Bacterially Induced Weathering of Ultramafic Rock and Its Implications for PhytoextractionBECERRA-CASTRO, Cristina; KIDD, Petra; KUFFNER, Melanie et al.Applied and environmental microbiology (Print). 2013, Vol 79, Num 17, pp 5094-5103, issn 0099-2240, 10 p.Article

Phosphate-assisted phytoextraction in as-contaminated soilTASSI, E; PEDRON, F; BARBAFIERI, M et al.Engineering in life sciences (Print). 2004, Vol 4, Num 4, pp 341-346, issn 1618-0240, 6 p.Article

Cadmium phytoextraction potential of different Alyssum speciesBARZANTI, R; COLZI, I; ARNETOLI, M et al.Journal of hazardous materials (Print). 2011, Vol 196, pp 66-72, issn 0304-3894, 7 p.Article

Multi-dose applying EDTA to decrease the potential groundwater contamination using rainbow pink (Dianthus chinensis) for enhanced phytoextractionLAI, Hung-Yu; CHEN, Zueng-Sang.Desalination (Amsterdam). 2007, Vol 210, Num 1-3, pp 236-247, issn 0011-9164, 12 p.Conference Paper

Phytoextraction by Rice Capable of Accumulating Cd at High Levels: Reduction of Cd Content of Rice GrainMURAKAMI, Masaharu; NAKAGAWA, Fumihiko; AE, Noriharu et al.Environmental science & technology. 2009, Vol 43, Num 15, pp 5878-5883, issn 0013-936X, 6 p.Article

Enhanced Phytoremediation of Cadmium-Contaminated Soil by Parthenium hysterophorus Plant: Effect of Gibberellic Acid (GA₃) and Synthetic Chelator, Alone and in CombinationsHADI, Fazal; ALI, Nasir; AHMAD, Ayaz et al.Bioremediation journal. 2014, Vol 18, Num 1, pp 46-55, issn 1088-9868, 10 p.Article

The Phytomanagement of Trace Elements in SoilROBINSON, Brett H; BANUELOS, Gary; CONESA, Héctor M et al.Critical reviews in plant sciences. 2009, Vol 28, Num 4, pp 240-266, issn 0735-2689, 27 p.Article

Development of a technology for commercial phytoextraction of nickel: economic and technical considerationsLI, Yin-M; CHANEY, Rufus; BREWER, Eric et al.Plant and soil. 2003, Vol 249, Num 1, pp 107-115, issn 0032-079X, 9 p.Conference Paper

Phytoextraction by a High-Cd-Accumulating Rice : Reduction of Cd Content of Soybean SeedsMURAKAMI, Masaharu; AE, Noriharu; ISHIKAWA, Satoru et al.Environmental science & technology. 2008, Vol 42, Num 16, pp 6167-6172, issn 0013-936X, 6 p.Article

Tropical hyperaccumulators of metals and their potential for phytoextractionREEVES, Roger D.Plant and soil. 2003, Vol 249, Num 1, pp 57-65, issn 0032-079X, 9 p.Conference Paper

Selenium phytoremediation potential of Stanleya pinnataPARKER, David R; FEIST, Laura J; VARVEL, Tracey W et al.Plant and soil. 2003, Vol 249, Num 1, pp 157-165, issn 0032-079X, 9 p.Conference Paper

Chelate-assisted phytoextraction using canola (Brassica napus L.) in outdoors pot and lysimeter experimentsWENZEL, Walter W; UNTERBRUNNER, Reinhard; SOMMER, Peter et al.Plant and soil. 2003, Vol 249, Num 1, pp 83-96, issn 0032-079X, 14 p.Conference Paper

Predicting the phytoextraction duration to remediate heavy metal contaminated soilsKOOPMANS, G. F; RÖMKENS, P. F. A. M; SONG, J et al.Water, air and soil pollution. 2007, Vol 181, Num 1-4, pp 355-371, issn 0049-6979, 17 p.Article

Role of plants in metal cycling in a tidal wetland: Implications for phytoremidiationTEUCHIES, Johannes; JACOBS, Sander; OOSTERLEE, Lotte et al.Science of the total environment. 2013, Vol 445-46, pp 146-154, issn 0048-9697, 9 p.Article

Survival of introduced phosphate-solubilizing bacteria (PSB) and their impact on microbial community structure during the phytoextraction of Cd-contaminated soilSEULKI JEONG; HEE SUN MOON; DOYUN SHIN et al.Journal of hazardous materials (Print). 2013, Vol 263, pp 441-449, issn 0304-3894, 9 p., 2Article

Approaches for enhanced phytoextraction of heavy metalsBHARGAVA, Atul; CARMONA, Francisco F; BHARGAVA, Meenakshi et al.Journal of environmental management. 2012, Vol 105, pp 103-120, issn 0301-4797, 18 p.Article

Agro-improving method of phytoextracting heavy metal contaminated soilSHUHE WEI; TEIXEIRA DA SILVA, Jaime A; QIXING ZHOU et al.Journal of hazardous materials. 2008, Vol 150, Num 3, pp 662-668, issn 0304-3894, 7 p.Article

P uptake characteristics and P removal potentials of Pilea sinofasciata grown under soils amended with swine manureDAIHUA YE; TINGXUAN LI; XIZHOU ZHANG et al.Ecological engineering. 2014, Vol 73, pp 553-559, issn 0925-8574, 7 p.Article

Hyperaccumulators of metal and metalloid trace elements: Facts and fictionVAN DER ENT, Antony; BAKER, Alan J. M; REEVES, Roger D et al.Plant and soil. 2013, Vol 362, Num 1-2, pp 319-334, issn 0032-079X, 16 p.Article

Cadmium-induced physiological response and antioxidant enzyme changes in the novel cadmium accumulator, Tagetes patulaLIU, Yu-Ting; CHEN, Zueng-Sang; HONG, Chwan-Yang et al.Journal of hazardous materials (Print). 2011, Vol 189, Num 3, pp 724-731, issn 0304-3894, 8 p.Article

Characterization of lead-resistant and ACC deaminase-producing endophytic bacteria and their potential in promoting lead accumulation of rapeZHANG, Yan-Feng; HE, Lin-Yan; CHEN, Zhao-Jin et al.Journal of hazardous materials (Print). 2011, Vol 186, Num 2-3, pp 1720-1725, issn 0304-3894, 6 p.Article

Plant growth promoting rhizobacteria and endophytes accelerate phytoremediation of metalliferous soilsMA, Y; PRASAD, M. N. V; RAJKUMAR, M et al.Biotechnology advances. 2011, Vol 29, Num 2, pp 248-258, issn 0734-9750, 11 p.Article

The effect of EDDS addition on the phytoextraction efficiency from Pb contaminated soil by Sedum alfredii HanceXIN WANG; YING WANG; MAHMOOD, Qaisar et al.Journal of hazardous materials (Print). 2009, Vol 168, Num 1, pp 530-535, issn 0304-3894, 6 p.Article

Hot NTA Application Enhanced Metal Phytoextraction from Contaminated SoilLUO, Chun-Ling; SHEN, Zhen-Guo; LI, Xiang-Dong et al.Water, air and soil pollution. 2008, Vol 188, Num 1-4, pp 127-137, issn 0049-6979, 11 p.Article

The role of plant-associated bacteria in the mobilization and phytoextraction of trace elements in contaminated soilsSESSITSCH, Angela; KUFFNER, Melanie; KIDD, Petra et al.Soil biology & biochemistry. 2013, Vol 60, pp 182-194, issn 0038-0717, 13 p.Article