REFERENCES

               Baker AJM, Brooks RR (1989) Terrestrial plants which hyperaccumulate metallic elements: a
                     review of their distribution, ecology and phytochemistry. Biorecovery 1: 81–126

               Blaylock,  M.J.,  D.E.  Salt,  S.  Dushenkov,  O.  Zakharova,  C.  Gussman,  Y.  Kapulnik,  B.D.
                     Ensley,  and  I.  Raskin.  1997.  Enhanced  accumulation  of  Pb  in  Indian  Mustard  by

                     soilapplied chelating agents. Environ. Sci. Technol. 31:860- 86
               Dhir,  B.  (2013).  Phytoremediation:  Role  of  Aquatic  Plants  in  Environmental  Clean-up,

                     Springer.  Erakhrumen,  A. A. (2007).  "Phytoremediation:  An Environmentally Sound

                     Technology  for  Pollution  Prevention,  Control  and  Remediation  in  Developing
                     Countries." Educational Research and Reviews 2(7): 151-156.

               E. Masarovicova, K. Kralova, M. Kummerova, Acta Physiol Plant, 32, 823 (2010)

               Erakhrumen, A. A. (2007). "Phytoremediation: An Environmentally Sound Technology for
                     Pollution Prevention, Control and Remediation in Developing Countries." Educational

                     Research and Reviews 2(7): 151-156.
               Ghosh,  M.  and  S.  Singh  (2005).  "A  review  on  phytoremediation  of  heavy  metals  and

                     utilization of it's by products." Asian J Energy Environ 6(4): 18.
               Godbold DL, Horst WJ, Collins JC, Thurman DA, Marschner H (1984) Accumulation of zinc

                     and organic acids in roots of zinc-tolerant and non-tolerant ecotypes of Deschampsia

                     caespitosa. Journal of Plant Physiology 116: 59–69
               Hamlin, R. L. (2002). "Phytoremediation literature review." Umass. Edu. 00-00.

               Ji,  P.,  Sun,  T.,  Song,  Y.,  Ackland,  M.L.,  Liu,  Y.,  2011.  Strategies  for  enhancing  the
                     phytoremediation  of cadmium-contaminated agricultural  soils  by Solanum  nigrum  L.

                     Environ. Pollut. 159, 762– 768.
               In phytoextraction, soil metal pollutants absorbed by plants accumulate in the shoots (Salt et

                     al.  1998),  which  are  harvested  and  incinerated.  The  ashes  are  then  disposed  of  in

                     secured sites to prevent further pollution (Blaylock et al. 1997, Robinson 2001).
               S. Khalid, M. Shahid, N. K. Niazi, B. Murtaza, I. Bibi, C. Dumat, Journal of Geochemical

                     Exploration, 182, 247 (2017)

               Smith,  S.  (1997).  "Phytoremediation:  Using  Plants  to  Remediate  Soil  and  Groundwater
                     Contamination." Sunita, S. (2012). "Effect of toxic heavy metal contaminated soil on an

                     ornamental  plant  Georgina  wild  (Dahlia)."  Journal  of  Environmental  &  Analytical
                     Toxicology.








                                                           720