June Leng scite author profile

Because of the bioaccumulation of penta- and tetrapolybrominated diphenyl ether (PBDE) flame retardants in biota,the environmental biotransformation of decabromodiphenyl ether (BDE-209) is of interest. BDE-209 accounts for more than 80% by mass of PBDE production and is the dominant PBDE in sediments. Most sediments are anaerobic and reports of microbial reductive dehalogenation of hydrophobic persistent organohalogen pollutants are numerous. Reductive debromination of BDE-209 in the environment could provide a significant source of lesser-brominated PBDEs to biota. Moreover, a recent study showed that BDE-209 debrominates in sewage sludge, and another demonstrated that some halorespiring bacteria will debrominate BDE-209. To determine whether reductive debromination of BDE-209 occurs in sediments, parallel experiments were conducted using anaerobic sediment microcosms and a cosolvent-enhanced biomimetic system. In the biomimetic system, reductive debromination occurred at rates corresponding to bromine substitution levels with a BDE-209 half-life of only 18 s compared with a halflife of almost 60 days for 2,2',4,4'-tetrabromodiphenyl ether. In sediment, the measured debromination half-life of BDE-209 was well over a decade and was in good agreement with the predicted value obtained from the biomimetic experiment. Product congeners were predominantly double para-substituted. BDE-209 debrominated in sediment with a corresponding increase in nona-, octa-, hepta-, and hexa-PBDEs. Nine new PBDE congeners appeared in sediment from reductive debromination. Given the very large BDE-209 burden already in sediments globally, it is important to determine whether this transformation is a significant source of lesser-brominated PBDEs to the environment.

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Moving from Non-potable to Potable Reuse: What Do We Do with UV?

Leng¹,

Shen²

2017

proc water environ fed

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High Rate Primary Treatment – Emerging Technologies

Leng¹,

Strehler²,

Bucher³

et al. 2002

proc water environ fed

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Ultraviolet Disinfection for Small Treatment Plants

Leng¹,

Olson²

2009

proc water environ fed

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Light Through Your Effluent - UV Disinfection Evaluation and Selection for Small Treatment Plants

Leng¹,

Olson²

2008

proc water environ fed

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June Leng

Reductive Debromination of Polybrominated Diphenyl Ethers in Anaerobic Sediment and a Biomimetic System

Moving from Non-potable to Potable Reuse: What Do We Do with UV?

High Rate Primary Treatment – Emerging Technologies

Ultraviolet Disinfection for Small Treatment Plants

Light Through Your Effluent - UV Disinfection Evaluation and Selection for Small Treatment Plants

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