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Elevated Cd and Zn uptake by aspen limits the phytostabilization potential compared to five other tree species

Lotte Van Nevel (UGent) , Jan Mertens (UGent) , Jeroen Staelens (UGent) , An De Schrijver (UGent) , Filip Tack (UGent) , Stefaan De Neve (UGent) , Erik Meers (UGent) and Kris Verheyen (UGent)
(2011) ECOLOGICAL ENGINEERING. 37(7). p.1072-1080
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Phytostabilization, Trees, Trace metals, Sandy soil, Biomass, ACIDIFICATION, SOLUBILITY, HEAVY-METAL ACCUMULATION, FOREST SOILS, ORGANIC-MATTER, TEMPERATE FORESTS, CONTAMINATED SOILS, SALIX-VIMINALIS, SEDIMENT, PHYTOEXTRACTION

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Chicago
Van Nevel, Lotte, Jan Mertens, Jeroen Staelens, An De Schrijver, Filip Tack, Stefaan De Neve, Erik Meers, and Kris Verheyen. 2011. “Elevated Cd and Zn Uptake by Aspen Limits the Phytostabilization Potential Compared to Five Other Tree Species.” Ed. Ülo Mander and William J Mitsch. Ecological Engineering 37 (7): 1072–1080.
APA
Van Nevel, L., Mertens, J., Staelens, J., De Schrijver, A., Tack, F., De Neve, S., Meers, E., et al. (2011). Elevated Cd and Zn uptake by aspen limits the phytostabilization potential compared to five other tree species. (Ü. Mander & W. J. Mitsch, Eds.)ECOLOGICAL ENGINEERING, 37(7), 1072–1080. Presented at the 6th International symposium on Ecosystem Behavior.
Vancouver
1.
Van Nevel L, Mertens J, Staelens J, De Schrijver A, Tack F, De Neve S, et al. Elevated Cd and Zn uptake by aspen limits the phytostabilization potential compared to five other tree species. Mander Ü, Mitsch WJ, editors. ECOLOGICAL ENGINEERING. 2011;37(7):1072–80.
MLA
Van Nevel, Lotte, Jan Mertens, Jeroen Staelens, et al. “Elevated Cd and Zn Uptake by Aspen Limits the Phytostabilization Potential Compared to Five Other Tree Species.” Ed. Ülo Mander & William J Mitsch. ECOLOGICAL ENGINEERING 37.7 (2011): 1072–1080. Print.
@article{1889382,
  author       = {Van Nevel, Lotte and Mertens, Jan and Staelens, Jeroen and De Schrijver, An and Tack, Filip and De Neve, Stefaan and Meers, Erik and Verheyen, Kris},
  editor       = {Mander, {\"U}lo and Mitsch, William J},
  issn         = {0925-8574},
  journal      = {ECOLOGICAL ENGINEERING},
  keyword      = {Phytostabilization,Trees,Trace metals,Sandy soil,Biomass,ACIDIFICATION,SOLUBILITY,HEAVY-METAL ACCUMULATION,FOREST SOILS,ORGANIC-MATTER,TEMPERATE FORESTS,CONTAMINATED SOILS,SALIX-VIMINALIS,SEDIMENT,PHYTOEXTRACTION},
  language     = {eng},
  location     = {Helsinki, Finland},
  number       = {7},
  pages        = {1072--1080},
  title        = {Elevated Cd and Zn uptake by aspen limits the phytostabilization potential compared to five other tree species},
  url          = {http://dx.doi.org/10.1016/j.ecoleng.2010.07.010},
  volume       = {37},
  year         = {2011},
}

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