Effects of Rhizobioaugmentation with N-Fixing Actinobacteria Frankia on Metal Mobility in Casuarina glauca -Soil System

  • PDF / 3,760,882 Bytes
  • 17 Pages / 547.087 x 737.008 pts Page_size
  • 93 Downloads / 249 Views

DOWNLOAD

REPORT


Effects of Rhizobioaugmentation with N-Fixing Actinobacteria Frankia on Metal Mobility in Casuarina glauca-Soil System Irrigated with Industrial Wastewater: High Level of Metal Exclusion of C. glauca Sabrine Ghazouani & Zoubeir Béjaoui & Graeme Spiers & Peter Beckett & Maher Gtari & Kabwe Nkongolo Received: 18 February 2020 / Accepted: 15 July 2020 # Springer Nature Switzerland AG 2020

Abstract Agroforestry practices coupled with wastewater irrigation systems are sustainable strategies for water management. The performance of these practices could be improved by rhizobioaugmentation. This approach would be particularly useful in developing countries where it can be used as a low-cost tool to control widespread environmental contaminations. The main objectives of the present study are to (1) determine the effects of wastewater on metal/ nutrient contents in soils, (2) assess the pattern of metals in Casuarina glauca, and (3) analyze the Electronic supplementary material The online version of this article (https://doi.org/10.1007/s11270-020-04783-9) contains supplementary material, which is available to authorized users. S. Ghazouani Faculty of Sciences of Tunis, University of Tunis El Manar, Tunis, Tunisia S. Ghazouani : Z. Béjaoui National Research Institute of Rural Engineering, Water and Forests (LR11INRGREF03), University of Carthage, Carthage, Tunisia G. Spiers School of Environment, Laurentian University, Sudbury, Canada P. Beckett : K. Nkongolo (*) Department of Biology, Laurentian University, Sudbury, Ontario, Canada e-mail: [email protected] M. Gtari National Institute of Applied Science and Technology, University of Carthage, Carthage, Tunisia

effects of rhizobioaugmentation of C. glauca growing in industrial wastewater–irrigated agricultural soil using N-fixing Frankia symbionts. Overall, the wastewater treatment significantly increases the levels of total Pb, B, Cr, Mn, Na, Sr, Zn, As, Co, Sb, Sn, and Fe. Only a small portion of total metals/ nutrients were phytoavailable. The bioaccumulation in roots of all the metals/nutrients measured was high while the translocation from roots to aerial parts showed insignificant level of movement of the elements tested. Based on bioavailable metals/nutrients, the bioaccumulation factors were 34, 41, 94, 196, 584, 587, 1859, and 9917 for Mg, As, Ni, Mn, Cu, Co, Cr, and Pb, respectively. Hence, C. glauca is classified as a metal excluder. Rhizobioaugmentation with Frankia resulted in an increase or a decrease of metals/nutrients in soil depending on the bacterial strain used and the metal/nutrient element. It also increased significantly the bioaccumulation in roots of some metals and the uptake of key nutrients such as Ca, Na, and K by Casuarina plants. Overall, the results of the present study showed that C. glauca is suitable for phytoremediation of metal-contaminated soils. The use of Frankia represents a potential approach of managing Casuarina glauca wastewater– irrigated soil system.

Keywords Casuarina glauca . Industrial wastewater . Rhizobioaugmentat