohammad ; Sharma, Himanshu ; [et al.]

Wiley ; 2001

In: Water Environment Research Vol. 73, No. 1 ( 2001-01), p. 5-14

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In: Water Environment Research, Wiley, Vol. 73, No. 1 ( 2001-01), p. 5-14

Abstract: Urban stormwater runoff contains a broad range of pollutants that are transported to natural water systems. A practice known as biological retention (bioretention) has been suggested to manage stormwater runoff from small, developed areas. Bioretention facilities consist of porous soil, a topping layer of hardwood mulch, and a variety of different plant species. A detailed study of the characteristics and performance of bioretention systems for the removal of several heavy metals (copper, lead, and zinc) and nutrients (phosphorus, total Kjeldahl nitrogen [TKN], ammonium, and nitrate) from a synthetic urban stormwater runoff was completed using batch and column adsorption studies along with pilot‐scale laboratory systems. The roles of the soil, mulch, and plants in the removal of heavy metals and nutrients were evaluated to estimate the treatment capacity of laboratory bioretention systems. Reductions in concentrations of all metals were excellent ( 〉 90%) with specific metal removals of 15 to 145 mg/m 2 per event. Moderate reductions of TKN, ammonium, and phosphorus levels were found (60 to 80%). Little nitrate was removed, and nitrate production was noted in several cases. The importance of the mulch layer in metal removal was identified. Overall results support the use of bioretention as a stormwater best management practice and indicate the need for further research and development.

Type of Medium: Online Resource

ISSN: 1061-4303 , 1554-7531

URL: Article

DOI: 10.2175/106143001X138624

RVK:

AR 10100

Language: English

Publisher: Wiley

Publication Date: 2001

detail.hit.zdb_id: 1098976-6

detail.hit.zdb_id: 2051010-X

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