Heavy metals accumulation and translocation by Typha elephantina roxb. and Typha domingensis pers. in an arid habitat: perspectives for phytoremediation

Saleh Muneera A 1, AL-Sodany Yassin M 1, 2,*, Abdel Khalik Kadry N 3, 4 and Eid Ebrahim M 2, 5

1 Biology Department, Faculty of Science, Taif University, Taif, KSA.
2 Botany Department, Faculty of Science, Kafr El-Sheik University, Kafr El-Sheikh, Egypt.
3 Biology Department, Faculty of Applied Science, Umm Al-Qura University, Makkah, KSA.
4 Sohag University, Faculty of Science, Botany Department, Sohag 82514, Egypt.
5 Biology Department, Faculty of Science, King Khalid University, Abha, KSA.
 
Research Article
World Journal of Advanced Research and Reviews, 2019, 04(01), 044-053
Article DOI: 10.30574/wjarr.2019.4.1.0088
 
Publication history: 
Received on 10 November 2019; revised on 22 November 2019; accepted on 26 November 2019
 
Abstract: 
The present study investigated the ability of two emergent macrophytes Typha elephantina and Typha domingensis for accumulation of six heavy metals in an arid habitat in Saudi Arabia. Plant samples (aboveground shoot and belowground root and rhizome) as well as sediment samples were collected and analyzed. Regarding the variation in sediment characters, PH, EC, Cu, Ni, Pb and Zn concentrations of the T. elephantina sites were significantly higher than those of the T. domingensis sites; while Fe and Mn concentrations of the T. domingensis sites were significantly higher than those of the T. elephantina sites. T. elephantina allocated approximately 57.8% of its total biomass to leaves, 5.9% to flowers, 7.0% to peduncles, 18.7% to rhizomes and 10.6% to roots. The total above-ground biomass was 2.4 times that of the total below-ground biomass. T. domingensis allocated approximately 61.3% of its total biomass to leaves, 8.6% to flowers, 11.3% to peduncles, 9.8% to rhizomes and 9.0% to roots. The total above-ground biomass was 4.3 times that of the total below-ground biomass. Significant variations in Mn was recorded between T. elephantina and T. domingensis, while significant variations in Fe, Ni and Pb were recorded between the different organs. All heavy metals concentrations were significantly higher in belowground organs as compared to other plant organs. The heavy metal contents of T. elephantina and T. domingensis organs differed significantly between different plant organs. All the investigated species were characterized by a bioaccumulation factor > 1.0 for all heavy metals. In the present study, the translocation factor varied among plant species, among organs and among heavy metals. Finally, T. elephantina and T. domingensis could be regarded as a good candidates as phytoremediator for mitigating heavy metals pollution.
Keywords: 
Heavy metals; Green technology; Soil pollution; Macrophytes
 
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