pH and Soil Additive-Depending Uptake of Various Metals and Metalloids by Helianthus tuberosus from a Uranium Containing Test Field Site

Publisher: Trans Tech Publications

E-ISSN: 1662-9779|2017|262|605-608

ISSN: 1012-0394

Source: Solid State Phenomena, Vol.2017, Iss.262, 2017-09, pp. : 605-608

Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.

Previous Menu Next

Abstract

In the recent decades phytoremediation became an emerging technology for the stabilization and rehabilitation of slightly to medium heavy metal contaminated sites, as well of mining sites. In previous own studies the general suitability of Helianthus tuberosus under slightly acidic soil pH and increased heavy metal (HM) concentrations was successfully tested. Phytoremediation was here investigated as a suitable remediation method for the stabilization of a U mining site near Ronneburg in Thuringia/ Germany. In the experiments presented here, the uptake of heavy metals/ radionuclides (HM/R) of H. tuberosus from test field substrate with different soil additives and mineral fertilizers under variation of soil pH was tested in pot and real field experiments. Compost was added in different masses (40 – 120 t/ha), and CaO was added in several experiments. The test field soil without additives (pH 4.65) was applied as control experiment. Good growth yields for tubers and shoot biomass were achieved for the addition of compost and CaO, but also for N-fertilization. The highest metal concentrations were achieved at the test field site for Al with 2.1 g/kg in roots at an N-fertilized soil of pH 4.6, furthermore 2.4 g/kg Fe, 0.66 g/kg Mn, 0.9 mg/kg U, and 1.9 g/kg Mn in shoots (transfer factor 2.8). Good metal transfer factors were also achieved for Zn, Cd and Co. As a conclusion from these results, H. tuberosus is suited as a plant for phytostabilization and phytoextraction at such a site and for the subsequent winning of bioenergy. It was growing successful under the rough soil and climatic conditions at this test field site.

Related content

Potential of a Novel Thermotolerant Lipase Bacillus stearothermophilus nr22 (Lip.nr-22) as Additive in High Temperature Operated-Neutral pH Liquid Detergent

By  

Key Engineering Materials, Vol. 2017, Iss. 735, 2017-06 ,pp. : 136-142 (7)

Trans Tech Publications

Access to resources Recommend Favorite

Construction of Eh–pH and Other Stability Diagrams of Uranium in a Multicomponent System with a Microcomputer—I. Domains of Predominance Diagrams

By Haung Hsin-Hsiung   Cuentas L.  

Canadian Metallurgical Quarterly, Vol. 28, Iss. 3, 1989-07 ,pp. : 225-234 (10)

Maney Publishing

Access to resources Recommend Favorite

Experimental Assessment on Effects of Growth Rates Microalgae Scenedesmus sp. in Different Conditions of pH, Temperature, Light Intensity and Photoperiod

By  

Key Engineering Materials, Vol. 2017, Iss. 744, 2017-08 ,pp. : 546-551 (6)

Trans Tech Publications

Access to resources Recommend Favorite

The Effect of Initial Solution pH on Surface Properties of Ferric Ion Precipitates Formed during Biooxidation of Ferrous Ion by Leptospirillum ferriphilum

By  

Solid State Phenomena, Vol. 2017, Iss. 262, 2017-09 ,pp. : 403-407 (5)

Trans Tech Publications

Access to resources Recommend Favorite

pH Effect on the Dissolution Behavior of the Microspheres Containing Strontium Ranelate

By  

Key Engineering Materials, Vol. 2014, Iss. 631, 2015-01 ,pp. : 315-320 (6)

Trans Tech Publications

Access to resources Recommend Favorite