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000172404 037__ $$aFZJ-2014-05884
000172404 041__ $$aEnglish
000172404 082__ $$a550
000172404 1001_ $$0P:(DE-Juel1)145210$$aMehmood, Khalid$$b0$$eCorresponding Author$$ufzj
000172404 1112_ $$aEGU General Assembly 2014$$cWien$$d2014-04-27 - 2014-05-02$$gEGU 2014$$wÖsterreich
000172404 245__ $$aCesium and strontium sorption behavior in amended agricultural soils
000172404 260__ $$aKatlenburg-Lindau$$bSoc.$$c2014
000172404 300__ $$a875
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000172404 520__ $$aBiogas digestates and biochar are emerging soil amendments. Biochar is a byproduct of pyrolysis process which isthermal decomposition of biomass to produce syngas and bio-oil. The use of biochar for soil amendment is beingpromoted for higher crop yields and carbon sequestration. Currently, the numbers of biogas plants in Germany areincreasing to meet the new energy scenarios. The sustainability of biogas industry requires proper disposal optionsfor digestate. Biogas digestates being rich in nutrients are beneficial to enhance agricultural productions. Contraryto the agronomical benefits of these organic amendments, their use can influence the mobility and bioavailabilityof soil contaminants due to nutrients competition and high organic matter content. So far, the impact of suchamendments on highly problematic contaminants like radionuclides is not truly accounted for.In the present study, sorption-desorption behavior of cesium and strontium was investigated in three soilsof different origin and texture. Two agricultural soils, a loamy sand and a silty soil, were amended with biocharand digestate in separate experiments, with field application rates of 25 Mg/ha and 34 Mg/ha, respectively. Forcomparison a third soil, a forest soil, was incubated without any amendment. The amendments were mixed intothe top 20 cm of the field soils, resulting in final concentrations of 8-9 g biochar/Kg soil and 11-12 g digestate/Kgsoil. The soils were incubated for about six months at room temperature. Sorption-desorption experiments wereperformed with CsCl and SrCl2 after pre-equilibrating the soils with CaCl2 solutions.The amendments with field application rates did not have a significant effect on the relevant soil parametersresponsible for the sorption behavior of the two radionuclides. Comparatively, the soil type lead to distinctivedifferences in sorption-desorption dynamics of the two radionuclides. Cesium showed a higher affinity for siltysoil followed by forest soil and lowest for sandy soil. Comparatively, strontium displayed a lower adsorption forall three soils, with a slightly higher adsorption in silty soil and almost similar sorption for both forest and sandysoils.We conclude that the applied organic amendments with field application rates will not deplete the FES(Frayed Edge Sites) responsible for cesium sorption in mineral soils. Furthermore, with the present applicationrates the increase in amount of organic matter is not high enough to significantly affect the strontium sorption inmineral soils. The desorption experiments showed that about 1/3 of the adsorbed cesium was extractable in siltysoil and almost half was extractable in forest and sandy soils. In case of strontium, about half was extractable inthe three soils. Similar to sorption, the effect of amendments was negligible compared to the soil type.
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000172404 7001_ $$0P:(DE-Juel1)129471$$aHofmann, Diana$$b1$$ufzj
000172404 7001_ $$0P:(DE-Juel1)129442$$aBurauel, Peter$$b2$$ufzj
000172404 7001_ $$0P:(DE-Juel1)129549$$aVereecken, Harry$$b3$$ufzj
000172404 7001_ $$0P:(DE-Juel1)129438$$aBerns, Anne E.$$b4$$ufzj
000172404 773__ $$0PERI:(DE-600)2144416-X$$p875$$tGeophysical research abstracts$$v16$$x1607-7962$$y2014
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000172404 9141_ $$y2014
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