Timothy M. Vadas, Ph.D.
Affiliations: | 2008 | Cornell University, Ithaca, NY, United States |
Area:
Environmental Engineering, Biogeochemistry, Plant Physiology, Soil Science Agriculture, Environmental SciencesGoogle:
"Timothy Vadas"Cross-listing: Envirotree
Parents
Sign in to add mentor| Beth Allyson Ahner | grad student | 2008 | Cornell | |
| (Lead and cadmium bioavailability: Cysteine- and glutathione-mediated soil desorption and plant uptake.) | ||||
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Publications
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| Doroski AA, Helton AM, Vadas TM. (2019) Greenhouse gas fluxes from coastal wetlands at the intersection of urban pollution and saltwater intrusion: A soil core experiment Soil Biology and Biochemistry. 131: 44-53 |
| Doroski AA, Helton AM, Vadas TM. (2019) Denitrification Potential and Carbon Mineralization in Restored and Unrestored Coastal Wetland Soils Across an Urban Landscape Wetlands. 39: 895-906 |
| Vadas TM, Smith M, Luan H. (2016) Leaching and retention of dissolved metals in particulate loaded pervious concrete columns. Journal of Environmental Management. 190: 1-8 |
| Turpin-Nagel K, Vadas TM. (2016) Controls on metal exposure to aquatic organisms in urban streams. Environmental Science. Processes & Impacts |
| Lancaster NA, Bushey JT, Tobias CR, et al. (2016) Impact of chloride on denitrification potential in roadside wetlands. Environmental Pollution (Barking, Essex : 1987). 212: 216-223 |
| Seda NN, Koenigsmark F, Vadas TM. (2016) Sorption and coprecipitation of copper to ferrihydrite and humic acid organomineral complexes and controls on copper availability. Chemosphere. 147: 272-8 |
| Li Y, Wu Y, Liu B, et al. (2015) Self-sustained reduction of multiple metals in a microbial fuel cell-microbial electrolysis cell hybrid system. Bioresource Technology. 192: 238-46 |
| Luan H, Vadas TM. (2015) Size characterization of dissolved metals and organic matter in source waters to streams in developed landscapes. Environmental Pollution (Barking, Essex : 1987). 197: 76-83 |
| Li Y, Wu Y, Puranik S, et al. (2014) Metals as electron acceptors in single-chamber microbial fuel cells Journal of Power Sources. 269: 430-439 |
| Santoro C, Ieropoulos I, Greenman J, et al. (2013) Power generation and contaminant removal in single chamber microbial fuel cells (SCMFCs) treating human urine International Journal of Hydrogen Energy. 38: 11543-11551 |